FreeCalypso > hg > fc-tourmaline
view src/g23m-gsm/sms/sms_tlp.c @ 274:fa22012c4a39
CST: remove AT%Nxxxx old AEC control
This crude method of enabling and configuring AEC is not compatible
with L1_NEW_AEC, and even for the old AEC it did not support every
possible combination. It is time for this hack to go. The new and
proper way of enabling and configuring AEC is via RiViera Audio Service
audio mode facility, either audio mode files or full access write,
most directly accessible via fc-tmsh auw 12 for free experimentation.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Thu, 29 Jul 2021 18:57:36 +0000 |
| parents | fa8dc04885d8 |
| children |
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/* +----------------------------------------------------------------------------- | Project : GSM-F&D (8411) | Modul : SMS_TLP +----------------------------------------------------------------------------- | Copyright 2002 Texas Instruments Berlin, AG | All rights reserved. | | This file is confidential and a trade secret of Texas | Instruments Berlin, AG | The receipt of or possession of this file does not convey | any rights to reproduce or disclose its contents or to | manufacture, use, or sell anything it may describe, in | whole, or in part, without the specific written consent of | Texas Instruments Berlin, AG. +----------------------------------------------------------------------------- | Purpose : This Modul defines the functions for the transfer layer | capability of the module Short Message Service. +----------------------------------------------------------------------------- */ #ifndef SMS_TLP_C #define SMS_TLP_C #define ENTITY_SMS /*==== INCLUDES ===================================================*/ #include <string.h> #include <stdlib.h> #include <stddef.h> #include "typedefs.h" #include "pcm.h" #include "vsi.h" #include "custom.h" #include "gsm.h" #include "message.h" #include "ccdapi.h" #include "prim.h" #include "cus_sms.h" #include "cnf_sms.h" #include "mon_sms.h" #include "pei.h" #include "tok.h" #include "sms.h" #include "gdi.h" #include "sms_em.h" /*==== EXPORT =====================================================*/ /*==== PRIVAT =====================================================*/ /*==== VARIABLES ==================================================*/ /*==== TEST =======================================================*/ /*==== FUNCTIONS ==================================================*/ /* Implements Measure# 7 */ /* +----------------------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_sim_rd_record_update_state | +----------------------------------------------------------------------------------+ PURPOSE : This routine process primitive SIM_READ_RECORD_CONF for the cases MMI_FIND_FIRST and MMI_FIND_NEXT */ LOCAL BOOL tl_sim_rd_record_update_state(T_SIM_READ_RECORD_CNF *read_cnf) { GET_INSTANCE_DATA; TRACE_FUNCTION("tl_sim_rd_record_update_state()"); if ((GET_STATE(STATE_MMI) EQ MMI_FIND_FIRST AND sms_data->sim_mem_update) OR (GET_STATE(STATE_MMI) EQ MMI_STATE_UPDATE AND sms_data->sim_mem_update)) { /* * Either the SMS record has been changed or both the SMS record * and the SMS status have been changed */ PFREE (read_cnf); sms_data->stored_mmi_state = MMI_IDLE; return TRUE; /* return; */ } else if (GET_STATE(STATE_MMI) EQ MMI_STATE_UPDATE) { /* * Only SMS record's status has been changed. */ sms_data->stored_read_cnf = read_cnf; return TRUE; /* return; */ } sms_data->stored_mmi_state = MMI_IDLE; return FALSE; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_CP | | STATE : code ROUTINE : tl_init | +--------------------------------------------------------------------+ PURPOSE : Initialize the transfer layer. */ GLOBAL void tl_init () { GET_INSTANCE_DATA; TRACE_FUNCTION ("tl_init()"); SMS_ENT_STATE(sms_data) = SMS_STATE_NOT_AVAILABLE; memset (sms_data->data, 0, sizeof (sms_data->data)); /* This is only for simulation tests*/ sms_data->data[INST_MO].ti = 6; SMS_SIM_MEM_AVAIL(sms_data) = TRUE; SMS_MEM_CFG(sms_data) = MEM_SM; SMS_MT_HANDLING(sms_data) = MT_DEF; SMS_ST_REPORT(sms_data) = DS0; SMS_SIM_PHASE(sms_data) = PHASE_2_SIM; SMS_MT_ACK_MODE(sms_data) = SMS_MHC_DEF; SMS_NETWORK(sms_data) = NW_SIM_NONE; sms_data->init_done = FALSE; SMS_SIM_PROP(sms_data).status_field = sms_data->sim_status_field; SMS_SIM_PROP(sms_data).pid_field = sms_data->sim_pid_field; SMS_SIM_PROP(sms_data).mem_type = MEM_SM; SMS_SIM_PROP(sms_data).max_record = 0; SMS_SIM_PROP(sms_data).any_valid = FALSE; /* SMS_ME_PROP(sms_data).status_and_pid = sms_data->me_status_field; */ /* SMS_ME_PROP(sms_data).status_and_pid = sms_data->me_pid_field; */ SMS_ME_PROP(sms_data).status_field = NULL; SMS_ME_PROP(sms_data).pid_field = NULL; SMS_ME_PROP(sms_data).mem_type = MEM_ME; SMS_ME_PROP(sms_data).max_record = 0; SMS_ME_PROP(sms_data).any_valid = FALSE; sms_data->sim_mem_update = FALSE; #ifdef SIM_TOOLKIT sms_data->download_sms = FALSE; sms_data->file_update_ind = NULL; sms_data->stored_mmi_state = MMI_IDLE; sms_data->stored_read_cnf = NULL; #endif SMS_RP_RCVD(sms_data) = NULL; #ifdef FF_CPHS SMS_CPHS(sms_data) = FALSE; #endif #ifdef GPRS SMS_ROUTE_PREF(sms_data) = GPRS_SMS_CCT_ONLY; #endif sms_data->pr_cntrl.delivery_state = SMS_DELIVER_STATUS_RESUME; sms_data->concat_cntrl.concatenation = FALSE; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_sim_abort_to_mmi | +--------------------------------------------------------------------+ PURPOSE : Abort a SIM related SMS command to MMI. */ LOCAL void tl_sim_abort_to_mmi (USHORT error) { GET_INSTANCE_DATA; switch (GET_STATE (STATE_MMI)) { case MMI_REPLACE: #ifdef REL99 if(SMS_INST.failed_msg_retx EQ FALSE) { #endif tl_mnsms_submit_cnf (SMS_INST.act_mem, SMS_INST.act_record, SMS_INST.tp_mr_ret, error, NULL); #ifdef REL99 } else { tl_mnsms_retrans_cnf (SMS_INST.act_mem, SMS_INST.act_record, SMS_INST.tp_mr_ret, error, NULL); } #endif break; case MMI_READ: tl_mnsms_read_cnf (SMS_INST.act_mem, SMS_INST.act_record, NULL, error); break; case MMI_WRITE: tl_mnsms_store_cnf (SMS_INST.act_mem, SMS_INST.act_record, error); break; case MMI_DELETE: tl_mnsms_delete_cnf (SMS_INST.act_mem, SMS_INST.act_record, 0, error); break; default: break; } if (sms_data->access_fifo[1] EQ ACCESS_BY_MMI) { sms_data->access_fifo[1] = ACCESS_EMPTY; } else if (sms_data->access_fifo[0] EQ ACCESS_BY_MMI) { sms_data->access_fifo[0] = ACCESS_EMPTY; } SET_STATE (STATE_MMI, MMI_IDLE); #ifdef SIM_TOOLKIT if (sms_data->file_update_ind NEQ NULL) { T_SIM_FILE_UPDATE_IND *file_update_ind = sms_data->file_update_ind; sms_data->file_update_ind = NULL; tl_sim_file_update_ind (file_update_ind); } if (sms_data->stored_read_cnf NEQ NULL) { /* * Resets the stored MMI state & read_cnf primitive */ sms_data->stored_mmi_state = MMI_IDLE; PFREE (sms_data->stored_read_cnf); sms_data->stored_read_cnf = NULL; } #endif } /*---- PRIMITIVES --------------------------------------------------*/ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_mnsms_configure_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MNSMS_CONFIGURE_REQ. */ GLOBAL void tl_mnsms_configure_req (T_MNSMS_CONFIGURE_REQ *configure_req) { register T_SMS_DATA *sms_data = GET_SMS_INSTANCE (0); TRACE_FUNCTION ("tl_mnsms_configure_req()"); if (sms_data) { sms_data->mem3 = configure_req->pref_mem_3; sms_data->mt = (configure_req->mt < MT_DEF)? configure_req->mt: MT_DEF; sms_data->ds = configure_req->ds; sms_data->mhc = configure_req->mhc; /* * If CMMS mode is enabled, store the current value of cmms_mode in sms_data */ if(configure_req->v_cmms_mode) { sms_data->cmms_mode = configure_req->cmms_mode; } /* * For CMMS if user has set the value for TMMS timer then store that * value in sms_data */ if(configure_req->v_tmms_val) { sms_data->timer_values[TMMS] = configure_req->tmms_val; } } PFREE (configure_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_mnsms_mo_serv_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MNSMS_MO_SERV_REQ. (set preferred destination (GPRS/GSM) for MO SM) */ #if defined GPRS