FreeCalypso > hg > fc-magnetite
view src/g23m-gprs/grlc/grlc_rdf.c @ 581:a0a45c5eb3ef
gsmcomp.c: bumping trace partition size to 220 like in gprscomp.c
This change is safe in terms of RAM usage because all of these partition
pools have already been moved from XRAM to IRAM earlier, and our IRAM
usage in VO configs is currently quite low - the one near the limit
is XRAM on C11x.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Tue, 29 Jan 2019 03:52:49 +0000 |
parents | 219afcfc6250 |
children |
line wrap: on
line source
/* +----------------------------------------------------------------------------- | Project : GPRS (8441) | Modul : GRLC +----------------------------------------------------------------------------- | 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 module implements local functions for service RD of | entity GRLC. +----------------------------------------------------------------------------- */ #ifndef GRLC_RDF_C #define GRLC_RDF_C #endif #define ENTITY_GRLC /*==== INCLUDES =============================================================*/ #include "typedefs.h" /* to get Condat data types */ #include "vsi.h" /* to get a lot of macros */ #include "macdef.h" #include "gprs.h" #include "gsm.h" /* to get a lot of macros */ #include "ccdapi.h" /* to get CCD API */ #include "cnf_grlc.h" /* to get cnf-definitions */ #include "mon_grlc.h" /* to get mon-definitions */ #include "prim.h" /* to get the definitions of used SAP and directions */ #include "message.h" #include "grlc.h" /* to get the global entity definitions */ #include "grlc_tms.h" #include <string.h> /* memcpy */ #include "grlc_f.h" #include "grlc_rdf.h" #include "grlc_meass.h" /*==== CONST ================================================================*/ /*==== LOCAL VARS ===========================================================*/ /*==== PRIVATE FUNCTIONS ====================================================*/ /*==== PUBLIC FUNCTIONS =====================================================*/ /* +------------------------------------------------------------------------------ | Function : rd_init +------------------------------------------------------------------------------ | Description : The function rd_init() .... | | Parameters : dummy - description of parameter dummy | +------------------------------------------------------------------------------ */ GLOBAL void rd_init ( void ) { TRACE_FUNCTION( "rd_init" ); /* * UBYTE */ grlc_data->rd.vq = 0xFF; grlc_data->rd.vr = 0xFF; grlc_data->rd.li_cnt = 0xFF; grlc_data->rd.rlc_data_len = 0xFF; grlc_data->rd.f_ack_ind = 0xFF; grlc_data->rd.ssn = 0xFF; /* * USHORT */ grlc_data->rd.pdu_len = 0xFFFF; /* * BOOL */ grlc_data->rd.pdu_complete = TRUE; grlc_data->rd.channel_req = FALSE; grlc_data->rd.ch_req_in_ack_prog = FALSE; grlc_data->rd.inSequence = TRUE; /* * struct */ grlc_data->rd.ptr_grlc = NULL; grlc_data->rd.next_poll_block = NEXT_POLL_BLOCK_NONE; INIT_STATE(RD,RD_NULL); } /* rd_init() */ /* +------------------------------------------------------------------------------ | Function : rd_tbf_init +------------------------------------------------------------------------------ | Description : The function rd_tbf_init() .... | | Parameters : dummy - description of parameter dummy | +------------------------------------------------------------------------------ */ GLOBAL void rd_tbf_init ( void ) { TRACE_FUNCTION( "rd_tbf_init" ); /* * UBYTE */ grlc_data->rd.vq = 0; grlc_data->rd.vr = 0; grlc_data->rd.li_cnt = 0; grlc_data->rd.ssn = 0; grlc_data->rd.last_bsn = 0xFF; grlc_data->rd.bsn_pdu_start = 0xFF; /*set to zero at receiving the first data block*/ grlc_data->rd.cnt_sent_f_ack = 0; grlc_data->rd.f_ack_ind = 0; grlc_data->dl_tn_mask = grlc_data->downlink_tbf.ts_mask; /* * USHORT */ grlc_data->rd.pdu_len = 0; /* * BOOL */ grlc_data->rd.release_tbf = FALSE; grlc_data->rd.pdu_complete = TRUE; grlc_data->rd.ch_req_in_ack_prog = FALSE; grlc_data->rd.v_next_tbf_params = FALSE; grlc_data->rd.ignore_pdu = FALSE; grlc_data->rd.fn_p_tbf_rel = 0xFFFFFFFF; /* * struct */ grlc_data->rd.rlc_mode = grlc_data->downlink_tbf.rlc_mode; grlc_data->rd.cs_type = CS_ZERO; /* * arrays */ memset(grlc_data->rd.data_array, 0 , WIN_SIZE * sizeof(grlc_data->rd.data_array[0]) ); memset(grlc_data->rd.vn , VN_INVALID, WIN_SIZE * sizeof(grlc_data->rd.vn[0]) ); memset(grlc_data->rd.li , 0 , RD_LI_CNT_MAX * sizeof(grlc_data->rd.li[0]) ); memset(grlc_data->rd.m , 0 , RD_LI_CNT_MAX ); } /* rd_tbf_init() */ /* +------------------------------------------------------------------------------ | Function : rd_read_li_m_of_block +------------------------------------------------------------------------------ | Description : The function rd_read_li_m_of_block() .... | | Parameters : dummy - description of parameter dummy | +------------------------------------------------------------------------------ */ GLOBAL BOOL rd_read_li_m_of_block ( UBYTE * ptr_data_i, UBYTE e_bit_i ) { USHORT len_sum; BOOL result; TRACE_FUNCTION( "rd_read_li_m_of_block" ); len_sum = 0; grlc_data->rd.li_cnt = 0; while(!(e_bit_i)) { grlc_data->rd.li[grlc_data->rd.li_cnt] = (ptr_data_i[grlc_data->rd.li_cnt] & 0xFC) >> 2; grlc_data->rd.m [grlc_data->rd.li_cnt] = (ptr_data_i[grlc_data->rd.li_cnt] & 0x02) >> 1; e_bit_i = (ptr_data_i[grlc_data->rd.li_cnt] & 0x01); len_sum += grlc_data->rd.li[grlc_data->rd.li_cnt]; if((e_bit_i EQ 0) AND (!grlc_data->rd.m [grlc_data->rd.li_cnt])) { /*SZML-RD/001*/ return FALSE; } else if(!(grlc_data->rd.li[grlc_data->rd.li_cnt]) AND (grlc_data->rd.m [grlc_data->rd.li_cnt])) { TRACE_ERROR("dl block with li=0 and m=1: NOT ALLOWED"); return FALSE; } grlc_data->rd.li_cnt++; } if(grlc_data->rd.li_cnt > RD_LI_CNT_MAX) { TRACE_EVENT_P2("li_cnt=%d RD_LI_CNT_MAX=%d",grlc_data->rd.li_cnt,RD_LI_CNT_MAX); TRACE_ERROR("rd li_cnt bigger than RD_LI_CNT_MAX (=8)"); TRACE_ASSERT( grlc_data->rd.li_cnt > RD_LI_CNT_MAX ); return FALSE; } /* * check if sum of LIs is longer than a rlc data block len */ len_sum += grlc_data->rd.li_cnt; if( (len_sum > grlc_data->rd.rlc_data_len) OR ((len_sum EQ grlc_data->rd.rlc_data_len) AND (grlc_data->rd.m [grlc_data->rd.li_cnt-1])) ) result = FALSE; else result = TRUE; return result; } /* rd_read_li_m_of_block() */ /* +------------------------------------------------------------------------------ | Function : rd_out_grlc_data_ind +------------------------------------------------------------------------------ | Description : The function rd_out_grlc_data_ind() .... | | Parameters : dummy - description of parameter dummy | +------------------------------------------------------------------------------ */ GLOBAL void rd_out_grlc_data_ind( void ) { T_GRLC_DATA_IND *prim_ptr; TRACE_FUNCTION( "rd_out_grlc_data_ind" ); if(grlc_data->rd.ignore_pdu