FreeCalypso > hg > fc-magnetite
view src/g23m-gsm/sms/sms_rl.c @ 554:28ed4002131a
configs/* except classic and hybrid-gpf: all parts of TCS211 GPF
for which we found exact corresponding sources are now rebuilt
from those sources; only OSL and OSX remain as blobs,
plus CCD for non-hybrid configs
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Mon, 19 Nov 2018 00:12:20 +0000 |
parents | 27a4235405c6 |
children |
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/* +----------------------------------------------------------------------------- | Project : GSM-F&D (8411) | Modul : SMS_RL +----------------------------------------------------------------------------- | 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 relay layer | of the component SMS. +----------------------------------------------------------------------------- */ #ifndef SMS_RL_C #define SMS_RL_C #define ENTITY_SMS /*==== INCLUDES ===================================================*/ #define SAP_RR /* get RR causes until all causes are in one document */ #define SAP_MMCM /* same reason */ #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 "sms_em.h" /*==== EXPORT ======================================================*/ /*==== PRIVAT ======================================================*/ /*==== VARIABLES ===================================================*/ /*==== FUNCTIONS ===================================================*/ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_RL | | STATE : code ROUTINE : rl_init | +--------------------------------------------------------------------+ PURPOSE : Initialize the relay layer. */ GLOBAL void rl_init (void) { GET_INSTANCE_DATA; TRACE_FUNCTION ("rl_init()"); sms_data->data[0].state[STATE_RL] = RL_IDLE; sms_data->data[1].state[STATE_RL] = RL_IDLE; } /*---- SIGNALS -----------------------------------------------------*/ #ifdef GPRS GLOBAL void rl_proceed (void) { GET_INSTANCE_DATA; TRACE_FUNCTION ("rl_proceed()"); if (SMS_INST_GET_STATE (STATE_RL) EQ RL_WAIT_FOR_SEND_ERROR) { SMS_INST_SET_STATE (STATE_RL, RL_IDLE); tl_report_ind (NULL, CAUSE_MAKE(DEFBY_STD, ORIGSIDE_MS, SMSRP_ORIGINATING_ENTITY, SMS_RP_CS_PROTOCOL_ERROR)); } } #endif /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_RL | | STATE : code ROUTINE : rl_data_ind | +--------------------------------------------------------------------+ PURPOSE : Processing the signal RL_DATA_IND. */ GLOBAL void rl_data_ind (T_cp_user_data_dl *cp_user_data_dl) { GET_INSTANCE_DATA; TRACE_FUNCTION ("rl_data_ind()"); if (sms_data) { if (cp_user_data_dl->rp_mti EQ RP_ERROR_DL) TRACE_EVENT_P1 ("RP_ERROR.CAUSE rcvd: 0x%2.2X", (int)cp_user_data_dl->rp_error.rp_cause.rp_cause_value); switch (SMS_INST_GET_STATE (STATE_RL)) { /* ------------------------------------- */ case RL_ESTABLISHED: /* ------------------------------------- */ case RL_IDLE: /* ------------------------------------- */ { SMS_RP_REF(sms_data) = cp_user_data_dl->reference; if (cp_user_data_dl->rp_mti EQ RP_DATA_DL) { /* * RL state transition RL_WAIT_FOR_SEND_ACK */ SMS_INST_SET_STATE (STATE_RL, RL_WAIT_FOR_SEND_ACK); /* * start timer TR2M */ sms_timer_start(TR2M); SMS_EM_RECEIVE_RP_DATA; /* * TL_DATA_IND => */ tl_data_ind (&cp_user_data_dl->rp_data_dl); } else { MCAST (cp_data, U_CP_DATA); /* * If Message Id is unknwon then send RP-ERROR with cause #97 */ if(cp_user_data_dl->rp_mti > 0x06) { rl_build_rp_error (cp_user_data_dl->reference, SMS_RP_CS_MSG_NON_EXIST, cp_data, NULL); } else { rl_build_rp_error (cp_user_data_dl->reference, SMS_RP_CS_MSG_NOT_COMP, cp_data, NULL); } SMS_EM_SEND_RP_ERROR; cp_data_req (cp_data); /* * CP_RELEASE_REQ => */ TRACE_EVENT("CP_RELEASE_REQ_1"); cp_release_req (SMS_INST.ti); /* * free instance */ FREE_SMS_INSTANCE (SMS_INST.ti); } break; } /* ------------------------------------- */ case RL_WAIT_FOR_ACK: /* ------------------------------------- */ TRACE_FUNCTION ("rl_data_ind(): RP_WAIT_FOR_ACK"); switch (cp_user_data_dl->rp_mti) { case RP_ACK_DL: TRACE_FUNCTION ("rl_data_ind(): RP_ACK_DL"); /* * stop timer TR1M */ sms_timer_stop(TR1M); /* * RL state transition RL_IDLE */ SMS_INST_SET_STATE (STATE_RL, RL_IDLE); /* * if CMMS mode is 1 or 2 then only make cmm_release_pending TRUE */ if(CMMS_ACTIVE) { sms_data->cmms_release_pending = TRUE; } /* * TL_REPORT_IND => */ tl_report_ind (((cp_user_data_dl->rp_ack.v_rp_user_data)? &cp_user_data_dl->rp_ack.rp_user_data: NULL), SMS_NO_ERROR); /* Since the transmission is 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; } SMS_EM_RECEIVE_RP_AKNOWLEDGE; break; case RP_ERROR_DL: /* When an RP-error with appropriate case value is * is received, Retransmission of SMS is started */ { #ifdef REL99 BOOL retrans_flag = FALSE; #endif TRACE_FUNCTION ("rl_data_ind(): RP_ERROR_DL"); /* * stop timer TR1M */ sms_timer_stop(TR1M); /* * if CMMS mode is 1 or 2 then only make cmm_release_pending TRUE */ if(CMMS_ACTIVE) { sms_data->cmms_release_pending = TRUE; } #ifdef REL99 /* * This is done for Retransmission for the causes * listed in the table 8.4/3gPP TS 24.011(Part 1) */ if (SMS_INST.tl_retx < TL_MAX_RETANS) { /* Check whether the cause value satisfies the one for retransmission * listed in the table 8.4/3gPP TS 24.011(Part 1) */ switch(cp_user_data_dl->rp_error.rp_cause.rp_cause_value) { case SMS_RP_CS_UNASSIGNED_NUMBER: case SMS_RP_CS_OPERATOR_DET_BARRED: case SMS_RP_CS_CALL_BARRED: case SMS_RP_CS_SM_TRANSFER_REJECTED: case SMS_RP_CS_MEM_CAP_EXCEEDED: case SMS_RP_CS_UNIDENT_SUBSCRIBER: case SMS_RP_CS_FACILITY_REJECTED: case SMS_RP_CS_UNKNOWN_SUBSCRIBER: case SMS_RP_CS_NET_OUT_OF_ORDER: case SMS_RP_CS_NO_RESOURCES: case SMS_RP_CS_FAC_NOT_SUBSCRIBED: case SMS_RP_CS_FAC_NOT_IMPL: case SMS_RP_CS_INV_SM_TR_REF_VAL: case SMS_RP_CS_SEM_INC_MSG: case SMS_RP_CS_INV_MAND_INFO: case SMS_RP_CS_MSG_NON_EXIST: case SMS_RP_CS_INFO_NON_EXIST: case SMS_RP_CS_PROTOCOL_ERROR: case SMS_RP_CS_INTERWORKING: retrans_flag = FALSE; break; /* All values other than the ones above are treated as temporary failures. This includes SMS_RP_CS_DEST_OUT_OF_ORDER, SMS_RP_CS_TEMP_FAILURE, SMS_RP_CS_CONGESTION, SMS_RP_CS_MSG_NOT_COMP and others non-standard values are taken as temporary error */ default: retrans_flag = TRUE; break; } } if(retrans_flag EQ TRUE) { TRACE_EVENT ("Retransmission cause received"); cp_release_req(SMS_INST.ti); TIMERSTART (SMS_INST_TR1M, 20000); TRACE_EVENT ("Delay expiry TR1M, retransmit"); } else #endif { /* * RL state transition RL_IDLE */ SMS_INST_SET_STATE (STATE_RL, RL_IDLE); tl_report_ind (((cp_user_data_dl->rp_error.v_rp_user_data)? &cp_user_data_dl->rp_error.rp_user_data: NULL), CAUSE_MAKE(DEFBY_STD, ORIGSIDE_NET, SMSRP_ORIGINATING_ENTITY, cp_user_data_dl->rp_error.rp_cause.rp_cause_value)); SMS_EM_RECEIVE_RP_ERROR; } } break; default: TRACE_FUNCTION ("rl_data_ind(): default"); /* * stop timer TR1M */ sms_timer_stop(TR1M); { MCAST (cp_data_ul, U_CP_DATA); /* * If Message Id is unknwon then send RP-ERROR with cause #97 */ if(cp_user_data_dl->rp_mti > 0x06) { rl_build_rp_error (cp_user_data_dl->reference, SMS_RP_CS_MSG_NON_EXIST, cp_data_ul, NULL); } else { rl_build_rp_error (cp_user_data_dl->reference, SMS_RP_CS_PROTOCOL_ERROR, cp_data_ul, NULL); } cp_data_req (cp_data_ul); } #ifdef GPRS /* interworking from flow control */ if (SMS_LLC_FLOW(sms_data) NEQ SMS_LLC_BUSY_WAITING) #endif { SMS_INST_SET_STATE (STATE_RL, RL_IDLE); /* * if CMMS mode is 1 or 2 and current link used is GSM then only * make cmm_release_pending TRUE */ #ifdef GPRS if(CMMS_ACTIVE AND (SMS_INST.downlink EQ SMS_DOWNLINK_MMSMS)) { sms_data->cmms_release_pending = TRUE; } #endif /* * TL_REPORT_IND => */ /* * If Message Id is unknwon then send TL REPORT IND with cause #97 */ if(cp_user_data_dl->rp_mti > 0x06) { tl_report_ind (NULL, CAUSE_MAKE(DEFBY_STD, ORIGSIDE_MS, SMSRP_ORIGINATING_ENTITY, SMS_RP_CS_MSG_NON_EXIST)); } else { tl_report_ind (NULL, CAUSE_MAKE(DEFBY_STD, ORIGSIDE_MS, SMSRP_ORIGINATING_ENTITY, SMS_RP_CS_PROTOCOL_ERROR)); } } #ifdef GPRS else { SMS_INST_SET_STATE (STATE_RL, RL_WAIT_FOR_SEND_ERROR); } #endif SMS_EM_RECEIVE_UNKNOWN_2; break; } break; case RL_WAIT_FOR_SEND_ACK: TRACE_FUNCTION ("rl_data_ind(): RP_WAIT_FOR_SEND_ACK"); { MCAST (cp_data_ul, U_CP_DATA); /* * If Message Id is unknwon then send RP-ERROR with cause #97 */ if(cp_user_data_dl->rp_mti > 0x06) { rl_build_rp_error (cp_user_data_dl->reference, SMS_RP_CS_MSG_NON_EXIST, cp_data_ul, NULL); } else { rl_build_rp_error (cp_user_data_dl->reference, SMS_RP_CS_PROTOCOL_ERROR, cp_data_ul, NULL); } cp_data_req (cp_data_ul); } break; /* ------------------------------------- */ case RL_WAIT_FOR_SMMA_ACK: /* ------------------------------------- */ TRACE_FUNCTION ("rl_data_ind(): RP_WAIT_FOR_SMMA_ACK"); switch (cp_user_data_dl->rp_mti) { case RP_ACK_DL: TRACE_FUNCTION ("rl_data_ind(): RP_ACK_DL"); /* * stop timer TR1M */ sms_timer_stop(TR1M); SMS_INST.retrans = FALSE; /* * RL state transition RL_IDLE */ SMS_INST_SET_STATE (STATE_RL, RL_IDLE); /* * TL_REPORT_IND => */ tl_report_ind (NULL, SMS_NO_ERROR); break; case RP_ERROR_DL: TRACE_FUNCTION ("rl_data_ind(): RP_ERROR_DL"); if (rl_temp_failure (cp_user_data_dl->rp_error. rp_cause.rp_cause_value)) { if (SMS_INST.retrans) { /* * RL state transition RL_IDLE */ SMS_INST_SET_STATE (STATE_RL, RL_IDLE); SMS_INST.retrans = FALSE; /* * TL_REPORT_IND => */ tl_report_ind (NULL, CAUSE_MAKE(DEFBY_STD, ORIGSIDE_NET, SMSRP_ORIGINATING_ENTITY, cp_user_data_dl->rp_error.rp_cause.rp_cause_value)); sms_timer_stop(TR1M); tl_sms_memo_exceeded (TRUE); /* * stop timer TR1M */ } else { SMS_INST.retrans = TRUE; /* * RL state transition RL_WAIT_FOR_RETRANS_TIMER */ SMS_INST_SET_STATE (STATE_RL, RL_WAIT_FOR_RETRANS_TIMER); /* * stop timer TR1M */ sms_timer_stop(TR1M); /* * start timer TRAM */ sms_timer_start(TRAM); /* * CP_RELEASE_REQ => */ TRACE_EVENT("CP_RELEASE_REQ_11"); cp_release_req (SMS_INST.ti); } } else { /* * stop timer TR1M */ sms_timer_stop(TR1M); SMS_INST.retrans = FALSE; /* * RL state transition RL_IDLE */ SMS_INST_SET_STATE (STATE_RL, RL_IDLE); /* * TL_REPORT_IND => */ tl_report_ind (NULL, CAUSE_MAKE(DEFBY_STD, ORIGSIDE_NET, SMSRP_ORIGINATING_ENTITY, cp_user_data_dl->rp_error.rp_cause.rp_cause_value)); tl_sms_memo_exceeded (TRUE); } break; default: TRACE_FUNCTION ("rl_data_ind(): default"); /* * stop timer TR1M */ sms_timer_stop(TR1M); SMS_INST.retrans = FALSE; /* * RL state transition RL_IDLE */ SMS_INST_SET_STATE (STATE_RL, RL_IDLE); /* * If Message Id is unknwon then send RP-ERROR with cause #97 */ if(cp_user_data_dl->rp_mti > 0x06) { MCAST (cp_data, U_CP_DATA); rl_build_rp_error (cp_user_data_dl->reference, SMS_RP_CS_MSG_NON_EXIST, cp_data, NULL); SMS_EM_SEND_RP_ERROR; cp_data_req (cp_data); tl_report_ind (NULL, CAUSE_MAKE(DEFBY_STD, ORIGSIDE_MS, SMSRP_ORIGINATING_ENTITY, SMS_RP_CS_MSG_NON_EXIST)); } break; } break; } } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_RL | | STATE : code ROUTINE : rl_establish_req | +--------------------------------------------------------------------+ PURPOSE : Processing the signal RL_ESTABLISH_REQ. */ GLOBAL void rl_establish_req (UBYTE ti) { GET_INSTANCE_DATA; TRACE_FUNCTION_P1 ("rl_establish_req(TI=%u)", ti); switch (SMS_INST_GET_STATE (STATE_RL)) { case RL_IDLE: /* * RL state transition RL_ESTABLISH */ SMS_INST_SET_STATE (STATE_RL, RL_ESTABLISH); /* * CP_ESTABLISH_REQ => */ cp_establish_req(ti); /* * start timer TR1M */ sms_data->timer_ti = ti; sms_timer_start(TR1M); break; default: TRACE_ERROR("RL_ESTABLISH_REQ in wrong state received!"); } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_RL | | STATE : code ROUTINE : rl_establish_cnf | +--------------------------------------------------------------------+ PURPOSE : Processing the signal RL_ESTABLISH_CNF. */ GLOBAL void rl_establish_cnf (BOOL success) { GET_INSTANCE_DATA; TRACE_FUNCTION ("rl_establish_cnf()"); switch (SMS_INST_GET_STATE (STATE_RL)) { case RL_ESTABLISH: /* * stop timer TR1M */ sms_timer_stop(TR1M); if (success EQ TRUE) { /* * RL state transition RL_ESTABLISHED */ SMS_INST_SET_STATE (STATE_RL, RL_ESTABLISHED); } else { /* * RL state transition RL_IDLE */ SMS_INST_SET_STATE (STATE_RL, RL_IDLE); } /* * TL_ESTABLISH_CNF => */ tl_establish_cnf(success); break; default: TRACE_ERROR("RL_ESTABLISH_CNF in wrong state received!"); } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_RL | | STATE : code ROUTINE : rl_release_req | +--------------------------------------------------------------------+ PURPOSE : Processing the signal RL_RELEASE_REQ. */ GLOBAL void rl_release_req ( UBYTE ti) { TRACE_FUNCTION_P1 ("rl_release_req(TI=%u)", ti); /* * CP_RELEASE_REQ => */ TRACE_EVENT("CP_RELEASE_REQ_13"); cp_release_req(ti); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_RL | | STATE : code ROUTINE : rl_data_req | +--------------------------------------------------------------------+ PURPOSE : Processing the signal RL_DATA_REQ. */ GLOBAL BOOL rl_data_req (UBYTE msg_ref, T_U_CP_DATA *cp_data) { GET_INSTANCE_DATA; TRACE_FUNCTION ("rl_data_req()"); if (sms_data) { switch (SMS_INST_GET_STATE (STATE_RL)) { case RL_ESTABLISHED: { SMS_INST.msg_ref = msg_ref; /* * RL