FreeCalypso > hg > fc-magnetite
view src/g23m-fad/ra/ra_tra.c @ 503:0c5f61a73709
hybrid-gpf configuration created
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Mon, 25 Jun 2018 00:51:54 +0000 |
parents | 90eb61ecd093 |
children |
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/* +----------------------------------------------------------------------------- | Project : GSM-F&D (8411) | Modul : RA_TRA +----------------------------------------------------------------------------- | 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 transparent data model | for the component RA of the mobile station +----------------------------------------------------------------------------- */ #ifndef RA_TRA_C #define RA_TRA_C #endif #define ENTITY_RA /*==== INCLUDES ===================================================*/ #include "typedefs.h" #include "vsi.h" #include "macdef.h" #include "pconst.cdg" #include "custom.h" #include "gsm.h" #include "cnf_ra.h" #include "prim.h" #include "pei.h" #include "tok.h" #include "ccdapi.h" #include "ra.h" /*==== CONST ======================================================*/ /*==== TYPES ======================================================*/ /*==== VARIABLES ==================================================*/ /*==== FUNCTIONS ==================================================*/ /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RA_TRA | | STATE : code ROUTINE : tra_init | +--------------------------------------------------------------------+ PURPOSE : initialize the transparent mode data */ GLOBAL void tra_init (UBYTE tra_rate) { T_TRA *dtra = ra_data->tra; TRACE_FUNCTION("tra_init()"); dtra->ul_data_pending = FALSE; dtra->ul_signals_pending = FALSE; dtra->ul_break_pending = FALSE; dtra->break_pos = 0; dtra->break_len = 0; dtra->overspeed = 0; dtra->ul_status = 0; dtra->ul_sa = 0; dtra->ul_sb = 0; dtra->ul_x = 0; dtra->dl_sa.pos = ST_SA; /* DSR */ dtra->dl_sa.last = 0xFF; dtra->dl_sa.timer = 0L; #ifdef _SIMULATION_ /* according to GSM-TS07.01 */ dtra->dl_sa.delay_OFF_ON = 0L; dtra->dl_sa.delay_ON_OFF = 0L; #else /* to avoid spurious data at the beginning of the call */ dtra->dl_sa.delay_OFF_ON = 5000L; dtra->dl_sa.delay_ON_OFF = 1000L; #endif dtra->dl_sb.pos = ST_SB; /* DCD */ dtra->dl_sb.last = 0xFF; dtra->dl_sb.timer = 0L; dtra->dl_sb.delay_OFF_ON = 200L; dtra->dl_sb.delay_ON_OFF = 5000L; dtra->dl_x.pos = ST_X; /* CTS */ dtra->dl_x.last = 0xFF; dtra->dl_x.timer = 0L; dtra->dl_x.delay_OFF_ON = 1000L; dtra->dl_x.delay_ON_OFF = 1000L; ra_data->ra_data_ind.status = ST_SA + ST_SB + ST_X; ra_data->ra_data_ind.fr_type = FR_TRANS; ra_data->ra_data_ind.sdu.o_buf = 0; ra_data->ra_data_ind.sdu.l_buf = 0; ra_data->ra_ready_ind[0].req_frames = 0; /* used, if not all data sent yet */ dtra->ready_ind_idx = 1; switch (tra_rate) { case TRA_FULLRATE_14400: ra_data->ra_ready_ind[1].req_frames = RAU_DATA_14400; break; case TRA_FULLRATE_4800: ra_data->ra_ready_ind[1].req_frames = RAU_DATA_4800; break; case TRA_HALFRATE_4800: case TRA_FULLRATE_2400: ra_data->ra_ready_ind[1].req_frames = RAU_DATA_2400; break; case TRA_HALFRATE_2400: ra_data->ra_ready_ind[1].req_frames = RAU_DATA_1200; break; default: ra_data->ra_ready_ind[1].req_frames = RAU_DATA_9600; break; } cl_set_frame_desc_0(&dtra->ul_frame_desc, NULL, 0); hCommMMI = vsi_c_open ( VSI_CALLER ACI_NAME ); hCommTRA = vsi_c_open ( VSI_CALLER TRA_NAME ); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RA_TRA | | STATE : code ROUTINE : tra_idle | +--------------------------------------------------------------------+ PURPOSE : IDLE processing fpr uplink and downlink transparent mode */ GLOBAL void tra_idle(void) { TRACE_FUNCTION("tra_idle()"); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RA_TRA | | STATE : code ROUTINE : tra_ul_null | +--------------------------------------------------------------------+ PURPOSE : */ GLOBAL void tra_ul_null(void) { TRACE_FUNCTION("tra_ul_null()"); if (ra_data->activated) { /* * setup the communication parameters */ shm_set_dsp_value (conf_b_itc, V_ITC_DATA); shm_set_dsp_value (test_b_t_dl_debug, 0); switch (ra_data->nsb) { case 1: shm_set_dsp_value (conf_b_nsb, V_NSB_ONE_STOP); break; case 2: shm_set_dsp_value (conf_b_nsb, V_NSB_TWO_STOP); break; default: break; } switch (ra_data->ndb) { case 7: shm_set_dsp_value (conf_b_ndb, V_NDMSK_B_7_DBITS); break; case 8: shm_set_dsp_value (conf_b_ndb, V_NDMSK_B_8_DBITS); break; default: break; } switch (ra_data->user_rate) { case URA_300: shm_set_dsp_value (conf_b_ur, V_UR_300); break; case URA_1200: shm_set_dsp_value (conf_b_ur, V_UR_1200); break; case URA_2400: shm_set_dsp_value (conf_b_ur, V_UR_2400); break; case URA_4800: shm_set_dsp_value (conf_b_ur, V_UR_4800); break; case URA_9600: /* hack for 14400: */ if (ra_data->tra_rate EQ TRA_FULLRATE_14400) { shm_set_dsp_value (conf_b_ur, V_UR_14400); } else { shm_set_dsp_value (conf_b_ur, V_UR_9600); } break; case URA_1200_75: shm_set_dsp_value (conf_b_ur, V_UR_1200_75); break; case URA_14400: shm_set_dsp_value (conf_b_ur, V_UR_14400); break; default: break; } shm_set_dsp_value (conf_b_ce, V_CE_TRANSP); switch (ra_data->tra_rate) { case TRA_FULLRATE_14400: case TRA_FULLRATE_9600: case TRA_FULLRATE_4800: case TRA_FULLRATE_2400: shm_set_dsp_value (conf_b_ct, V_CT_FR); ra_data->cycle_time = 20; break; case TRA_HALFRATE_4800: case TRA_HALFRATE_2400: shm_set_dsp_value (conf_b_ct, V_CT_HR); ra_data->cycle_time = 40; break; default: break; } /* * set uplink buffer empty to empty values and no break */ shm_set_dsp_value (rau_byte_cnt, 2); shm_set_dsp_value (rau_break_len, 0); shm_set_dsp_value (rau_break_pos, 0); /* * start initialisation process in F&D L1 */ shm_set_dsp_value (act_b_init, 1); shm_set_dsp_value (act_b_syncul, 1); shm_set_dsp_value (act_b_syncdl, 1); INIT_STATE (KER, TRA_INIT_L1); #ifdef HO_WORKAROUND /* tra_ul_null */ _act_d_ra_conf = *ra_data->shm.shm_addr[d_ra_conf]; TRACE_EVENT("d_ra_conf saved"); #endif } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RA_TRA | | STATE : code ROUTINE : tra_ul_init_l1 | +--------------------------------------------------------------------+ PURPOSE : */ GLOBAL void tra_ul_init_l1(void) { TRACE_FUNCTION("tra_ul_init_l1()"); if (shm_get_dsp_value (act_b_init) EQ 0) { /* * L1 F&D initialzed * start ul/dl synchronisation */ SET_STATE (KER, TRA_SYNCH_TCH_START); } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RA_TRA | | STATE : code ROUTINE : tra_dl_sync_tch_start | +--------------------------------------------------------------------+ PURPOSE : */ GLOBAL void tra_dl_sync_tch_start(void) { TRACE_FUNCTION("tra_dl_sync_tch_start()"); if (shm_get_dsp_value (statd_b_syncdet) EQ 1) { /* * Start a pseudo timer with 500 ms. * The value is decremented by cycle_time * each time the L1 calls the dll_data_ul function. */ TRACE_EVENT("SYNC_TIMER: start"); ra_data->sync_timer = 500L; shm_set_dsp_value (rad_byte_cnt, 2); SET_STATE (KER, TRA_SYNCH_TCH_FOUND); } } LOCAL void set_ul_status(T_TRA *tra) { shm_set_dsp_value (statu_b_sa, tra->ul_sa); shm_set_dsp_value (statu_b_sb, tra->ul_sb); shm_set_dsp_value (statu_b_x, tra->ul_x); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RA_TRA | | STATE : code ROUTINE : tra_ul_sync_tch_found | +--------------------------------------------------------------------+ PURPOSE : */ GLOBAL void tra_ul_sync_tch_found(void) { TRACE_FUNCTION("tra_ul_sync_tch_found()"); if (TimeOut(&ra_data->sync_timer) NEQ TRUE) return; /* * timeout of the sync timer - reset the sync-detection flags */ TRACE_EVENT("SYNC_TIMER: time out"); shm_set_dsp_value (act_b_syncul, 0); shm_set_dsp_value (act_b_syncdl, 0); if (ra_data->tra_rate NEQ TRA_FULLRATE_14400) { ra_data->sync_timer = 10000L; /* 10 secs timeout */ SET_STATE (KER, TRA_WAIT_SYNC_LOST); } else { SET_STATE (KER, TRA_DATA_TRANS_PRE1); #ifdef HO_WORKAROUND /* tra_ul_sync_tch_found */ if (*ra_data->shm.shm_addr[d_ra_conf] NEQ _act_d_ra_conf) { *ra_data->shm.shm_addr[d_ra_conf] = _act_d_ra_conf; /* tra_dl_data_trans */ TRACE_EVENT("HO_REFRESH tra_ul_sync_tch_found"); } #endif } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RA_TRA | | STATE : code ROUTINE : tra_dl_wait_sync_lost | +--------------------------------------------------------------------+ PURPOSE : */ GLOBAL void tra_dl_wait_sync_lost(void) { BOOL timeout; TRACE_FUNCTION("tra_dl_wait_sync_lost()"); timeout = TimeOut(&ra_data->sync_timer); if (timeout EQ TRUE) { TRACE_EVENT("SYNC_TIMER: statd_b_syncdet remains HIGH"); } if (shm_get_dsp_value (statd_b_syncdet) EQ 0 OR timeout EQ TRUE) { /* * sync detection finished -> enter the data transmission state * send ra_activate_cnf -> ACI */ SET_STATE (KER, TRA_DATA_TRANS_PRE1); set_ul_status(ra_data->tra); #ifdef HO_WORKAROUND /* tra_dl_wait_sync_lost */ if (*ra_data->shm.shm_addr[d_ra_conf] NEQ _act_d_ra_conf) { *ra_data->shm.shm_addr[d_ra_conf] = _act_d_ra_conf; /* tra_dl_data_trans */ TRACE_EVENT("HO_REFRESH tra_dl_wait_sync_lost"); } #endif } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RA_TRA | | STATE : code ROUTINE : tra_ul_data_trans | +--------------------------------------------------------------------+ PURPOSE : */ GLOBAL void tra_ul_data_trans(void) { T_TRA *dtra = ra_data->tra; TRACE_FUNCTION("tra_ul_data_trans()"); if (dtra->ul_signals_pending) { /* * handle sa, sb, x signals */ set_ul_status(dtra); shm_set_dsp_value (act_b_ovspul, dtra->overspeed); } if (dtra->ul_data_pending) { USHORT offs, new_offs; offs = shm_get_dsp_value (rau_byte_cnt); if (offs > 0) { offs -= 2; if (dtra->ul_break_pending) { shm_set_dsp_value (rau_break_pos, dtra->break_pos); shm_set_dsp_value (rau_break_len, dtra->break_len); } else { shm_set_dsp_value (rau_break_pos, 0); shm_set_dsp_value (rau_break_len, 0); } new_offs = shm_set_dsp_buffer(&dtra->ul_frame_desc, ra_data->shm.shm_addr[adr_rau_data]+wof_rau_data, offs, (USHORT)(ra_data->ra_ready_ind[1].req_frames - offs)); if (new_offs NEQ offs) { shm_set_dsp_value (rau_byte_cnt, (USHORT)(new_offs+2)); } if (dtra->ul_frame_desc.Len[0] EQ 0) { dtra->ul_data_pending = FALSE; dtra->ready_ind_idx = 1; } else { dtra->ul_frame_desc.Adr[0] += (new_offs-offs); } } } if (!dtra->ul_data_pending OR dtra->ul_signals_pending) { if (dtra->ul_signals_pending AND !dtra->ul_data_pending) { dtra->ready_ind_idx = 1; } if (dtra->data_req_rec) /* send only if RA_DATA_REQ received */ { l1i_ra_ready_ind(hCommTRA, dtra->ready_ind_idx); dtra->data_req_rec = FALSE; dtra->ready_ind_idx = 0; dtra->ul_signals_pending = FALSE; } } } LOCAL UBYTE check_status_bit(T_STATUS_BIT *status) { if (status->last NEQ status->current) { status->last = status->current; if (status->current) /* current status bit is OFF */ { if (status->delay_ON_OFF) { status->timer = status->delay_ON_OFF; /* start ON to OFF timer */ return 2+1; } else { ra_data->ra_data_ind.status |= status->pos; /* status bit OFF */ return 4+1; } } else /* current status bit is ON */ { if (status->delay_OFF_ON) { status->timer = status->delay_OFF_ON; /* start OFF to ON timer */ return 2+0; } else { ra_data->ra_data_ind.status &= ~status->pos; /* status bit ON */ return 4+0; } } } else /* status->last EQ status->current */ { if (TimeOut(&status->timer) EQ TRUE) { if (status->current) /* current status bit is OFF */ { ra_data->ra_data_ind.status |= status->pos; /* filtered status bit OFF */ return 4+1; } else { ra_data->ra_data_ind.status &= ~status->pos; /* filtered status bit ON */ return 4+0; } } } return 0; } LOCAL BOOL get_dl_status_bits(void) { T_TRA *dtra = ra_data->tra; BOOL dl_status_changed = FALSE; UBYTE ret; /*** status bit SA ***/ dtra->dl_sa.current = (UBYTE)shm_get_dsp_value(statd_b_sa); ret = check_status_bit(&dtra->dl_sa); if (ret > 3) dl_status_changed = TRUE; #ifdef TRACE_RA_TRA_STATUS switch (ret) { case 2: TRACE_EVENT("SA bit timer started 1 -> 0"); break; case 3: TRACE_EVENT("SA bit timer started 0 -> 1"); break; case 4: TRACE_EVENT("CT107-DSR=ON"); break; case 5: TRACE_EVENT("CT107-DSR=OFF"); break; } #endif if (!(ra_data->ra_data_ind.status & ST_SA)) /* DSR EQ ON */ { /*** perform filtering of status bit SB ***/ dtra->dl_sb.current = (UBYTE)shm_get_dsp_value(statd_b_sb); ret = check_status_bit(&dtra->dl_sb); if (ret > 3) dl_status_changed = TRUE; #ifdef TRACE_RA_TRA_STATUS switch (ret) { case 2: TRACE_EVENT("SB bit timer started 1 -> 0"); break; case 3: TRACE_EVENT("SB bit timer started 0 -> 1"); break; case 4: TRACE_EVENT("CT109-DCD=ON"); break; case 5: TRACE_EVENT("CT109-DCD=OFF"); break; } #endif /*** perform filtering of status bit X ***/ dtra->dl_x.current = (UBYTE)shm_get_dsp_value(statd_b_x); ret = check_status_bit(&dtra->dl_x); if (ret > 3) dl_status_changed = TRUE; #ifdef TRACE_RA_TRA_STATUS