FreeCalypso > hg > freecalypso-citrine
view g23m-gsm/sms/sms_tls.c @ 8:b36540edb046
L1/cfile/l1_*.c: initial import from tcs211-l1-reconst
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Thu, 09 Jun 2016 05:45:03 +0000 |
| parents | 75a11d740a02 |
| 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_TLS_C #define SMS_TLS_C #include "config.h" #include "fixedconf.h" #include "condat-features.h" #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 ===================================================*/ /*==== FUNCTIONS ===================================================*/ LOCAL BOOL tl_modify_is_all (UBYTE modify) { switch (modify) { case SMS_MODIFY_NON: case SMS_MODIFY_SCA: case SMS_MODIFY_TPOA: case SMS_MODIFY_TPOA_SCA: return FALSE; default: break; } return TRUE; /* MODIFY_ALL: complete message is given */ } LOCAL void tl_send_failure(USHORT cause) { GET_INSTANCE_DATA; /* * release connection */ rl_release_req(SMS_INST.ti); /* * Send MNSMS_REPORT_IND indicating the cmms_mode value to ACI * if CMMS_MODE is equal to 1or 2. */ if(CMMS_ACTIVE) { tl_cmms_end(); } /* * SUBMIT_CNF */ tl_mnsms_submit_cnf (SMS_SEL_MEM(sms_data), SMS_SEL_REC(sms_data), NOT_PRESENT_8BIT, cause, NULL); } /*---- SIGNALS -----------------------------------------------------*/ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLS | | STATE : code ROUTINE : tl_establish_cnf | +--------------------------------------------------------------------+ PURPOSE : Process the signal TL_ESTABLISH_CNF. */ GLOBAL void tl_establish_cnf ( BOOL success) { GET_INSTANCE_DATA; TRACE_FUNCTION ("tl_establish_cnf()"); #ifdef GPRS if (success EQ FALSE) { /* * Establishment Failed. */ if (SMS_INST.downlink EQ SMS_DOWNLINK_LL_CHECK) { if (sms_data->mo_dst_pref EQ GPRS_SMS_GPRS_PREF) { /* * using the preferred downlink LL failed, use CSD */ TRACE_EVENT("Establishment failed on LL link, try gsm path instead"); /* * set downlink type MMSMS */ TRACE_EVENT("downlink = SMS_DOWNLINK_MMSMS"); SMS_INST.downlink = SMS_DOWNLINK_MMSMS; /* * try again */ rl_establish_req(SMS_INST.ti); return; } else { /* * unsing the preferred downlink LL failed */ TRACE_EVENT("Establishment failed on LL link, stop working"); /* * handle event in report ind */ tl_report_ind(NULL,SMS_CAUSE_NO_SERVICE); return; } } else if (SMS_INST.downlink EQ SMS_DOWNLINK_MMSMS) { if(sms_data->mo_dst_pref EQ GPRS_SMS_CCT_PREF) { /* * using the preferred downlink MM failed, use PS */ TRACE_EVENT("Establishment failed on MM link, try gprs path instead"); /* * set downlink type LL */ TRACE_EVENT("downlink = SMS_DOWNLINK_LL"); SMS_INST.downlink = SMS_DOWNLINK_LL_CHECK; /* * If CMMS_ACTIVE then send the MNSMS_REPORT_IND to ACI informing about * the current cmms_mode value as GSM connection is failed. */ if(CMMS_ACTIVE) { tl_cmms_end(); } /* * try again */ rl_establish_req(SMS_INST.ti); return; } /* * else * <<PS PREF failed CS fallback also failed>> case covered in cp layer. */ } } #endif /* #ifdef GPRS */ switch (SMS_INST_GET_STATE (STATE_TL)) { case TL_ESTABLISH: switch (GET_STATE (STATE_EST)) { case EST_SEND: tl_establish_cnf_send(); break; case EST_RTX: tl_establish_cnf_rtx(); break; case EST_CMD: tl_establish_cnf_cmd(); break; case EST_SMMA: /* * TL state transition: TL_OTHER */ SMS_INST_SET_STATE (STATE_TL, TL_OTHER); if (!rl_mem_avail_req ()) { TRACE_EVENT("could not send SMMA"); /* * TL state transition TL_OTHER */ SMS_INST_SET_STATE (STATE_TL, TL_OTHER); /* * handle event in report ind */ tl_report_ind(NULL,SMS_CAUSE_ENTITY_BUSY); } break; } break; default: TRACE_ERROR("TL_ESTABLISH_CNF in wrong state received"); } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLS | | STATE : code ROUTINE : tl_establish_cnf_send | +--------------------------------------------------------------------+ PURPOSE : Process the signal TL_ESTABLISH_CNF in state TL_SEND_ESTABLISH. */ GLOBAL void tl_establish_cnf_send (void) { GET_INSTANCE_DATA; drv_Return_Type pcm_result; T_SIM_PDU *sim_pdu; TRACE_FUNCTION ("tl_establish_cnf_send()"); if ( (SMS_SEL_REC(sms_data) NEQ SMS_RECORD_NOT_EXIST) AND (!tl_modify_is_all (SMS_MODIFY(sms_data))) ) { /* * SEND - MODIFY */ switch (SMS_SEL_MEM(sms_data)) { case MEM_SM: if (SMS_SEL_REC(sms_data) <= SMS_SIM_PROP(sms_data).max_record) { tl_set_access_fifo (ACCESS_BY_MMI); /* * TL state transition: TL_SEND */ SET_STATE (STATE_MMI, MMI_READ); SMS_INST_SET_STATE (STATE_TL, TL_SEND); tl_sim_read_record_req (SMS_SEL_REC(sms_data)); } else { tl_send_failure(SMS_CAUSE_INV_INDEX); /* * TL state transition: TL_IDLE */ SMS_INST_SET_STATE (STATE_TL, TL_IDLE); } break; case MEM_ME: if (SMS_SEL_REC(sms_data) <= SMS_ME_PROP(sms_data).max_record) { USHORT max_record; UBYTE misc; UBYTE sim_msg[SIZE_EF_SMS]; MCAST (cp_data, U_CP_DATA); /* Implements Measure#32: Row 109 */ pcm_result = pcm_ReadRecord ((UBYTE *)ef_sms_id, (USHORT)SMS_SEL_REC(sms_data), SIZE_EF_SMS, sim_msg, &misc, &max_record); if (pcm_result NEQ PCM_OK) { SMS_ME_PROP(sms_data).max_record = 0; /* * stop sending */ tl_send_failure(SMS_CAUSE_MEM_FAIL); /* * TL state transition: TL_IDLE */ SMS_INST_SET_STATE (STATE_TL, TL_IDLE); break; } MALLOC (sim_pdu, sizeof(T_SIM_PDU)); CCD_START; /* * modify, prepare submit */ if (tl_modify_submit (sim_pdu, SMS_MODIFY(sms_data), SMS_SDU(sms_data), sim_msg) AND tl_prepare_submit (sim_pdu, cp_data)) { /* * RL_DATA_REQ */ if (!rl_data_req (SMS_INST.tp_mr, cp_data)) { /* * stop sending */ tl_send_failure(SMS_CAUSE_ENTITY_BUSY); /* * TL state transition: TL_IDLE */ SMS_INST_SET_STATE (STATE_TL, TL_IDLE); } else { SMS_EM_MO_SHORT_MESSAGE; /* * TL state transition: TL_SEND */ SMS_INST_SET_STATE (STATE_TL, TL_SEND); } } else { /* * stop sending */ tl_send_failure(SMS_CAUSE_PARAM_WRONG); /* * TL state transition: TL_IDLE */ SMS_INST_SET_STATE (STATE_TL, TL_IDLE); } CCD_END; MFREE (sim_pdu); } else { /* * stop sending */ tl_send_failure(SMS_CAUSE_INV_INDEX); /* * TL state transition: TL_IDLE */ SMS_INST_SET_STATE (STATE_TL, TL_IDLE); } break; default: /* * stop sending */ tl_send_failure(SMS_CAUSE_PARAM_WRONG); /* * TL state transition: TL_IDLE */ SMS_INST_SET_STATE (STATE_TL, TL_IDLE); } } else /* no record given, or no previous mem read */ { /* * SEND - STRAIGHT */ USHORT cause = SMS_NO_ERROR; switch (SMS_SEL_MEM(sms_data)) { case MEM_SM: if (SMS_SEL_REC(sms_data) > SMS_SIM_PROP(sms_data).max_record) { cause = SMS_CAUSE_INV_INDEX; } break; case MEM_ME: if (SMS_SEL_REC(sms_data) > SMS_ME_PROP(sms_data).max_record) { cause = SMS_CAUSE_INV_INDEX; } break; default: if (SMS_SEL_REC(sms_data) NEQ SMS_RECORD_NOT_EXIST) { cause = SMS_CAUSE_PARAM_WRONG; } break; } if (cause EQ SMS_NO_ERROR) { /* Do some additional tests on the SMS SDU */ if (SMS_SDU(sms_data)->l_buf EQ 0) { TRACE_ERROR ("MNSMS_SUBMIT_REQ: sms_sdu empty"); cause = SMS_CAUSE_PARAM_WRONG; } if ((SMS_SDU(sms_data)->l_buf >> 3) + (SMS_SDU(sms_data)->o_buf >> 3) > SIM_PDU_LEN) { TRACE_ERROR ("MNSMS_SUBMIT_REQ: sms_sdu out of range"); cause = SMS_CAUSE_PARAM_WRONG; } } if (cause EQ SMS_NO_ERROR) /* error on previous parameter check? */ { MCAST (cp_data, U_CP_DATA); MALLOC (sim_pdu, sizeof(T_SIM_PDU)); CCD_START; ccd_decodeMsg (CCDENT_SMS, BOTH, (T_MSGBUF *)SMS_SDU(sms_data), (UBYTE *)sim_pdu, SMS_VT_SIM_PDU); /* * prepare submit */ if (tl_prepare_submit (sim_pdu, cp_data)) { /* * RL_DATA_REQ */ if (!rl_data_req (SMS_INST.tp_mr, cp_data)) { cause = SMS_CAUSE_ENTITY_BUSY; } else { SMS_EM_MO_SHORT_MESSAGE; /* * TL state transition */ SMS_INST_SET_STATE (STATE_TL, TL_SEND); } } else { cause = SMS_CAUSE_PARAM_WRONG; } MFREE (sim_pdu); CCD_END; } if (cause NEQ SMS_NO_ERROR) { /* * stop sending */ tl_send_failure(cause); /* * TL state transition: TL_IDLE */ SMS_INST_SET_STATE (STATE_TL, TL_IDLE); } } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLS | | STATE : code ROUTINE : tl_establish_cnf_rtx | +--------------------------------------------------------------------+ PURPOSE : Process the signal TL_ESTABLISH_CNF in state TL_RTX_ESTABLISH. */ GLOBAL void tl_establish_cnf_rtx (void) { GET_INSTANCE_DATA; TRACE_FUNCTION ("tl_establish_cnf_rtx()"); { MCAST (cp_data, U_CP_DATA); /* T_U_CP_DATA */ BUF_tpdu *tpdu = &cp_data->cp_user_data_ul.rp_data_ul.rp_user_data.tpdu; /* * check whether data req still exists */ if (SMS_DATA_REQ(sms_data) EQ NULL) { TRACE_ERROR("Horror: cannot retransmit DATA REQ: buffer gone"); return; } /* * Inform ACI that MO transmission attempt is still going on */ /* tl_mnsms_send_prog_ind(sms_data); */ /* TCS 4.x and above */ CCD_START; /* * Revert addition of PD and TI */ SMS_DATA_REQ(sms_data)->sdu.o_buf += BSIZE_TI_PD; SMS_DATA_REQ(sms_data)->sdu.l_buf -= BSIZE_TI_PD; ccd_decodeMsg (CCDENT_SMS, UPLINK, (T_MSGBUF *)&SMS_DATA_REQ(sms_data)->sdu, (UBYTE *)cp_data, NOT_PRESENT_8BIT); /* * Set the TP-RD bit in the SMS-SUBMIT. * No usage of CCD here, this would be inefficient. */ tpdu->b_tpdu[tpdu->o_tpdu >> 3] |= 0x04; /* * TL state transition: TL_SEND */ SMS_INST_SET_STATE (STATE_TL, TL_SEND); /* * RL_DATA_REQ */ rl_data_req (SMS_INST.tp_mr, cp_data); CCD_END; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLS | | STATE : code ROUTINE : tl_establish_cnf_cmd | +--------------------------------------------------------------------+ PURPOSE : Process the signal TL_ESTABLISH_CNF in state TL_CMD_ESTABLISH. */ GLOBAL void tl_establish_cnf_cmd(void) { GET_INSTANCE_DATA; T_SIM_PDU *sim_pdu; TRACE_FUNCTION ("tl_establish_cnf_cmd()"); CCD_START; MALLOC (sim_pdu, sizeof(T_SIM_PDU)); memset (sim_pdu, 0, sizeof(T_SIM_PDU)); ccd_decodeMsg (CCDENT_SMS, BOTH, (T_MSGBUF *)SMS_SDU(sms_data), (UBYTE *)sim_pdu, SMS_VT_SIM_PDU); if (sim_pdu->tp_mti EQ SMS_COMMAND AND sim_pdu->v_tpdu) { MCAST (cp_data, U_CP_DATA); /* ++SMS_INST.tp_mr; */ sim_pdu->tpdu.b_tpdu[1] = SMS_INST.tp_mr; SMS_TP_REF_RET(sms_data) = SMS_INST.tp_mr; SMS_INST_SET_STATE (STATE_TL, TL_COMMAND); SMS_EM_MO_SHORT_MESSAGE_COMMAND; cp_data->cp_user_data_ul.v_rp_error = FALSE; cp_data->cp_user_data_ul.v_rp_ack = FALSE; memset (&cp_data->cp_user_data_ul.rp_data_ul, 0, sizeof (T_rp_data_ul)); memcpy (&cp_data->cp_user_data_ul.rp_data_ul.rp_addr, &sim_pdu->rp_addr, sizeof (T_rp_addr)); cp_data->cp_user_data_ul.rp_data_ul.rp_user_data.tp_mti = sim_pdu->tp_mti; memcpy (&cp_data->cp_user_data_ul.rp_data_ul.rp_user_data.tpdu, &sim_pdu->tpdu, sizeof (BUF_tpdu)); cp_data->cp_user_data_ul.rp_data_ul.rp_user_data.v_tpdu = TRUE; cp_data->cp_user_data_ul.v_rp_data_ul = TRUE; /* * RL_DATA_REQ */ if (!rl_data_req (SMS_INST.tp_mr, cp_data)) { tl_mnsms_command_cnf (NOT_PRESENT_8BIT, SMS_CAUSE_ENTITY_BUSY, NULL); } } else { tl_mnsms_command_cnf (NOT_PRESENT_8BIT, SMS_CAUSE_PARAM_WRONG, NULL); } MFREE (sim_pdu); CCD_END; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLS | | STATE : code ROUTINE : tl_data_ind | +--------------------------------------------------------------------+ PURPOSE : Process the signal DATA_IND. */ GLOBAL void tl_data_ind ( T_rp_data_dl *rp_data_dl) { GET_INSTANCE_DATA; TRACE_FUNCTION ("tl_data_ind()"); /* Valid tp-user data will not be set to TRUE unless futher decoding is done * so removed check rp_data_dl->rp_addr.v_tpdu */ if (rp_data_dl EQ NULL OR !rp_data_dl->rp_addr.v_ton) { /* * RP_ERROR => */ rl_report_req_error (SMS_RP_CS_INV_MAND_INFO, NULL); /* * RL_RELEASE_REQ ==> */ rl_release_req(SMS_INST.ti); return; } switch (rp_data_dl->rp_user_data.tp_mti) { case SMS_DELIVER: { MCAST (sms_deliver, TP_DELIVER); TRACE_EVENT ("SMS DELIVER"); if (SMS_RP_RCVD(sms_data) EQ NULL) { MALLOC (SMS_RP_RCVD(sms_data), sizeof(T_rp_data_dl)); } memcpy (SMS_RP_RCVD(sms_data), rp_data_dl, sizeof(T_rp_data_dl)); /* *If Valid TP user Data is missing in RP Message, send RP ERROR * This is done by checking v_tp_ud field */ if ( ccd_decodeMsg (CCDENT_SMS, DOWNLINK, (T_MSGBUF *)&SMS_RP_RCVD(sms_data)->rp_user_data.tpdu, (UBYTE *)sms_deliver, SMS_VT_DELIVER) EQ ccdError ) { /* * RP_ERROR => */ rl_report_req_error (SMS_RP_CS_INV_MAND_INFO, NULL); /* * RL_RELEASE_REQ ==> */ rl_release_req(SMS_INST.ti); break; } SMS_INST_SET_STATE (STATE_TL, TL_RECEIVE); SMS_DCS(sms_data) = sms_deliver->tp_dcs; SMS_PID(sms_data) = sms_deliver->tp_pid; #ifdef FF_SMS_23430 if (tl_handle_23430 (sms_deliver)) return; #endif switch (sms_deliver->tp_pid) { case SMS_PID_SM_TYPE_0: /* * "A short message type 0 