state transtion RL_WAIT_FOR_ACK */ SMS_INST_SET_STATE (STATE_RL, RL_WAIT_FOR_ACK); SMS_EM_SEND_RP_DATA; cp_data->cp_user_data_ul.rp_mti = RP_DATA_UL; cp_data->cp_user_data_ul.reference = msg_ref; /* * CP_DATA_REQ => */ cp_data_req (cp_data); /* * start timer TR1M */ sms_timer_start(TR1M); return TRUE; } default: TRACE_ERROR("RL_DATA_REQ in wrong state received!"); break; } } return FALSE; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_RL | | STATE : code ROUTINE : rl_error_ind | +--------------------------------------------------------------------+ PURPOSE : Processing the signal RL_ERROR_IND. */ GLOBAL void rl_error_ind (USHORT cause) { GET_INSTANCE_DATA; TRACE_FUNCTION ("rl_error_ind()"); if (sms_data) { switch (SMS_INST_GET_STATE (STATE_RL)) { /* --------------------------------- */ case RL_ESTABLISH: /* --------------------------------- */ if ( SMS_INST.tl_retx < TL_MAX_RETANS ) { switch ( cause ) { case MMCM_MMCS_MESSAGE_INCOMPAT: case RRCS_NORM: /* * start timer TR1M with value */ TIMERSTART ( SMS_INST_TR1M, 20000 ); TRACE_EVENT ( "Delay expiry TR1M, retransmit" ); return; default: /* No retransmission */ break; } } /* * stop timer TR1M */ sms_timer_stop(TR1M); /*FALLTHROUGH*/ /*lint -fallthrough*/ /* --------------------------------- */ case RL_ESTABLISHED: /* --------------------------------- */ /* * RL state transition RL_IDLE */ SMS_INST_SET_STATE (STATE_RL, RL_IDLE); /* * free instance */ FREE_SMS_INSTANCE (SMS_INST.ti); /* * TL_REPORT_IND */ tl_report_ind (NULL, cause); break; /* --------------------------------- */ case RL_WAIT_FOR_ACK: /* --------------------------------- */ TRACE_FUNCTION ("rl_error_ind(): RL_WAIT_FOR_ACK"); /* * The following code is to implement a subset of * 3GPP 23.040 Release 1999 subclause 9.2.3.6. * For certain errors the SMS SUBMIT / SMS COMMAND is repeated * after timeout of TR1M. */ TRACE_EVENT_P2 ("TL retrans #%d, error_cs %04x", SMS_INST.tl_retx, cause); if (SMS_INST.tl_retx < TL_MAX_RETANS) { switch (cause) { case SMS_CAUSE_NET_TIMEOUT: /* 11.10 test case 34.2.2 step 68 */ /* * start timer TR1M with value */ TIMERSTART (SMS_INST_TR1M, 20000); TRACE_EVENT ("Delay expiry TR1M, retransmit"); return; case RRCS_NORM: case MMCM_MMCS_MESSAGE_INCOMPAT: /* Make cingular happy, #19189 */ TRACE_EVENT ("Retransmission after TR1M"); return; default: /* No retransmission */ break; } } /* * stop timer TR1M */ sms_timer_stop(TR1M); /* * RL state transition RL_IDLE */ SMS_INST_SET_STATE (STATE_RL, RL_IDLE); /* * free instance */ FREE_SMS_INSTANCE (SMS_INST.ti); /* * TL_REPORT_IND => */ tl_report_ind (NULL, cause); break; /* --------------------------------- */ case RL_WAIT_FOR_SEND_ACK: /* --------------------------------- */ TRACE_FUNCTION ("rl_error_ind(): RL_WAIT_FOR_SEND_ACK"); /* * free instance */ FREE_SMS_INSTANCE (SMS_INST.ti); /* * stop timer TR2M */ sms_timer_stop(TR2M); /* * RL state transition RL_IDLE */ SMS_INST_SET_STATE (STATE_RL, RL_IDLE); /* * TL_REPORT_IND => */ tl_report_ind (NULL, cause); break; /* --------------------------------- */ case RL_WAIT_FOR_SMMA_ACK: /* --------------------------------- */ TRACE_FUNCTION ("rl_error_ind(): RL_WAIT_FOR_SMMA_ACK"); // FREE_SMS_INSTANCE (SMS_INST.ti); if (SMS_INST.retrans) { /* * RL state transition RL_IDLE */ SMS_INST_SET_STATE (STATE_RL, RL_IDLE); SMS_INST.retrans = FALSE; /* * TL_REPORT_IND => */ tl_report_ind (NULL, SMS_CAUSE_NET_TIMEOUT); /* * stop timer TR1M */ sms_timer_stop(TR1M); tl_sms_memo_exceeded (TRUE); } else { SMS_INST.retrans = TRUE; /* * RL state transition RL_WAIT_FOR_RETRANS_TIMER */ SMS_INST_SET_STATE (STATE_RL, RL_WAIT_FOR_RETRANS_TIMER); /* * stop timer TR1M */ sms_timer_stop(TR1M); /* * start timer TRAM */ sms_timer_start(TRAM); /* * CP_RELEASE_REQ => */ TRACE_EVENT("CP_RELEASE_REQ_15"); cp_release_req (SMS_INST.ti); /* * free instance */ FREE_SMS_INSTANCE (SMS_INST.ti); } break; default: if(CMMS_ACTIVE) { tl_cmms_end(); } /* * free instance */ FREE_SMS_INSTANCE (SMS_INST.ti); /* * RL state transition RL_IDLE */ SMS_INST_SET_STATE (STATE_RL, RL_IDLE); break; } } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_RL | | STATE : code ROUTINE : rl_mem_avail_req | +--------------------------------------------------------------------+ PURPOSE : Processing the signal RL_MEM_AVAIL_REQ. */ GLOBAL BOOL rl_mem_avail_req (void) { GET_INSTANCE_DATA; TRACE_FUNCTION ("rl_mem_avail_req()"); if (sms_data) { switch (SMS_INST_GET_STATE (STATE_RL)) { case RL_ESTABLISHED: { CCD_START; { MCAST (cp_data, U_CP_DATA); /* * RL state transition RL_WAIT_FOR_SMMA_ACK */ SMS_INST_SET_STATE (STATE_RL, RL_WAIT_FOR_SMMA_ACK); SMS_RP_REF(sms_data) = SMS_INST.tp_mr; rl_build_rp_smma (SMS_RP_REF(sms_data), cp_data); CCD_END; /* * CP_DATA_REQ => */ cp_data_req (cp_data); } /* * start timer TR1M */ sms_timer_start(TR1M); return TRUE; default: TRACE_ERROR("RL_MEM_AVAIL_REQ in wrong state received!"); break; } } } return FALSE; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_RL | | STATE : code ROUTINE : rl_start_tram_req | +--------------------------------------------------------------------+ PURPOSE : Processing the signal RL_START_TRAM_REQ. */ GLOBAL void rl_start_tram_req (void) { GET_INSTANCE_DATA; TRACE_FUNCTION ("rl_start_tram_req()"); SMS_INST.retrans = TRUE; /* * RL state transition RL_WAIT_FOR_RETRANS_TIMER */ SMS_INST_SET_STATE (STATE_RL, RL_WAIT_FOR_RETRANS_TIMER); /* * start timer TRAM */ sms_timer_start(TRAM); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_RL | | STATE : code ROUTINE : rl_build_rp_ack | +--------------------------------------------------------------------+ PURPOSE : Processing the function RL_BUILD_RP_ACK. */ LOCAL void rl_build_rp_ack (UBYTE msg_ref, T_U_CP_DATA *cp_data, T_rp_user_data *rp_user_data) { TRACE_FUNCTION ("rl_build_rp_ack()"); memset (&cp_data->cp_user_data_ul.rp_ack, 0, sizeof (T_rp_ack)); cp_data->msg_type = U_CP_DATA; cp_data->cp_user_data_ul.rp_mti = RP_ACK_UL; cp_data->cp_user_data_ul.reference = msg_ref; cp_data->cp_user_data_ul.v_rp_data_ul = FALSE; cp_data->cp_user_data_ul.v_rp_error = FALSE; cp_data->cp_user_data_ul.v_rp_ack = TRUE; if (rp_user_data NEQ NULL AND rp_user_data->v_tpdu) { memcpy (&cp_data->cp_user_data_ul.rp_ack.rp_user_data, rp_user_data, sizeof (T_rp_user_data)); cp_data->cp_user_data_ul.rp_ack.v_rp_user_data = TRUE; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_RL | | STATE : code ROUTINE : rl_report_req_ack | +--------------------------------------------------------------------+ PURPOSE : Processing the signal RL_REPORT_REQ_ACK. */ GLOBAL