switch (ret) { case 2: TRACE_EVENT("X bit timer started 1 -> 0"); break; case 3: TRACE_EVENT("X bit timer started 0 -> 1"); break; case 4: TRACE_EVENT("CT106-CTS=ON"); break; case 5: TRACE_EVENT("CT106-CTS=OFF"); break; } #endif } else if (dl_status_changed EQ TRUE) /* DSR EQ OFF */ { ra_data->ra_data_ind.status |= ST_SB + ST_X; dtra->dl_sb.last = 0xFF; dtra->dl_x.last = 0xFF; #ifdef TRACE_RA_TRA_STATUS TRACE_EVENT("CT106-CTS=OFF"); TRACE_EVENT("CT109-DCD=OFF"); #endif } /* * overwrite the downlink CTS bit; * allows UART the reception of escape sequence always; * no matter what the current call state may be ra_data->ra_data_ind.status &= ~ST_X; */ return dl_status_changed; } LOCAL U8 get_frame_descriptor(U8 bytes_to_read) { T_TRA *dtra = ra_data->tra; #ifdef _SIMULATION_ dtra->dl_pFD = cl_ribu_get_new_frame_desc(ra_data->dl_ribu); #else dtra->dl_pFD = tra_get_next_FrameDesc(); #endif if (NULL EQ dtra->dl_pFD) { /*Race condition where there is a data from L1 and call is released parallely*/ TRACE_EVENT("Call is Released when data arrived or Ribu write index is invalid"); /*return as if no data is read from L1.*/ return 0; } if (bytes_to_read) { dtra->dl_pFD->len = MAX_TRANS_BUFFER; return (shm_get_dsp_buffer_new(ra_data->shm.shm_addr[adr_rad_data]+wof_rad_data, bytes_to_read, dtra->dl_pFD)); } else { dtra->dl_pFD->len = 0; return 0; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RA_TRA | | STATE : code ROUTINE : tra_dl_wait_for_connect | +--------------------------------------------------------------------+ PURPOSE : wait for all filtered status bits set to 0 */ GLOBAL void tra_dl_wait_for_connect(void) { TRACE_FUNCTION("tra_dl_wait_for_connect()"); #ifdef HO_WORKAROUND /* tra_dl_wait_for_connect */ if (*ra_data->shm.shm_addr[d_ra_conf] NEQ _act_d_ra_conf) { *ra_data->shm.shm_addr[d_ra_conf] = _act_d_ra_conf; /* tra_dl_data_trans */ TRACE_EVENT("HO_REFRESH tra_dl_data_trans"); } #endif get_dl_status_bits(); if ((UBYTE)(ra_data->ra_data_ind.status AND (ST_SA + ST_SB + ST_X)) EQ 0) { l1i_ra_activate_cnf(); SET_STATE (KER, TRA_DATA_TRANS_PRE2); } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RA_TRA | | STATE : code ROUTINE : tra_dl_wait_for_uart | +--------------------------------------------------------------------+ PURPOSE : wait for DTI connection to UART */ GLOBAL void tra_dl_wait_for_uart(void) { TRACE_FUNCTION("tra_dl_wait_for_uart()"); get_dl_status_bits(); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RA_TRA | | STATE : code ROUTINE : tra_dl_got_uart | +--------------------------------------------------------------------+ PURPOSE : send the current downlink status bits to UART */ GLOBAL void tra_dl_got_uart(void) { TRACE_FUNCTION("tra_dl_got_uart()"); get_dl_status_bits(); get_frame_descriptor(0); l1i_ra_data_ind(hCommTRA); SET_STATE (KER, TRA_DATA_TRANS); } LOCAL void get_dl_bytes(UBYTE bytes_to_read) { T_TRA *dtra = ra_data->tra; UBYTE bytes_read; bytes_read = get_frame_descriptor(bytes_to_read); shm_set_dsp_value (rad_byte_cnt, 2); /* confirm read operation */ if ( bytes_read EQ 0 ){ /*We couldn't read the data, in get_frame_descriptor() there is a possibiliy we get