FreeCalypso > hg > fc-tourmaline
view src/g23m-gsm/rr/rr_datp.c @ 267:10b3a6876273
fc-target.h preprocessor symbols: introduce CONFIG_TARGET_LEO_RFFE
Out of our currently existing supported targets, Leonardo and Tango
use TI's classic Leonardo RFFE wiring. However, we would like to
use the same quadband RFFE with the same classic wiring on our
FreeCalypso Libre Dumbphone handset, and also on the planned
development board that will serve as a stepping stone toward that
goal. Therefore, we introduce the new CONFIG_TARGET_LEO_RFFE
preprocessor symbol, and conditionalize on this symbol in tpudrv12.h,
instead of a growing || of different targets.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Wed, 09 Jun 2021 07:26:51 +0000 |
parents | fa8dc04885d8 |
children |
line wrap: on
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/* +----------------------------------------------------------------------------- | Project : | Modul : +----------------------------------------------------------------------------- | 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 data transfer | capability of the module Radio Resource. +----------------------------------------------------------------------------- */ #ifndef RR_DATP_C #define RR_DATP_C #define ENTITY_RR /*==== INCLUDES ===================================================*/ #include <string.h> #include <stdlib.h> #include <stddef.h> /* offsetof */ #include <stdio.h> /* sprintf */ #include "typedefs.h" #include "pcm.h" #include "pconst.cdg" #include "mconst.cdg" #include "message.h" #include "ccdapi.h" #include "vsi.h" #include "custom.h" #include "gsm.h" #include "prim.h" #include "cnf_rr.h" #include "tok.h" #include "rr.h" #include "rr_em.h" /*==== EXPORT =====================================================*/ #if defined (REL99) && defined (TI_PS_FF_EMR) #define MAX_MSTRUCT_CCD_RR MAXIMUM(MAX_MSTRUCT_LEN_RR_SHORT, MAX_MSTRUCT_LEN_RR) GLOBAL UBYTE _decodedMsg [MAX_MSTRUCT_CCD_RR]; #else GLOBAL UBYTE _decodedMsg [MAX_MSTRUCT_LEN_RR]; #endif /*==== PRIVAT =====================================================*/ /*==== VARIABLES ==================================================*/ /*==== FUNCTIONS ==================================================*/ /* * ------------------------------------------------------------------- * PRIMITIVE Processing functions * ------------------------------------------------------------------- */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_DAT | | STATE : code ROUTINE : dat_init_rr_data | +--------------------------------------------------------------------+ PURPOSE : Initialize the RR data for the module data transfer. */ GLOBAL void dat_init_rr_data (void) { GET_INSTANCE_DATA; TRACE_FUNCTION ("dat_init_rr_data()"); SET_STATE (STATE_DAT, DAT_NULL); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_DAT | | STATE : code ROUTINE : dat_dl_establish_cnf | +--------------------------------------------------------------------+ PURPOSE : Process the primitive DL_ESTABLISH_CNF received from DL. */ GLOBAL void dat_dl_establish_cnf (T_DL_ESTABLISH_CNF *dl_establish_cnf_orig) { GET_INSTANCE_DATA; /* * sys infos during l2 establishment are * lost, inform layer 1 to send them again */ PPASS(dl_establish_cnf_orig, dl_establish_cnf, DL_ESTABLISH_CNF); TRACE_FUNCTION ("dat_dl_establish_cnf()"); rr_data->net_lost = FALSE; TRACE_EVENT_P1("rr_data->net_lost = %u", rr_data->net_lost); switch (GET_STATE (STATE_DAT)) { case DAT_CHAN_ASS_1: case DAT_CHAN_ASS_2: case DAT_IMM_ASS_1: break; default : if (dl_establish_cnf->sapi EQ SAPI_0) { PALLOC (mph_sync_req, MPH_SYNC_REQ); mph_sync_req->cs = CS_CLEAN_SYS_INFO; PSENDX (PL, mph_sync_req); } break; } switch (GET_STATE (STATE_DAT)) { case DAT_CHAN_ASS_1: /* * successfull establishment of new layer 2 connection * after channel assignment */ EM_DL_ESTABLISH_CNF; PFREE (dl_establish_cnf); if (rr_data->sc_data.ch_mode NEQ rr_data->cr_data.ch_mode) { /* * a changed channel mode has been detected. * update channel description and channel mode * for the serving cell and inform MM about the * new channel mode. */ memcpy (&rr_data->sc_data.chan_desc, &rr_data->cr_data.chan_desc, sizeof (T_chan_desc)); rr_data->sc_data.ch_mode = rr_data->cr_data.ch_mode; dat_code_channel_mode_to_mm (); } if (rr_data->cr_data.ciph_on NEQ rr_data->sc_data.ciph_on) { /* * the ciphering has changed. Inform MM about the new * ciphering. */ dat_code_ciphering_to_mm (rr_data->cr_data.ciph_on); } /* * copy cr data to sc data and go back to normal dedicated mode. */ rr_data->sc_data.ciph_on = rr_data->cr_data.ciph_on; rr_data->sc_data.algo = rr_data->cr_data.algo; rr_data->sc_data.ch_mode = rr_data->cr_data.ch_mode; rr_data->sc_data.cd.v_cell_chan_desc = rr_data->cr_data.cd.v_cell_chan_desc; memcpy (&rr_data->sc_data.cd.cell_chan_desc, &rr_data->cr_data.cd.cell_chan_desc, sizeof (T_LIST)); memcpy (&rr_data->sc_data.chan_desc, &rr_data->cr_data.chan_desc, sizeof (T_chan_desc)); memcpy (&rr_data->sc_data.amr_conf, &rr_data->cr_data.amr_conf, sizeof (T_multirate_conf)); rr_data->nc_data[CR_INDEX].arfcn = NOT_PRESENT_16BIT; att_remove_multiple_channels (); SET_STATE (STATE_SAPI_3, SMS_IDLE); srv_use_stored_prim (); dat_set_last_used_channel (&rr_data->sc_data.chan_desc); att_dat_dedicated (); dat_emo_stop ( TRUE ); SET_STATE (STATE_DAT, DAT_DEDICATED); rr_data->mode_after_dedi = MODE_CELL_RESELECTION; break; case DAT_CHAN_ASS_2: /* * successfull reconnection on old channel after failed * channel assignment * * update some parameters to go back to normal dedicated mode. */ PFREE (dl_establish_cnf); srv_use_stored_prim (); SET_STATE (STATE_SAPI_3, SMS_IDLE); att_dat_dedicated (); rr_data->nc_data[CR_INDEX].arfcn = NOT_PRESENT_16BIT; SET_STATE (STATE_DAT, DAT_DEDICATED); rr_data->mode_after_dedi = MODE_CELL_RESELECTION; EM_ASS_FAILURE_RECONNECT_SUCCESS; break; case DAT_DEDICATED: /* * An establish confirm in normal dedicated mode is only * expected for short messages (SAPI 3) */ if (dl_establish_cnf->sapi EQ SAPI_3) { SET_STATE (STATE_SAPI_3, SMS_ESTABLISHED); srv_use_stored_prim (); } PFREE (dl_establish_cnf); break; case DAT_HANDOVER_4: TRACE_EVENT ("DL_ESTABLISH_CNF"); EM_L2_CONNECTION_ESTABLISHED; PFREE (dl_establish_cnf); /* * successfull establishment of new layer 2 connection * after handover */ if (rr_data->sc_data.ch_mode NEQ rr_data->cr_data.ch_mode) { /* * a changed channel mode has been detected. * update channel description and channel mode * for the serving cell and inform MM about the * new channel mode. */ memcpy (&rr_data->sc_data.chan_desc, &rr_data->cr_data.chan_desc, sizeof (T_chan_desc)); rr_data->sc_data.ch_mode = rr_data->cr_data.ch_mode; dat_code_channel_mode_to_mm (); } if (rr_data->cr_data.ciph_on NEQ rr_data->sc_data.ciph_on) { /* * the ciphering has changed. Inform MM about the new * ciphering. */ dat_code_ciphering_to_mm (rr_data->cr_data.ciph_on); } /* * copy cr data to sc data and go back to normal dedicated mode. */ rr_data->sc_data.ciph_on = rr_data->cr_data.ciph_on; rr_data->sc_data.algo = rr_data->cr_data.algo; rr_data->sc_data.ch_mode = rr_data->cr_data.ch_mode; rr_data->sc_data.cd.v_cell_chan_desc = rr_data->cr_data.cd.v_cell_chan_desc; memcpy (&rr_data->sc_data.cd.cell_chan_desc, &rr_data->cr_data.cd.cell_chan_desc, sizeof (T_LIST)); memcpy (&rr_data->sc_data.chan_desc, &rr_data->cr_data.chan_desc, sizeof (T_chan_desc)); memcpy (&rr_data->sc_data.amr_conf, &rr_data->cr_data.amr_conf, sizeof (T_multirate_conf)); rr_data->nc_data[SC_INDEX].bsic = rr_data->nc_data[CR_INDEX].bsic; rr_data->nc_data[SC_INDEX].arfcn = rr_data->nc_data[CR_INDEX].arfcn; rr_data->nc_data[CR_INDEX].arfcn = NOT_PRESENT_16BIT; /* * after a handover we cannot come back directly to the * cell instead we have to do a normal cell reselection */ rr_data->mode_after_dedi = MODE_CELL_RESELECTION; att_remove_multiple_channels (); SET_STATE (STATE_SAPI_3, SMS_IDLE); srv_use_stored_prim (); dat_set_last_used_channel (&rr_data->sc_data.chan_desc); att_dat_dedicated (); dat_emo_stop ( TRUE ); SET_STATE (STATE_DAT, DAT_DEDICATED); break; case DAT_HANDOVER_5: TRACE_EVENT ("DL_ESTABLISH_CNF"); /* * successfull reconnection on old channel after failed * handover * * update some parameters to go back to normal dedicated mode. */ PFREE (dl_establish_cnf); srv_use_stored_prim (); SET_STATE (STATE_SAPI_3, SMS_IDLE); att_dat_dedicated (); rr_data->nc_data[CR_INDEX].arfcn = NOT_PRESENT_16BIT; SET_STATE (STATE_DAT, DAT_DEDICATED); rr_data->mode_after_dedi = MODE_CELL_RESELECTION; EM_HO_FAILURE_RECONNECT_SUCCESS; break; case DAT_IMM_ASS_1: /* * successfull establishment of a dedicated connection. * Depending on the originator of the connection MM * is informed. */ EM_L2_CONNECTION_ESTABLISHED; #ifdef GPRS if(! dat_check_packet_access()) { #endif if (rr_data->ms_data.establish_cause EQ ESTCS_PAGING) { PREUSE (dl_establish_cnf, rr_establish_ind, RR_ESTABLISH_IND); PSENDX (MM, rr_establish_ind); } else { PREUSE (dl_establish_cnf, rr_establish_cnf, RR_ESTABLISH_CNF); PSENDX (MM, rr_establish_cnf); } #ifdef GPRS } else { /* packet access */ PFREE (dl_establish_cnf); } #endif /* * initialize some variables for the dedicated mode. */ rr_data->dyn_config.fho = 0; rr_data->dyn_config.fca = 0; rr_data->tch_loop_subch = NOT_PRESENT_8BIT; rr_data->sc_data.ciph_received = FALSE; rr_data->rel_cause = RRCS_INT_NOT_PRESENT; rr_data->sc_data.ciph_on = CIPH_OFF; att_copy_old_lai_rac(SC_INDEX); #if 0 memcpy (&rr_data->old_lai, &rr_data->nc_data[SC_INDEX].lai, sizeof (rr_data->old_lai)); rr_data->old_cell_id = rr_data->nc_data[SC_INDEX].cell_id; #endif SET_STATE (STATE_SAPI_3, SMS_IDLE); att_dat_dedicated (); SET_STATE (STATE_DAT, DAT_DEDICATED); /* * Early classmark Sending is performed if the mobile supports it * and the network requests it. */ if (rr_data->ms_data.classmark2.es_ind AND rr_data->nc_data[SC_INDEX].c2_par.ecsc) { /* * building of the Early Classmark Sending message */ /* Implements RR Clone findings #15 */ dat_class_chng_data_req(); } #ifdef GPRS dat_gprs_suspend_req (); #endif EM_EARLY_CLASSMARK_SENDING; break; #ifdef GPRS case DAT_PDCH_ASS_4: dat_rrgrr_reconnect_dcch_cnf (RECONN_OK); SET_STATE (STATE_DAT, DAT_DEDICATED); PFREE (dl_establish_cnf); break; case DAT_CCO_4: if ( rr_data->gprs_data.cco_need_reconnect_cnf ) { dat_rrgrr_reconnect_dcch_cnf (RECONN_OK); } else { /* * GRR has received d_change_order message, * but the BCCH reading in the new cell failed. * The connection is resumed on the old channel * in dedicated mode. */ PALLOC (rrgrr_sync_ind, RRGRR_SYNC_IND); rrgrr_sync_ind->sync_res = SYNC_FAILED; PSENDX (GRR, rrgrr_sync_ind); } SET_STATE (STATE_DAT, DAT_DEDICATED); PFREE (dl_establish_cnf); break; #endif default: PFREE (dl_establish_cnf); break; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_DAT | | STATE : code ROUTINE : dat_dl_establish_ind | +--------------------------------------------------------------------+ PURPOSE : Process the primitive DL_ESTABLISH_IND received from DL. This is only expected for short messages on SAPI 3 during a connection. */ GLOBAL void dat_dl_establish_ind (T_DL_ESTABLISH_IND *dl_establish_ind) { GET_INSTANCE_DATA; TRACE_FUNCTION ("dat_dl_establish_ind()"); switch (GET_STATE (STATE_DAT)) { case