indicates that the ME must acknowledge * receipt of the short message but shall discard its contents." * [3GPP 23.040 subclause 9.2.3.9] */ 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; case SMS_PID_REP_SM_TYPE_1: case SMS_PID_REP_SM_TYPE_2: case SMS_PID_REP_SM_TYPE_3: case SMS_PID_REP_SM_TYPE_4: case SMS_PID_REP_SM_TYPE_5: case SMS_PID_REP_SM_TYPE_6: case SMS_PID_REP_SM_TYPE_7: case SMS_PID_RET_CALL_MSG: /* * replace short messages */ tl_replace_message (sms_deliver); break; case SMS_PID_SIM_DOWNLOAD: /* * SIM data download */ #ifdef SIM_TOOLKIT if (sms_data->download_sms AND tl_check_class_2 (sms_deliver->tp_dcs)) { tl_build_envelope_sms_download (SMS_RP_RCVD(sms_data)); } else #endif tl_handle_message (sms_deliver); break; #ifdef REL99 /* Currently EGPRS over TIA/EIA-136 is not supported and hence it * is treated as below. If TIA/EIA-136 is supported, the message * should be passed to ME for routing to the application handling * ANSI-136 data */ case SMS_PID_ANSI_136_R_DATA: if( tl_check_class_2 (sms_deliver->tp_dcs) ) { #ifdef SIM_TOOLKIT /* Download it to SIM only if both SAT is supported and data download * service is enabled */ if (sms_data->download_sms) { tl_build_envelope_sms_download (SMS_RP_RCVD(sms_data)); } else { /* 11.14 8.d.0 Sec 7.1.1 mentions about storing the message when * If the service "data download via SMS-PP" is not allocated * and activated only for protocol identifier = SIM data download. * Hence discard the message and send NACK indicating inability * to handle the message*/ T_rp_user_data *rp_ud; MALLOC (rp_ud, sizeof(T_rp_user_data)); rp_ud->tpdu.o_tpdu = 0; rp_ud->tp_mti = rp_ud->tpdu.b_tpdu[0] = SMS_DELIVER_REPORT; rp_ud->tpdu.b_tpdu[1] = SMS_FCS_TP_PID_UNSPEC; /* 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); MFREE (rp_ud); SMS_INST_SET_STATE (STATE_TL, TL_IDLE); MFREE (SMS_RP_RCVD(sms_data)); SMS_RP_RCVD(sms_data) = NULL; } #else /* * Discard the message and send NACK */ T_rp_user_data *rp_ud; MALLOC (rp_ud, sizeof(T_rp_user_data)); rp_ud->tpdu.o_tpdu = 0; rp_ud->tp_mti = rp_ud->tpdu.b_tpdu[0] = SMS_DELIVER_REPORT; rp_ud->tpdu.b_tpdu[1] = SMS_FCS_TP_PID_UNSPEC; /* 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); MFREE (rp_ud); SMS_INST_SET_STATE (STATE_TL, TL_IDLE); MFREE (SMS_RP_RCVD(sms_data)); SMS_RP_RCVD(sms_data) = NULL; #endif } else { tl_handle_message (sms_deliver); } break; #endif /* REL99 */ case SMS_PID_ME_DEPERSON: /* * ME de-personalization short message */ #ifdef SIM_PERS_OTA { PALLOC (mnsms_OTA_message_ind, MNSMS_OTA_MESSAGE_IND); memcpy (&mnsms_OTA_message_ind->tp_ud, &sms_deliver->tp_ud, sizeof(T_tp_ud)); mnsms_OTA_message_ind->tp_dcs = sms_deliver->tp_dcs ; mnsms_OTA_message_ind->tp_pid = sms_deliver->tp_pid; #ifdef TI_PS_HCOMM_CHANGE PSEND (_hCommMMI, mnsms_OTA_message_ind); #else PSEND (hCommMMI, mnsms_OTA_message_ind); #endif break; } #else break; #endif case SMS_PID_ME_DOWNLOAD: /* * ME download short message */ default: tl_handle_message (sms_deliver); break; } break; } case SMS_STATUS_REPORT: TRACE_EVENT ("SMS STATUS REPORT"); if (sms_data->ds EQ DS1) { /* * only if requested by MMI */ PALLOC (status_ind, MNSMS_STATUS_IND); SMS_EM_SMS_STATUS_MESSAGE; tl_build_status_rep (rp_data_dl, status_ind); PSENDX (MMI, status_ind); if (SMS_MT_ACK_MODE(sms_data) EQ SMS_MHC_PH2PLUS) { SMS_INST_SET_STATE (STATE_TL, TL_RECEIVE); break; } } rl_report_req_ack (NULL); break; default: /* * RP_ERROR => */ rl_report_req_error (SMS_RP_CS_SEM_INC_MSG, NULL); /* * RL_RELEASE_REQ ==> */ rl_release_req(SMS_INST.ti); break; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLS | | STATE : code ROUTINE : tl_timeout_ind | +--------------------------------------------------------------------+ PURPOSE : Process the signal TL_TIMEOUT_IND. */ GLOBAL void tl_timeout_ind ( USHORT timer_id) { GET_INSTANCE_DATA; TRACE_FUNCTION ("tl_timeout_ind()"); switch (SMS_INST_GET_STATE (STATE_TL)) { /* -------------------------------------- */ case TL_ESTABLISH: /* -------------------------------------- */ switch (GET_STATE(STATE_EST)) { case EST_SEND: /* * Connection establishment for the SUBMIT has failed */ TRACE_EVENT("Connection establishment for SUBMIT request failed"); TRACE_EVENT_P1 ("TL retrans #%d", SMS_INST.tl_retx); if (SMS_INST.tl_retx < TL_MAX_RETANS) { /* * Maximum number of TL retransmissions not exceeded. * Retry establishment. */ SMS_INST.tl_retx++; /* * establish connection */ #ifdef REL99 tl_mnsms_send_prog_ind(); #endif /* REL99 */ tl_establish_connection(FALSE); } else { /* * clean up instance */ 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; /* * TL state transition TL_IDLE */ SMS_INST_SET_STATE (STATE_TL, TL_IDLE); /* * SUBMIT_CNF */ tl_mnsms_submit_cnf (SMS_SEL_MEM(sms_data), SMS_RECORD_NOT_EXIST, SMS_TP_REF_RET(sms_data), SMS_CAUSE_NET_TIMEOUT, SMS_SDU(sms_data)); /* * End the cmms session */ if(CMMS_ACTIVE) { tl_cmms_end(); } } break; case EST_CMD: /* * Connection establishment for the COMMAND has failed */ TRACE_EVENT("Connection establishment for COMMAND request failed"); TRACE_EVENT_P1 ("TL retrans #%d", SMS_INST.tl_retx); if (SMS_INST.tl_retx < TL_MAX_RETANS) { /* * Maximum number of TL retransmissions not exceeded. * Retry establishment. */ SMS_INST.tl_retx++; /* * establish connection */ #ifdef REL99 tl_mnsms_send_prog_ind(); #endif tl_establish_connection(FALSE); } else { /* * clean up instance */ 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; /* * TL state transition */ SMS_INST_SET_STATE (STATE_TL, TL_IDLE); /* * COMMAND_CNF */ tl_mnsms_command_cnf (SMS_TP_REF_RET(sms_data), SMS_CAUSE_NET_TIMEOUT, SMS_SDU(sms_data)); } break; case EST_RTX: TRACE_EVENT("timeout establishment for retransmission ignored"); break; case EST_SMMA: /* * Connection establishment for the SMMA has failed */ TRACE_EVENT("Connection establishment for SMMA request failed"); TRACE_EVENT_P1 ("TL retrans #%d", SMS_INST.tl_retx); if (SMS_INST.tl_retx < TL_MAX_RETANS) { /* * Maximum number of TL retransmissions not exceeded. * Retry establishment. */ SMS_INST.tl_retx++; /* * try again */ SMS_INST.retrans = TRUE; /* * establish connection */ tl_establish_connection(FALSE); } else { /* * TL state transition TL_OTHER */ SMS_INST_SET_STATE (STATE_TL, TL_OTHER); /* * handle event in report ind */ tl_report_ind(NULL,SMS_CAUSE_NET_TIMEOUT); } break; } break; /* -------------------------------------- */ case TL_SEND: /* -------------------------------------- */ /* * sending of the SUBMIT has failed */ TRACE_EVENT("Transmission for SUBMIT request failed"); TRACE_EVENT_P1 ("TL retrans #%d", SMS_INST.tl_retx); if (SMS_INST.tl_retx < TL_MAX_RETANS) { /* * Maximum number of TL retransmissions not exceeded. * Retry establishment. */ SMS_INST.tl_retx++; #ifdef REL99 tl_mnsms_send_prog_ind(); #endif /* REl99 */ /* * TL state transition TL_ESTABLISH * EST state transition EST_RTX */ SMS_INST_SET_STATE (STATE_TL, TL_ESTABLISH); SET_STATE(STATE_EST,EST_RTX); /* * establish connection */ tl_establish_connection(FALSE); } else { /* * clean up instance */ 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; /* * TL state transition TL_IDLE */ SMS_INST_SET_STATE (STATE_TL, TL_IDLE); /* * SUBMIT_CNF */ tl_mnsms_submit_cnf (SMS_SEL_MEM(sms_data), SMS_RECORD_NOT_EXIST, SMS_TP_REF_RET(sms_data), SMS_CAUSE_NET_TIMEOUT, SMS_SDU(sms_data)); /* * End the cmms session */ if(CMMS_ACTIVE) { tl_cmms_end(); } } break; /* -------------------------------------- */ case TL_COMMAND: /* -------------------------------------- */ /* * sending of the COMMAND has failed */ TRACE_EVENT("Transmission for COMMAND request failed"); TRACE_EVENT_P1 ("TL retrans #%d", SMS_INST.tl_retx); if (SMS_INST.tl_retx < TL_MAX_RETANS) { /* * Maximum number of TL retransmissions not exceeded. * Retry establishment. */ SMS_INST.tl_retx++; #ifdef REL99 tl_mnsms_send_prog_ind(); #endif /* REl99 */ /* * 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(FALSE); } else { /* * clean up instance */ 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; /* * TL state transition TL_IDLE */ SMS_INST_SET_STATE (STATE_TL, TL_IDLE); /* * COMMAND_CNF */ tl_mnsms_command_cnf (SMS_TP_REF_RET(sms_data), SMS_CAUSE_NET_TIMEOUT, SMS_SDU(sms_data)); } break; /* -------------------------------------- */ default: /* -------------------------------------- */ // TRACE_EVENT("TL_TIMEOUT_IND ignored"); if (timer_id EQ TRAM) { /* * sending of the SMMA has failed */ TRACE_EVENT("Transmission for SMMA failed"); /* * ??? !!! ??? */ --SMS_RP_REF(sms_data); /* * TL state transition TL_ESTABLISH * EST state transition EST_SMMA */ SMS_INST_SET_STATE (STATE_TL, TL_ESTABLISH); SET_STATE(STATE_EST,EST_SMMA); /* * try again */ SMS_INST.retrans = TRUE; /* * establish connection */ tl_establish_connection(FALSE); } else { tl_report_ind(NULL,SMS_CAUSE_NET_TIMEOUT); } break; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLS | | STATE : code ROUTINE : tl_report_ind | +--------------------------------------------------------------------+ PURPOSE : Process the signal TL_REPORT_IND. */ LOCAL UBYTE tl_check_condx_send (T_BACKUP *prop, UBYTE mem_type, UBYTE condx, UBYTE rec_num) { if (condx EQ SMS_CONDX_OVR_NON) { if ((rec_num = tl_get_free_space (mem_type)) NEQ 0) return rec_num; else return SMS_RECORD_NOT_EXIST; } else if (condx EQ SMS_CONDX_OVR_MO) { switch (tl_get_status (prop, rec_num - 1)) { case SMS_RECORD_REC_UNREAD: case SMS_RECORD_REC_READ: if ((rec_num = tl_get_free_space (mem_type)) NEQ 0) return rec_num; return SMS_RECORD_NOT_EXIST; default: break; } } return rec_num; } GLOBAL void tl_report_ind (T_rp_user_data *rp_user_data, USHORT cause) { GET_INSTANCE_DATA; T_SIM_PDU *sim_pdu; UBYTE rec_num, next_rec_num = 0; TRACE_FUNCTION ("tl_report_ind()"); #ifdef REL99 if (cause NEQ SMS_NO_ERROR) { SMS_INST.failed_msg_rec_num = SMS_SEL_REC(sms_data); SMS_INST.failed_msg_mem = SMS_SEL_MEM(sms_data); } #endif if (sms_data) { if (SMS_SDU(sms_data) NEQ NULL) { MFREE (SMS_SDU(sms_data)); SMS_SDU(sms_data) = NULL; } /* * An SMS DELIVER REPORT TPDU is carried as a RP User Data element within * an RP ERROR PDU and is part of the negative acknowledgement to an SMS * DELIVER or SMS STATUS REPORT. * * An SMS DELIVER REPORT TPDU is also carried as a RP User Data element * within an RP ACK PDU and is part of a positive acknowledgement to a * SMS DELIVER or SMS STATUS REPORT. * [3gpp 23.040 clause 9.2.2.1a] * * The cause value (invalid / non-invalid) is used to distinguish whether * the RP user data (SMS DELIVER REPORT) came with RP-ACK / RP-ERROR. */ if (IS_CAUSE_INVALID(cause) AND (rp_user_data NEQ NULL AND rp_user_data->v_tpdu)) { MALLOC (sim_pdu, sizeof(T_SIM_PDU)); MALLOC (SMS_SDU(sms_data), sizeof(T_sms_sdu)); memset (&sim_pdu->rp_addr, 0, sizeof(T_rp_addr)); sim_pdu->tp_mti = rp_user_data->tp_mti; sim_pdu->tpdu = rp_user_data->tpdu; sim_pdu->v_tpdu = TRUE; sim_pdu->tp_vt_mti = SMS_VT_SIM_PDU; SMS_SDU(sms_data)->o_buf = 0; SMS_SDU(sms_data)->l_buf = SIM_PDU_LEN<<3; if (ccd_codeMsg (CCDENT_SMS, BOTH, (T_MSGBUF *)SMS_SDU(sms_data), (UBYTE *)sim_pdu, SMS_VT_SIM_PDU) NEQ ccdOK) { MFREE (SMS_SDU(sms_data)); SMS_SDU(sms_data) = NULL; } MFREE (sim_pdu); } switch (SMS_INST_GET_STATE (STATE_TL)) { /* -------------------------------------- */ case TL_ESTABLISH: /* -------------------------------------- */ switch (GET_STATE(STATE_EST)) { case EST_SEND: case EST_RTX: /* * TL state transition TL_SEND */ SMS_INST_SET_STATE (STATE_TL, TL_SEND); break; case EST_CMD: /* * TL state transition TL_COMMAND */ SMS_INST_SET_STATE (STATE_TL, TL_COMMAND); break; case EST_SMMA: if (SMS_INST.retrans) { SMS_INST.retrans = FALSE; /* * TL state transition TL_OTHER */ SMS_INST_SET_STATE (STATE_TL, TL_OTHER); } else { /* * RL_START_TRAM_REQ */ rl_start_tram_req(); return; } break; default: TRACE_ERROR("Invalid EST state!"); /* * TL state transition TL_IDLE */ SMS_INST_SET_STATE (STATE_TL, TL_IDLE); break; } /* * TL_REPORT_IND recursive */ tl_report_ind(rp_user_data,cause); return; /* -------------------------------------- */ case TL_SEND: /* -------------------------------------- */ if (!IS_CAUSE_INVALID(cause) AND (rp_user_data NEQ NULL) AND (SMS_INST.tl_retx > 0)) { /* * Retransmission case as of 23.040 subclause 9.2.3.6 * and RP ERROR with RP USER DATA received. Check