NULL frame description (race condition) hence no data is read. In this case we should not access dtra->dl_pFD pointer and as well donot indicate ra_data_ind, hence return. */ return; } if (ra_data->ra_data_ind.status & ST_SA OR ra_data->ra_data_ind.status & ST_SB) { /* DSR is OFF OR DCD is OFF */ dtra->dl_pFD->len = 0; #ifdef TRACE_RA_TRA_DATA TRACE_EVENT_P1("DATA_IND - len=0:%c", *dtra->dl_pFD->buf); #endif } else { dtra->dl_pFD->len = bytes_read; #ifdef TRACE_RA_TRA_DATA TRACE_EVENT_P2("DATA_IND - len=%d:%c", bytes_read, *dtra->dl_pFD->buf); #endif } l1i_ra_data_ind(hCommTRA); } LOCAL BOOL dl_break_detected(BOOL *dl_status_changed, UBYTE *bytes_to_read) /* BREAK handling */ { T_TRA *dtra = ra_data->tra; UBYTE brklen; UBYTE brkpos; UBYTE bytes_read; if ((brklen = (UBYTE)shm_get_dsp_value(rad_break_len)) > 0) { TRACE_EVENT_P1("RA_BREAK_IND-brklen=%d", brklen); /*** handling of 0xff break over multiple frames not implemented yet ***/ if ((brkpos = (UBYTE)shm_get_dsp_value(rad_break_pos)) > 0) { TRACE_EVENT_P1("brkpos=%d", brkpos); /* * If the position > 0 read out the data until the break occurs. */ if (*bytes_to_read > 0) { TRACE_EVENT_P1("bytes_to_read=%d", *bytes_to_read); bytes_read = get_frame_descriptor(brkpos); bytes_to_read -= bytes_read; dtra->dl_pFD->len = bytes_read; TRACE_EVENT ("DATA_IND - break handling"); dtra->dl_pFD->len = 0; l1i_ra_data_ind(hCommTRA); } } shm_set_dsp_value (rad_byte_cnt, 2); /* confirm read operation */ #ifdef HO_WORKAROUND /* tra_dl_data_trans - "BREAK" */ /* enforce new DSR status bit filtering time */ dtra->dl_sa.delay_OFF_ON = 1000L; dtra->dl_sa.delay_ON_OFF = 0L; dtra->dl_sa.last = 0xFF; dtra->dl_sb.last = 0xFF; dtra->dl_x.last = 0xFF; ra_data->ra_data_ind.status = ST_SA + ST_SB + ST_X; *dl_status_changed = TRUE; #else dtra->ra_break_ind.break_len = brklen; l1i_ra_break_ind(); #endif if (*dl_status_changed EQ TRUE) { get_frame_descriptor(0); l1i_ra_data_ind(hCommTRA); } return TRUE; } /* brklen > 0 */ return FALSE; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RA_TRA | | STATE : code ROUTINE : tra_dl_data_trans | +--------------------------------------------------------------------+ PURPOSE : */ GLOBAL void tra_dl_data_trans(void) { UBYTE bytes_to_read; BOOL dl_status_changed; TRACE_FUNCTION("tra_dl_data_trans()"); #ifdef HO_WORKAROUND /* tra_dl_data_trans */ if (*ra_data->shm.shm_addr[d_ra_conf] NEQ _act_d_ra_conf) { *ra_data->shm.shm_addr[d_ra_conf] = _act_d_ra_conf; /* tra_dl_data_trans */ TRACE_EVENT("HO_REFRESH tra_dl_data_trans"); } #endif dl_status_changed = get_dl_status_bits(); /*** read out the received downlink data ***/ bytes_to_read = shm_get_dsp_value (rad_byte_cnt); if (bytes_to_read > 0) { bytes_to_read -= 2; /* ignore header */ if (dl_break_detected(&dl_status_changed, &bytes_to_read)) return; if (bytes_to_read > 0 AND bytes_to_read <= MAX_TRANS_BUFFER) { get_dl_bytes(bytes_to_read); } else /* NO bytes_to_read */ { if (dl_status_changed EQ TRUE) { get_frame_descriptor(0); l1i_ra_data_ind(hCommTRA); } } } else /* NO bytes_to_read -- will never happen */ { if (dl_status_changed EQ TRUE) { get_frame_descriptor(0); l1i_ra_data_ind(hCommTRA); } } }