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view src/g23m-gsm/sms/sms.h @ 81:0f7c6eab667b
rm src/ui/bmi/mmiCall.c.bak
This file was junk from the initial LoCosto import back in Magnetite.
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Mon, 26 Oct 2020 05:29:36 +0000 |
parents | fa8dc04885d8 |
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/* +----------------------------------------------------------------------------- | Project : GSM-PS (8410) | Modul : SMS +----------------------------------------------------------------------------- | 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 | Short Message Service +----------------------------------------------------------------------------- */ #ifndef SMS_H #define SMS_H #include <stdio.h> #ifdef TI_PS_HCOMM_CHANGE #include "cl_hComm_handle.h" #endif #ifdef TI_GSP_STR2IND_S2I_STRING typedef unsigned int T_S2I_STRING; #else typedef char * T_S2I_STRING; #define S2I_STRING(x) (x) #endif #ifdef TI_PS_OP_VSI_NO_CALL_ID #define TIMER_START(C,I,T) vsi_t_start_nc(I,T) #define TIMER_PSTART(C,I,T,R) vsi_t_pstart_nc(I,T,R) #define TIMER_STOP(C,I) vsi_t_stop_nc(I) #define TIMER_STATUS(C,I,T) vsi_t_status_nc(I,T) #define SUSPEND_SELF(C,T) vsi_t_sleep_nc(T) #define SYSTEM_TIME(C,T) vsi_t_time_nc(T) #else /* TI_PS_OP_VSI_NO_CALL_ID */ #define TIMER_START(C,I,T) vsi_t_start(C,I,T) #define TIMER_PSTART(C,I,T,R) vsi_t_pstart(C,I,T,R) #define TIMER_STOP(C,I) vsi_t_stop(C,I) #define TIMER_STATUS(C,I,T) vsi_t_status(C,I,T) #define SUSPEND_SELF(C,T) vsi_t_sleep(C,T) #define SYSTEM_TIME(C,T) vsi_t_time(C,T) #endif /* TI_PS_OP_VSI_NO_CALL_ID */ /* * Definition whether a shared CCD buffer shall be used */ /* #undef SHARED_CCD_BUF */ #ifndef _TARGET_ #define FF_CPHS /* This flag is only required for SIMULATION defined in .xml file, to remove the redefinition warning put under comment */ #endif /* _TARGET_ */ #define FF_SMS_23430 #if defined(FF_SMS_23430) #define FF_SMS_NW_RCG_SIM #endif /*==== MACROS =====================================================*/ #if FALSE #define SMS_SDU_COPY(_d_,_s_,_t_) memcpy(_d_,_s_,\ (offsetof(T_##_t_,sdu)+offsetof(T_sdu,buf)+\ BYTELEN(D_SDU_OFF(_s_)+D_SDU_LEN(_s_)))) #else #define SMS_SDU_COPY(_d_,_s_,_t_) memcpy(&(_d_)->sdu,&(_s_)->sdu,\ offsetof(T_sdu,buf)+\ BYTELEN(D_SDU_OFF(_s_)+D_SDU_LEN(_s_))) #endif #define GET_SMS_INSTANCE(ti) csf_get_sms_instance(ti) #define GET_NEW_SMS_INSTANCE(ti) csf_get_new_sms_instance(ti) #define FREE_SMS_INSTANCE(ti) csf_free_sms_instance(ti) #define GET_MO_INSTANCE(_sd_) ((_sd_)->inst = INST_MO) #define GET_MT_INSTANCE(_sd_) ((_sd_)->inst = INST_MT) /* * 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 #define CMMS_ACTIVE ((sms_data->cmms_mode EQ CMMS_MODE_ONE) \ OR (sms_data->cmms_mode EQ CMMS_MODE_TWO)) /*==== CONSTANTS ==================================================*/ #define DISPLAY 0 #define IGNORE 0xFE // return RP-ACK if handled unsuccessfully #define NOTHING 0xFF // return RP-ERROR if handled unsuccessfully #define MAX_SMS_CALLS 2 #define INST_MO 0 #define INST_MT 1 #define SMS_INST sms_data->data[sms_data->inst] #define ENTITY_DATA sms_data /* * Recognition of certain networks (SIM opearators) */ #define NW_SIM_NONE 0 /* no special network given */ #define NW_SIM_23430 1 /* SIM provided by operator 234-30 */ /* * Dynamic Configuration Numbers */ enum { SMS_CONF_EVENT_TIMER_SET = 1, SMS_CONF_EVENT_TIMER_RESET = 2, SMS_CONF_EVENT_TIMER_SPEED_UP = 3, SMS_CONF_EVENT_TIMER_SLOW_DOWN = 4, SMS_CONF_EVENT_TIMER_SUPPRESS = 5, SMS_CONF_EVENT_PAUSE = 6, SMS_CONF_EVENT_RESUME = 7, SMS_CONF_EVENT_END, SMS_CONF_EVENT_MAX = (SMS_CONF_EVENT_END - 1) }; typedef UBYTE SMS_CONF_EVENT_ENUM_TYPE; /* * Timer definitions, MAX_SMS_TIMER * * Description : The constants defines the timers and the number of timers * available in the timer pool. * Note : One CP and one RL timer per instance. */ #define TC1M 0 #define TR1M 1 #define TR2M 2 #define TRAM 3 #define TLCT 4 /* concatenation timer */ #define TMMS 5 /* CMMS Timer */ #define MAX_SMS_TIMER 6 /* * Protocoldiscriminator SMS */ #define ENCODE_OFFSET 32 #define BSIZE_TI_PD 8 /* * Protocoldiscriminator SMS */ #define PD_SMS 9 /* * Max size of SMS-message */ #define MAX_SMS_MESSAGE_SIZE (MAX_BITSTREAM_LEN_SMS>>3) /* * Max size of TP user data */ #define MAX_CHARACTERS_TPUD 141 /* * Max size of sim-sms-record */ #define SIM_LENGTH_SMS_RECORD 176 /* * access values */ #define ACCESS_EMPTY 0 /* * length of U_CP_DATA */ #define LEN_U_CP_DATA (252*8) /* * Max length of D_CP_USER_DATA */ #define MAX_LEN_CP_USER_DATA 249 #define MIN_CP_LEN 3 #define MIN_CP_ACK_LEN 2 /* * constants for GSMS: active downlink */ #if defined (GPRS) #define SMS_DOWNLINK_NONE 0 /* no downlink assigned yet */ #define SMS_DOWNLINK_MMSMS 1 /* downlink is MM using SAP MMSMS */ #define SMS_DOWNLINK_LL_CHECK 2 /* downlink LL is being checked */ #define SMS_DOWNLINK_LL 3 /* downlink is LL, registered */ /* * constants for GSMS: LLC flow control */ #define SMS_LLC_UNKNOWN 0x00 #define SMS_LLC_AVAILABLE 0x01 #define SMS_LLC_BUSY 0x02 /* LLC is busy, no instance waiting */ #define SMS_LLC_BUSY_WAITING 0x03 /* LLC is busy and instance is waiting */ /* constants for GSMS: SMS entity flow control status towards LLC */ #define SMS_FLOW_UNKNOWN 0x00 #define SMS_FLOW_AVAILABLE 0x01 /* availability of SMS signalled to LLC */ #define SMS_FLOW_BUSY 0x02 /* SMS entity is busy */ /* cp type of acknowledgement to be sent */ #define SMS_CP_NONE 0x00 #define SMS_CP_ACK 0x01 #define SMS_CP_ERROR 0x02 #endif /* GPRS */ /* * a modified version of the S/GET_STATE macros for tracing SMS_INST states */ #ifdef NTRACE #define SMS_INST_SET_STATE(PROCESS,STATE) SMS_INST.state[PROCESS] = STATE #define SMS_INST_GET_STATE(PROCESS) SMS_INST.state[PROCESS] #else #define SMS_INST_SET_STATE(PROCESS,STATE)\ { vsi_o_strace (VSI_CALLER\ PROCESS_NAME_SMS_INST[PROCESS],\ PROCESS##_NAME [ SMS_INST.state[PROCESS] ],\ PROCESS##_NAME [ STATE ]);\ SMS_INST.state[PROCESS] = (STATE); } #define SMS_INST_GET_STATE(PROCESS)\ vsi_o_strace (VSI_CALLER\ PROCESS_NAME_SMS_INST[PROCESS],\ PROCESS##_NAME [ SMS_INST.state[PROCESS] ],\ NULL ),\ SMS_INST.state[PROCESS] #endif /* else, #ifdef NTRACE */ /* * CP States */ #define CP_IDLE 0 /* 3gpp, MO+MT */ #define CP_MM_CONNECTION_PENDING 1 /* 3gpp, MO */ #define CP_WAIT_FOR_ACK 2 /* 3gpp, MO+MT */ #define CP_MM_CONNECTION_ESTABLISHED 3 /* 3gpp, MO+MT */ #if defined (GPRS) /* * CP States for GSMS */ #define CP_GSMS_IDLE 4 /* 3gpp */ #define CP_GSMS_MO_WAIT_FOR_CP_ACK 5 /* 3gpp */ #define CP_GSMS_MT_WAIT_FOR_CP_ACK 6 /* 3gpp */ #define CP_GSMS_MO_WAIT_FOR_CP_DATA 7 /* 3gpp */ #define CP_GSMS_MT_WAIT_FOR_RP_ACK 8 /* 3gpp */ #endif /* GPRS */ #if defined (GPRS) EXTERN const char * const STATE_CP_NAME[]; #define STATE_CP_NAME_INIT \ "CP_IDLE", \ "CP_MM_CONNECTION_PENDING", \ "CP_WAIT_FOR_ACK", \ "CP_MM_CONNECTION_ESTABLISHED", \ "CP_GSMS_IDLE", \ "CP_GSMS_MO_WAIT_FOR_CP_ACK", \ "CP_GSMS_MT_WAIT_FOR_CP_ACK", \ "CP_GSMS_MO_WAIT_FOR_CP_DATA", \ "CP_GSMS_MT_WAIT_FOR_RP_ACK" #else EXTERN const char * const STATE_CP_NAME[]; #define STATE_CP_NAME_INIT \ "CP_IDLE", \ "CP_MM_CONNECTION_PENDING", \ "CP_WAIT_FOR_ACK", \ "CP_MM_CONNECTION_ESTABLISHED" #endif /* * RL States */ #define RL_IDLE 0 /* 3gpp */ #define RL_WAIT_FOR_ACK 1 /* 3gpp */ #define RL_WAIT_FOR_SMMA_ACK 2 /* TI */ #define RL_WAIT_FOR_SEND_ACK 3 /* 3gpp */ #define RL_WAIT_FOR_RETRANS_TIMER 4 /* 3gpp */ #define RL_ESTABLISH 5 /* TI */ #define RL_ESTABLISHED 6 /* TI */ #define RL_WAIT_FOR_SEND_ERROR 7 /* TI */ EXTERN const char * const STATE_RL_NAME[]; #define STATE_RL_NAME_INIT \ "RL_IDLE", \ "RL_WAIT_FOR_ACK", \ "RL_WAIT_FOR_SMMA_ACK", \ "RL_WAIT_FOR_SEND_ACK", \ "RL_WAIT_FOR_RETRANS_TIMER", \ "RL_ESTABLISH", \ "RL_ESTABLISHED", \ "RL_WAIT_FOR_SEND_ERROR" /* * TL States */ #define TL_IDLE 0 #define TL_SEND 1 #define TL_COMMAND 2 #define TL_RECEIVE 3 #define TL_OTHER 4 #define TL_ESTABLISH 5 #define TL_SEND_CONTD 6 EXTERN const char * const STATE_TL_NAME[]; #define STATE_TL_NAME_INIT \ "TL_IDLE", \ "TL_SEND", \ "TL_COMMAND", \ "TL_RECEIVE", \ "TL_OTHER", \ "TL_ESTABLISH", \ "TL_SEND_CONTD" /* * SMS manages 3 (MAX_STATE_SMS_INST) states per SMS_INST: CP, RL, TL */ #define STATE_CP 0 #define STATE_RL 1 #define STATE_TL 2 #define MAX_STATE_SMS_INST 3 EXTERN const char * const PROCESS_NAME_SMS_INST[]; #define PROCESS_NAME_SMS_INST_INIT \ "STATE_CP" , \ "STATE_RL" , \ "STATE_TL" /* * A definition of the states of SMS_INST is provided in SMS_PEI.C */ #if defined(SMS_PEI_C) && ! defined(NTRACE) GLOBAL const char * const STATE_CP_NAME[] = { STATE_CP_NAME_INIT }; GLOBAL const char * const STATE_RL_NAME[] = { STATE_RL_NAME_INIT }; GLOBAL const char * const STATE_TL_NAME[] = { STATE_TL_NAME_INIT }; GLOBAL const char * const PROCESS_NAME_SMS_INST[] = { PROCESS_NAME_SMS_INST_INIT }; #endif /* * MMI States */ #define MMI_IDLE 0 #define MMI_READ 1 #define MMI_WRITE 2 #define MMI_DELETE 3 #define MMI_FIND_FIRST 4 #define MMI_FIND_NEXT 5 #define MMI_REPLACE 6 #define MMI_STATE_UPDATE 7 #define MMI_READ_STATE_UPDATE 8 #define MMI_RESUME 9 /* N950 Memory Optimization - Implements Measure #39*/ EXTERN T_S2I_STRING const STATE_MMI_NAME[]; /* * NET States */ #define NET_IDLE 0 #define NET_WRITE 1 #define NET_READ 2 #define NET_23430_WRITE 3 #define NET_23430_DELETE 4 /* N950 Memory Optimization - Implements Measure #39*/ EXTERN T_S2I_STRING const STATE_NET_NAME[]; /* * EST States - substates for connection establishment */ enum { EST_IDLE = 0, /* no connection establishment */ EST_SEND = 1, /* conn establishment for send */ EST_RTX = 2, /* conn est for retransmission */ EST_CMD = 3, /* conn est for command */ EST_SMMA = 4 /* conn est for smma message */ }; /* N950 Memory Optimization - Implements Measure #39*/ EXTERN T_S2I_STRING const STATE_EST_NAME[]; /* * SMS manages 3 (MAX_STATE) states: MMI, NET, EST */ #ifdef OPTION_MULTITHREAD #define PROCESS_NAME _ENTITY_PREFIXED(PROCESS_NAME) #endif #define STATE_MMI 0 #define STATE_NET 1 #define STATE_EST 2 #define MAX_STATE 3 /* N950 Memory Optimization - Implements Measure #39*/ EXTERN T_S2I_STRING const PROCESS_NAME[]; /* * A definition of the states is provided in SMS_PEI.C */ #if defined(SMS_PEI_C) && ! defined(NTRACE) /* N950 Memory Optimization - Implements Measure #39*/ GLOBAL T_S2I_STRING const STATE_MMI_NAME[] = { S2I_STRING("MMI_IDLE"), S2I_STRING("MMI_READ"), S2I_STRING("MMI_WRITE"), S2I_STRING("MMI_DELETE"), S2I_STRING("MMI_FIND_FIRST"), S2I_STRING("MMI_FIND_NEXT"), S2I_STRING("MMI_REPLACE"), S2I_STRING("MMI_STATE_UPDATE"), S2I_STRING("MMI_READ_STATE_UPDATE"), S2I_STRING("MMI_RESUME") }; #ifndef FF_SMS_23430 GLOBAL T_S2I_STRING const STATE_NET_NAME[] = { S2I_STRING("NET_IDLE"), S2I_STRING("NET_WRITE"), S2I_STRING("NET_READ") }; #else GLOBAL T_S2I_STRING const STATE_NET_NAME[] = { S2I_STRING("NET_IDLE"), S2I_STRING("NET_WRITE"), S2I_STRING("NET_READ"), S2I_STRING("NET_23430_WRITE"), S2I_STRING("NET_23430_DELETE") }; #endif /* else, #ifndef FF_SMS_23430 */ GLOBAL T_S2I_STRING const STATE_EST_NAME[] = { S2I_STRING("EST_IDLE"), S2I_STRING("EST_SEND"), S2I_STRING("EST_RTX"), S2I_STRING("EST_CMD"), S2I_STRING("EST_SMMA") }; GLOBAL T_S2I_STRING const PROCESS_NAME[] = { S2I_STRING("MMI"), S2I_STRING("NET"), S2I_STRING("EST") }; #endif #define ACCESS_BY_MMI 0x01 #define ACCESS_BY_NET 0x02 #define ACCESS_BY_EST 0x03 #define SIM_SMS_FREE (SMS_RECORD_FREE) #define SIM_SMS_MT_READ (SMS_RECORD_REC_READ) #define SIM_SMS_MT_TO_BE_READ (SMS_RECORD_REC_UNREAD) #define SIM_SMS_MO_SENT (SMS_RECORD_STO_SENT) #define SIM_SMS_MO_TO_BE_SEND (SMS_RECORD_STO_UNSENT) #define SIM_SMS_PENDING 0xFF /* new entry, not yet confirmed */ #define SMS_MAX_SIM_ACCESS 2 /*==== TYPES ======================================================*/ /* * IE Header Structure */ typedef struct { UBYTE iei; /* Information Element Identifier */ UBYTE ie_length; /* Length of Information Element */ } T_SMS_PDU_IE_HDR; /* * Conactenation header structure for 8 bit reference number */ typedef struct { UBYTE ref_nr; /* Reference Number */ UBYTE max_nr; /* Maximum number of short messages in the concatenated short message */ UBYTE seq_nr; /* Sequence number of the current short message */ } T_SMS_PDU_CONCAT_8BIT_HDR; /* * Conactenation