DAT_DEDICATED: /* * if it indicates a mobile terminated connection establishment * for SAPI 3 in the layer 2, change the state in RR for SMS. * Answers from upper layer for SMS can be forwarded then * immediately. */ if (dl_establish_ind->sapi EQ SAPI_3) { /* * set state for SMS if it is on SAPI 3 */ SET_STATE (STATE_SAPI_3, SMS_ESTABLISHED); srv_use_stored_prim (); } break; default: break; } PFREE (dl_establish_ind); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_DAT | | STATE : code ROUTINE : dat_mph_random_access_cnf | +--------------------------------------------------------------------+ PURPOSE : Layer 1 confirms with the primitive MPH_RANDOM_ACCESS_CNF the sending of a random burst during connection establishment. */ GLOBAL void dat_mph_random_access_cnf (T_MPH_RANDOM_ACCESS_CNF *mph_random_access_cnf) { GET_INSTANCE_DATA; TRACE_FUNCTION ("dat_mph_random_access_cnf()"); EM_CHANNEL_REQUEST_SENT; switch (GET_STATE (STATE_DAT)) { case DAT_IMM_ASS: if (rr_data->ms_data.access_counter < rr_data->ms_data.max_attempt) { /* * if it the last or less then last random burst * copy the frame number of the random burst for later * comparision with the request reference of an immediate * assignment message. */ memcpy (&rr_data->used_frame_no[rr_data->ms_data.access_counter], &mph_random_access_cnf->frame_no, sizeof (T_frame_no)); /* TRACE_EVENT_P5 ("RA %u CNF: %d %d %d 0x%02x", rr_data->ms_data.access_counter, mph_random_access_cnf->frame_no.t1, mph_random_access_cnf->frame_no.t2, mph_random_access_cnf->frame_no.t3, rr_data->used_channel_ref[rr_data->ms_data.access_counter]); */ /* * increment the number of already sent messages */ rr_data->ms_data.access_counter++; if (rr_data->ms_data.access_counter EQ rr_data->ms_data.max_attempt) { /* * T3126 and T3146 (GPRS Packet Access on CCCH) are * the same so use them for both purposes * * if it is the last random burst, start T3126 if the timer is not * running yet (can be started after reception of an immediate * assignment reject message). * The timer controls reception of an immediate assignment message * as response to the random bursts. */ /* Implements Measure#32: Row 196,197 */ (IS_TIMER_ACTIVE(T3126)) ? TRACE_TIMER ( "T3126 re-start") : TRACE_TIMER ( "T3126 start"); if (! IS_TIMER_ACTIVE(T3126)) { TIMERSTART (T3126, T3126_VALUE); } /* * set a flag that all random bursts are send and confirmed. */ rr_data->ms_data.all_conf_received = TRUE; } } break; default: break; } PFREE (mph_random_access_cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_DAT | | STATE : code ROUTINE : dat_dl_release_cnf | +--------------------------------------------------------------------+ PURPOSE : Layer 2 confirms with DL_RELEASE_CNF a disconnection on layer 2 which has been initiated by RR. */ GLOBAL void dat_dl_release_cnf (T_DL_RELEASE_CNF *dl_release_cnf) { GET_INSTANCE_DATA; TRACE_FUNCTION ("dat_dl_release_cnf()"); switch (GET_STATE (STATE_DAT)) { case DAT_CHAN_REL: /* * after reception of a channel release message RR has * started disconnection to come from dedicated to idle * mode. Stop T3110, which controls the disconnection in * layer 2. */ TIMERSTOP (T3110); /* * Send STOP_DEDICATED_REQUEST to L1 and wait for confirmation */ att_stop_dedicated(); break; #ifdef GPRS case DAT_PDCH_ASS_2: dat_rrgrr_resumed_tbf_cnf(); rr_data->gprs_data.tbf_est = TBF_EST_NONE; /* the initial state */ break; #endif case DAT_HANDOVER_4: TRACE_EVENT ("Event: DAT_HANDOVER_4"); /* * the layer 2 resumption on the new channel during handover * has failed and RR switches back to the old channel. */ dat_code_mph_old_chan_req (); SET_STATE (STATE_DAT, DAT_HANDOVER_5); break; case DAT_CHAN_ASS_1: /* * resumption of layer 2 has failed after channel assignment * go back to the old channel. */ dat_code_mph_old_chan_req (); SET_STATE (STATE_DAT, DAT_CHAN_ASS_2); break; case DAT_DEDICATED: case DAT_CHAN_ASS: case DAT_CHAN_ASS_2: case DAT_HANDOVER_5: TRACE_EVENT ("Event: DAT_DEDICATED, DAT_CHAN_ASS, DAT_CHAN_ASS_2 or DAT_HANDOVER_5"); if (dl_release_cnf->sapi EQ SAPI_3) { /* * the connection for SAPI 3 is disconnected by the * network. */ SET_STATE (STATE_SAPI_3, SMS_IDLE); dat_rr_release_ind(RRCS_DATA_LINK_FAIL, SAPI_3); /* * clear any stored SAPI 3 message */ srv_clear_stored_prim (RR_DATA_REQ); } else { /* * the reconnection to the old channel has failed * or a lower layer failure had happen. * Indicate the abort to MM and start cell reselection. */ switch (GET_STATE (STATE_DAT)) { case DAT_CHAN_ASS: case DAT_CHAN_ASS_2: TRACE_EVENT("Assignment failed: reconnect failed"); EM_ASS_FAILURE_RECONNECT_FAILED; break; case DAT_HANDOVER_5: TRACE_EVENT("Handover failed: reconnect failed"); EM_HO_FAILURE_RECONNECT_FAILED; break; default: break; } att_code_rr_abort_ind (RRCS_DATA_LINK_FAIL); rr_data->net_lost = TRUE; att_stop_dedicated(); } break; case DAT_IMM_ASS_1: /* * Layer 2 establishment has failed for immediate assignment * Stop dedicated and go back to idle mode. MM will be informed about * release after receiving MPH_STOP_DEDICATED_CNF from L1. */ if (rr_data->ms_data.establish_cause NEQ ESTCS_PAGING) { rr_data->rel_cause = RRCS_DL_EST_FAIL; } att_stop_dedicated(); break; default: break; } PFREE (dl_release_cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_DAT | | STATE : code ROUTINE : dat_dl_release_ind | +--------------------------------------------------------------------+ PURPOSE : Layer 2 indicates disconnection due to layer 2 problems. */ GLOBAL void dat_dl_release_ind (T_DL_RELEASE_IND *dl_release_ind) { GET_INSTANCE_DATA; TRACE_FUNCTION ("dat_dl_release_ind()"); switch (GET_STATE (STATE_DAT)) { case DAT_CHAN_ASS: case DAT_CHAN_ASS_2: case DAT_DEDICATED: case DAT_HANDOVER: case DAT_HANDOVER_5: TRACE_EVENT ("DL_RELEASE_IND"); if (dl_release_ind->sapi EQ SAPI_3) { /* * indicate release for SAPI 3 (SMS) * to MM and reset RR state back to SMS_IDLE. */ dat_rr_release_ind(RRCS_DATA_LINK_FAIL, SAPI_3); SET_STATE (STATE_SAPI_3, SMS_IDLE); /* * clear any stored SAPI 3 message */ srv_clear_stored_prim (RR_DATA_REQ); } else { /* * Delay 4 frames to allow sending UA response * in RF for FTA testcase 25.2.3 * else the idle mode is configured too early. * vsi_t_sleep (VSI_CALLER FOUR_FRAMES); * * msb: DL delays the release indication itself for completion of the * UA response transmission. */ EM_DL_RELEASE_IND; /* * Inform MM about the release and start cell reselection. */ att_code_rr_abort_ind (RRCS_DATA_LINK_FAIL); rr_data->net_lost = TRUE; att_stop_dedicated(); } break; case DAT_CHAN_ASS_1: /* * resumption of layer 2 has failed after channel assignment * go back to the old channel. */ dat_code_mph_old_chan_req (); SET_STATE (STATE_DAT, DAT_CHAN_ASS_2); EM_ASS_FAILURE_RECONNECT_FAILED2 break; case DAT_CHAN_REL: /* * after reception of a channel release message RR has * started disconnection to come from dedicated to idle * mode. Stop T3110, which controls the disconnection in * layer 2. */ TIMERSTOP (T3110); /* * Send STOP_DEDICATED_REQUEST to L1 and wait for confirmation */ att_stop_dedicated(); EM_L2_CONNECTION_LOST; break; case DAT_HANDOVER_4: TRACE_EVENT ("DL_RELEASE_IND"); /* * resumption of layer 2 has failed handover * go back to the old channel. */ dat_code_mph_old_chan_req (); SET_STATE (STATE_DAT, DAT_HANDOVER_5); EM_HO_FAILURE_RECONNECT_FAILED2; break; case DAT_IMM_ASS_1: /* * layer 2 establishment has failed during immediate assignment */ if (dl_release_ind->cs EQ DL_INFO_FIELD_MISMATCH AND rr_data->sc_data.first_attempt) { /* * if the reason is a mismatch in the layer 3 messages in SABM * and the response UA, a second attempt of establishment is started. */ rr_data->sc_data.first_attempt = FALSE; rr_data->repeat_est = TRUE; #ifdef GPRS if (rr_data->ms_data.establish_cause EQ ESTCS_GPRS_PAGING) rr_data->dcch_stop_cause = CONTENTION_RESOLUTION_FAIL; #endif } else { switch (rr_data->ms_data.establish_cause) { #ifdef GPRS case ESTCS_GPRS_PAGING: rr_data->dcch_stop_cause = DL_ESTABLISHMENT_FAIL; break; case ESTCS_PAGING: rr_data->rel_cause = RRCS_INT_NOT_PRESENT; #else case ESTCS_PAGING: #endif break; default: rr_data->rel_cause = RRCS_DL_EST_FAIL; break; } } /* * Stop dedicated and go back to idle mode. */ att_stop_dedicated(); break; #ifdef GPRS case DAT_PDCH_ASS_4: case DAT_CCO_4: if ( GET_STATE (STATE_DAT) EQ DAT_PDCH_ASS_4 OR rr_data->gprs_data.cco_need_reconnect_cnf ) { dat_rrgrr_reconnect_dcch_cnf (RECONN_LOW_FAIL); } att_build_idle_req (SC_INDEX, MODE_CELL_RESELECTION); SET_STATE (STATE_DAT, DAT_IDLE); break; #endif default: break; } PFREE (dl_release_ind); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_DAT | | STATE : code ROUTINE : dat_mph_dedicated_cnf | +--------------------------------------------------------------------+ PURPOSE : Layer 1 confirms the configuration of a dedicated channel. */ GLOBAL void dat_mph_dedicated_cnf (T_MPH_DEDICATED_CNF *mph_dedicated_cnf) { GET_INSTANCE_DATA; TRACE_FUNCTION ("dat_mph_dedicated_cnf()"); switch (GET_STATE (STATE_DAT)) { case DAT_IMM_ASS_1: /* * A dedicated channel has been configured after * reception of the immediate assignment message. * * clear neighbourcell list and start layer 2 establishment */ srv_clear_list (&rr_data->sc_data.cd.ncell_list); srv_clear_list (&rr_data->sc_data.five_ter_list); att_clean_buf (IND_ALL_DEDI_SI); rr_data->sc_data.cd.sys_info_read &= ~ALL_DEDI_SYS_INFOS; /* * from now on we have a channel assigned * even if the contention resolution is not * done yet. If the contention resolution fails * we use the same procedure for selecting a cell * as in dedicated mode */ rr_data->mode_after_dedi = MODE_CELL_SELECTION; /* default mode */ TIMERSTART (T_DEDICATED_MODE, THIRTY_SEC); #ifdef GPRS if(! dat_gprs_start_sabm()) #endif dat_start_sabm (); break; case DAT_CHAN_ASS: if (rr_data->dyn_config.fca) { /* * special testfeature to force a failed layer 2 establishment * during channel assignment. Reset flag and switch back to old * channel. */ rr_data->dyn_config.fca = 0; dat_code_mph_old_chan_req (); SET_STATE (STATE_DAT, DAT_CHAN_ASS_2); } else { /* * Resume layer 2 connection on the new channel with * an assignment complete message. */ MCAST (assign_com, U_ASSIGN_COMP); PALLOC_MSG ( dl_resume_req, DL_RESUME_REQ, U_ASSIGN_COMP); SET_STATE (STATE_DAT, DAT_CHAN_ASS_1); assign_com->msg_type = U_ASSIGN_COMP; assign_com->rr_cause = RRC_NORMAL_EVENT; /* * set channel and sapi for the new channel description */ dat_code_prr_channel (&dl_resume_req->ch_type, &dl_resume_req->sapi, rr_data->cr_data.chan_desc.chan_type); /* * start layer 2 resumption. */ for_dat_resume_req (dl_resume_req); EM_ASSIGNMENT_COMPLETE; } break; #ifdef GPRS case DAT_PDCH_ASS: /* * The current channel has been stopped at the Physical Layer. */ dat_rrgrr_suspend_dcch_cnf(); SET_STATE (STATE_DAT, DAT_PDCH_ASS_1); SET_STATE (STATE_GPRS, GPRS_PIM_BCCH); /* force MPH_IDLE_REQ with RRGRR_STOP_MON_CCCH_REQ */ rr_data->gprs_data.tbf_est = TBF_EST_PDCH; break; #endif case DAT_HANDOVER: { /* * clearing of neighbourcells is already done * after reception of the handover command. * * following behaviour depends on the result of * handover execution in layer 1. */ switch (mph_dedicated_cnf->dedi_res) { case DEDI_RES_OK: /* * handover is successfull. */ if (rr_data->dyn_config.fca) { /* * special testfeature to simulate * failed handover, reset flag * and start reconnection. */ rr_data->dyn_config.fca = 0; dat_code_mph_old_chan_req (); SET_STATE (STATE_DAT, DAT_HANDOVER_5); } else { /* * build a handover complete message. */ MCAST (handov_comp, U_HANDOV_COMP); PALLOC_MSG (dl_resume, DL_RESUME_REQ, U_HANDOV_COMP); if (rr_data->ms_data.ho_type.rot EQ TIME_DIFF_YES) { /* * handover command has requested the observed time difference. */ handov_comp->v_mob_time_diff = TRUE; handov_comp->mob_time_diff.diff = rr_data->sc_data.observed_ta; } else { handov_comp->v_mob_time_diff = FALSE; } handov_comp->msg_type = U_HANDOV_COMP; handov_comp->rr_cause = RRC_NORMAL_EVENT; /* * set channel type and sapi for the new channel */ dat_code_prr_channel (&dl_resume->ch_type, &dl_resume->sapi, rr_data->cr_data.chan_desc.chan_type); EM_HANDOVER_COMPLETE; /* * start layer 2 resumption. */ for_dat_resume_req (dl_resume); SET_STATE (STATE_DAT, DAT_HANDOVER_4); } break; case DEDI_RES_TIMEOUT: /* * the timer T3124 during an asynchronous handover * has timed out, start reconnection. */ dat_code_mph_old_chan_req (); SET_STATE (STATE_DAT, DAT_HANDOVER_5); break; case DEDI_RES_CELL_NOT_SYNC : /* * Timing Info for this cell is not present in ALR. * This could be due to : * a) Cell not present in BA list, * b) Synchronization to this cell failed or not attempted. */ case DEDI_RES_TA_OUT_OF_RANGE: { /* * Layer 1 has detected that the timing advance is out of range. * In fact the new channel has not been configured and RR * can start reconnection to the old layer 2 connection immediately. * It sends a handover failure message with the expected cause. */ MCAST (handov_fail, U_HANDOV_FAIL); PALLOC_MSG (dl_reconnect_req, DL_RECONNECT_REQ, U_HANDOV_FAIL); /* * set channel type and sapi for the old channel */ dat_code_prr_channel (&dl_reconnect_req->ch_type, &dl_reconnect_req->sapi, rr_data->sc_data.chan_desc.chan_type); handov_fail->msg_type = U_HANDOV_FAIL; if( mph_dedicated_cnf->dedi_res EQ DEDI_RES_TA_OUT_OF_RANGE) handov_fail->rr_cause = RRC_TIME_ADVANCE; else if ( mph_dedicated_cnf->dedi_res EQ DEDI_RES_CELL_NOT_SYNC) #if defined (REL99) && defined (FF_BHO) handov_fail->rr_cause = RRC_LOWER_LAYER_FAIL; #else handov_fail->rr_cause = RRC_CHAN_UNACCEPT; #endif RR_EM_SET_HANDOVER_FAIL_CAUSE(handov_fail->rr_cause); /* * start reconnection of the layer 2 link on the old channel. */ for_dat_reconnect_req (dl_reconnect_req); SET_STATE (STATE_DAT, DAT_HANDOVER_5); break; } } break; } default: break; } PFREE (mph_dedicated_cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_DAT | | STATE : code ROUTINE : dat_mph_dedicated_fail_cnf | +--------------------------------------------------------------------+ PURPOSE : Layer 1 confirms the re-configuration of the old channel after a failed handover or channel assignment with the primitive MPH_DEDICATED_FAIL_CNF. */ GLOBAL void dat_mph_dedicated_fail_cnf (T_MPH_DEDICATED_FAIL_CNF *mph_dedicated_fail_cnf) { GET_INSTANCE_DATA; TRACE_FUNCTION ("dat_mph_dedicated_fail_cnf()"); switch (GET_STATE (STATE_DAT)) { case DAT_CHAN_ASS_2: { /* * reconnection is done in layer 2. An assignment failure * message is send to the network. */ MCAST (assign_fail, U_ASSIGN_FAIL); PALLOC_MSG (dl_reconnect_req, DL_RECONNECT_REQ, U_ASSIGN_FAIL); assign_fail->msg_type = U_ASSIGN_FAIL; assign_fail->rr_cause = RRC_PROT_UNSPECIFIED; RR_EM_SET_ASSIGN_FAIL_CAUSE(assign_fail->rr_cause); /* * set channel type and SAPI for layer 2 */ dat_code_prr_channel (&dl_reconnect_req->ch_type, &dl_reconnect_req->sapi, rr_data->sc_data.chan_desc.chan_type); /* * start layer 2 reconnection */ for_dat_reconnect_req (dl_reconnect_req); break; } case DAT_HANDOVER_5: { /* * reconnection is done in layer 2. A handover failure * message is send to the network. */ MCAST (handov_fail, U_HANDOV_FAIL); PALLOC_MSG (dl_reconnect_req, DL_RECONNECT_REQ, U_HANDOV_FAIL); /* * clear neighbourcell list */ srv_clear_list (&rr_data->sc_data.cd.ncell_list); srv_clear_list (&rr_data->sc_data.five_ter_list); att_clean_buf (IND_ALL_DEDI_SI); rr_data->sc_data.cd.sys_info_read &= ~ALL_DEDI_SYS_INFOS; handov_fail->msg_type = U_HANDOV_FAIL; handov_fail->rr_cause = RRC_UNSPECIFIED; RR_EM_SET_HANDOVER_FAIL_CAUSE(handov_fail->rr_cause); /* * set channel type and SAPI for layer 2 */ dat_code_prr_channel (&dl_reconnect_req->ch_type, &dl_reconnect_req->sapi, rr_data->sc_data.chan_desc.chan_type); /* * start layer 2 reconnection */ for_dat_reconnect_req (dl_reconnect_req); break; } #ifdef GPRS case DAT_PDCH_ASS_3: { MCAST (u_assign_fail, U_ASSIGN_FAIL); PALLOC_MSG (dl_reconnect_req, DL_RECONNECT_REQ, U_ASSIGN_FAIL); /* * set channel type and SAPI */ dat_code_prr_channel (&dl_reconnect_req->ch_type, &dl_reconnect_req->sapi, rr_data->sc_data.chan_desc.chan_type); u_assign_fail->msg_type = U_ASSIGN_FAIL; u_assign_fail->rr_cause = rr_data->gprs_data.reconn_cause; for_dat_reconnect_req (dl_reconnect_req); SET_STATE (STATE_DAT, DAT_PDCH_ASS_4); break; } case DAT_CCO_3: { MCAST (u_handov_fail, U_HANDOV_FAIL); PALLOC_MSG (dl_reconnect_req, DL_RECONNECT_REQ, U_HANDOV_FAIL); /* * set channel type and SAPI */ dat_code_prr_channel (&dl_reconnect_req->ch_type, &dl_reconnect_req->sapi, rr_data->sc_data.chan_desc.chan_type); u_handov_fail->msg_type = U_HANDOV_FAIL; u_handov_fail->rr_cause = rr_data->gprs_data.reconn_cause; for_dat_reconnect_req (dl_reconnect_req); SET_STATE (STATE_DAT, DAT_CCO_4); break; } #endif default: break; } PFREE (mph_dedicated_fail_cnf); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_DAT | | STATE : code ROUTINE : dat_rr_abort_req | +--------------------------------------------------------------------+ PURPOSE : MM aborts a connection due to several reasons (SIM remove, timeout, power off etc.). */ GLOBAL void dat_rr_abort_req (T_RR_ABORT_REQ *rr_abort_req) { GET_INSTANCE_DATA; TRACE_FUNCTION ("dat_rr_abort_req()"); switch (GET_STATE (STATE_DAT)) { case DAT_CHAN_ASS: case DAT_CHAN_ASS_1: case DAT_CHAN_ASS_2: case DAT_DEDICATED: case DAT_HANDOVER: case DAT_HANDOVER_4: case DAT_HANDOVER_5: if (rr_abort_req->abcs EQ ABCS_SIM_REM) { /* * in case of SIM remove the registration data * especially the mobile identities are cleared */ att_clear_registration_data (); } /* * the disconnection of the layer 2 link is started. */ dat_disconnect_link (RRCS_MM_ABORTED); break; case DAT_CHAN_REL: /* * RR has already started the layer 2 link disconnection. * Wait for T3110 timeout or DL disconnection and process * normal cell reselection. */ if (rr_abort_req->abcs EQ ABCS_SIM_REM) { /* * in case of SIM remove the registration data * especially the mobile identities are cleared */ att_clear_registration_data (); } break; case DAT_IDLE: if (rr_abort_req->abcs EQ ABCS_SIM_REM) { /* * in case of SIM remove the registration data * especially the mobile identities are cleared * The idle mode is configured again to set a * faked BS_PA_MFRMS of 9 to slow down layer 1 * and save power. A correct paging group is not * longer needed, because paging is not possible * in limited service. */ att_clear_registration_data (); att_build_idle_req (SC_INDEX, MODE_SYS_INFO_CHANGE); #ifdef REL99 att_config_cbch (); #else att_build_cbch (); #endif } break; case DAT_IMM_ASS: case DAT_IMM_ASS_1: if (rr_abort_req->abcs EQ ABCS_SIM_REM) { /* * in case of SIM remove the registration data * especially the mobile identities are cleared */ att_clear_registration_data (); } /* * stop any timer related to connection establishment */ TIMERSTOP (T3122); TIMERSTOP (T3126); /* * set the release establishment cause. This will be used in * dat_release_connection() function */ rr_data->rel_cause = RRCS_MM_ABORTED; if(GET_STATE (STATE_DAT) EQ DAT_IMM_ASS) { dat_rr_release_ind(rr_data->rel_cause, SAPI_0); att_leave_dat_imm_ass(); } else { /* * go back to idle mode. * inform GRR, and don't wait for CR_RSP */ att_stop_dedicated(); } break; default: if (rr_abort_req->abcs EQ ABCS_SIM_REM) { /* * in case of SIM remove the registration data * especially the mobile identities are cleared */ att_clear_registration_data (); } /* * clear any store establish requests if available * due to a timeout abort of the upper layer. */ if (srv_check_stored_prim (RR_ESTABLISH_REQ)) { /* * release previous establish request */ dat_rr_release_ind(RRCS_MM_ABORTED, SAPI_0); srv_clear_stored_prim (RR_ESTABLISH_REQ); } break; } PFREE (rr_abort_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_DAT | | STATE : code ROUTINE : dat_rr_data_req | +--------------------------------------------------------------------+ PURPOSE : A layer 3 message of an upper layer shall be send. */ GLOBAL void dat_rr_data_req (T_RR_DATA_REQ *rr_data_req) { GET_INSTANCE_DATA; UBYTE pd; TRACE_FUNCTION ("dat_rr_data_req()"); /* * get the protocol discriminator of the message. */ GET_PD (rr_data_req->sdu, pd); if (pd EQ PD_SMS) { TRACE_EVENT ("SMS Message"); /* * A SMS must be send with SAPI 3. Therefore the * SAPI 3 connection must be established on layer 2. * The STATE_SAPI_3 variable in RR indicates whether * the connection is established or not. If not the * message is stored and the connection will be established. * A SAPI 3 connection is automatically released after * channel assignment, handover or SAPI 0 release. */ switch (GET_STATE (STATE_SAPI_3)) { case SMS_ESTABLISHED: { /* * SAPI 3 connection is available, then send the message * directly. */ PPASS (rr_data_req, dl_data_req, DL_DATA_REQ); /* * set channel type and SAPI for SMS message. */ dat_code_prr_channel_sms (dl_data_req, rr_data->sc_data.chan_desc.chan_type); for_dat_l3_data_req (dl_data_req); break; } case SMS_PENDING: /* * the establishment of SAPI 3 connection is still ongoing. * store the message until connection is ready. */ if (!srv_store_prim ((T_PRIM *)D2P(rr_data_req))) { PFREE (rr_data_req); } break; case SMS_IDLE: /* * the establishment of SAPI 3 connection is not available * store the message until connection is ready. */ if (!srv_store_prim ((T_PRIM *)D2P(rr_data_req))) { PFREE (rr_data_req); } else { /* * Maximum size of the initial message is one frame (= 23 Bytes). */ PALLOC_SDU (dl_establish_req, DL_ESTABLISH_REQ, MAX_L2_FRAME_SIZE * BITS_PER_BYTE); dat_code_prr_channel_sms ((T_DL_DATA_REQ *)dl_establish_req, rr_data->sc_data.chan_desc.chan_type); SET_STATE (STATE_SAPI_3, SMS_PENDING); for_dat_est_req (dl_establish_req); } break; } } else { /* * it is a SAPI 0 message */ PPASS (rr_data_req, dl_data_req, DL_DATA_REQ); /* * set channel type and SAPI according the channel type. */ dat_code_prr_channel (&dl_data_req->ch_type, &dl_data_req->sapi, rr_data->sc_data.chan_desc.chan_type); /* * set N(S) for upper layer message and forward it to Layer 2. */ dat_vsd_bit_set ((T_L3_SDU *)&dl_data_req->sdu, SET_ONLY); for_dat_l3_data_req (dl_data_req); } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_DAT | | STATE : code ROUTINE : dat_rr_establish_req | +--------------------------------------------------------------------+ PURPOSE : A mobile originated connection is started. */ GLOBAL void dat_rr_establish_req (T_RR_ESTABLISH_REQ *rr_establish_req) { GET_INSTANCE_DATA; TRACE_FUNCTION ("dat_rr_establish_req()"); switch (GET_STATE (STATE_DAT)) { case DAT_NULL: /* * Data transfer process is in null state, that means * the MS has no service */ if (!srv_store_prim ((T_PRIM *)D2P(rr_establish_req))) { /* * storing is not possible due to an overflow of the storage area * then reject the connection attempt. */ dat_rr_release_ind(RRCS_QUEUE_FULL, SAPI_0); PFREE (rr_establish_req); } break; case DAT_IDLE: if (IS_TIMER_ACTIVE(T3122) AND (rr_establish_req->estcs NEQ ESTCS_EMRG_CAL)) { /* * all non-emergency calls are rejected if T3122 is running. * The timer has been started after reception of an immediate * assignment reject message. */ dat_rr_release_ind(RRCS_T3122_RUNNING, SAPI_0); PFREE (rr_establish_req); TRACE_EVENT ("imm ass delayed"); } else { /* * If T3122 is not running the access to the network is checked. */ if (dat_access_allowed (rr_establish_req->estcs)) { if (rr_establish_req->estcs EQ ESTCS_SERV_REQ_BY_MM) { /* * if location updating is started, store fieldstrength * for an optimisation. RR indicates to MM fieldstrength jumps * over 6 dBm in the field, that means better chance to * perform a successfull location updating. */ rr_data->lup_rxlev = rr_data->nc_data[SC_INDEX].rxlev; } /* * store the piggy-backed layer 3 message for later use. */ memcpy (&rr_data->ms_data.l3msg, &rr_establish_req->sdu, sizeof (T_L3_SDU));/*lint !e420 Apparent access beyond array for function*/ /* * Initialize the N(S) for upper layer messages. */ dat_vsd_bit_set (&rr_data->ms_data.l3msg, SET_AND_RESET); /* * Initialize some parameters and start immediate assignment. */ rr_data->sc_data.first_attempt = TRUE; rr_data->repeat_est = FALSE; #ifdef GPRS dat_gprs_set_suspended(); #endif dat_start_immediate_assign (rr_establish_req->estcs); PFREE (rr_establish_req); } else { /* * Access is not allowed and the rejection is signalled to MM. */ dat_rr_release_ind(RRCS_ACCESS_BARRED, SAPI_0); PFREE (rr_establish_req); TRACE_EVENT ("access barred"); } } break; case DAT_IMM_ASS: case DAT_IMM_ASS_1: case DAT_DEDICATED: { /* * collision of MO and MT calls. MT has higher priority than * MO calls. */ dat_rr_release_ind(RRCS_MO_MT_COLL, SAPI_0); PFREE (rr_establish_req); break; } default: PFREE (rr_establish_req); break; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_DAT | | STATE : code ROUTINE : dat_mph_paging_ind | +--------------------------------------------------------------------+ PURPOSE : Layer 1 has detected a paging for the mobile. RR starts the immediate assignment procedure. */ GLOBAL void dat_mph_paging_ind (T_MPH_PAGING_IND *mph_paging_ind) { GET_INSTANCE_DATA; #ifdef GPRS UBYTE ret; #endif TRACE_FUNCTION ("dat_mph_paging_ind()"); EM_PAGING_IND; /* check access control class before processing for paging */ if (dat_access_allowed(ESTCS_PAGING) EQ FALSE) { PFREE (mph_paging_ind); TRACE_EVENT("Access ctrl class not allowed for responding to the page msg"); return; } switch (GET_STATE (STATE_DAT)) { case DAT_NULL: /* * MS is not in idle mode, searching for cell */ if (! IS_TIMER_ACTIVE(T3122) AND GET_STATE (STATE_ATT) NEQ ATT_NULL) { /* * paging is only excepted if T3122 is not running and there isn't * performed a RR_DEACTIVATE_REQ just before */ if (rr_data->pag_rec EQ FALSE) { /* * store paging if no paging is stored until now. */ if (!srv_store_prim ((T_PRIM *)D2P(mph_paging_ind))) { /* * storage is full */ PFREE (mph_paging_ind); } else { /* * marker that paging has been received. */ rr_data->pag_rec = TRUE; } return; } } break; case DAT_IDLE: if (! IS_TIMER_ACTIVE(T3122)) { if (rr_data->first_meas_received EQ FALSE) { /* * we are actually still in cell reselection * because we have not yet received a measurement * report. But we have to be in idle mode to make * measurements in the first place. */ if (srv_check_stored_prim (MPH_PAGING_IND)) { /* * if already a paging is stored, ignore subsequent pagings */ PFREE (mph_paging_ind); } else { /* * store paging until measurement receives */ rr_data->pag_rec = TRUE; if (!srv_store_prim ((T_PRIM *)D2P(mph_paging_ind))) { /* * storage buffer is full */ rr_data->pag_rec = FALSE; PFREE (mph_paging_ind); } } return; } #ifdef GPRS ret = dat_check_packet_paging_ind(mph_paging_ind); if(ret EQ FALSE) { /* * we are suspended and it is not a packet paging */ dat_begin_start_immediate_assign (mph_paging_ind->identity_type, mph_paging_ind->channel_needed); } else if(ret EQ TRUE) { /* * we are not suspended and it is not a packet paging * and GPRS is activate */ dat_ask_paging_ind(mph_paging_ind); } /* ret EQ 2-> packet paging for GPRS, do nothing */ #else /* GPRS */ dat_begin_start_immediate_assign (mph_paging_ind->identity_type, mph_paging_ind->channel_needed); #endif /* GPRS */ } break; #ifdef GPRS case DAT_IMM_ASS: /* only PS pagings are received in this state */ dat_ask_paging_ind_pa_only(mph_paging_ind); break; #endif default: break; } PFREE (mph_paging_ind); } #if defined FF_EOTD /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_DAT | | STATE : code ROUTINE : dat_rrlc_meas_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive RRLC_MEAS_REQ received from LC. Start the LCS/EOTD postion measurement procedure. */ GLOBAL void dat_rrlc_meas_req (T_RRLC_MEAS_REQ *rrlc_meas_req) { GET_INSTANCE_DATA; T_NC_DATA *sc; int i,n; TRACE_FUNCTION ("dat_rrlc_meas_req()"); switch ( GET_STATE (STATE_DAT) ) { case DAT_HANDOVER : case DAT_HANDOVER_4: case DAT_HANDOVER_5: { PALLOC (rrlc_error_ind, RRLC_ERROR_IND); rrlc_error_ind->cause = LCS_HANDOVER; rr_data->eotd_req_id = NOT_PRESENT_16BIT; PSENDX (LC, rrlc_error_ind); PFREE(rrlc_meas_req); return; } default: break; } /* * Check if the requested cell