void rl_report_req_ack (T_rp_user_data *rp_user_data) { GET_INSTANCE_DATA; TRACE_FUNCTION ("rl_report_req_ack()"); if (sms_data) { switch (SMS_INST_GET_STATE (STATE_RL)) { case RL_WAIT_FOR_SEND_ACK: { MCAST (cp_data, U_CP_DATA); /* * stop timer TR2M */ sms_timer_stop(TR2M); rl_build_rp_ack (SMS_RP_REF(sms_data), cp_data, rp_user_data); /* * RL state transition RL_IDLE */ SMS_INST_SET_STATE (STATE_RL, RL_IDLE); /* * CP_DATA / RP_ACK ==> */ cp_data_req (cp_data); /* * CP_RELEASE_REQ => */ TRACE_EVENT("CP_RELEASE_REQ_16"); cp_release_req (SMS_INST.ti); break; } default: break; } } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_RL | | STATE : code ROUTINE : rl_build_rp_error | +--------------------------------------------------------------------+ PURPOSE : Processing the function RL_BUILD_RP_ERROR. */ GLOBAL void rl_build_rp_error (UBYTE msg_ref, USHORT error, T_U_CP_DATA *cp_data, T_rp_user_data *rp_user_data) { TRACE_FUNCTION ("rl_build_rp_error()"); TRACE_EVENT_P1 ("RP_ERROR.CAUSE sent: 0x%2.2X", (int)error); memset (&cp_data->cp_user_data_ul.rp_error, 0, sizeof (T_rp_error)); cp_data->msg_type = U_CP_DATA; cp_data->cp_user_data_ul.rp_mti = RP_ERROR_UL; cp_data->cp_user_data_ul.reference = msg_ref; cp_data->cp_user_data_ul.v_rp_data_ul = FALSE; cp_data->cp_user_data_ul.v_rp_ack = FALSE; cp_data->cp_user_data_ul.v_rp_error = TRUE; cp_data->cp_user_data_ul.rp_error. rp_cause.v_rp_cause_value = TRUE; if (error < 128) /* GSM 04.11 cause */ { cp_data->cp_user_data_ul.rp_error. rp_cause.rp_cause_value = (UBYTE)error; } else { cp_data->cp_user_data_ul.rp_error. rp_cause.rp_cause_value = SMS_RP_CS_PROTOCOL_ERROR; cp_data->cp_user_data_ul.rp_error. v_rp_user_data = TRUE; } if (rp_user_data NEQ NULL AND rp_user_data->v_tpdu) { memcpy (&cp_data->cp_user_data_ul.rp_error.rp_user_data, rp_user_data, sizeof (T_rp_user_data)); cp_data->cp_user_data_ul.rp_error.v_rp_user_data = TRUE; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_RL | | STATE : code ROUTINE : rl_report_req_error | +--------------------------------------------------------------------+ PURPOSE : Processing the signal RL_REPORT_REQ_ERROR. */ GLOBAL void rl_report_req_error (USHORT cause, T_rp_user_data *rp_user_data) { GET_INSTANCE_DATA; TRACE_FUNCTION ("rl_report_req_error()"); if (sms_data) { switch (SMS_INST_GET_STATE (STATE_RL)) { case RL_WAIT_FOR_SEND_ACK: { MCAST (cp_data, U_CP_DATA); /* * stop timer TR2M */ sms_timer_stop(TR2M); rl_build_rp_error (SMS_RP_REF(sms_data), cause, cp_data, rp_user_data); /* * RL state transition RL_IDLE */ SMS_INST_SET_STATE (STATE_RL, RL_IDLE); /* * CP_DATA / RP_ERROR ==> */ cp_data_req (cp_data); break; } default: break; } } } #if defined (GPRS) /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_RL | | STATE : code ROUTINE : rl_build_rp_error_gprs | +--------------------------------------------------------------------+ PURPOSE : Processing the function RL_BUILD_RP_ERROR for GSMS. */ GLOBAL void rl_build_rp_error_gprs (UBYTE ti, T_LL_UNITDATA_REQ *data_req, USHORT error, UBYTE msg_ref, T_U_CP_DATA *cp_data, T_stk_cmd *stk_cmd) { TRACE_FUNCTION ("rl_build_rp_error_gprs()"); TRACE_EVENT_P1 ("RP_ERROR.CAUSE sent: 0x%4.2X", (int)error); data_req->sdu.o_buf = ENCODE_OFFSET; cp_data->msg_type = U_CP_DATA; cp_data->cp_user_data_ul.rp_mti = RP_ERROR_UL; cp_data->cp_user_data_ul.reference = msg_ref; cp_data->cp_user_data_ul.v_rp_data_ul = FALSE; cp_data->cp_user_data_ul.v_rp_error = TRUE; memset (&cp_data->cp_user_data_ul.rp_error.rp_cause, 0, sizeof (T_rp_cause)); cp_data->cp_user_data_ul.rp_error. rp_cause.v_rp_cause_value = TRUE; if (error < 128) /* GSM 04.11 cause */ { cp_data->cp_user_data_ul.rp_error. rp_cause.rp_cause_value = (UBYTE)error; cp_data->cp_user_data_ul.rp_error. v_rp_user_data = FALSE; } else { cp_data->cp_user_data_ul.rp_error. rp_cause.rp_cause_value = SMS_RP_CS_PROTOCOL_ERROR; cp_data->cp_user_data_ul.rp_error. v_rp_user_data = TRUE; memset (&cp_data->cp_user_data_ul.rp_error.rp_user_data, 0, sizeof (T_rp_user_data)); if (error >= 256) /* no GSM 03.40 cause */ error = SMS_FCS_UNSPECIFIED; cp_data->cp_user_data_ul.rp_error.rp_user_data. v_tpdu = TRUE; /* cp_data->cp_user_data_ul.rp_error.rp_user_data. sms_deliver_rep_err.tp_fcs = (UBYTE)error; */ } ccd_codeMsg (CCDENT_SMS, UPLINK, (T_MSGBUF *) &data_req->sdu, (UBYTE *) cp_data, NOT_PRESENT_8BIT); /*lint -e415 -e416 Likely creation/access of out-of-bounds pointer */ data_req->sdu.buf[3] = (ti << 4) + PD_SMS; data_req->sdu.o_buf = ENCODE_OFFSET - BSIZE_TI_PD; data_req->sdu.l_buf += BSIZE_TI_PD; if (stk_cmd NEQ NULL) { /* * response from a SIM Toolkit command */ if (stk_cmd->l_cmd NEQ 0) { /* * response TPDU available */ /* change length of rp-error */ data_req->sdu.buf[5] += ((stk_cmd->l_cmd >> 3) + 2); /* add IEI for rp user data */ data_req->sdu.buf[10] = 0x41; /* add length for rp user data */ data_req->sdu.buf [11] = stk_cmd->l_cmd >> 3; /* add TPDU */ memcpy (&data_req->sdu.buf [12], &stk_cmd->cmd[stk_cmd->o_cmd>>3], stk_cmd->l_cmd>>3); /* modify length of CP Data */ data_req->sdu.l_buf += (stk_cmd->l_cmd + 16); } } /*lint +e415 +e416 Likely creation/access of out-of-bounds pointer */ } #endif /* GPRS */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_RL | | STATE : code ROUTINE : rl_build_rp_smma | +--------------------------------------------------------------------+ PURPOSE : Processing the function RL_BUILD_RP_SMMA. */ GLOBAL void rl_build_rp_smma (UBYTE msg_ref, T_U_CP_DATA *cp_data) { TRACE_FUNCTION ("rl_build_rp_smma()"); cp_data->cp_user_data_ul.rp_mti = RP_SMMA_UL; cp_data->cp_user_data_ul.reference = msg_ref; cp_data->cp_user_data_ul.v_rp_data_ul = FALSE; cp_data->cp_user_data_ul.v_rp_error = FALSE; cp_data->cp_user_data_ul.v_rp_ack = FALSE; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (8410) MODULE : SMS_RL | | STATE : code ROUTINE : rl_temp_failure | +--------------------------------------------------------------------+ PURPOSE : Processing the function RL_TEMP_FAILURE. This is valid for memory available notification attempt. [04.11 Table 8.4 part 3] */ GLOBAL UBYTE rl_temp_failure (UBYTE cause) { TRACE_FUNCTION ("rl_temp_failure()"); switch (cause) { case SMS_RP_CS_UNKNOWN_SUBSCRIBER: case SMS_RP_CS_FAC_NOT_IMPL: case SMS_RP_CS_SEM_INC_MSG: case SMS_RP_CS_INV_MAND_INFO: case SMS_RP_CS_MSG_NON_EXIST: case SMS_RP_CS_MSG_NOT_COMP: case SMS_RP_CS_INFO_NON_EXIST: case SMS_RP_CS_PROTOCOL_ERROR: case SMS_RP_CS_INTERWORKING: return FALSE; /* Non-temporary */ default: return TRUE; /* Temporary */ } } #endif /* #ifndef SMS_RL_C */