GLOBAL void tl_mnsms_mo_serv_req (T_MNSMS_MO_SERV_REQ *mo_serv_req) { GET_INSTANCE_DATA; TRACE_FUNCTION ("tl_mnsms_mo_serv_req()"); /* * send MNSMS_MO_SERV_CNF with configured pref. dst */ { PALLOC (mo_serv_cnf, MNSMS_MO_SERV_CNF); memset (mo_serv_cnf, 0, sizeof (T_MNSMS_MO_SERV_CNF)); if (sms_data) /*lint !e774 always True*/ { sms_data->mo_dst_pref = mo_serv_req->mo_sms_serv; mo_serv_cnf->mo_sms_serv = sms_data->mo_dst_pref; TRACE_EVENT_P1("MO Path: %d", sms_data->mo_dst_pref); } else { mo_serv_cnf->mo_sms_serv = NOT_PRESENT_8BIT; } PSENDX (MMI, mo_serv_cnf); } PFREE (mo_serv_req); } #endif /* GPRS */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_mnsms_command_cnf | +--------------------------------------------------------------------+ PURPOSE : Generate a response to the primitive MNSMS_COMMAND_REQ. */ GLOBAL void tl_mnsms_command_cnf (UBYTE tp_mr, USHORT cause, T_sms_sdu *sms_sdu) { PALLOC (command_cnf, MNSMS_COMMAND_CNF); command_cnf->tp_mr = tp_mr; command_cnf->cause = cause; if (sms_sdu NEQ NULL) memcpy (&command_cnf->sms_sdu, sms_sdu, sizeof (T_sms_sdu)); else memset (&command_cnf->sms_sdu, 0, sizeof (T_sms_sdu)); PSENDX (MMI, command_cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_mnsms_command_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MNSMS_COMMAND_REQ. */ GLOBAL void tl_mnsms_command_req (T_MNSMS_COMMAND_REQ *command_req) { register T_SMS_DATA *sms_data = GET_SMS_INSTANCE (0); TRACE_FUNCTION ("tl_mnsms_command_req()"); if (sms_data) { switch (SMS_INST_GET_STATE (STATE_TL)) { case TL_IDLE: if (sms_timer_check(TRAM)) { tl_mnsms_command_cnf (NOT_PRESENT_8BIT, SMS_CAUSE_ENTITY_BUSY, NULL); } else { #ifdef REL99 SMS_INST.failed_msg_retx = FALSE; if(command_req->auto_rep_flag EQ AUTO_REP_FLAG_ENABLED) { SMS_INST.tl_retx = 0; } else { /* Set to the max value so that retransmission will not be done */ SMS_INST.tl_retx = TL_MAX_RETANS; } #endif /* * save sdu */ if (SMS_SDU(sms_data) NEQ NULL) { MFREE (SMS_SDU(sms_data)); } MALLOC (SMS_SDU(sms_data), sizeof(T_sms_sdu)); memcpy (SMS_SDU(sms_data), &command_req->sms_sdu, sizeof(T_sms_sdu)); /* * TL state transition TL_ESTABLISH * EST state transition EST_CMD */ SMS_INST_SET_STATE (STATE_TL, TL_ESTABLISH); SET_STATE (STATE_EST, EST_CMD); /* * establish connection */ tl_establish_connection(TRUE); } break; default: tl_mnsms_command_cnf (NOT_PRESENT_8BIT, SMS_CAUSE_ENTITY_BUSY, NULL); } } else { tl_mnsms_command_cnf (NOT_PRESENT_8BIT, SMS_CAUSE_ENTITY_BUSY, NULL); } PFREE (command_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_mnsms_delete_cnf | +--------------------------------------------------------------------+ PURPOSE : Generate a response to the primitive MNSMS_DELETE_REQ. */ GLOBAL void tl_mnsms_delete_cnf (UBYTE mem_type, UBYTE record, UBYTE next_rec, USHORT error) { PALLOC (delete_cnf, MNSMS_DELETE_CNF); delete_cnf->mem_type = mem_type; delete_cnf->rec_num = record; delete_cnf->cause = error; delete_cnf->delete_rec_next = next_rec; SMS_EM_DELETE_SHORT_MESSAGE; PSENDX (MMI, delete_cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_mnsms_delete_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MNSMS_DELETE_REQ. */ GLOBAL void tl_mnsms_delete_req (T_MNSMS_DELETE_REQ *delete_req) { register T_SMS_DATA *sms_data = GET_SMS_INSTANCE(0); UBYTE rec_num; TRACE_FUNCTION ("tl_mnsms_delete_req()"); #ifdef REL99 /* Check if the last failed message is getting deleted */ if( ( delete_req->rec_num EQ SMS_INST.failed_msg_rec_num) AND ( delete_req->mem_type EQ SMS_INST.failed_msg_mem ) AND SMS_DATA_REQ(sms_data) NEQ NULL ) { PFREE (SMS_DATA_REQ(sms_data)); SMS_DATA_REQ(sms_data) = NULL; } #endif if (sms_data NEQ NULL) { switch (SMS_INST_GET_STATE (STATE_TL)) { case TL_IDLE: switch (delete_req->mem_type) { case MEM_ME: /* * Mobile Equipment Memory */ if(delete_req->delete_status NEQ CMGD_DEL_INDEX) { if(delete_req->rec_num EQ 0) { /* Status value is given. Find the first record satisfying this status value */ rec_num = tl_search_record_for_delete (&SMS_ME_PROP(sms_data), 1, delete_req->delete_status); if(rec_num EQ SMS_RECORD_NOT_EXIST) { tl_mnsms_delete_cnf (delete_req->mem_type, 0, 0, SIM_NO_ERROR); break; } } else { if(delete_req->rec_num > sms_data->me_backup.max_record) { tl_mnsms_delete_cnf (delete_req->mem_type, delete_req->rec_num, 0, (USHORT)((SMS_ME_PROP(sms_data).max_record EQ 0)? SMS_CAUSE_MEM_FAIL: SMS_CAUSE_INV_INDEX)); break; } else { /* Use the record number that ACI has given */ rec_num = delete_req->rec_num; } } } else { /* There should be a valid rec_num */ if(delete_req->rec_num EQ 0 || delete_req->rec_num > sms_data->me_backup.max_record) { tl_mnsms_delete_cnf (delete_req->mem_type, delete_req->rec_num, 0, (USHORT)((SMS_ME_PROP(sms_data).max_record EQ 0)? SMS_CAUSE_MEM_FAIL: SMS_CAUSE_INV_INDEX)); break; } else { rec_num = delete_req->rec_num; } } if (tl_get_status (&SMS_ME_PROP(sms_data), rec_num-1) & 1) { /* * entry is used */ UBYTE data[SIZE_EF_SMS]; UBYTE next_rec_num = 0; data[0] = 0; memset (&data[1], 0xFF, SIZE_EF_SMS-1); tl_store_status (&SMS_ME_PROP(sms_data), rec_num-1, SIM_SMS_FREE); /* Implements Measure#32: Row 95 */ pcm_WriteRecord ((UBYTE *)ef_sms_id, rec_num, SIZE_EF_SMS, data); TRACE_EVENT_P1 ("mem cap avail %d", sms_data->mem_cap_avail); if (!sms_data->mem_cap_avail) { SMS_SEL_MEM(sms_data) = delete_req->mem_type; SMS_SEL_REC(sms_data) = delete_req->rec_num; GET_MO_INSTANCE(sms_data); /* * TL state transition TL_ESTABLISH * EST state transition EST_SMMA * MMI state transition MMI_DELETE * */ SET_STATE (STATE_MMI, MMI_DELETE); SET_STATE (STATE_EST, EST_SMMA); SMS_INST_SET_STATE (STATE_TL, TL_ESTABLISH); /* * 1st shot */ SMS_INST.retrans = FALSE; /* * establish connection */ tl_establish_connection(FALSE); /* * wait for processing of RP-SMMA */ PFREE (delete_req); return; } if(delete_req->delete_status NEQ CMGD_DEL_INDEX) { /* Status value is given. Find the next record satisfying this status value */ next_rec_num = tl_search_record_for_delete (&SMS_ME_PROP(sms_data), rec_num, delete_req->delete_status); } tl_mnsms_delete_cnf (delete_req->mem_type, rec_num, next_rec_num, SIM_NO_ERROR); } else { tl_mnsms_delete_cnf (delete_req->mem_type, rec_num, 0, SMS_CAUSE_INV_INDEX); } break; case MEM_SM: /* * SIM memory */ if(delete_req->delete_status NEQ CMGD_DEL_INDEX) { if(delete_req->rec_num EQ 0) { /* Status value is given. Find the first record satisfying this status value */ rec_num = tl_search_record_for_delete (&SMS_SIM_PROP(sms_data), 1, delete_req->delete_status); if(rec_num EQ SMS_RECORD_NOT_EXIST) { tl_mnsms_delete_cnf (delete_req->mem_type, 0, 0, SIM_NO_ERROR); break; } } else { if(delete_req->rec_num > sms_data->sim_backup.max_record) { tl_mnsms_delete_cnf (delete_req->mem_type, delete_req->rec_num, 0, SMS_CAUSE_INV_INDEX); break; } else { /* Use the record number that he has given */ rec_num = delete_req->rec_num; } } } else { /* There should be a valid rec_num */ if(delete_req->rec_num EQ 0 || delete_req->rec_num > sms_data->sim_backup.max_record) { tl_mnsms_delete_cnf (delete_req->mem_type, delete_req->rec_num, 0, SMS_CAUSE_INV_INDEX); break; } else { rec_num = delete_req->rec_num; } } if (tl_get_status (&SMS_SIM_PROP(sms_data), rec_num-1) & 1) { /* * entry is used */ SMS_SEL_MEM(sms_data) = delete_req->mem_type; SMS_SEL_REC(sms_data) = rec_num; SMS_REC_STATUS(sms_data) = delete_req->delete_status; tl_set_access_fifo (ACCESS_BY_MMI); SET_STATE (STATE_MMI, MMI_DELETE); SMS_INST_SET_STATE (STATE_TL, TL_OTHER); tl_sim_update_req (rec_num, SMS_RECORD_FREE, NULL); } else { tl_mnsms_delete_cnf (delete_req->mem_type, rec_num, 0, SMS_CAUSE_INV_INDEX); } break; case MEM_SR: tl_mnsms_delete_cnf (delete_req->mem_type, delete_req->rec_num, 0, SMS_CAUSE_MEM_FAIL); break; default: tl_mnsms_delete_cnf (delete_req->mem_type, delete_req->rec_num, 0, SMS_CAUSE_PARAM_WRONG); break; } break; default: tl_mnsms_delete_cnf (delete_req->mem_type, delete_req->rec_num, 0, SMS_CAUSE_ENTITY_BUSY); break; } } else tl_mnsms_delete_cnf (delete_req->mem_type, delete_req->rec_num, 