matches the serving cell. */ sc = &rr_data->nc_data[SC_INDEX]; if ( rrlc_meas_req->v_arfcn AND rrlc_meas_req-> arfcn NEQ sc->arfcn AND rrlc_meas_req->v_bsic AND rrlc_meas_req-> bsic NEQ sc->bsic ) { PALLOC (rrlc_error_ind, RRLC_ERROR_IND); rrlc_error_ind->cause = LCS_WRONG_BTS; PSENDX (LC, rrlc_error_ind); PFREE(rrlc_meas_req); return; } /* * The requested cell matches the serving cell or * the requested cell was not specified. */ { PALLOC ( mph_ncell_pos_req, MPH_NCELL_POS_REQ ); rr_data->eotd_req_id = rrlc_meas_req->req_id; n = rrlc_meas_req->v_assist_data ? rrlc_meas_req->c_assist_data : 0; mph_ncell_pos_req->c_ncell_eotd = n; mph_ncell_pos_req->req_id = rrlc_meas_req->req_id; for ( i = 0; i < n; ++i ) mph_ncell_pos_req->ncell_eotd[i] = *(T_ncell_eotd*)&rrlc_meas_req->assist_data[i]; PSENDX ( PL, mph_ncell_pos_req ); } PFREE(rrlc_meas_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_DAT | | STATE : code ROUTINE : dat_rrrrlp_data_req | +--------------------------------------------------------------------+ PURPOSE : Process the primitive RRRRLP_DATA_REQ received from LC. Transmit a APDU according 3GPP TS 04.18, section 3.4.21. */ GLOBAL void dat_rrrrlp_data_req (T_RRRRLP_DATA_REQ *rrrrlp_data_req_orig) { GET_INSTANCE_DATA; UBYTE cr = rrrrlp_data_req_orig->cr; T_sdu *sdu = &rrrrlp_data_req_orig->sdu; UBYTE *buf = &sdu->buf[sdu->o_buf/BITS_PER_BYTE]; USHORT len = BYTELEN(sdu->l_buf); USHORT num_seg = len / APDU_FULL_L2_FRAME; /* number of full segments */ USHORT rem_seg = len % APDU_FULL_L2_FRAME; /* size of last segment */ USHORT n_seg; /* total number of segments*/ USHORT i; UBYTE flag; PPASS(rrrrlp_data_req_orig, rrrrlp_data_req, RRRRLP_DATA_REQ); TRACE_FUNCTION ("dat_rrrrlp_data_req()"); /* sdu->o_buf must be a multiple of BITS_PER_BYTE */ TRACE_ASSERT ( sdu->o_buf % BITS_PER_BYTE EQ 0 ); /* compute the total number of segments (n_seg) */ if ( len EQ 0 ) { PFREE(rrrrlp_data_req); return; } n_seg = num_seg + ((rem_seg EQ 0) ? 0 : 1); /* in a loop with DL_DATA_REQ send all APDU segments */ for ( i = 0; i < num_seg; ++i ) { PALLOC_MSG ( dl_data_req, DL_DATA_REQ, B_APPLIC_INFO ); dat_code_prr_channel (&dl_data_req->ch_type, &dl_data_req->sapi, rr_data->sc_data.chan_desc.chan_type ); /* compute the APDU control flags */ if ( n_seg EQ 1 ) { flag = (UBYTE)(FIRST_SEG | LAST_SEG | (cr << 2)); } else { if ( i EQ 0 ) { flag = FIRST_SEG | NOT_LAST_SEG; } else { if ( i EQ num_seg-1 AND rem_seg EQ 0 ) flag = NOT_FIRST_SEG | LAST_SEG | (cr << 2); else flag = NOT_FIRST_SEG | NOT_LAST_SEG; } } /* compile the APDU message and send it to DL */ dl_data_req->sdu.buf[0] = PD_RR_TI_0; dl_data_req->sdu.buf[1] = B_APPLIC_INFO; dl_data_req->sdu.buf[2] = (flag << 4 ) | RRLP_LCS; dl_data_req->sdu.buf[3] = APDU_FULL_L2_FRAME; memcpy ( &dl_data_req->sdu.buf[4], buf, APDU_FULL_L2_FRAME ); buf += APDU_FULL_L2_FRAME; dl_data_req->sdu.l_buf = (4 + APDU_FULL_L2_FRAME) * BITS_PER_BYTE; dl_data_req->sdu.o_buf = 0; PSENDX ( DL, dl_data_req ); } /* send remaining APDU segment if its length > 0 */ if ( rem_seg > 0 ) { PALLOC_MSG ( dl_data_req, DL_DATA_REQ, B_APPLIC_INFO ); dat_code_prr_channel (&dl_data_req->ch_type, &dl_data_req->sapi, rr_data->sc_data.chan_desc.chan_type ); /* compute the APDU control flags */ if ( n_seg EQ 1 ) flag = FIRST_SEG | LAST_SEG | (cr << 2); else flag = NOT_FIRST_SEG | LAST_SEG | (cr << 2); /* compile the APDU message and send it to DL */ dl_data_req->sdu.buf[0] = PD_RR_TI_0; dl_data_req->sdu.buf[1] = B_APPLIC_INFO; dl_data_req->sdu.buf[2] = (flag << 4 ) | RRLP_LCS; dl_data_req->sdu.buf[3] = (UBYTE)rem_seg; memcpy ( &dl_data_req->sdu.buf[4], buf, rem_seg ); dl_data_req->sdu.l_buf = (4 + rem_seg) * BITS_PER_BYTE; dl_data_req->sdu.o_buf = 0; PSENDX ( DL, dl_data_req ); } /* release RRRRLP_DATA_REQ */ PFREE(rrrrlp_data_req); #ifdef REL99 /* Send RRLP procedure stop indication to MM*/ { PALLOC (rr_rrlp_stop_ind, RR_RRLP_STOP_IND); PSENDX (MM, rr_rrlp_stop_ind); } #endif } #endif /* FF_EOTD */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : RR_DAT | | STATE : code ROUTINE : att_mph_stop_dedicated_cnf | +--------------------------------------------------------------------+ PURPOSE : Process the primitive MPH_STOP_DEDICATED_CNF received from L1 */ GLOBAL void att_mph_stop_dedicated_cnf (T_MPH_STOP_DEDICATED_CNF * stop_cnf) { GET_INSTANCE_DATA; PFREE(stop_cnf); TRACE_FUNCTION ("att_mph_stop_dedicated_cnf()"); /* * Dedicated mode activity can be stopped in 3 cases * * - normal case :- Dedicated mode actvity has been stopped cleanly, without any errors. * Either a cell selection or a cell reselection (to the same cell) will take * place, depending on the timer T_DEDICATED_MODE. * * - failure :- Dedicated mode actvity has been stopped because of a radio link failure or a * data link failure. In this case cell re-selection must be started immediately. * * - CCO :- This is Applicable after RR has received a network cell change order */ switch(GET_STATE (STATE_ATT)) { case ATT_NULL: case ATT_CS1: case ATT_CS2: break; default: #ifdef GPRS if( rr_data->mode_after_dedi EQ MODE_CELL_CHANGE_ORDER) { PALLOC (mph_bsic_req, MPH_BSIC_REQ); mph_bsic_req->arfcn = rr_data->gprs_data.arfcn; SET_STATE (STATE_ATT, ATT_IDLE); SET_STATE (STATE_CELL_SEL, CS_CCO); rr_data->mode_after_dedi = NOT_PRESENT_8BIT; PSENDX( PL, mph_bsic_req); return; } #endif if(! rr_data->net_lost ) { /* Send Release indication to MM and go back to IDLE state */ dat_release_connection(); } else { #ifdef GPRS att_start_cell_reselection_gprs (BACK_FROM_DEDICATED_RLF); #else att_start_cell_reselection (BACK_FROM_DEDICATED_RLF); #endif } break; } } #endif