whether * the RP USER DATA contains a SMS SUBMIT REPORT with TP-FCS set to * "SM Rejected - Duplicate SM". * If so the transmission has been a success and not a failure. */ MCAST (tp_sbmt_rep_err, TP_SBMT_REP_ERR); /* T_TP_SBMT_REP_ERR */ BUF_tpdu *tpdu = &rp_user_data->tpdu; BYTE ccd_result; switch (tpdu->b_tpdu[tpdu->o_tpdu >> 3] & 0x3) { case SMS_SUBMIT_REPORT: /* Copy tpdu from rp_user_data, it's part of decoded msg buffer */ MALLOC (tpdu, sizeof(BUF_tpdu)); memcpy (tpdu, &rp_user_data->tpdu, sizeof (BUF_tpdu)); CCD_START; ccd_result = ccd_decodeMsg (CCDENT_SMS, DOWNLINK, (T_MSGBUF *)tpdu, (UBYTE *)tp_sbmt_rep_err, SMS_VT_SBMT_REP_ERR); if (ccd_result NEQ ccdOK) { /* Could error handling be elaborated here? */ TRACE_ERROR ("ccd decoding problem"); } if (tp_sbmt_rep_err->tp_fcs EQ SMS_FCS_REJ_DUPL_SM) { TRACE_EVENT ("SC had SMS"); cause = SMS_NO_ERROR; /* Enter "no error" handling below */ /* Since the transmission was successful, the data stored for retransmission can be freed */ if (SMS_DATA_REQ(sms_data) NEQ NULL) { PFREE (SMS_DATA_REQ(sms_data)); SMS_DATA_REQ(sms_data) = NULL; } } CCD_END; MFREE (tpdu); break; default: break; /* Do nothing, it is an error */ } } if (IS_CAUSE_INVALID(cause) AND SMS_SEL_REC(sms_data) > 0) { if (SMS_SEL_MEM(sms_data) EQ MEM_SM AND SMS_SEL_REC(sms_data) <= SMS_SIM_PROP(sms_data).max_record) { if ((rec_num = tl_check_condx_send (&SMS_SIM_PROP(sms_data), MEM_SM, SMS_CONDX(sms_data), SMS_SEL_REC(sms_data))) NEQ SMS_RECORD_NOT_EXIST) SMS_SEL_REC(sms_data) = rec_num; 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), SMS_CAUSE_MEM_FULL, SMS_SDU(sms_data)); #ifdef REL99 } else { tl_mnsms_retrans_cnf (MEM_SM, SMS_RECORD_NOT_EXIST, SMS_TP_REF_RET(sms_data), SMS_CAUSE_MEM_FULL, SMS_SDU(sms_data)); } #endif break; } { UBYTE sim_acc_ix; T_SMS_SIM_ACCESS_INFO *sms_sim_access_info_ptr; if (tl_sms_reserve_req_id(&sim_acc_ix)) { PALLOC (update_req, SIM_UPDATE_RECORD_REQ); sms_sim_access_info_ptr = &sms_data->sms_sim_access_info[sim_acc_ix]; update_req->source = SRC_SMS; update_req->req_id = sim_acc_ix; update_req->v_path_info = FALSE; update_req->datafield = sms_sim_access_info_ptr->datafield = SIM_SMS; update_req->record = sms_sim_access_info_ptr->rec_num = SMS_SEL_REC(sms_data); update_req->length = SIM_LENGTH_SMS_RECORD; tl_convert_mo_to_mem (SMS_DATA_REQ(sms_data), update_req->linear_data); PSENDX (SIM, update_req); } } tl_store_status (&SMS_SIM_PROP(sms_data), rec_num-1, SIM_SMS_PENDING); tl_set_access_fifo (ACCESS_BY_MMI); SET_STATE (STATE_MMI, MMI_REPLACE); /* * concat control */ if (sms_data->concat_cntrl.concatenation NEQ TRUE) { /* * RL_RELEASE_REQ ==> */ rl_release_req(SMS_INST.ti); } return; } if (SMS_SEL_MEM(sms_data) EQ MEM_ME AND SMS_SEL_REC(sms_data) <= SMS_ME_PROP(sms_data).max_record) { UBYTE data[SIZE_EF_SMS]; if ((rec_num = tl_check_condx_send (&SMS_ME_PROP(sms_data), MEM_ME, SMS_CONDX(sms_data), SMS_SEL_REC(sms_data))) NEQ SMS_RECORD_NOT_EXIST) SMS_SEL_REC(sms_data) = rec_num; else { #ifdef REL99 if(SMS_INST.failed_msg_retx EQ FALSE) { #endif tl_mnsms_submit_cnf (MEM_ME, SMS_RECORD_NOT_EXIST, SMS_TP_REF_RET(sms_data), SMS_CAUSE_MEM_FULL, SMS_SDU(sms_data)); #ifdef REL99 } else { tl_mnsms_retrans_cnf (MEM_ME, SMS_RECORD_NOT_EXIST, SMS_TP_REF_RET(sms_data), SMS_CAUSE_MEM_FULL, SMS_SDU(sms_data)); } #endif break; } tl_convert_mo_to_mem (SMS_DATA_REQ(sms_data), data); /* Implements Measure#32: Row 113 */ if (pcm_WriteRecord ((UBYTE *)ef_sms_id, SMS_SEL_REC(sms_data), SIZE_EF_SMS, data) NEQ DRV_OK) { cause = SMS_CAUSE_MEM_FAIL; } } } /* * MNSMS_SUBMIT_CNF => */ #ifdef REL99 if(SMS_INST.failed_msg_retx EQ FALSE) { #endif tl_mnsms_submit_cnf (SMS_SEL_MEM(sms_data), SMS_RECORD_NOT_EXIST, SMS_TP_REF_RET(sms_data), cause, SMS_SDU(sms_data)); #ifdef REL99 } else { tl_mnsms_retrans_cnf (SMS_SEL_MEM(sms_data), SMS_RECORD_NOT_EXIST, SMS_TP_REF_RET(sms_data), cause, SMS_SDU(sms_data)); } #endif /* * concat control */ if ((sms_data->concat_cntrl.concatenation EQ TRUE) AND !CMMS_ACTIVE) { if (cause EQ SMS_NO_ERROR) { /* * 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); /* * do