header structure for 16 bit reference number */ typedef struct { USHORT ref_nr; /* Reference Number */ UBYTE max_nr; /* Maximum Sequence Number */ UBYTE seq_nr; /* Sequence Number */ } T_SMS_PDU_CONCAT_16BIT_HDR; /* * Conactenation header common structure */ typedef struct { USHORT ref_nr; /* Reference Number */ UBYTE max_nr; /* Maximum Sequence Number */ UBYTE seq_nr; /* Sequence Number */ } T_SMS_CONCAT_HDR; typedef struct { UBYTE t_mode; ULONG t_val; } T_TIMER_CONFIG; typedef struct { T_MMSMS_DATA_REQ *mo_msg; T_sms_sdu *sms_sdu; T_SIM_READ_RECORD_CNF *sim_read; UBYTE state[MAX_STATE_SMS_INST]; UBYTE tl_retx; /* Number of retransmissions on TL level */ #ifdef REL99 UBYTE failed_msg_retx; /* stores whether MO msg is sent thru retransmission request */ UBYTE failed_msg_rec_num;/* stores record number of last failed msg */ UBYTE failed_msg_mem; /* stores memory location of last failed msg */ #endif UBYTE retx; UBYTE retrans; UBYTE msg_ref; UBYTE ti; UBYTE tp_mr; UBYTE tp_mr_ret; /* TP-MR to be returned to higher layer */ /* cp_release_req() in state XXX_CP_WAIT_FOR_ACK received, * delay the release until the next CP state is entered. */ BOOL r_flag; /* CP_ACK pending: outstanding CP_ACK in outbound direction */ BOOL cp_ack_pending; UBYTE act_mem; UBYTE act_record; UBYTE act_status; UBYTE act_rdmode; UBYTE act_condx; UBYTE act_modifier; UBYTE pid; UBYTE dcs; #if defined (GPRS) UBYTE downlink; /* downlink of this instance: LLC or MMSMS */ UBYTE ack_type; /* type of message to be sent */ UBYTE cp_cause; /* cause value of CP-ERROR to be sent */ T_cp_user_data_dl *cp_user_data_dl; #endif BOOL t_running[MAX_SMS_TIMER]; } T_SMS_INST; typedef struct { UBYTE *status_field; /* status each record */ UBYTE *pid_field; /* PID flag of each record */ UBYTE mem_type; /* Type of used memory */ UBYTE max_record; /* number of available records */ UBYTE any_valid; /* at least one used record exists */ } T_BACKUP; typedef struct { /* SIM EF file identifier. path_info need not be stored as SMS is using * only non-conflicting files * Data-field identification */ USHORT datafield; /* record number, used only for linear fixed EFs */ UBYTE rec_num; /* flag indicating whether this entry is used */ UBYTE entry_used; } T_SMS_SIM_ACCESS_INFO; /* * CONCATENATION CONTROL */ typedef struct { BOOL concatenation; /* whether concatenated submits are currently processed */ BOOL release_pending; /* release outstanding */ BOOL end; /* end of concatenated stream */ BOOL pad; /* */ T_SMS_CONCAT_HDR nr; /* current number */ } T_SMS_CONCAT_CNTRL; /* * PAUSE RESUME CONTROL */ typedef struct { U8 delivery_state; /* pause or resume, SMS_DELIVER_STATUS_xxx */ BOOL mem_full_sent; /* whether mem capacity exceeded message was sent to HLR due to user pause request */ U16 save_cause; /* safed cause value while sim updating */ } T_SMS_PR_CNTRL; typedef struct { T_SMS_INST data[MAX_SMS_CALLS]; T_rp_data_dl *rp_data_dl; /* points to income RL data */ /* * following is a hack: since we cannot pass values to timer we safe it here: */ UBYTE timer_ti; /* TI for running timer */ UBYTE mhc; /* message Handling compatibility */ UBYTE mt; UBYTE ds; UBYTE mem3; UBYTE inst; UBYTE ent_state; UBYTE state[MAX_STATE]; BOOL mem_cap_avail; /* as stated on SIM */ UBYTE access_fifo[2]; UBYTE sim_phase; /* value of EF(Phase) */ UBYTE use_mem_a; UBYTE use_mem_b; T_BACKUP me_backup; T_BACKUP sim_backup; /* In the ME status field a backup of the SMS status is stored, * the ME PID field is a bitarray which stores whether a given * SMS is of the replacement type or not. * For asynchronous memory those fields are mandatory, for * synchronous memory the backup is optional. */ /* UBYTE me_status_field [MAX_RECORD_ME]; */ /* UBYTE me_pid_field [(MAX_RECORD_ME+7)/8]; */ UBYTE sim_status_field [MAX_RECORD_SIM]; UBYTE sim_pid_field[(MAX_RECORD_SIM+7)/8]; /* SMS entity has finished reading SMS entries from the SIM. */ BOOL init_done; /* SMS entries changed by SAT, not begun reading records from the SIM. */ BOOL sim_mem_update; /* concatenation control field */ T_SMS_CONCAT_CNTRL concat_cntrl; /* pause resume control field */ T_SMS_PR_CNTRL pr_cntrl; UBYTE nw_spec; #ifdef FF_CPHS UBYTE cphs_sim; /* CPHS SIM recognized */ #endif #ifdef SIM_TOOLKIT UBYTE download_sms; T_SIM_FILE_UPDATE_IND *file_update_ind; /* MMI state backup */ UBYTE stored_mmi_state; /* Backup the read_cnf primitive */ T_SIM_READ_RECORD_CNF *stored_read_cnf; #endif /* #ifdef SIM_TOOLKIT */ #if defined (GPRS) UBYTE mo_dst_pref; /* preferred dest. (GPRS/CCT) for MO SM */ UBYTE llc_flow; /* LLC flow control */ UBYTE sms_flow; /* SMS entity flow control */ #endif /* To indicate that release is pending for the previous connection */ BOOL cmms_release_pending; UBYTE cmms_mode; T_TIME timer_values[MAX_SMS_TIMER]; /* Used to store information on the SIM Accesses that are currently happening. * The array is indexed by the req_id that was sent in SIM_XXX_REQ */ T_SMS_SIM_ACCESS_INFO sms_sim_access_info[SMS_MAX_SIM_ACCESS]; } T_SMS_DATA; /*==== MACROS =====================================================*/ #define DATA_INST(_sd_) ((_sd_)->data[(_sd_)->inst]) #define SMS_STATE(_sd_) (DATA_INST(_sd_).state) #define SMS_RETX(_sd_) (DATA_INST(_sd_).retx) #define SMS_RETRANS(_sd_) (DATA_INST(_sd_).retrans) #define SMS_CP_REF(_sd_) (DATA_INST(_sd_).ti) #define SMS_RP_REF(_sd_) (DATA_INST(_sd_).msg_ref) #define SMS_TP_REF(_sd_) (DATA_INST(_sd_).tp_mr) #define SMS_TP_REF_RET(_sd_) (DATA_INST(_sd_).tp_mr_ret) /* #define SMS_RP_FLAG(_sd_) (DATA_INST(_sd_).r_flag) */ /* Not used */ #define SMS_SEL_MEM(_sd_) (DATA_INST(_sd_).act_mem) #define SMS_SEL_REC(_sd_) (DATA_INST(_sd_).act_record) #define SMS_REC_STATUS(_sd_) (DATA_INST(_sd_).act_status) #define SMS_READ_MODE(_sd_) (DATA_INST(_sd_).act_rdmode) #define SMS_CONDX(_sd_) (DATA_INST(_sd_).act_condx) #define SMS_MODIFY(_sd_) (DATA_INST(_sd_).act_modifier) #define SMS_DATA_REQ(_sd_) (DATA_INST(_sd_).mo_msg) #define SMS_SDU(_sd_) (DATA_INST(_sd_).sms_sdu) #define SMS_SIM_READ(_sd_) (DATA_INST(_sd_).sim_read) #define SMS_RP_RCVD(_sd_) ((*_sd_).rp_data_dl) #define SMS_PID(_sd_) (DATA_INST(_sd_).pid) #define SMS_DCS(_sd_) (DATA_INST(_sd_).dcs) #define SMS_ENT_STATE(_sd_) ((_sd_)->ent_state) #define SMS_SIM_PHASE(_sd_) ((_sd_)->sim_phase) #define SMS_SIM_STATE(_sd_) ((_sd_)->state) #define SMS_SIM_MEM_AVAIL(_sd_) ((_sd_)->mem_cap_avail) #define SMS_SIM_ACCESS(_sd_) ((_sd_)->access_fifo) #define SMS_SAT_DWNLD(_sd_) ((_sd_)->download_sms) #define SMS_MT_ACK_MODE(_sd_) ((_sd_)->mhc) #define SMS_MT_HANDLING(_sd_) ((_sd_)->mt) #define SMS_ST_REPORT(_sd_) ((_sd_)->ds) #define SMS_MEM_CFG(_sd_) ((_sd_)->mem3) #define SMS_USE_MEMA(_sd_) ((_sd_)->use_mem_a) #define SMS_USE_MEMB(_sd_) ((_sd_)->use_mem_b) #define SMS_SIM_PROP(_sd_) ((_sd_)->sim_backup) #define SMS_ME_PROP(_sd_) ((_sd_)->me_backup) #define SMS_NETWORK(_sd_) ((_sd_)->nw_spec) #ifdef FF_CPHS #define SMS_CPHS(_sd_) ((_sd_)->cphs_sim) #endif /* #ifdef FF_CPHS */ #if defined (GPRS) #define SMS_ROUTE(_sd_) (DATA_INST(_sd_).downlink) #define SMS_CP_ACK_TYPE(_sd_) (DATA_INST(_sd_).ack_type) #define SMS_CP_CAUSE(_sd_) (DATA_INST(_sd_).cp_cause) #define SMS_CP_UDL(_sd_) (DATA_INST(_sd_).cp_user_data_dl) #define SMS_ROUTE_PREF(_sd_) ((_sd_)->mo_dst_pref) #define SMS_LLC_FLOW(_sd_) ((_sd_)->llc_flow) #define SMS_SMS_FLOW(_sd_) ((_sd_)->sms_flow) #endif /*==== EXPORT =====================================================*/ /* * Prototypes Formatter */ EXTERN void for_init_sms (void); /* * Prototypes Transfer-Layer Primitives */ EXTERN void tl_init (void); EXTERN void tl_init_complete (void); EXTERN void tl_mnsms_configure_req (T_MNSMS_CONFIGURE_REQ *configure_req); #ifdef GPRS EXTERN void tl_mnsms_mo_serv_req (T_MNSMS_MO_SERV_REQ *mo_serv_req); #endif #ifdef SIM_PERS_OTA EXTERN void tl_mnsms_OTA_message_res (T_MNSMS_OTA_MESSAGE_RES *mnsms_OTA_message_res); #endif EXTERN void tl_mnsms_command_req (T_MNSMS_COMMAND_REQ *command_req); EXTERN void tl_mnsms_delete_req (T_MNSMS_DELETE_REQ *delete_req); EXTERN void tl_mnsms_read_req (T_MNSMS_READ_REQ *read_req); EXTERN void tl_mnsms_store_req (T_MNSMS_STORE_REQ *store_req); EXTERN void tl_mnsms_submit_req (T_MNSMS_SUBMIT_REQ *submit_req); EXTERN void tl_mnsms_pause_req (T_MNSMS_PAUSE_REQ *pause_req); EXTERN void tl_mnsms_resume_req (T_MNSMS_RESUME_REQ *resume_req); EXTERN void tl_mnsms_query_req (T_MNSMS_QUERY_REQ *query_req); EXTERN void tl_sim_sms_insert_ind (T_SIM_SMS_INSERT_IND *insert_ind); #if defined(SIM_TOOLKIT) OR defined(FF_CPHS) EXTERN void tl_sim_read_cnf (T_SIM_READ_CNF *read_cnf); #endif /* #if defined(SIM_TOOLKIT) OR defined(FF_CPHS) */ #ifdef SIM_TOOLKIT EXTERN void tl_sim_file_update_ind (T_SIM_FILE_UPDATE_IND *file_update_ind); #endif /* #ifdef SIM_TOOLKIT */ EXTERN void tl_sim_update_cnf (T_SIM_UPDATE_CNF *update_cnf); EXTERN void tl_sim_update_record_cnf (T_SIM_UPDATE_RECORD_CNF *update_cnf); EXTERN void tl_sim_read_record_cnf (T_SIM_READ_RECORD_CNF *read_cnf); EXTERN void tl_sim_remove_ind (T_SIM_REMOVE_IND *remove_ind); #if defined(SIM_TOOLKIT) AND defined(SAT_SMS_DNL_SUPPORT) EXTERN void tl_sim_toolkit_cnf (T_SIM_TOOLKIT_CNF *toolkit_cnf); #endif /* #if defined(SIM_TOOLKIT) AND defined(SAT_SMS_DNL_SUPPORT) */ EXTERN void tl_mnsms_error_ind (USHORT error); EXTERN void tl_mnsms_ack_res (T_MNSMS_ACK_RES *ack_res); EXTERN UBYTE tl_check_class_2 (UBYTE dcs); EXTERN BOOL tl_build_envelope_sms_download (T_rp_data_dl *rp_data_dl); EXTERN void tl_mnsms_read_cnf (UBYTE mem_type, UBYTE record, UBYTE *data, USHORT error); EXTERN void tl_mnsms_store_cnf (UBYTE mem_type, UBYTE record, USHORT error); EXTERN void tl_mnsms_submit_cnf (UBYTE mem_type, UBYTE record, UBYTE tp_mr, USHORT cause, T_sms_sdu *sms_sdu); EXTERN void tl_mnsms_command_cnf (UBYTE tp_mr, USHORT cause, T_sms_sdu *sms_sdu); EXTERN void tl_mnsms_delete_cnf (UBYTE mem_type, UBYTE record, UBYTE next_rec, USHORT error); EXTERN void tl_mnsms_resume_cnf (USHORT cause); EXTERN void tl_mnsms_query_cnf (U8 query_type, U8 status); /* * Prototypes Transfer-Layer Signals */ EXTERN void tl_establish_cnf (BOOL success); EXTERN void tl_establish_cnf_send (void); EXTERN void tl_establish_cnf_rtx (void); EXTERN void tl_establish_cnf_cmd (void); EXTERN void tl_data_ind (T_rp_data_dl *rp_data_dl); EXTERN void tl_report_ind (T_rp_user_data *rp_user_data, USHORT cause); EXTERN void tl_timeout_ind (USHORT timer_id); /* * Prototypes Transfer-Layer Functions */ EXTERN void tl_establish_connection (BOOL incr); EXTERN void tl_build_status_rep (T_rp_data_dl *rp_data_dl, T_MNSMS_STATUS_IND *status_ind); EXTERN BOOL tl_modify_submit (T_SIM_PDU *sim_pdu, UBYTE modify, T_sms_sdu *sms_sdu, UBYTE *rec_data); EXTERN BOOL tl_prepare_submit (T_SIM_PDU *sim_pdu, T_U_CP_DATA *cp_data); EXTERN void tl_build_deliver_rep (T_MNSMS_ACK_RES *ack_res, UBYTE msg_ref, T_MMSMS_DATA_REQ *data_req, T_U_CP_DATA *cp_data); EXTERN USHORT tl_convert_sim_error (USHORT sim_error); EXTERN BOOL tl_convert_mo_to_mem (T_MMSMS_DATA_REQ *data_req, UBYTE *data); EXTERN void tl_convert_mt_to_mem (T_rp_data_dl *rp_data_dl, UBYTE *data); EXTERN UBYTE tl_convert_sim_to_mmi (UBYTE mem_type, UBYTE record, UBYTE *data, UBYTE length); EXTERN void tl_message_ind_from_sim (UBYTE mem_type, UBYTE record, UBYTE max_record, UBYTE *data); EXTERN void tl_message_ind_from_net (UBYTE mem_type, UBYTE record, UBYTE max_record, T_rp_data_dl *rp_data_dl); EXTERN void tl_read_me_memory (USHORT index, UBYTE status); EXTERN void tl_read_sim_memory (USHORT index, UBYTE status); EXTERN void tl_sim_read_req (USHORT datafield, UBYTE length); EXTERN void tl_sim_read_record_req (UBYTE record); EXTERN void tl_sim_update_req (UBYTE record, UBYTE status, UBYTE *data); EXTERN void tl_sim_conv_update_req (UBYTE record, T_rp_data_dl *rp_data_dl); EXTERN void tl_handle_message (T_TP_DELIVER *sms_deliver); #ifdef FF_SMS_23430 EXTERN BOOL tl_handle_23430 (T_TP_DELIVER *sms_deliver); #endif /* #ifdef FF_SMS_23430 */ EXTERN void tl_build_sim_update_req (void); EXTERN UBYTE tl_read_access_fifo (void); EXTERN void tl_set_access_fifo (UBYTE access); EXTERN BOOL tl_sms_memo_exceeded (BOOL avail); EXTERN void tl_sms_memo_pause (void); EXTERN void tl_sms_memo_resume (void); EXTERN