0, SMS_CAUSE_ENTITY_BUSY); PFREE (delete_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_mnsms_read_cnf | +--------------------------------------------------------------------+ PURPOSE : Generate an error response to the primitive MNSMS_READ_REQ. */ GLOBAL void tl_mnsms_read_cnf (UBYTE mem_type, UBYTE record, UBYTE *data, USHORT error) { GET_INSTANCE_DATA; PALLOC (read_cnf, MNSMS_READ_CNF); /* T_MNSMS_READ_CNF */ read_cnf->mem_type = mem_type; read_cnf->rec_num = record; switch (mem_type) { case MEM_SM: if (sms_data->init_done) { read_cnf->rec_next = tl_search_record (&SMS_SIM_PROP(sms_data), (USHORT)(record + 1), SMS_REC_STATUS(sms_data)); read_cnf->rec_max = SMS_SIM_PROP(sms_data).max_record; } else { read_cnf->rec_next = SMS_RECORD_NOT_EXIST; read_cnf->rec_max = SMS_RECORD_NOT_EXIST; } break; case MEM_ME: read_cnf->rec_next = tl_search_record (&SMS_ME_PROP(sms_data), (USHORT)(record + 1), SMS_REC_STATUS(sms_data)); read_cnf->rec_max = SMS_ME_PROP(sms_data).max_record; break; default: read_cnf->rec_next = SMS_RECORD_NOT_EXIST; read_cnf->rec_max = SMS_RECORD_NOT_EXIST; break; } read_cnf->cause = error; read_cnf->rec_status = SMS_RECORD_NOT_EXIST; /* ffs */ if (data NEQ NULL) { read_cnf->status = data[0]; read_cnf->sms_sdu.l_buf = SIM_PDU_BIT_LEN; read_cnf->sms_sdu.o_buf = 0; memcpy (read_cnf->sms_sdu.buf, &data[1], SIM_PDU_LEN); tl_adjust_message_len (SMS_VT_SIM_PDU, (BUF_tpdu *)&read_cnf->sms_sdu); } else { if (record EQ SMS_RECORD_NOT_EXIST) { read_cnf->status = SMS_RECORD_FREE; } else { switch (mem_type) { case MEM_ME: read_cnf->status = tl_get_status (&SMS_ME_PROP(sms_data), record-1); break; case MEM_SM: read_cnf->status = tl_get_status (&SMS_SIM_PROP(sms_data), record-1); break; default: read_cnf->status = SMS_RECORD_FREE; break; } } memset (&read_cnf->sms_sdu, 0, sizeof(T_sms_sdu)); } PSENDX (MMI, read_cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_mnsms_read_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MNSMS_READ_REQ. */ GLOBAL void tl_mnsms_read_req (T_MNSMS_READ_REQ *read_req) { register T_SMS_DATA *sms_data = GET_SMS_INSTANCE(0); TRACE_FUNCTION ("tl_mnsms_read_req()"); if (sms_data) { switch (SMS_INST_GET_STATE (STATE_TL)) { case TL_IDLE: SMS_READ_MODE(sms_data) = read_req->read_mode; switch (read_req->mem_type) { case MEM_ME: /* Mobile Equipment Memory */ tl_read_me_memory (read_req->rec_num, read_req->status); break; case MEM_SM: /* SIM memory */ if (sms_data->init_done) { tl_read_sim_memory (read_req->rec_num, read_req->status); } else { tl_mnsms_read_cnf (read_req->mem_type, read_req->rec_num, NULL, SMS_CAUSE_ENTITY_BUSY); } break; case MEM_SR: tl_mnsms_read_cnf (read_req->mem_type, read_req->rec_num, NULL, SMS_CAUSE_MEM_FAIL); break; default: tl_mnsms_read_cnf (read_req->mem_type, read_req->rec_num, NULL, SMS_CAUSE_PARAM_WRONG); break; } break; default: tl_mnsms_read_cnf (read_req->mem_type, read_req->rec_num, NULL, SMS_CAUSE_ENTITY_BUSY); break; } } else tl_mnsms_read_cnf (read_req->mem_type, read_req->rec_num, NULL, SMS_CAUSE_ENTITY_BUSY); PFREE (read_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_mnsms_store_cnf | +--------------------------------------------------------------------+ PURPOSE : Generate a response to the primitive MNSMS_STORE_REQ. */ GLOBAL void tl_mnsms_store_cnf (UBYTE mem_type, UBYTE record, USHORT error) { PALLOC (store_cnf, MNSMS_STORE_CNF); store_cnf->mem_type = mem_type; store_cnf->rec_num = record; store_cnf->cause = error; PSENDX (MMI, store_cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_mnsms_store_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MNSMS_STORE_REQ. */ GLOBAL void tl_mnsms_store_req (T_MNSMS_STORE_REQ *store_req) { USHORT index; UBYTE dummy; int byte_len; BOOL mem_full = FALSE; register T_SMS_DATA *sms_data = GET_SMS_INSTANCE(0); TRACE_FUNCTION ("tl_mnsms_store_req()"); #ifdef REL99 /* Check if the last failed message is getting replaced */ if( ( store_req->condx NEQ SMS_CONDX_OVR_NON ) AND ( store_req->rec_num EQ SMS_INST.failed_msg_rec_num ) AND ( store_req->mem_type EQ SMS_INST.failed_msg_mem ) AND SMS_DATA_REQ(sms_data) NEQ NULL ) { PFREE (SMS_DATA_REQ(sms_data)); SMS_DATA_REQ(sms_data) = NULL; } #endif if (sms_data NEQ NULL) { switch (SMS_INST_GET_STATE (STATE_TL)) { case TL_IDLE: if (tl_check_status_value (store_req->status) EQ NOT_PRESENT_8BIT) { /* invalid status value */ tl_mnsms_store_cnf (store_req->mem_type, store_req->rec_num, SMS_CAUSE_PARAM_WRONG); break; } switch (store_req->mem_type) { case MEM_SM: if (store_req->rec_num EQ SMS_RECORD_NOT_EXIST) { if ((index = tl_get_free_space (MEM_SM)) EQ 0) mem_full = TRUE; SMS_EM_SET_CHANGE_FLAG_1; } else { if (store_req->rec_num > SMS_SIM_PROP(sms_data).max_record) index = 0; else if (store_req->condx EQ SMS_CONDX_OVR_NON) { if ((tl_get_status (&SMS_SIM_PROP(sms_data), store_req->rec_num-1) & 1) EQ SMS_RECORD_FREE) index = store_req->rec_num; else index = 0; } else if (store_req->condx EQ SMS_CONDX_OVR_MO) { switch (tl_get_status (&SMS_SIM_PROP(sms_data), store_req->rec_num-1) & 7) { case SMS_RECORD_STO_UNSENT: case SMS_RECORD_STO_SENT: index = store_req->rec_num; break; default: index = 0; break; } } else index = store_req->rec_num; SMS_EM_SET_CHANGE_FLAG_2; } break; case MEM_ME: if (store_req->rec_num EQ SMS_RECORD_NOT_EXIST) { if ((index = tl_get_free_space (MEM_ME)) EQ 0) mem_full = TRUE; SMS_EM_SET_CHANGE_FLAG_1; } else { if (store_req->condx EQ SMS_CONDX_OVR_NON) { if ((tl_get_status (&SMS_ME_PROP(sms_data), store_req->rec_num-1) & 1) EQ SMS_RECORD_FREE) index = store_req->rec_num; else index = 0; } else if (store_req->condx EQ SMS_CONDX_OVR_MO) { switch (tl_get_status (&SMS_ME_PROP(sms_data), store_req->rec_num-1) & 7) { case SMS_RECORD_STO_UNSENT: case SMS_RECORD_STO_SENT: index = store_req->rec_num; break; default: index = 0; break; } } else index = store_req->rec_num; SMS_EM_SET_CHANGE_FLAG_2; } break; case MEM_SR: tl_mnsms_store_cnf (store_req->mem_type, store_req->rec_num, SMS_CAUSE_MEM_FAIL); PFREE (store_req); return; default: tl_mnsms_store_cnf (store_req->mem_type, store_req->rec_num, SMS_CAUSE_PARAM_WRONG); PFREE (store_req); return; } if (index > 0) { /* * storage available */ byte_len = (int)store_req->sms_sdu.l_buf >> 3; if (store_req->mem_type EQ MEM_SM) { /* * SIM card memory */ tl_store_status (&SMS_SIM_PROP(sms_data), index-1, SIM_SMS_PENDING); SMS_REC_STATUS(sms_data) = store_req->status; tl_get_pid_dcs (store_req->status, &store_req->sms_sdu, &SMS_PID(sms_data), &dummy); memset (&store_req->sms_sdu.buf[byte_len], NOT_PRESENT_8BIT, (SIM_LENGTH_SMS_RECORD-1) - byte_len); tl_set_access_fifo (ACCESS_BY_MMI); SET_STATE (STATE_MMI, MMI_WRITE); SMS_INST_SET_STATE (STATE_TL, TL_OTHER); tl_sim_update_req ((UBYTE)index, store_req->status, store_req->sms_sdu.buf); break; } else { /* * memory type is mobile memory */ UBYTE data[SIZE_EF_SMS]; data[0] = store_req->status; memcpy (&data[1], store_req->sms_sdu.buf, byte_len); memset (&data[byte_len + 1], NOT_PRESENT_8BIT, (SIM_LENGTH_SMS_RECORD-1) - byte_len); /* Implements Measure#32: Row 97 */ if (pcm_WriteRecord ((UBYTE *)ef_sms_id, index, SIZE_EF_SMS, data) EQ PCM_OK) { UBYTE pid; SMS_EM_STORE_MO_SHORT_MESSAGE; SMS_EM_CHANGE_SHORT_MESSAGE; tl_store_status (&SMS_ME_PROP(sms_data), index-1, store_req->status); tl_get_pid_dcs (store_req->status, &store_req->sms_sdu, &pid, &dummy); tl_store_pid (&SMS_ME_PROP(sms_data), index-1, pid); tl_mnsms_store_cnf (store_req->mem_type, (UBYTE)index, SMS_NO_ERROR); } else tl_mnsms_store_cnf (store_req->mem_type, (UBYTE)index, SMS_CAUSE_MEM_FAIL); } } else tl_mnsms_store_cnf (store_req->mem_type, store_req->rec_num, (USHORT)((mem_full)? SMS_CAUSE_MEM_FULL: SMS_CAUSE_INV_INDEX)); break; default: tl_mnsms_store_cnf (store_req->mem_type, store_req->rec_num, SMS_CAUSE_ENTITY_BUSY); break; } } else tl_mnsms_store_cnf (store_req->mem_type, store_req->rec_num, SMS_CAUSE_ENTITY_BUSY); PFREE (store_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_mnsms_submit_cnf | +--------------------------------------------------------------------+ PURPOSE : Generate a response to the primitive MNSMS_SUBMIT_REQ. */ GLOBAL void tl_mnsms_submit_cnf (UBYTE mem_type, UBYTE record, UBYTE tp_mr, USHORT cause, T_sms_sdu *sms_sdu) { PALLOC (submit_cnf, MNSMS_SUBMIT_CNF); TRACE_EVENT_P1 ("cause = %04x", cause); submit_cnf->mem_type = mem_type; submit_cnf->rec_num = record; submit_cnf->tp_mr = tp_mr; submit_cnf->cause = cause; if (sms_sdu NEQ NULL) memcpy (&submit_cnf->sms_sdu, sms_sdu, sizeof (T_sms_sdu)); else memset (&submit_cnf->sms_sdu, 0, sizeof (T_sms_sdu)); PSENDX (MMI, submit_cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_mnsms_submit_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MNSMS_SUBMIT_REQ. */ GLOBAL void tl_mnsms_submit_req (T_MNSMS_SUBMIT_REQ *submit_req) { UBYTE ti; register T_SMS_DATA *sms_data = GET_SMS_INSTANCE(0); TRACE_FUNCTION ("tl_mnsms_submit_req()"); TRACE_EVENT_P2 ("mem_type = %02X, rec_num = %02X", submit_req->mem_type, submit_req->rec_num); if (sms_data) { switch (SMS_INST_GET_STATE (STATE_TL)) { case TL_SEND_CONTD: /* * stop timer TLCT */ sms_timer_stop(TLCT); /* * stop timer TMMS */ sms_timer_stop(TMMS); case TL_IDLE: if (sms_timer_check(TRAM)) { /* * MNSMS_SUBMIT_CNF */ tl_mnsms_submit_cnf (submit_req->mem_type, submit_req->rec_num, NOT_PRESENT_8BIT, SMS_CAUSE_ENTITY_BUSY, NULL); break; } /* * save submit request with sms sdu */ SMS_SEL_MEM(sms_data) = submit_req->mem_type; SMS_SEL_REC(sms_data) = submit_req->rec_num; SMS_CONDX(sms_data) = submit_req->condx; SMS_MODIFY(sms_data) = submit_req->modify; if (SMS_SDU(sms_data) NEQ NULL) { MFREE (SMS_SDU(sms_data)); } MALLOC (SMS_SDU(sms_data), sizeof(T_sms_sdu)); memcpy (SMS_SDU(sms_data), &submit_req->sms_sdu, sizeof(T_sms_sdu)); /* * check whether concatenated */ if (!tl_concat_check(SMS_SDU(sms_data))) { /* * error understanding the sdu */ TRACE_ERROR ("error with concat sim pdu"); /* * negative response MNSMS_SUBMIT_CNF */ tl_mnsms_submit_cnf (submit_req->mem_type, submit_req->rec_num, NOT_PRESENT_8BIT, SMS_CAUSE_PARAM_WRONG, NULL); /* * Send MNSMS_REPORT_IND if cmms_mode is equal 1or 2 */ if(CMMS_ACTIVE) { tl_mnsms_cmms_end_ind(); } /* * give up */ MFREE (SMS_SDU(sms_data)); PFREE (submit_req); return; } #ifdef REL99 /* Check whether MO msg is sent thru retransmission request. Initially False */ SMS_INST.failed_msg_retx = FALSE; if(submit_req->auto_rep_flag EQ AUTO_REP_FLAG_ENABLED) { SMS_INST.tl_retx = 0; } else { /* Set to the max value so that retransmission will not be done */ SMS_INST.tl_retx = TL_MAX_RETANS; } #endif /* * TL state transition TL_ESTABLISH * EST state transition EST_SEND */ SMS_INST_SET_STATE (STATE_TL, TL_ESTABLISH); SET_STATE (STATE_EST, EST_SEND); /* * establish connection */ ti = SMS_INST.ti; tl_establish_connection(TRUE); /* * concat control: if needed, release previous connection */ if ((sms_data->concat_cntrl.concatenation EQ TRUE) AND (sms_data->concat_cntrl.release_pending EQ TRUE)) { sms_data->concat_cntrl.release_pending = FALSE; /* * RL_RELEASE_REQ ==> */ rl_release_req(ti); /* * check for end of concatenation */ if (sms_data->concat_cntrl.end EQ TRUE) { /* * end of concatenation */ sms_data->concat_cntrl.concatenation = FALSE; } break; } /* * cmms control: if needed, release previous connection */ if(sms_data->cmms_release_pending EQ TRUE) { sms_data->cmms_release_pending = FALSE; /* * Release the previous active MM connection */ rl_release_req(ti); } break; default: /* * MNSMS_SUBMIT_CNF */ tl_mnsms_submit_cnf (submit_req->mem_type, submit_req->rec_num, NOT_PRESENT_8BIT, SMS_CAUSE_ENTITY_BUSY, NULL); } } else { /* * MNSMS_SUBMIT_CNF */ tl_mnsms_submit_cnf (submit_req->mem_type, submit_req->rec_num, NOT_PRESENT_8BIT, SMS_CAUSE_ENTITY_BUSY, NULL); } PFREE (submit_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_mnsms_error_ind | +--------------------------------------------------------------------+ PURPOSE : Build and send the primitive MNSMS_ERROR_IND. */ GLOBAL void tl_mnsms_error_ind (USHORT error) { PALLOC (error_ind, MNSMS_ERROR_IND); error_ind->cause = error; PSENDX (MMI, error_ind); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_mnsms_ack_res | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MNSMS_ACK_RES. */ GLOBAL void tl_mnsms_ack_res (T_MNSMS_ACK_RES *ack_res) { GET_INSTANCE_DATA; TRACE_FUNCTION ("tl_mnsms_ack_res()"); if (sms_data) /*lint !e774 always True*/ { GET_MT_INSTANCE(sms_data); /* MT operation */ if (SMS_MT_ACK_MODE(sms_data) NEQ SMS_MHC_PH2PLUS) { tl_mnsms_error_ind (SMS_CAUSE_OPER_NOT_ALLW); } else switch (SMS_INST_GET_STATE (STATE_TL)) { case TL_RECEIVE: if (sms_timer_check(TR2M)) { T_rp_user_data *rp_ud; int sdu_ofs; MALLOC (rp_ud, sizeof(T_rp_user_data)); CCD_START; sdu_ofs = ack_res->sms_sdu.buf[ack_res->sms_sdu.o_buf >> 3] + 1; rp_ud->tpdu.o_tpdu = 0; if (ack_res->sms_sdu.l_buf >= (sdu_ofs << 3) + 2) /* TP-MTI present */ { rp_ud->tpdu.l_tpdu = ack_res->sms_sdu.l_buf - (sdu_ofs << 3); memcpy (rp_ud->tpdu.b_tpdu, &ack_res->sms_sdu.buf[sdu_ofs], rp_ud->tpdu.l_tpdu >> 3); rp_ud->tp_mti = rp_ud->tpdu.b_tpdu[0] & 3; rp_ud->v_tpdu = TRUE; } else { rp_ud->tpdu.l_tpdu = 0; rp_ud->tp_mti = NOT_PRESENT_8BIT; rp_ud->v_tpdu = FALSE; } if (ack_res->resp EQ SMS_RP_ACK) rl_report_req_ack (rp_ud); else { if (!rp_ud->v_tpdu) { rp_ud->tp_mti = rp_ud->tpdu.b_tpdu[0] = SMS_DELIVER_REPORT; rp_ud->tpdu.b_tpdu[1] = SMS_FCS_UNSPECIFIED; /* TP-FCS */ rp_ud->tpdu.b_tpdu[2] = 0; /* TP-PI */ rp_ud->tpdu.l_tpdu = 24; /* 3 bytes */ rp_ud->v_tpdu = TRUE; } rl_report_req_error (SMS_RP_CS_PROTOCOL_ERROR, rp_ud); /* * RL_RELEASE_REQ ==> */ rl_release_req(SMS_INST.ti); } CCD_END; MFREE (rp_ud); SMS_INST_SET_STATE (STATE_TL, TL_IDLE); break; } /*FALLTHROUGH*/ /*lint -fallthrough*/ default: tl_mnsms_error_ind (SMS_CAUSE_UNEXP_CNMA); break; } } PFREE (ack_res); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_mnsms_pause_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MNSMS_PAUSE_REQ. */ GLOBAL void tl_mnsms_pause_req (T_MNSMS_PAUSE_REQ *pause_req) { TRACE_FUNCTION ("tl_mnsms_pause_req()"); tl_pause(); PFREE (pause_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_mnsms_resume_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MNSMS_RESUME_REQ. */ GLOBAL void tl_mnsms_resume_req (T_MNSMS_RESUME_REQ *resume_req) { TRACE_FUNCTION ("tl_mnsms_resume_req()"); tl_resume(); PFREE (resume_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_mnsms_query_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MNSMS_QUERY_REQ. */ GLOBAL void tl_mnsms_query_req (T_MNSMS_QUERY_REQ *query_req) { TRACE_FUNCTION ("tl_mnsms_query_req()"); switch (query_req->query_type) { case SMS_QUERY_DELIVER_STATUS: tl_query_deliver_status(); break; default: TRACE_ERROR("sms query type unknown!"); } PFREE (query_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_mnsms_resume_cnf | +--------------------------------------------------------------------+ PURPOSE : Generate a response to the primitive MNSMS_RESUME_REQ. */ GLOBAL void tl_mnsms_resume_cnf ( USHORT cause ) { PALLOC (resume_cnf, MNSMS_RESUME_CNF); resume_cnf->cause = cause; PSENDX (MMI, resume_cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_mnsms_query_cnf | +--------------------------------------------------------------------+ PURPOSE : Generate a response to the primitive MNSMS_QUERY_REQ. */ GLOBAL void tl_mnsms_query_cnf ( U8 query_type, U8 status ) { switch (query_type) { case SMS_QUERY_DELIVER_STATUS: { PALLOC (query_cnf, MNSMS_QUERY_CNF); query_cnf->query_type = SMS_QUERY_DELIVER_STATUS; query_cnf->v_deliver_status = 1; query_cnf->deliver_status = status; PSENDX (MMI, query_cnf); } break; default: TRACE_ERROR("sms query type unknown!"); } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_sim_sms_insert_ind | +--------------------------------------------------------------------+ PURPOSE : Process the primitive SIM_SMS_INSERT_IND. */ GLOBAL void tl_sim_sms_insert_ind (T_SIM_SMS_INSERT_IND *insert_ind) { UBYTE i; GET_INSTANCE_DATA; TRACE_FUNCTION ("tl_sim_sms_insert_ind()"); if (sms_data) /*lint !e774 always True*/ { tl_sim_abort_to_mmi (SMS_CAUSE_SIM_BUSY); sms_data->init_done = FALSE; tl_mnsms_report_ind (SMS_ENT_STATE(sms_data) = SMS_STATE_INITIALISING); /* * copy SMS initialisation parameter */ SMS_SIM_PHASE(sms_data) = insert_ind->phase; SMS_INST.tp_mr = insert_ind->tp_mr; /* * memory capacity exceeded notification flag */ switch (insert_ind->mem_cap_avail) { case SIM_SMS_MEM_FULL: /* * Notification Flag = TRUE */ TRACE_EVENT("SIM_SMS_MEM_FULL => Notification Flag = TRUE"); break; case SIM_SMS_MEM_AVAIL: /* * Notification Flag = FALSE */ TRACE_EVENT("SIM_SMS_MEM_AVAIL => Notification Flag = FALSE"); break; case SIM_SMS_NO_MEM: /* * SMS storage on SIM not present */ TRACE_EVENT("SIM_SMS_NO_MEM"); break; default: TRACE_ERROR("invalid mem cap avail information from sim"); } SMS_SIM_MEM_AVAIL(sms_data) = insert_ind->mem_cap_avail & 1; SMS_SAT_DWNLD(sms_data) = insert_ind->download_sms; /* * scan status and protocol identifier for all SMS entries * first one in tl_find_first, the rest with the for loop * in mobile memory */ tl_find_first (MEM_ME); for (i = 2; i <= sms_data->me_backup.max_record; i++) tl_find_next (MEM_ME, i); /* * check for existing but empty memory */ if (SMS_ME_PROP(sms_data).max_record > 0 AND !SMS_ME_PROP(sms_data).any_valid) tl_message_ind_from_sim (MEM_ME, 0, SMS_ME_PROP(sms_data).max_record, NULL); /* * scan status and protocol identifier for all SMS entries * in sim memory */ #ifdef FF_CPHS SET_STATE (STATE_MMI, MMI_FIND_FIRST); tl_sim_read_req (SIM_CPHS_VMW, 1); #elif defined FF_SMS_NW_RCG_SIM SET_STATE (STATE_MMI, MMI_FIND_FIRST); tl_sim_read_req (SIM_IMSI, 9); #else tl_find_first (MEM_SM); #endif } PFREE (insert_ind); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_sim_read_cnf | +--------------------------------------------------------------------+ PURPOSE : Process the primitive SIM_READ_CNF. */ #if defined(SIM_TOOLKIT) OR defined(FF_CPHS) OR defined(FF_SMS_NW_RCG_SIM) GLOBAL void tl_sim_read_cnf (T_SIM_READ_CNF *read_cnf) { GET_INSTANCE_DATA; USHORT datafield; TRACE_FUNCTION ("tl_sim_file_update_ind()"); datafield = sms_data->sms_sim_access_info[read_cnf->req_id].datafield; sms_data->sms_sim_access_info[read_cnf->req_id].entry_used = FALSE; if (sms_data) { switch (GET_STATE (STATE_MMI)) { case MMI_STATE_UPDATE: /* * EF_SMSS has been updated by SAT. */ if (read_cnf->cause EQ SIM_NO_ERROR) { /* Fetch TP-MR value out of EF_SMSS */ SMS_INST.tp_mr = read_cnf->trans_data[0]; if (sms_data->mem_cap_avail NEQ (read_cnf->trans_data[1] & 1)) { /* * The memory capacity available flag has been changed. * Re-read EF_SMS also even in case this has not been announced * by the SIM application. */ sms_data->mem_cap_avail = read_cnf->trans_data[1] & 1; sms_data->sim_mem_update = TRUE; } else { SET_STATE (STATE_MMI, MMI_IDLE); } } if (sms_data->sim_mem_update) { tl_mnsms_report_ind (SMS_ENT_STATE(sms_data) = SMS_STATE_INITIALISING); tl_find_first (MEM_SM); #ifdef SIM_TOOLKIT if (sms_data->stored_read_cnf NEQ NULL) { /* * Resets the stored MMI state & read_cnf primitive */ sms_data->stored_mmi_state = MMI_IDLE; PFREE (sms_data->stored_read_cnf); sms_data->stored_read_cnf = NULL; } #endif /* SIM_TOOLKIT */ } else { PALLOC (file_update_res, SIM_FILE_UPDATE_RES); file_update_res->fu_rsc = SIM_FU_SUCCESS; file_update_res->source = SRC_SMS; PSENDX (SIM, file_update_res); } #ifdef SIM_TOOLKIT /* * If the SMS has not yet completed reading all the records, start from * the place where it has left earlier. */ if( sms_data->stored_read_cnf NEQ NULL) { SET_STATE(STATE_MMI, sms_data->stored_mmi_state); tl_set_access_fifo (ACCESS_BY_MMI); tl_sim_read_record_cnf(sms_data->stored_read_cnf); sms_data->stored_mmi_state = MMI_IDLE; sms_data->stored_read_cnf = NULL; } #endif /* SIM_TOOLKIT */ break; #ifdef FF_CPHS case MMI_FIND_FIRST: /* CPHS Voice Message Waiting flag existent? */ #ifdef FF_SMS_NW_RCG_SIM if ( datafield EQ SIM_CPHS_VMW) { SMS_CPHS(sms_data) = read_cnf->cause EQ SIM_NO_ERROR; tl_sim_read_req (SIM_IMSI, 9); break; } else if (datafield EQ SIM_IMSI AND read_cnf->cause EQ SIM_NO_ERROR) { tl_check_network_on_sim (read_cnf->trans_data); } tl_find_first (MEM_SM); #else SMS_CPHS(sms_data) = datafield EQ SIM_CPHS_VMW AND read_cnf->cause EQ SIM_NO_ERROR; tl_find_first (MEM_SM); #endif #elif defined FF_SMS_NW_RCG_SIM case MMI_FIND_FIRST: /* SIM operator determination required? */ if (read_cnf->cause EQ SIM_NO_ERROR) tl_check_network_on_sim (read_cnf->trans_data); tl_find_first (MEM_SM); break; #endif default: break; } } PFREE (read_cnf); } #endif /* SIM_TOOLKIT OR FF_CPHS */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLF | | STATE : code ROUTINE : tl_sim_update_rec_cnf_mmi | +--------------------------------------------------------------------+ PURPOSE : Processing the function TL_SIM_UPDATE_REC_CNF_MMI. */ LOCAL void tl_sim_update_rec_cnf_mmi ( T_SIM_UPDATE_RECORD_CNF *update_cnf) { GET_INSTANCE_DATA; UBYTE next_rec_num=0,record; TRACE_FUNCTION ("tl_sim_update_rec_cnf_mmi()"); record = sms_data->sms_sim_access_info[update_cnf->req_id].rec_num; sms_data->sms_sim_access_info[update_cnf->req_id].entry_used = FALSE; switch (GET_STATE (STATE_MMI)) { case MMI_READ_STATE_UPDATE: if (update_cnf->cause EQ SIM_NO_ERROR AND record EQ SMS_SEL_REC(sms_data)) { /* * update status byte */ tl_store_status (&SMS_SIM_PROP(sms_data), record-1, SMS_RECORD_REC_READ); } if (SMS_READ_MODE(sms_data) EQ READ_STATUS_CHANGE) { tl_mnsms_read_cnf (MEM_SM, SMS_SEL_REC(sms_data), NULL, SIM_NO_ERROR); } else { tl_mnsms_read_cnf (MEM_SM, SMS_SEL_REC(sms_data), SMS_SIM_READ(sms_data)->linear_data, SIM_NO_ERROR); PFREE (SMS_SIM_READ(sms_data)); SMS_SIM_READ(sms_data) = NULL; } SMS_READ_MODE(sms_data) = READ_NORMAL; SMS_INST_SET_STATE (STATE_TL, TL_IDLE); break; case MMI_WRITE: if (update_cnf->cause EQ SIM_NO_ERROR) { /* * update status byte */ tl_store_status (&SMS_SIM_PROP(sms_data), record-1, SMS_REC_STATUS(sms_data)); tl_store_pid (&SMS_SIM_PROP(sms_data), record-1, SMS_PID(sms_data)); SMS_EM_STORE_MO_SHORT_MESSAGE_2; SMS_EM_CHANGE_SHORT_MESSAGE_2; } else { tl_store_status (&SMS_SIM_PROP(sms_data), record-1, SIM_SMS_FREE); } tl_mnsms_store_cnf (MEM_SM, record, update_cnf->cause); SMS_READ_MODE(sms_data) = READ_NORMAL; SMS_INST_SET_STATE (STATE_TL, TL_IDLE); break; case MMI_DELETE: if (record EQ SMS_SEL_REC(sms_data)) { if (update_cnf->cause EQ SIM_NO_ERROR) { tl_store_status (&SMS_SIM_PROP(sms_data), record-1, SIM_SMS_FREE); TRACE_EVENT_P1 ("mem cap avail %d", sms_data->mem_cap_avail); if (!sms_data->mem_cap_avail) { GET_MO_INSTANCE(sms_data); /* * TL state transition TL_ESTABLISH * EST state transition EST_SMMA */ SET_STATE (STATE_EST, EST_SMMA); SMS_INST_SET_STATE (STATE_TL, TL_ESTABLISH); /* * 1st shot */ SMS_INST.retrans = FALSE; /* * establish connection */ tl_establish_connection(FALSE); /* * wait for processing of RP-SMMA */ return; } if(SMS_REC_STATUS(sms_data) NEQ CMGD_DEL_INDEX) { /* Status value is given. Find the next record satisfying this status value */ next_rec_num = tl_search_record_for_delete (&SMS_SIM_PROP(sms_data), record, SMS_REC_STATUS(sms_data)); TRACE_EVENT_P1 ("tl_sim_update_rec_cnf_mmi :: next_rec_num=%d", next_rec_num); } tl_mnsms_delete_cnf (MEM_SM, record, next_rec_num, SIM_NO_ERROR); } else tl_mnsms_delete_cnf (MEM_SM, record, 0, update_cnf->cause); } else tl_mnsms_delete_cnf (MEM_SM, record, 0, SMS_CAUSE_INV_INDEX); SMS_INST_SET_STATE (STATE_TL, TL_IDLE); break; case MMI_REPLACE: if (record EQ SMS_SEL_REC(sms_data)) { if (update_cnf->cause EQ SIM_NO_ERROR) { #ifdef REL99 if(SMS_INST.failed_msg_retx EQ FALSE) { #endif tl_mnsms_submit_cnf (MEM_SM, record, SMS_TP_REF_RET(sms_data), SMS_NO_ERROR, SMS_SDU(sms_data)); #ifdef REL99 } else { tl_mnsms_retrans_cnf (MEM_SM, record, SMS_TP_REF_RET(sms_data), SMS_NO_ERROR, SMS_SDU(sms_data)); } #endif /* * update status byte */ tl_store_status (&SMS_SIM_PROP(sms_data), record-1, SMS_RECORD_STO_SENT); tl_store_pid (&SMS_SIM_PROP(sms_data), record-1, SMS_PID_DEFAULT); } else { #ifdef REL99 if(SMS_INST.failed_msg_retx EQ FALSE) { #endif tl_mnsms_submit_cnf (MEM_SM, SMS_RECORD_NOT_EXIST, SMS_TP_REF_RET(sms_data), update_cnf->cause, SMS_SDU(sms_data)); #ifdef REL99 } else { tl_mnsms_retrans_cnf (MEM_SM, SMS_RECORD_NOT_EXIST, SMS_TP_REF_RET(sms_data), update_cnf->cause, SMS_SDU(sms_data)); } #endif tl_store_status (&SMS_SIM_PROP(sms_data), record-1, SMS_RECORD_FREE); /* reset reservation */ } } else tl_mnsms_submit_cnf (MEM_SM, record, SMS_TP_REF_RET(sms_data), SMS_CAUSE_INV_INDEX, SMS_SDU(sms_data)); if (SMS_SDU(sms_data) NEQ NULL) { MFREE (SMS_SDU(sms_data)); SMS_SDU(sms_data) = NULL; } SMS_SEL_REC(sms_data) = SMS_RECORD_NOT_EXIST; /* * concat control */ if (sms_data->concat_cntrl.concatenation EQ TRUE) { /* * start timer TLCT for next submit req supervision */ sms_timer_start(TLCT); /* * TL State Transition TL_SEND_CONTD */ SMS_INST_SET_STATE (STATE_TL, TL_SEND_CONTD); /* * remember to release connection */ sms_data->concat_cntrl.release_pending = TRUE; } else { /* * TL State Transition TL_IDLE */ SMS_INST_SET_STATE (STATE_TL, TL_IDLE); } break; default: assert (GET_STATE (STATE_MMI) EQ MMI_IDLE); /* illegal state */ break; } SET_STATE (STATE_MMI, MMI_IDLE); #ifdef SIM_TOOLKIT if (sms_data->file_update_ind NEQ NULL) { T_SIM_FILE_UPDATE_IND *file_update_ind = sms_data->file_update_ind; sms_data->file_update_ind = NULL; tl_sim_file_update_ind (file_update_ind); } #endif } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLF | | STATE : code ROUTINE : tl_sim_update_rec_cnf_net | +--------------------------------------------------------------------+ PURPOSE : Processing the function TL_SIM_UPDATE_REC_CNF_NET. */ LOCAL void tl_sim_update_rec_cnf_net (T_SIM_UPDATE_RECORD_CNF *update_cnf) { GET_INSTANCE_DATA; UBYTE record; UBYTE data[SIZE_EF_SMS]; TRACE_FUNCTION ("tl_sim_update_rec_cnf_net()"); record = sms_data->sms_sim_access_info[update_cnf->req_id].rec_num; sms_data->sms_sim_access_info[update_cnf->req_id].entry_used = FALSE; CCD_START; switch (GET_STATE (STATE_NET)) { case NET_WRITE: if (update_cnf->cause EQ SIM_NO_ERROR) { /* * update status byte */ tl_store_status (&SMS_SIM_PROP(sms_data), record-1, SMS_RECORD_REC_UNREAD); tl_store_pid (&SMS_SIM_PROP(sms_data), record-1, SMS_PID(sms_data)); /* * send indication to MMI */ tl_message_ind_from_net (MEM_SM, record, SMS_SIM_PROP(sms_data).max_record, SMS_RP_RCVD(sms_data)); rl_report_req_ack (NULL); SMS_INST_SET_STATE (STATE_TL, TL_IDLE); } else switch (sms_data->use_mem_b) // check alternative B { case DISPLAY: /* * Only display of the message */ tl_message_ind_from_net (NOT_PRESENT_8BIT, 0, 0, SMS_RP_RCVD(sms_data)); { if (sms_data->mhc NEQ SMS_MHC_PH2PLUS) { rl_report_req_ack (NULL); SMS_INST_SET_STATE (STATE_TL, TL_IDLE); } } break; case MEM_ME: /* * memory type is mobile memory */ record = tl_get_free_space (MEM_ME); if (record) { /* * store in mobile memory */ /* Implements Measure#32: Row 104 */ if (pcm_WriteRecord ((UBYTE *)ef_sms_id, record, SIZE_EF_SMS, data) EQ PCM_OK) { /* * update status byte */ tl_store_status (&SMS_ME_PROP(sms_data), record-1, SMS_RECORD_REC_UNREAD); tl_store_pid (&SMS_ME_PROP(sms_data), record-1, SMS_PID(sms_data)); /* * send indication to MMI */ tl_message_ind_from_net (MEM_ME, record, SMS_ME_PROP(sms_data).max_record, SMS_RP_RCVD(sms_data)); /* * acknowledge to the infrastructure */ rl_report_req_ack (NULL); SMS_INST_SET_STATE (STATE_TL, TL_IDLE); break; } } /*FALLTHROUGH*/ /*lint -fallthrough*/ default: if (tl_get_free_space (MEM_ME) OR tl_get_free_space (MEM_SM)) { /* * error to the infrastructure */ rl_report_req_error (SMS_RP_CS_PROTOCOL_ERROR, NULL); /* * RL_RELEASE_REQ ==> */ rl_release_req(SMS_INST.ti); } else { if (update_cnf->cause NEQ SIM_CAUSE_DRV_TEMPFAIL) { /* change mem_cap_avail flag on SIM and return error */ tl_sms_memo_exceeded (FALSE); } else { /* * RP_ERROR => */ rl_report_req_error ( SMS_RP_CS_PROTOCOL_ERROR, NULL); /* * RL_RELEASE_REQ ==> */ rl_release_req(SMS_INST.ti); } } tl_store_status (&SMS_SIM_PROP(sms_data), record-1, SIM_SMS_FREE); SMS_INST_SET_STATE (STATE_TL, TL_IDLE); break; case IGNORE: rl_report_req_ack (NULL); SMS_INST_SET_STATE (STATE_TL, TL_IDLE); MFREE (SMS_RP_RCVD(sms_data)); SMS_RP_RCVD(sms_data) = NULL; break; } sms_data->use_mem_b = NOTHING; MFREE (SMS_RP_RCVD(sms_data)); SMS_RP_RCVD(sms_data) = NULL; break; case NET_23430_WRITE: if (update_cnf->cause EQ SIM_NO_ERROR) { CCD_END; tl_sim_update_req (record, SMS_RECORD_FREE, NULL); tl_set_access_fifo (ACCESS_BY_NET); SET_STATE (STATE_NET, NET_23430_DELETE); return; } tl_store_status (&SMS_SIM_PROP(sms_data), record-1, SIM_SMS_FREE); tl_sms_memo_exceeded (FALSE); SMS_INST_SET_STATE (STATE_TL, TL_IDLE); break; case NET_23430_DELETE: tl_store_status (&SMS_SIM_PROP(sms_data), record-1, SIM_SMS_FREE); rl_report_req_ack (NULL); SMS_INST_SET_STATE (STATE_TL, TL_IDLE); break; default: assert (GET_STATE (STATE_NET) EQ NET_IDLE); /* illegal state */ // SET_STATE (STATE_NET, NET_IDLE); break; } CCD_END; SET_STATE (STATE_NET, NET_IDLE); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_sim_update_cnf | +--------------------------------------------------------------------+ PURPOSE : After updating of EF(SMSS) the Entity state is checked and a MNSMS_REPORT_IND is sent to indicate the Ready State */ GLOBAL void tl_sim_update_cnf (T_SIM_UPDATE_CNF *update_cnf) { GET_INSTANCE_DATA; UBYTE next_rec_num = 0; TRACE_FUNCTION ("tl_sim_update_cnf()"); sms_data->sms_sim_access_info[update_cnf->req_id].entry_used = FALSE; switch (tl_read_access_fifo ()) { case ACCESS_BY_MMI: if (sms_data->sms_sim_access_info[update_cnf->req_id].datafield EQ SIM_SMSS AND SMS_ENT_STATE(sms_data) EQ SMS_STATE_INITIALISING) { tl_mnsms_report_ind (SMS_ENT_STATE(sms_data) = SMS_STATE_READY); SMS_INST_SET_STATE (STATE_TL, TL_IDLE); PFREE (update_cnf); return; } if (GET_STATE (STATE_MMI) EQ MMI_DELETE) { GET_MO_INSTANCE(sms_data); /* * confirm deletion to user */ if(SMS_REC_STATUS(sms_data) NEQ CMGD_DEL_INDEX) { /* Status value is given. Find the next record satisfying this status value */ next_rec_num = tl_search_record_for_delete (((SMS_SEL_MEM(sms_data) EQ MEM_ME)? &SMS_ME_PROP(sms_data):&SMS_SIM_PROP(sms_data)), SMS_SEL_REC(sms_data), SMS_REC_STATUS(sms_data)); } tl_mnsms_delete_cnf (SMS_SEL_MEM(sms_data), SMS_SEL_REC(sms_data), next_rec_num, SIM_NO_ERROR); SET_STATE (STATE_MMI, MMI_IDLE); SMS_INST_SET_STATE (STATE_TL, TL_IDLE); } else if (GET_STATE (STATE_MMI) EQ MMI_RESUME) { /* * confirm resumption to user */ if (sms_data->pr_cntrl.save_cause EQ SMS_NO_ERROR) { if (update_cnf->cause == SIM_NO_ERROR) { tl_mnsms_resume_cnf(SMS_NO_ERROR); } else { tl_mnsms_resume_cnf(update_cnf->cause); } } else { tl_mnsms_resume_cnf(sms_data->pr_cntrl.save_cause); } SET_STATE (STATE_MMI, MMI_IDLE); SMS_INST_SET_STATE (STATE_TL, TL_IDLE); } break; case ACCESS_BY_NET: TRACE_EVENT ("SIM_UPDATE_CNF ignored"); break; default: TRACE_ERROR ("Unexpected Error Value"); break; } #ifdef SIM_TOOLKIT if (sms_data->file_update_ind NEQ NULL) { T_SIM_FILE_UPDATE_IND *file_update_ind = sms_data->file_update_ind; sms_data->file_update_ind = NULL; tl_sim_file_update_ind (file_update_ind); } #endif PFREE (update_cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_sim_update_record_cnf | +--------------------------------------------------------------------+ PURPOSE : Process the primitive SIM_UPDATE_RECORD_CNF. */ GLOBAL void tl_sim_update_record_cnf (T_SIM_UPDATE_RECORD_CNF *update_cnf) { GET_INSTANCE_DATA; TRACE_FUNCTION ("tl_sim_update_record_cnf()"); switch (tl_read_access_fifo ()) { case ACCESS_BY_NET: GET_MT_INSTANCE(sms_data); /* MT */ tl_sim_update_rec_cnf_net (update_cnf); break; case ACCESS_BY_MMI: GET_MO_INSTANCE(sms_data); /* MO */ tl_sim_update_rec_cnf_mmi (update_cnf); break; default: assert (0); /* impossible case */ break; } PFREE (update_cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_sim_read_record_cnf | +--------------------------------------------------------------------+ PURPOSE : Process the primitive