not release connection now */ sms_data->concat_cntrl.release_pending = TRUE; return; } else { /* * error case: end concatenation series */ sms_data->concat_cntrl.concatenation = FALSE; } } else { /* * cmms control */ if(CMMS_ACTIVE AND (sms_data->cmms_release_pending EQ TRUE)) { tl_cmms_start(); SMS_INST_SET_STATE (STATE_TL, TL_SEND_CONTD); if (sms_data->concat_cntrl.concatenation EQ TRUE) { if (cause EQ SMS_NO_ERROR) { sms_data->concat_cntrl.release_pending = TRUE; } else { /* * error case: end concatenation series */ sms_data->concat_cntrl.concatenation = FALSE; } } return; } else if(CMMS_ACTIVE) { tl_cmms_end(); } } break; /* -------------------------------------- */ case TL_COMMAND: /* -------------------------------------- */ #ifdef REL99 if(SMS_INST.failed_msg_retx EQ FALSE) { #endif tl_mnsms_command_cnf (SMS_TP_REF_RET(sms_data), cause, SMS_SDU(sms_data)); #ifdef REL99 } else { tl_mnsms_retrans_cnf (NOT_PRESENT_8BIT, SMS_RECORD_NOT_EXIST, SMS_TP_REF_RET(sms_data), cause, SMS_SDU(sms_data)); } #endif break; /* -------------------------------------- */ case TL_RECEIVE: /* -------------------------------------- */ if (!IS_CAUSE_INVALID(cause)) { switch (GET_STATE (STATE_NET)) { case NET_WRITE: case NET_READ: break; default: if (SMS_MT_ACK_MODE(sms_data) EQ SMS_MHC_PH2PLUS) tl_mnsms_error_ind ((USHORT)((GET_CAUSE_DEFBY(cause) EQ DEFBY_CONDAT)? cause: SMS_CAUSE_NET_TIMEOUT)); break; } SET_STATE (STATE_NET, NET_IDLE); } /* -------------------------------------- */ case TL_OTHER: /* -------------------------------------- */ if (GET_STATE (STATE_MMI) EQ MMI_DELETE) { if (!tl_sms_memo_exceeded (TRUE)) { if(SMS_REC_STATUS(sms_data) NEQ CMGD_DEL_INDEX) { if(SMS_SEL_MEM(sms_data) EQ MEM_SM) { /* 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), SMS_SEL_REC(sms_data), SMS_REC_STATUS(sms_data)); } else if(SMS_SEL_MEM(sms_data) EQ MEM_ME) { /* 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), 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); #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; } else { /* * RL_RELEASE_REQ ==> */ rl_release_req(SMS_INST.ti); return; } } else if (GET_STATE (STATE_MMI) EQ MMI_RESUME) { /* * <<acknowledgment>> of SMMA message for * user initiated RESUME * we expect here that the given tl_report_ind signal * is generated in the following cases: * - success (positive ack for smma) * - error (negative ack for smma) * - repeated timeout (waiting for ack exceeded limit) */ /* * Unset memory full condition in any case */ sms_data->pr_cntrl.delivery_state = SMS_DELIVER_STATUS_RESUME; /* * save cause */ if (IS_CAUSE_INVALID(cause)) { sms_data->pr_cntrl.save_cause = SMS_NO_ERROR; } else { sms_data->pr_cntrl.save_cause = cause; } /* * Unset notification flag on sim */ tl_sms_memo_resume(); break; } else if (GET_STATE (STATE_MMI) NEQ MMI_IDLE) { 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 break; } /*FALLTHROUGH*/ /*lint -fallthrough*/ /* -------------------------------------- */ case TL_IDLE: /* -------------------------------------- */ if (SMS_ENT_STATE(sms_data) EQ SMS_STATE_INITIALISING) { if (!tl_sms_memo_exceeded (TRUE)) { tl_mnsms_report_ind (SMS_ENT_STATE(sms_data) = SMS_STATE_READY); break; } else { /* * RL_RELEASE_REQ ==> */ rl_release_req(SMS_INST.ti); return; } } break; /* -------------------------------------- */ default: /* -------------------------------------- */ TRACE_EVENT("TL_REPORT_IND ignored"); break; } 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; /* * TL State Transition TL_IDLE */ SMS_INST_SET_STATE (STATE_TL, TL_IDLE); /* * RL_RELEASE_REQ ==> */ rl_release_req(SMS_INST.ti); } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_TLF | | STATE : code ROUTINE : tl_cmms_end | +--------------------------------------------------------------------+ PURPOSE : Function used for ending the CMMS Session */ GLOBAL void tl_cmms_end(void) { GET_INSTANCE_DATA; TRACE_FUNCTION ("tl_cmms_end()"); sms_data->cmms_release_pending = FALSE; sms_timer_stop(TMMS); tl_mnsms_cmms_end_ind(); } #endif /* #ifndef SMS_TLS_C */