void tl_mnsms_report_ind (UBYTE ent_state); EXTERN void tl_read_sim_message (USHORT index); EXTERN void tl_find_first (UBYTE mem_type); EXTERN void tl_find_next (UBYTE mem_type, UBYTE index); EXTERN void tl_adjust_message_len (UBYTE tp_vt_mti, BUF_tpdu *tpdu); EXTERN void tl_get_pid_dcs (UBYTE status, T_sms_sdu *sms_sdu, UBYTE *pid, UBYTE *dcs); EXTERN BOOL tl_find_status_pid (UBYTE mem_type, UBYTE index, UBYTE *data, T_BACKUP *backup); EXTERN UBYTE tl_get_free_space (UBYTE mem_type); EXTERN void tl_store_pid (T_BACKUP *backup, unsigned index, UBYTE pid); EXTERN void tl_store_status (T_BACKUP *backup, unsigned index, UBYTE status); EXTERN UBYTE tl_get_status (T_BACKUP *backup, unsigned index); EXTERN int tl_check_mt_pid (T_BACKUP *backup, unsigned index, UBYTE pid); EXTERN UBYTE tl_check_status_value (UBYTE status); EXTERN int tl_search_record (T_BACKUP *backup, USHORT index, UBYTE status); EXTERN UBYTE tl_search_record_for_delete (T_BACKUP *backup, UBYTE index, UBYTE status); EXTERN BOOL tl_check_replace_entry (UBYTE *new_data, UBYTE *old_data); EXTERN void tl_replace_message (T_TP_DELIVER *sms_deliver); EXTERN void tl_sim_toolkit_confirm (T_SIM_TOOLKIT_CNF *toolkit_cnf); EXTERN void tl_cmms_start (void); EXTERN void tl_cmms_end (void); EXTERN void tl_mnsms_cmms_end_ind (void); #ifdef FF_SMS_NW_RCG_SIM EXTERN void tl_check_network_on_sim (UBYTE *data); #endif /* #ifdef FF_SMS_NW_RCG_SIM */ EXTERN void tl_pause (void); EXTERN void tl_resume (void); EXTERN void tl_query_deliver_status (void); EXTERN BOOL tl_concat_check (T_sms_sdu *sms_sdu); EXTERN void tl_concat_cntrl (T_SMS_CONCAT_HDR *concat_hdr); #ifdef REL99 EXTERN void tl_mnsms_retrans_req (T_MNSMS_RETRANS_REQ *mnsms_retrans_req); EXTERN void tl_mnsms_retrans_cnf (UBYTE mem_type, UBYTE record, UBYTE tp_mr, USHORT cause, T_sms_sdu *sms_sdu ); EXTERN void tl_mnsms_send_prog_ind (); #endif EXTERN BOOL tl_sms_reserve_req_id (UBYTE *acc_ix_ptr); /* * Prototypes Relay-Layer Primitives */ EXTERN void rl_init (void); /* * Prototypes Relay-Layer Signals */ EXTERN void rl_establish_req (UBYTE ti); EXTERN void rl_establish_cnf (BOOL success); EXTERN void rl_release_req (UBYTE ti); EXTERN void rl_data_ind (T_cp_user_data_dl *cp_user_data_dl); EXTERN BOOL rl_data_req (UBYTE msg_ref, T_U_CP_DATA *cp_data); EXTERN void rl_error_ind (USHORT cause); EXTERN void rl_report_req_ack (T_rp_user_data *rp_user_data); EXTERN void rl_report_req_error (USHORT cause, T_rp_user_data *rp_user_data); EXTERN BOOL rl_mem_avail_req (void); EXTERN void rl_start_tram_req (void); /* * Prototypes Relay-Layer Functions */ EXTERN void rl_build_rp_error (UBYTE msg_ref, USHORT error, T_U_CP_DATA *cp_data, T_rp_user_data *rp_user_data); EXTERN void rl_build_rp_smma (UBYTE msg_ref, T_U_CP_DATA *cp_data); EXTERN UBYTE rl_temp_failure (UBYTE cause); #ifdef GPRS EXTERN void rl_proceed (void); EXTERN void rl_build_rp_error_gprs (UBYTE ti, T_LL_UNITDATA_REQ *data_req, USHORT error, UBYTE msg_ref, T_U_CP_DATA *cp_data, T_stk_cmd *stk_cmd); #endif /* #ifdef GPRS */ /* * Prototypes Control-Protocol Primitives */ EXTERN void cp_init (void); EXTERN void cp_mmsms_error_ind (T_MMSMS_ERROR_IND *error_ind); EXTERN void cp_mmsms_establish_cnf (T_MMSMS_ESTABLISH_CNF *establish_cnf); EXTERN void cp_mmsms_release_ind (T_MMSMS_RELEASE_IND *release_ind); EXTERN void for_mmsms_establish_ind (T_MMSMS_ESTABLISH_IND *establish_ind); EXTERN void for_mmsms_data_ind (T_MMSMS_DATA_IND *data_ind); #if defined (GPRS) EXTERN void for_ll_unitdata_ind (T_LL_UNITDATA_IND *unitdata_ind); EXTERN void for_ll_unitready_ind (T_LL_UNITREADY_IND *unitready_ind); EXTERN void cp_gmmsms_reg_state_cnf (T_GMMSMS_REG_STATE_CNF *reg_state_res); #endif /* * Prototypes Control-Protocol Signals */ EXTERN void cp_establish_req (UBYTE ti); EXTERN void cp_abort_req (void); EXTERN void cp_data_ind_cp_ack (void); EXTERN void cp_data_ind_cp_data (T_D_CP_DATA *cp_data); EXTERN void cp_data_ind_cp_error (UBYTE errcs); EXTERN void cp_data_ind_cp_unknown (void); EXTERN void cp_data_req (T_U_CP_DATA *cp_data); EXTERN void cp_est_ind_cp_ack (void); EXTERN void cp_est_ind_cp_data (T_D_CP_DATA *cp_data); EXTERN void cp_est_ind_cp_error (UBYTE cp_error); EXTERN void cp_est_ind_cp_unknown (void); EXTERN void cp_release_req (UBYTE ti); #if defined (GPRS) EXTERN void cp_send_data_gsms (void); EXTERN void cp_data_req_gsms (T_MMSMS_DATA_REQ *rp_data); EXTERN void cp_error_req_gsms (UBYTE cause, BOOL free_ti); EXTERN void cp_send_getunitdata_req (void); #endif /* * Prototypes Control-Protocol Functions */ EXTERN void cp_add_pd_ti (UBYTE ti, T_sdu *sdu); EXTERN void cp_build_cp_ack (void); EXTERN void cp_build_cp_error (UBYTE error); EXTERN void cp_send_release_req (UBYTE ti); #if defined (GPRS) EXTERN void cp_init_ll_unitdata_req (T_LL_UNITDATA_REQ *unitdata_req); #endif /* * If all entities are linked into one module this definitions * prefixes all this functions with the enity name */ /* * Prototypes Timer */ EXTERN void sms_timer_start (USHORT id); EXTERN void sms_timer_stop (USHORT id); EXTERN BOOL sms_timer_check (USHORT id); /* * If all entities are linked into one module this definitions * prefixes all this functions with the enity name */ #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 /* #ifdef OPTION_MULTITHREAD */ EXTERN void tim_exec_timeout (USHORT index); EXTERN void tim_start_timer (USHORT index, T_TIME value); EXTERN void tim_stop_timer (USHORT index); EXTERN void tim_tc1m (void); EXTERN void tim_tr1m (void); EXTERN void tim_tr2m (void); EXTERN void tim_tram (void); EXTERN void tim_tlct (void); EXTERN void tim_tmms (void); /* * SMS primitives Engineering Mode * Bitmask for the event tracing */ /* * Prototypes Customer Specific Functions */ EXTERN UBYTE csf_get_new_mo_ti(); EXTERN T_SMS_DATA *csf_get_sms_instance (UBYTE ti); EXTERN T_SMS_DATA *csf_get_new_sms_instance (UBYTE ti); EXTERN void csf_free_sms_instance (UBYTE ti); #define TIMERSTART(i,v) tim_start_timer (i, v); #define TIMERSTOP(i) tim_stop_timer (i); /* * If all entities are linked into one module this definitions * prefixes the global data with the enity name */ #ifdef OPTION_MULTITHREAD #ifdef TI_PS_HCOMM_CHANGE #else #define hCommMMI _ENTITY_PREFIXED(hCommMMI) #define hCommMM _ENTITY_PREFIXED(hCommMM) #define hCommSIM _ENTITY_PREFIXED(hCommSIM) #endif /* TI_PS_HCOMM_CHANGE */ #ifdef GPRS #define hCommLLC _ENTITY_PREFIXED(hCommLLC) #define hCommGMM _ENTITY_PREFIXED(hCommGMM) #endif /* GPRS */ #define _decodedMsg _ENTITY_PREFIXED(_decodedMsg) #define _CCDbuf _ENTITY_PREFIXED(_CCDBuf) #define data_base _ENTITY_PREFIXED(data_base) #endif /* #ifdef OPTION_MULTITHREAD */ #ifdef TI_PS_HCOMM_CHANGE #else EXTERN T_HANDLE hCommMMI; /* MMI Communication */ EXTERN T_HANDLE hCommSIM; /* SIM Communication */ EXTERN T_HANDLE hCommMM; /* MM Communication */ #endif /* TI_PS_HCOMM_CHANGE */ #ifdef GPRS EXTERN T_HANDLE hCommLLC; /* LLC Communication */ EXTERN T_HANDLE hCommGMM; /* GMM Communication */ #endif /* GPRS */ EXTERN T_HANDLE sms_handle; #ifndef SHARED_CCD_BUF #define CCD_START #define CCD_END EXTERN UBYTE _decodedMsg []; #else EXTERN UBYTE * _decodedMsg; EXTERN UBYTE _CCDbuf; #define CCD_START if(!_CCDbuf){_decodedMsg = ccd_begin();_CCDbuf=TRUE;} #define CCD_END if(_CCDbuf){ccd_end();_CCDbuf=FALSE;} #endif /* else, #ifndef SHARED_CCD_BUF */ EXTERN T_SMS_DATA data_base; #define GET_INSTANCE(p) &data_base #define GET_INSTANCE_DATA register T_SMS_DATA *sms_data= &data_base #if !defined(NTRACE) && !defined(NCONFIG) /* * 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 /* #ifdef OPTION_MULTITHREAD */ EXTERN const KW_DATA partab[]; #endif /* #if !defined(NTRACE) && !defined(NCONFIG) */ /* Implements Measure#32: Row 84, 96, 87, 89, 95, 97, 104, 109 & 113 */ EXTERN const char * const ef_sms_id; #define SMS_INST_TC1M ((USHORT)(TC1M*MAX_SMS_CALLS+sms_data->inst)) #define SMS_INST_TR1M ((USHORT)(TR1M*MAX_SMS_CALLS+sms_data->inst)) #define SMS_INST_TR2M ((USHORT)(TR2M*MAX_SMS_CALLS+sms_data->inst)) #define SMS_INST_TRAM ((USHORT)(TRAM*MAX_SMS_CALLS+sms_data->inst)) #define SMS_INST_TLCT ((USHORT)(TLCT*MAX_SMS_CALLS+sms_data->inst)) #endif /* #ifndef SMS_H */