SIM_READ_RECORD_CNF. */ GLOBAL void tl_sim_read_record_cnf (T_SIM_READ_RECORD_CNF *read_cnf) { T_SIM_PDU *sim_pdu; GET_INSTANCE_DATA; UBYTE record; TRACE_FUNCTION ("tl_sim_read_record_cnf()"); record = sms_data->sms_sim_access_info[read_cnf->req_id].rec_num; sms_data->sms_sim_access_info[read_cnf->req_id].entry_used = FALSE; if (sms_data) /*lint !e774 always True*/ { switch (tl_read_access_fifo ()) { case ACCESS_BY_MMI: GET_MO_INSTANCE(sms_data); /* MO */ switch (GET_STATE (STATE_MMI)) { case MMI_READ: /* * read attempt from MMI */ if (read_cnf->cause EQ SIM_NO_ERROR AND record EQ SMS_SEL_REC(sms_data)) { tl_store_status (&SMS_SIM_PROP(sms_data), record-1, read_cnf->linear_data[0]); if (SMS_INST_GET_STATE (STATE_TL) EQ TL_SEND) { MCAST (cp_data, U_CP_DATA); MALLOC (sim_pdu, sizeof(T_SIM_PDU)); CCD_START; if (tl_modify_submit (sim_pdu, SMS_MODIFY(sms_data), SMS_SDU(sms_data), read_cnf->linear_data) AND tl_prepare_submit (sim_pdu, cp_data)) { /* * RL_DATA_REQ */ if (!rl_data_req (SMS_INST.tp_mr, cp_data)) { SMS_INST_SET_STATE (STATE_TL, TL_IDLE); /* * release connection */ rl_release_req(SMS_INST.ti); /* * send not successful but we confirm with no error ???!! */ tl_mnsms_submit_cnf (MEM_SM, record, NOT_PRESENT_8BIT, SMS_NO_ERROR, NULL); } } else { SMS_INST_SET_STATE (STATE_TL, TL_IDLE); tl_mnsms_submit_cnf (MEM_SM, record, NOT_PRESENT_8BIT, SMS_CAUSE_PARAM_WRONG, NULL); } CCD_END; MFREE (sim_pdu); MFREE (SMS_SDU(sms_data)); SMS_SDU(sms_data) = NULL; SET_STATE (STATE_MMI, MMI_IDLE); break; } if ((read_cnf->linear_data[0] & 1) EQ SMS_RECORD_FREE) { tl_mnsms_read_cnf (MEM_SM, 0, NULL, SMS_CAUSE_INV_INDEX); } else if (((read_cnf->linear_data[0] & 7) EQ SMS_RECORD_REC_UNREAD) AND SMS_READ_MODE(sms_data) NEQ READ_PREVIEW) { tl_set_access_fifo (ACCESS_BY_MMI); SET_STATE (STATE_MMI, MMI_READ_STATE_UPDATE); SMS_INST_SET_STATE (STATE_TL, TL_OTHER); tl_sim_update_req (record, SMS_RECORD_REC_READ, &read_cnf->linear_data[1]); if (SMS_READ_MODE(sms_data) NEQ READ_STATUS_CHANGE) { // read_cnf->linear_data[0] = SMS_RECORD_REC_READ; /* * keep read data until reception of UPDATE CONFIRM */ if (SMS_SIM_READ(sms_data) NEQ 0) PFREE(SMS_SIM_READ(sms_data)); SMS_SIM_READ(sms_data) = read_cnf; return; /* read_cnf not to be deallocated */ } PFREE (read_cnf); return; /* keep states */ } else { SMS_EM_READ_SHORT_MESSAGE_2; tl_mnsms_read_cnf (MEM_SM, record, ((SMS_READ_MODE(sms_data) EQ READ_STATUS_CHANGE)? NULL: read_cnf->linear_data), SIM_NO_ERROR); } } else { if (SMS_INST_GET_STATE (STATE_TL) EQ TL_SEND) { if (read_cnf->cause EQ SIM_NO_ERROR) tl_mnsms_submit_cnf (MEM_SM, record, NOT_PRESENT_8BIT, SMS_CAUSE_INV_INDEX, NULL); else tl_mnsms_submit_cnf (MEM_SM, record, NOT_PRESENT_8BIT, read_cnf->cause, NULL); } else tl_mnsms_read_cnf (MEM_SM, 0, NULL, SMS_CAUSE_INV_INDEX); } SET_STATE (STATE_MMI, MMI_IDLE); SMS_INST_SET_STATE (STATE_TL, TL_IDLE); break; case MMI_FIND_FIRST: #ifdef SIM_TOOLKIT if (sms_data->file_update_ind NEQ NULL) { T_SIM_FILE_UPDATE_IND *file_update_ind = sms_data->file_update_ind; /* * Take a backup of the current status of the MMI_STATE */ sms_data->stored_mmi_state = GET_STATE(STATE_MMI); SET_STATE (STATE_MMI, MMI_IDLE); sms_data->file_update_ind = NULL; tl_sim_file_update_ind (file_update_ind); /* Implements Measure# 7 */ if( tl_sim_rd_record_update_state(read_cnf) ) return; } #endif /* * first record is scanned */ if (read_cnf->cause EQ SIM_NO_ERROR) { /* Store max. supported records of the SIM */ SMS_SIM_PROP(sms_data).max_record = read_cnf->max_record; if (SMS_SIM_PROP(sms_data).max_record > MAX_RECORD_SIM) { /* The number of supported records is limited by SMS */ SMS_SIM_PROP(sms_data).max_record = MAX_RECORD_SIM; } else if (SMS_SIM_PROP(sms_data).max_record EQ 0) { /* We have at least one record as we successfully read it * regardless of the returned value from the SIM */ SMS_SIM_PROP(sms_data).max_record = 1; } /* * continue with MMI_FIND_NEXT */ } else { /* * No EF_SMS field on the SIM. */ SMS_SIM_PROP(sms_data).max_record = 0; SET_STATE (STATE_MMI, MMI_IDLE); /* * init done */ tl_init_complete(); break; } /*FALLTHROUGH*/ /*lint -fallthrough*/ case MMI_FIND_NEXT: #ifdef SIM_TOOLKIT /* * Take a backup of the current status of the MMI_STATE */ sms_data->stored_mmi_state = GET_STATE(STATE_MMI); #endif /* SIM_TOOLKIT */ SET_STATE (STATE_MMI, MMI_IDLE); #ifdef SIM_TOOLKIT if (sms_data->file_update_ind NEQ NULL) { T_SIM_FILE_UPDATE_IND *file_update_ind = sms_data->file_update_ind; sms_data->file_update_ind = NULL; tl_sim_file_update_ind (file_update_ind); /* Implements Measure# 7 */ if( tl_sim_rd_record_update_state(read_cnf) ) return; } #endif /* * next record is scanned */ if (read_cnf->cause EQ SIM_NO_ERROR) { if (tl_find_status_pid (MEM_SM, record, read_cnf->linear_data, &SMS_SIM_PROP(sms_data))) tl_message_ind_from_sim (MEM_SM, record, read_cnf->max_record, read_cnf->linear_data); if (record < SMS_SIM_PROP(sms_data).max_record) tl_find_next (MEM_SM, (UBYTE)(record + 1)); else { #ifdef SIM_TOOLKIT if (sms_data->sim_mem_update) { PALLOC (file_update_res, SIM_FILE_UPDATE_RES); file_update_res->source = SRC_SMS; file_update_res->fu_rsc = SIM_FU_SUCCESS; PSENDX (SIM, file_update_res); sms_data->sim_mem_update = FALSE; } #endif /* * check for existing but empty memory */ if (SMS_SIM_PROP(sms_data).max_record > 0 AND !SMS_SIM_PROP(sms_data).any_valid) tl_message_ind_from_sim (MEM_SM, 0, SMS_SIM_PROP(sms_data).max_record, NULL); /* * init done */ tl_init_complete(); } } else { /* * declare only successful read * entries as available */ SMS_SIM_PROP(sms_data).max_record = record - 1; // must be doubled /* * init done */ tl_init_complete(); } break; default: assert (GET_STATE (STATE_MMI) EQ MMI_IDLE); /* illegal state */ break; } #ifdef SIM_TOOLKIT if (sms_data->file_update_ind NEQ NULL) { T_SIM_FILE_UPDATE_IND *file_update_ind = sms_data->file_update_ind; sms_data->file_update_ind = NULL; tl_sim_file_update_ind (file_update_ind); } #endif break; case ACCESS_BY_NET: GET_MT_INSTANCE(sms_data); /* MT */ switch (GET_STATE (STATE_NET)) { case NET_READ: if (tl_check_replace_entry (&SMS_RP_RCVD(sms_data)->rp_user_data.tpdu.b_tpdu[1], &read_cnf->linear_data[1])) { /* *record shall be replaced */ tl_sim_conv_update_req (record, SMS_RP_RCVD(sms_data)); SMS_EM_REPLACE_SMS_IN_SIM; tl_set_access_fifo (ACCESS_BY_NET); SET_STATE (STATE_NET, NET_WRITE); } else { int i; i = tl_check_mt_pid (&SMS_SIM_PROP(sms_data), record + 1, SMS_PID(sms_data)); if (i > 0) { tl_set_access_fifo (ACCESS_BY_NET); tl_sim_read_record_req((UBYTE)i); } else { MCAST (sms_deliver, TP_DELIVER); SET_STATE (STATE_NET, NET_IDLE); CCD_START; ccd_decodeMsg (CCDENT_SMS, DOWNLINK, (T_MSGBUF *)&SMS_RP_RCVD(sms_data)->rp_user_data.tpdu, (UBYTE *)sms_deliver, TP_DELIVER); tl_handle_message (sms_deliver); CCD_END; } } break; default: assert (GET_STATE (STATE_NET) EQ NET_IDLE); /* illegal state */ break; } break; default: assert (0); /* impossible case */ break; } } PFREE (read_cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_sim_remove_ind | +--------------------------------------------------------------------+ PURPOSE : Process the primitive SIM_REMOVE_IND. */ GLOBAL void tl_sim_remove_ind (T_SIM_REMOVE_IND *remove_ind) { USHORT error; register T_SMS_DATA *sms_data = GET_SMS_INSTANCE (0); TRACE_FUNCTION ("tl_sim_remove_ind()"); if (sms_data) { error = (remove_ind->cause EQ SIM_NO_ERROR)? SMS_CAUSE_SIM_BUSY: remove_ind->cause; tl_sim_abort_to_mmi (error); sms_data->init_done = FALSE; SMS_SIM_PROP(sms_data).max_record = 0; sms_data->me_backup.max_record = 0; sms_data->sim_mem_update = FALSE; } PFREE (remove_ind); } #if defined(SIM_TOOLKIT) /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_sim_toolkit_cnf | +--------------------------------------------------------------------+ PURPOSE : Process the primitive SIM_TOOLKIT_CNF. */ GLOBAL void tl_sim_toolkit_cnf (T_SIM_TOOLKIT_CNF *toolkit_cnf) { GET_INSTANCE_DATA; TRACE_FUNCTION ("tl_sim_toolkit_cnf()"); switch (tl_read_access_fifo ()) { case ACCESS_BY_NET: GET_MT_INSTANCE(sms_data); /* MT */ tl_sim_toolkit_confirm (toolkit_cnf); break; default: assert(0); break; } PFREE (toolkit_cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_sim_file_update_ind | +--------------------------------------------------------------------+ PURPOSE : Process the primitive SIM_FILE_UPDATE_IND. */ GLOBAL void tl_sim_file_update_ind (T_SIM_FILE_UPDATE_IND *file_update_ind) { USHORT i; BOOL found_sms = FALSE; /* short messages changed by SAT */ BOOL found_smss = FALSE; /* short message status changed by SAT */ register T_SMS_DATA *sms_data = GET_SMS_INSTANCE (0); TRACE_FUNCTION ("tl_sim_file_update_ind()"); if (sms_data) { /* * avoid interference with active MMI procedure */ switch (GET_STATE (STATE_MMI)) { case MMI_IDLE: break; default: if (sms_data->file_update_ind NEQ NULL) PFREE (sms_data->file_update_ind); /* store primitive for delayed reaction */ sms_data->file_update_ind = file_update_ind; return; } for (i = 0; i < file_update_ind->val_nr; i++) { if((file_update_ind->file_info[i].v_path_info EQ TRUE) AND (file_update_ind->file_info[i].path_info.df_level1 EQ SIM_DF_TELECOM) AND (file_update_ind->file_info[i].path_info.v_df_level2 EQ FALSE)) { if (file_update_ind->file_info[i].datafield EQ SIM_SMS) { /* short messages changed by SAT */ found_sms = TRUE; sms_data->sim_mem_update = TRUE; } else if (file_update_ind->file_info[i].datafield EQ SIM_SMSS) { /* short message status changed by SAT */ found_smss = TRUE; } } if (found_sms AND found_smss) break; } if (found_smss) { /* short message status changed by SAT */ tl_sim_read_req (SIM_SMSS, 2); sms_data->sim_mem_update = found_sms NEQ FALSE; SET_STATE (STATE_MMI, MMI_STATE_UPDATE); } else if (found_sms) { /* short messages changed by SAT */ sms_data->init_done = FALSE; SMS_SIM_PROP(sms_data).max_record = 0; tl_mnsms_report_ind (SMS_ENT_STATE(sms_data) = SMS_STATE_INITIALISING); sms_data->sim_mem_update = TRUE; tl_find_first (MEM_SM); } else { /* Nothing to do, indicate success to SAT */ PALLOC (file_update_res, SIM_FILE_UPDATE_RES); /* T_SIM_FILE_UPDATE_RES */ file_update_res->source = SRC_SMS; file_update_res->fu_rsc = SIM_FU_SUCCESS; PSENDX (SIM, file_update_res); } } PFREE (file_update_ind); } #endif // SIM_TOOLKIT /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLF | | STATE : code ROUTINE : tl_mnsms_cmms_end_ind | +--------------------------------------------------------------------+ PURPOSE : Function used for sending MNSMS_REPORT_IND.Primitive to ACI when cmms_mode is eqaul to 1. */ GLOBAL void tl_mnsms_cmms_end_ind(void) { GET_INSTANCE_DATA; PALLOC (report_ind, MNSMS_REPORT_IND); TRACE_FUNCTION ("tl_mnsms_cmms_end_ind()"); if(sms_data->cmms_mode EQ CMMS_MODE_ONE) { sms_data->cmms_mode = CMMS_MODE_DEF; report_ind->state = SMS_STATE_READY; report_ind->v_cmms_mode = TRUE; report_ind->cmms_mode = sms_data->cmms_mode; PSENDX (MMI, report_ind); } } #ifdef SIM_PERS_OTA /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_mnsms_OTA_message_res | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MNSMS_OTA_MESSAGE_RES. */ GLOBAL void tl_mnsms_OTA_message_res ( T_MNSMS_OTA_MESSAGE_RES *mnsms_OTA_message_res ) { T_SMS_DATA *sms_data = GET_INSTANCE(0); TRACE_FUNCTION ("tl_mnsms_OTA_message_res()"); if (sms_data) /*lint !e774 always True*/ { GET_MT_INSTANCE(sms_data); /* MT operation */ switch (SMS_INST_GET_STATE (STATE_TL)) { case TL_RECEIVE: if (sms_timer_check(TR2M)) { T_TP_DLVR_REP_ACK *rep_ack ; T_rp_user_data *rp_ud; MALLOC(rep_ack, sizeof(T_TP_DLVR_REP_ACK)); MALLOC(rp_ud, sizeof(T_rp_user_data)); rep_ack->tp_vt_mti = SMS_VT_DLVR_REP_ACK; rep_ack->tp_udhi = SMS_UDHI_NOT_INCLUDED; rep_ack->tp_mti = SMS_DELIVER_REPORT; rep_ack->v_tp_udh_inc = FALSE; memcpy(rep_ack->tp_ud.data, mnsms_OTA_message_res->data,mnsms_OTA_message_res->len); rep_ack->tp_ud.c_data =mnsms_OTA_message_res->len; //No of octets rep_ack->tp_ud.length = mnsms_OTA_message_res->packedlen; /*Since default alphabet is used as per 23.040 sec. 9.2.3.16 the length contains no of septets of data returned */ rep_ack->tp_ext = SMS_EXT_NOT_INCLUDED; rep_ack->v_tp_ud = TRUE; rep_ack->tp_udl_p = SMS_UD_INCLUDED; rep_ack->tp_dcs = mnsms_OTA_message_res->tp_dcs; rep_ack->v_tp_dcs = TRUE; rep_ack->tp_dcs_p = SMS_DCS_INCLUDED; rep_ack->tp_pid = mnsms_OTA_message_res->tp_pid; rep_ack->v_tp_pid = TRUE; rep_ack->tp_pid_p = SMS_PID_INCLUDED; rp_ud->tpdu.o_tpdu = 0; rp_ud->tpdu.l_tpdu = TPDU_BIT_LEN; rp_ud->v_tpdu = (ccd_codeMsg (CCDENT_SMS, UPLINK, (T_MSGBUF *)&rp_ud->tpdu, (UBYTE *)rep_ack, SMS_VT_DLVR_REP_ACK) EQ ccdOK); rp_ud->tp_mti = SMS_DELIVER_REPORT; MFREE (rep_ack); rl_report_req_ack (rp_ud); MFREE (rp_ud); SMS_INST_SET_STATE (STATE_TL, TL_IDLE); } else { /*TR2M TIM EXPIRE -ACI NOT RESPONDED WITHIN TR2M */ } break; default: /* INVALID SMS TL STATE IN MNSMS_OTA_MESSAGE_RES */ break; } } PFREE (mnsms_OTA_message_res); } #endif /* End OTA */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_mnsms_retrans_req | +--------------------------------------------------------------------+ PURPOSE : Handles the primitive MNSMS_RETRANS_REQ. This will support user requested retransmission of the last failed message as per 23.040 R99 Section 9.2.3.6. */ #ifdef REL99 GLOBAL void tl_mnsms_retrans_req (T_MNSMS_RETRANS_REQ *mnsms_retrans_req) { GET_INSTANCE_DATA; TRACE_FUNCTION ("tl_mnsms_retrans_req()"); switch (SMS_INST_GET_STATE (STATE_TL)) { case TL_SEND_CONTD: /* * stop timer TLCT */ sms_timer_stop(TLCT); /*FALLTHROUGH*/ /*lint -fallthrough*/ case TL_IDLE: if (sms_timer_check(TRAM)) { /* * MNSMS_SUBMIT_CNF */ tl_mnsms_retrans_cnf (SMS_SEL_MEM(sms_data), SMS_SEL_REC(sms_data), NOT_PRESENT_8BIT, SMS_CAUSE_ENTITY_BUSY, NULL); break; } /* Check if MO message is present(stored CPDU data available?) */ if (SMS_DATA_REQ(sms_data) NEQ NULL) { if(mnsms_retrans_req->auto_rep_flag EQ AUTO_REP_FLAG_ENABLED) { SMS_INST.tl_retx = 0; } else { /* Set to the max value so that retransmission will not be done */ SMS_INST.tl_retx = TL_MAX_RETANS; } SMS_INST_SET_STATE (STATE_TL, TL_SEND); /* Restore the record number and storage type */ SMS_SEL_REC(sms_data) = SMS_INST.failed_msg_rec_num; SMS_SEL_MEM(sms_data) = SMS_INST.failed_msg_mem; SMS_INST.failed_msg_retx = TRUE; /* * TL state transition TL_ESTABLISH * EST state transition EST_SEND */ SMS_INST_SET_STATE (STATE_TL, TL_ESTABLISH); SET_STATE (STATE_EST, EST_RTX); /* * establish connection */ tl_establish_connection(FALSE); } else { tl_mnsms_retrans_cnf (SMS_SEL_MEM(sms_data),SMS_SEL_REC(sms_data), SMS_TP_REF_RET(sms_data), SMS_CAUSE_FAILED_MSG_NOT_FOUND, NULL); } break; default: tl_mnsms_retrans_cnf (SMS_SEL_MEM(sms_data),SMS_SEL_REC(sms_data), SMS_TP_REF_RET(sms_data), SMS_CAUSE_ENTITY_BUSY, NULL); break; } PFREE(mnsms_retrans_req); return; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_mnsms_retrans_cnf | +--------------------------------------------------------------------+ PURPOSE : Generate a response to the primitive MNSMS_RETRANS_REQ. */ GLOBAL void tl_mnsms_retrans_cnf ( UBYTE mem_type, UBYTE record, UBYTE tp_mr, USHORT cause, T_sms_sdu *sms_sdu ) { TRACE_FUNCTION ("tl_mnsms_retrans_cnf()"); { PALLOC (retrans_cnf, MNSMS_RETRANS_CNF); retrans_cnf->mem_type = mem_type; retrans_cnf->rec_num = record; retrans_cnf->tp_mr = tp_mr; retrans_cnf->cause = cause; if (sms_sdu NEQ NULL) { memcpy (&retrans_cnf->sms_sdu, sms_sdu, sizeof (T_sms_sdu)); } else { memset (&retrans_cnf->sms_sdu, 0, sizeof (T_sms_sdu)); } PSENDX (MMI, retrans_cnf); } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLP | | STATE : code ROUTINE : tl_mnsms_send_prog_ind | +--------------------------------------------------------------------+ PURPOSE : Send the primitive MNSMS_SEND_PROG_IND. */ GLOBAL void tl_mnsms_send_prog_ind (void) { GET_INSTANCE_DATA; TRACE_FUNCTION ("tl_mnsms_send_prog_ind ()"); { PALLOC (send_prog_ind, MNSMS_SEND_PROG_IND); send_prog_ind->resend_count = sms_data->data[INST_MO].tl_retx; send_prog_ind->max_retrans = TL_MAX_RETANS; PSENDX (MMI, send_prog_ind); } } #endif /* REL99 */ #endif