OR grlc_test_mode_active()) { /* * this pdu is not passed to LLC because MAX_LLC_PDU_SIZE was exceed or testmode is active */ grlc_data->rd.ignore_pdu = FALSE; TRACE_EVENT_P4("TARGET PDU END reached at will be ignored: len=%ld, bsn=pdu_start=%d vr = %d testmode=%d " ,grlc_data->rd.pdu_len ,grlc_data->rd.bsn_pdu_start ,grlc_data->rd.vr ,grlc_test_mode_active()); rd_free_desc_list_partions(); return; } if(grlc_data->rd.rlc_mode EQ CGRLC_RLC_MODE_ACK) { PALLOC_DESC (grlc_data_ind, GRLC_DATA_IND);//lint !e413 prim_ptr = grlc_data_ind; } else { PALLOC_DESC (grlc_unitdata_ind, GRLC_UNITDATA_IND);//lint !e413 prim_ptr = (T_GRLC_DATA_IND*)grlc_unitdata_ind; } memcpy( prim_ptr, &grlc_data->rd.grlc_data_ind, sizeof(T_GRLC_DATA_IND) ); PSEND(hCommLLC, prim_ptr); grlc_data->rd.grlc_data_ind.desc_list.first = NULL; grlc_data->rd.pdu_complete = TRUE; grlc_data->tbf_ctrl[grlc_data->dl_index].rlc_oct_cnt += grlc_data->rd.pdu_len; grlc_data->tbf_ctrl[grlc_data->dl_index].pdu_cnt++; } /* rd_out_grlc_data_ind() */ #ifdef _SIMULATION_ /* +------------------------------------------------------------------------------ | Function : rd_out_grlc_data_ind_test +------------------------------------------------------------------------------ | Description : The function rd_out_grlc_data_ind_test() .... | | Parameters : dummy - description of parameter dummy | +------------------------------------------------------------------------------ */ GLOBAL void rd_out_grlc_data_ind_test( void ) { T_NEXT_ARRAY *ptr_next_array = NULL; T_NEXT_ARRAY *ptr_help = NULL; UBYTE *ptr_pos = NULL,cnt=0; USHORT sdu_len_in_bits; T_GRLC_DATA_IND_TEST *prim_ptr = NULL; TRACE_FUNCTION( "rd_out_grlc_data_ind_test" ); if(grlc_data->rd.ignore_pdu OR grlc_test_mode_active()) { /* * this pdu is not passed to LLC because MAX_LLC_PDU_SIZE was exceed or testmode is active */ grlc_data->rd.ignore_pdu = FALSE; TRACE_EVENT_P4("SIMULATION PDU END reached at will be ignored: len=%ld, bsn=pdu_start=%d vr = %d testmode=%d" ,grlc_data->rd.pdu_len ,grlc_data->rd.bsn_pdu_start ,grlc_data->rd.vr ,grlc_test_mode_active()); rd_free_desc_list_partions(); return; } sdu_len_in_bits = grlc_data->rd.pdu_len * 8; if(grlc_data->rd.rlc_mode EQ CGRLC_RLC_MODE_ACK) { PALLOC_SDU (grlc_data_ind_test, GRLC_DATA_IND_TEST, sdu_len_in_bits); prim_ptr = grlc_data_ind_test; } else { PALLOC_SDU (grlc_unitdata_ind_test, GRLC_UNITDATA_IND_TEST, sdu_len_in_bits); prim_ptr = (T_GRLC_DATA_IND_TEST*)grlc_unitdata_ind_test; } { /* * copy from description list to test primitive */ prim_ptr->tlli = grlc_data->downlink_tbf.tlli; prim_ptr->sdu.l_buf = grlc_data->rd.pdu_len * 8; prim_ptr->sdu.o_buf = 0; ptr_next_array = (T_NEXT_ARRAY*)grlc_data->rd.grlc_data_ind.desc_list.first; ptr_pos = prim_ptr->sdu.buf; cnt=0; do { cnt++; memcpy(ptr_pos, ptr_next_array->data, ptr_next_array->len ); ptr_pos = &ptr_pos[ptr_next_array->len]; ptr_next_array = (T_NEXT_ARRAY*)ptr_next_array->next; } while(ptr_next_array NEQ NULL); PSEND(hCommLLC, prim_ptr); TRACE_EVENT_P1("SEND PARTIONS =%d",cnt); } grlc_data->tbf_ctrl[grlc_data->dl_index].rlc_oct_cnt += grlc_data->rd.pdu_len; grlc_data->tbf_ctrl[grlc_data->dl_index].pdu_cnt++; /* delete blocks which are sent to LLC: only possible in test environment * usally, deleting of the description list is task of LLC */ rd_free_desc_list_partions(); } /* rd_out_grlc_data_ind_test() */ #endif /* _SIMULATION_ */ /* +------------------------------------------------------------------------------ | Function : rd_send_grlc_data_ind +------------------------------------------------------------------------------ | Description : The function rd_send_grlc_data_ind() .... | | Parameters : dummy - description of parameter dummy | +------------------------------------------------------------------------------ */ GLOBAL void rd_send_grlc_data_ind ( UBYTE bsn_i ) { T_NEXT_ARRAY *ptr_block; UBYTE pdu_cnt; UBYTE compl_pdu; TRACE_FUNCTION( "rd_send_grlc_data_ind" ); pdu_cnt = grlc_data->rd.data_array[bsn_i & WIN_MOD].pdu_cnt; if(grlc_data->rd.data_array[bsn_i & WIN_MOD].pdu_complete) compl_pdu = grlc_data->rd.data_array[bsn_i & WIN_MOD].pdu_cnt; else if (pdu_cnt) compl_pdu = grlc_data->rd.data_array[bsn_i & WIN_MOD].pdu_cnt -1; else compl_pdu = 0; if ((ptr_block = grlc_data->rd.data_array[bsn_i & WIN_MOD].first) EQ NULL) { TRACE_EVENT_P4("NO DATA IND first empty bsn=%d bsn_mod=%d vr=%d vq=%d", bsn_i, bsn_i&WIN_MOD,grlc_data->rd.vr,grlc_data->rd.vq); return; } do { if(grlc_data->rd.pdu_complete) { grlc_data->rd.ptr_grlc = ptr_block; grlc_data->rd.grlc_data_ind.desc_list.first = (ULONG) grlc_data->rd.ptr_grlc; grlc_data->rd.pdu_len = ptr_block->len; grlc_data->rd.bsn_pdu_start = bsn_i; } else { grlc_data->rd.pdu_len += ptr_block->len; grlc_data->rd.ptr_grlc->next = (ULONG*) ptr_block; grlc_data->rd.ptr_grlc = (T_NEXT_ARRAY*) grlc_data->rd.ptr_grlc->next; } grlc_data->rd.pdu_complete = FALSE; if(grlc_data->rd.pdu_len > MAX_LLC_PDU_SIZE) { TRACE_EVENT_P5("PDU SIZE TO BIG = %ld pdu_st=%d vr=%d compl_pdu=%d pdu_cnt=%d" ,grlc_data->rd.pdu_len ,grlc_data->rd.bsn_pdu_start ,grlc_data->rd.vr ,compl_pdu ,pdu_cnt); if(!compl_pdu) { /* no pdu in data block */ grlc_data->rd.ignore_pdu = TRUE; /* free only linked partions */ rd_free_desc_list_partions(); return; } else { /* pdu boundary in data block */ ptr_block = (T_NEXT_ARRAY*) ptr_block->next; grlc_data->rd.ptr_grlc->next = NULL; /* * free only linked partions */ rd_free_desc_list_partions(); compl_pdu--; } } else if( compl_pdu ) { TRACE_EVENT_P5("GRLC_DATA_IND len=%ld bsn_start=%d bsn_end=%d las_len=%d dl_fn=%ld" ,grlc_data->rd.pdu_len ,grlc_data->rd.bsn_pdu_start ,bsn_i ,ptr_block->len ,grlc_data->dl_fn); ptr_block = (T_NEXT_ARRAY*) ptr_block->next; grlc_data->rd.ptr_grlc->next = NULL; grlc_data->rd.grlc_data_ind.desc_list.list_len = grlc_data->rd.pdu_len; grlc_data->rd.grlc_data_ind.tlli = grlc_data->downlink_tbf.tlli; #ifdef _TARGET_ { rd_out_grlc_data_ind(); } # endif # ifdef _SIMULATION_ { rd_out_grlc_data_ind_test(); } # endif grlc_data->rd.pdu_complete = TRUE; compl_pdu--; } if(!pdu_cnt) pdu_cnt = 0; else pdu_cnt--; } while(pdu_cnt); grlc_data->rd.pdu_complete = grlc_data->rd.data_array[bsn_i & WIN_MOD].pdu_complete; /* * block combined, first element reseted */ grlc_data->rd.data_array[bsn_i & WIN_MOD].first = NULL; } /* rd_send_grlc_data_ind() */ /* +------------------------------------------------------------------------------ | Function : rd_check_window_size +------------------------------------------------------------------------------ | Description : The function rd_check_window_size() .... | | Parameters : dummy - description of parameter dummy | +------------------------------------------------------------------------------ */ GLOBAL BOOL rd_check_window_size ( UBYTE bsn_i ) { BOOL result; TRACE_FUNCTION( "rd_check_window_size" ); if(grlc_data->rd.rlc_mode EQ CGRLC_RLC_MODE_ACK) { if( bsn_i >= grlc_data->rd.ssn ) { if((bsn_i - grlc_data->rd.ssn) < WIN_SIZE) { result = TRUE; } else { result = FALSE; } } else { if((bsn_i + 128 - grlc_data->rd.ssn) < WIN_SIZE) { result = TRUE; } else { result = FALSE; } } } else if(grlc_data->rd.rlc_mode EQ CGRLC_RLC_MODE_UACK) { if( bsn_i >= grlc_data->rd.vr ) { if((bsn_i - grlc_data->rd.vr) < WIN_SIZE) { result = TRUE; } else { result = FALSE; } } else { if((bsn_i + 128 - grlc_data->rd.vr) < WIN_SIZE) { result = TRUE; } else { result = FALSE; } } } else { result =FALSE; TRACE_EVENT_P4("unknown rlc mode in rd_check_window_size: rlc_mode=%d, bsn_i=%d,ssn=%d,vr=%d " ,grlc_data->rd.rlc_mode ,bsn_i ,grlc_data->rd.ssn ,grlc_data->rd.vr); } return result; } /* rd_check_window_size() */ /* +------------------------------------------------------------------------------ | Function : rd_save_block +------------------------------------------------------------------------------ | Description : The function rd_save_block() .... | | Parameters : bsn_i - block sequence number of the saved block | *ptr_data_block_i - pointer the data field of the rlc data | block without header and li field | fbi_i - final block indication bit of the received | data block | +------------------------------------------------------------------------------ */ GLOBAL void rd_save_block ( UBYTE bsn_i, UBYTE * ptr_data_block_i, UBYTE fbi_i) { T_NEXT_ARRAY *ptr_temp=NULL; UBYTE block_nr; UBYTE i; UBYTE *ptr_data; USHORT len; TRACE_FUNCTION( "rd_save_block" ); if(!(grlc_data->rd.li_cnt)) { /* * only a part of a pdu */ MALLOC(ptr_temp, sizeof(T_NEXT_ARRAY)); ptr_temp->next = NULL; ptr_temp->len = grlc_data->rd.rlc_data_len; memcpy((ptr_temp->data),(ptr_data_block_i),(ptr_temp->len)); grlc_data->rd.data_array[bsn_i & WIN_MOD].first = ptr_temp; if(fbi_i) { grlc_data->rd.data_array[bsn_i & WIN_MOD].pdu_cnt = 1; grlc_data->rd.data_array[bsn_i & WIN_MOD].pdu_complete =TRUE; } else { grlc_data->rd.data_array[bsn_i & WIN_MOD].pdu_cnt = 0; grlc_data->rd.data_array[bsn_i & WIN_MOD].pdu_complete =FALSE; } } else { /* * for the first part */ MALLOC(ptr_temp, sizeof(T_NEXT_ARRAY)); if(grlc_data->rd.li[0] EQ 0 ) ptr_temp->len = grlc_data->rd.rlc_data_len-1; else ptr_temp->len = grlc_data->rd.li[0]; ptr_data = ptr_data_block_i; memcpy((ptr_temp->data), (ptr_data), (ptr_temp->len)); grlc_data->rd.data_array[bsn_i & WIN_MOD].first = ptr_temp; block_nr = 1; while((block_nr <= grlc_data->rd.li_cnt) AND (grlc_data->rd.m[block_nr-1])) { ptr_data = &(ptr_data[ptr_temp->len]); MALLOC(ptr_temp->next, sizeof(T_NEXT_ARRAY)); ptr_temp = (T_NEXT_ARRAY *)ptr_temp->next; /* * check if it islast pdu in rlc data block */ if((block_nr EQ grlc_data->rd.li_cnt) OR (grlc_data->rd.li[block_nr] EQ 0)) { /* * last block, len is REST */ len = 0; for(i=0; i < grlc_data->rd.li_cnt; i++) len += grlc_data->rd.li[i]; ptr_temp->len = grlc_data->rd.rlc_data_len - grlc_data->rd.li_cnt - len; } else { /* * not last part */ ptr_temp->len = grlc_data->rd.li[block_nr]; } memcpy((ptr_temp->data), (ptr_data), (ptr_temp->len)); block_nr++; } ptr_temp->next = NULL; if(grlc_data->rd.m[grlc_data->rd.li_cnt-1] EQ 0) grlc_data->rd.data_array[bsn_i & WIN_MOD].pdu_cnt = grlc_data->rd.li_cnt; else grlc_data->rd.data_array[bsn_i & WIN_MOD].pdu_cnt = grlc_data->rd.li_cnt + 1; if(fbi_i OR ((grlc_data->rd.li[grlc_data->rd.li_cnt-1]) AND (grlc_data->rd.m[grlc_data->rd.li_cnt-1] EQ 0))) grlc_data->rd.data_array[bsn_i & WIN_MOD].pdu_complete = TRUE; else grlc_data->rd.data_array[bsn_i & WIN_MOD].pdu_complete = FALSE; } } /* rd_save_block() */ /* +------------------------------------------------------------------------------ | Function : rd_comp_rec_par +------------------------------------------------------------------------------ | Description : The function rd_comp_rec_par() .... | | Parameters : dummy - description of parameter dummy | +------------------------------------------------------------------------------ */ GLOBAL void rd_comp_rec_par ( UBYTE bsn_i ) { UBYTE vq_help; TRACE_FUNCTION( "rd_comp_rec_par" ); if(grlc_data->rd.rlc_mode EQ CGRLC_RLC_MODE_ACK) { if( ( grlc_data->rd.vr >= grlc_data->rd.ssn) && ( (bsn_i >= grlc_data->rd.vr ) || (bsn_i < grlc_data->rd.ssn) ) ) grlc_data->rd.vr = (bsn_i+1) & 0x7F; else if( ( grlc_data->rd.vr < grlc_data->rd.ssn) && ( (bsn_i >= grlc_data->rd.vr ) && (bsn_i < grlc_data->rd.ssn) ) ) grlc_data->rd.vr = (bsn_i+1) & 0x7F; grlc_data->rd.vn[bsn_i & WIN_MOD] = VN_RECEIVED; vq_help = grlc_data->rd.vq; while( (grlc_data->rd.vn[vq_help & WIN_MOD] EQ VN_RECEIVED) AND vq_help NEQ grlc_data->rd.vr) { vq_help = (vq_help+1) & 0x7F; } grlc_data->rd.vq = vq_help; } else if(grlc_data->rd.rlc_mode EQ CGRLC_RLC_MODE_UACK) { if(grlc_data->rd.vr EQ bsn_i) { grlc_data->rd.vr = (1+grlc_data->rd.vr) % 128; grlc_data->rd.vq = (1+grlc_data->rd.vq) % 128; grlc_data->rd.inSequence = TRUE; } else { grlc_data->rd.vr = bsn_i; grlc_data->rd.inSequence = FALSE; } } else TRACE_ERROR(" unknown RLC Mode during dl tbf in rd_comp_rec_par"); } /* rd_comp_rec_par() */ /* +------------------------------------------------------------------------------ | Function : rd_check_fbi +------------------------------------------------------------------------------ | Description : The function rd_check_fbi() .... | | Parameters : dummy - description of parameter dummy | +------------------------------------------------------------------------------ */ GLOBAL UBYTE rd_check_fbi ( UBYTE fbi_i, UBYTE sp , ULONG fn , UBYTE rrbp ) { TRACE_FUNCTION( "rd_check_fbi" ); /* * mark the bsn with fbi=1 */ if(fbi_i) { grlc_data->rd.last_bsn = grlc_data->rd.vr; if(!sp) { TRACE_EVENT_P1("NO SP BUT FINAL DATA BLOCK t3192=%d",grlc_data->downlink_tbf.t3192_val); } } /* * if last bsn is left window element, than tbf is going to be released */ if(grlc_data->rd.last_bsn EQ grlc_data->rd.vq AND !grlc_data->rd.f_ack_ind) /* to avoid retransmission */ { PALLOC(prim,CGRLC_T3192_STARTED_IND); PSEND(hCommGRR,prim); if(grlc_data->rd.rlc_mode EQ CGRLC_RLC_MODE_ACK ) { SET_STATE(RD,RD_REL_ACK); } else { SET_STATE(RD,RD_REL_UACK); } grlc_data->tbf_ctrl[grlc_data->dl_index].fbi = 1; if(sp) { grlc_data->rd.fn_p_tbf_rel = grlc_decode_tbf_start_rel(fn,(USHORT)(rrbp+3)); } return 1; } else { return 0; } }/* rd_check_fbi() */ /* +------------------------------------------------------------------------------ | Function : rd_set_acknack +------------------------------------------------------------------------------ | Description : The function rd_set_acknack() .... | | Parameters : dummy - description of parameter dummy | +------------------------------------------------------------------------------ */ GLOBAL UBYTE* rd_set_acknack ( void ) { MCAST (u_dl_ack,U_GRLC_DL_ACK); UBYTE * ptr_block; UBYTE i; UBYTE index; UBYTE help,neg_ack=0; ULONG rbb1=0,rbb2=0,dummy1=0,dummy2=0; TRACE_FUNCTION( "rd_set_acknack" ); if(grlc_data->rd.channel_req AND (grlc_data->tbf_type EQ TBF_TYPE_DL)) { u_dl_ack->v_chan_req_des = 1; u_dl_ack->chan_req_des = grlc_data->chan_req_des; grlc_data->rd.channel_req = 0; grlc_data->rd.ch_req_in_ack_prog = TRUE; /* TRACE_EVENT_P6("channel req des in dl ack nack:ptp=%d,rp=%d,rlc_mode=%d,llc_pt=%d,rlc_oc=%d, pst=%d", grlc_data->chan_req_des.peak_thr_class, grlc_data->chan_req_des.radio_prio, grlc_data->chan_req_des.rlc_mode, grlc_data->chan_req_des.llc_pdu_type, grlc_data->chan_req_des.rlc_octet_cnt, grlc_data->prim_start_tbf);*/ if(grlc_data->prim_start_tbf >= PRIM_QUEUE_SIZE_TOTAL) { TRACE_EVENT_P3("PST=%d PSF=%d PDU=%d: rd_set_acknack" ,grlc_data->prim_start_tbf ,grlc_data->prim_start_free ,grlc_data->grlc_data_req_cnt); } } else { u_dl_ack->v_chan_req_des = 0; grlc_data->rd.channel_req = 0; } u_dl_ack->msg_type = U_GRLC_DL_ACK_c; u_dl_ack->dl_tfi = grlc_data->dl_tfi; u_dl_ack->ack_nack_des.f_ack_ind = grlc_data->rd.f_ack_ind; u_dl_ack->ack_nack_des.ssn = grlc_data->rd.vr; memset(u_dl_ack->ack_nack_des.rbb, 1, WIN_SIZE ); for(i=0; i< WIN_SIZE; i++) { if(grlc_data->rd.vr EQ grlc_data->rd.ssn OR grlc_data->rd.rlc_mode EQ CGRLC_RLC_MODE_UACK) break; index = (grlc_data->rd.vr-1-i) & 0x7F; if(grlc_data->rd.vn[index & WIN_MOD] NEQ VN_RECEIVED) { u_dl_ack->ack_nack_des.rbb[WIN_SIZE-1-i] = 0; neg_ack++; } if(grlc_data->rd.ssn EQ index ) { help = grlc_data->rd.ssn; while(help NEQ grlc_data->rd.vq) { grlc_data->rd.vn[help & WIN_MOD] = VN_INVALID; help = (help + 1) & 0x7F; } break; } } /* TRACE ONLY if there is channel desc or negative ack or the final ack*/ if(u_dl_ack->v_chan_req_des OR u_dl_ack->ack_nack_des.f_ack_ind OR neg_ack) { if(neg_ack AND !u_dl_ack->ack_nack_des.f_ack_ind) { for(i=0; i<32;i++) { dummy1 = u_dl_ack->ack_nack_des.rbb[WIN_SIZE-1-i]; dummy2 = u_dl_ack->ack_nack_des.rbb[WIN_SIZE-1-i-32]; rbb1 += dummy1 <<i; rbb2 += dummy2 <<i; } TRACE_EVENT_P7("dl_ack:p_fn=%ld,CD=%d ssn=%d nacks=%d vq=%d rbb2=%lx rbb1=%lx", grlc_data->next_poll_array[grlc_data->poll_start_tbf].fn, u_dl_ack->v_chan_req_des, u_dl_ack->ack_nack_des.ssn, neg_ack, grlc_data->rd.vq, rbb2, rbb1); } else { rbb1 = 0xFFFFFFFF; rbb2 = 0xFFFFFFFF; TRACE_EVENT_P6("dl_ack:p_fn=%ld,CD=%d fbi=%d ssn=%d nacks=%d vq=%d", grlc_data->next_poll_array[grlc_data->poll_start_tbf].fn, u_dl_ack->v_chan_req_des, u_dl_ack->ack_nack_des.f_ack_ind, u_dl_ack->ack_nack_des.ssn, neg_ack, grlc_data->rd.vq); } } else { rbb1 = 0xFFFFFFFF; rbb2 = 0xFFFFFFFF; } u_dl_ack->chan_qual_rep.c_value = 0; u_dl_ack->chan_qual_rep.rxqual = 0; u_dl_ack->chan_qual_rep.signvar = 0; { /* processing channel quality report */ /* processing of C value */ u_dl_ack->chan_qual_rep.c_value = meas_grlc_c_get_value( ); /* processing of RXQUAL value */ u_dl_ack->chan_qual_rep.rxqual = meas_sq_get_rxqual_value( ); /* processing of signal variance */ u_dl_ack->chan_qual_rep.signvar = meas_sv_get_value( ); /* processing of relative interference levels */ meas_int_get_rel_i_level( &u_dl_ack->chan_qual_rep.ilev ); } #if !defined (NTRACE) if( grlc_data->meas.v_im_trace NEQ 0 ) { TRACE_EVENT_P3( "rd_set_acknack: %d %d %d", u_dl_ack->chan_qual_rep.c_value, u_dl_ack->chan_qual_rep.rxqual, u_dl_ack->chan_qual_rep.signvar ); } #endif /* #if !defined (NTRACE) */ #ifdef REL99 u_dl_ack->v_release_99_str_u_grlc_dl_ack = 1; if (grlc_data->pfi_support AND u_dl_ack->v_chan_req_des ) { u_dl_ack->release_99_str_u_grlc_dl_ack.v_pfi = 1; u_dl_ack->release_99_str_u_grlc_dl_ack.pfi = grlc_data->pfi_value; } else { u_dl_ack->release_99_str_u_grlc_dl_ack.v_pfi = 0; } #endif grlc_data->rd.ssn = grlc_data->rd.vq; ptr_block = (_decodedMsg); return ptr_block; } /* rd_set_acknack() */ /* +------------------------------------------------------------------------------ | Function : rd_calc_rlc_data_len +------------------------------------------------------------------------------ | Description : The function rd_calc_rlc_data_len() calculates the Data size of | an RLC data block depending on coding scheme. | The size is described in bytes. | | Parameters : block_status_i - includes the Coding scheme which | determines the size of an RLC data block | +------------------------------------------------------------------------------ */ GLOBAL UBYTE rd_calc_rlc_data_len ( USHORT block_status_i ) { UBYTE result=0; TRACE_FUNCTION( "rd_calc_rlc_data_len" ); /* * the coding scheme is only in the first four bits */ block_status_i = block_status_i & 0x000F; switch( block_status_i) { case 2: grlc_data->rd.cs_type = CS_1; break; case 4: grlc_data->rd.cs_type = CS_2; break; case 5: grlc_data->rd.cs_type = CS_3; break; case 6: grlc_data->rd.cs_type = CS_4; break; default: TRACE_EVENT("No Coding Scheme in RLC data block defined, old CS is used"); break; } switch( grlc_data->rd.cs_type) { /* * NO CS defined in all previously received RLC data blocks, * therefore default CS_1 is used */ case CS_ZERO: case CS_1: result = 20; break; case CS_2: result = 30; break; case CS_3: result = 36; break; case CS_4: result = 50; break; default: TRACE_ERROR("unknown Coding Scheme"); break; } return result; } /* rd_calc_rlc_data_len() */ /* +------------------------------------------------------------------------------ | Function : rd_fill_blocks +------------------------------------------------------------------------------ | Description : The function rd_fill_blocks() fills not received but needed | RLC data blocks with the value Zero. | | Parameters : bsn_i - bsn value of the recently received RLC data block, | which is not inSequence(not equal VR at receiving the block) | +------------------------------------------------------------------------------ */ GLOBAL void rd_fill_blocks ( UBYTE bsn_i ) { T_NEXT_ARRAY * ptr_temp=NULL; TRACE_FUNCTION( "rd_fill_blocks" ); do { MALLOC(ptr_temp, sizeof(T_NEXT_ARRAY)); ptr_temp->next = NULL; ptr_temp->len = grlc_data->rd.rlc_data_len; memset(ptr_temp->data,0,ptr_temp->len); grlc_data->rd.data_array[grlc_data->rd.vq & WIN_MOD].first = ptr_temp; grlc_data->rd.data_array[grlc_data->rd.vq & WIN_MOD].pdu_cnt = 0; grlc_data->rd.data_array[grlc_data->rd.vq & WIN_MOD].pdu_complete =FALSE; rd_send_grlc_data_ind(grlc_data->rd.vq); grlc_data->rd.vq = (1+grlc_data->rd.vq) % 128; /*modulo 128*/ } while(grlc_data->rd.vq NEQ bsn_i); grlc_data->rd.vq = (1+grlc_data->rd.vq) % 128; /*modulo 128*/ grlc_data->rd.vr = grlc_data->rd.vq; grlc_data->rd.inSequence = TRUE; } /* rd_fill_blocks() */ /* +------------------------------------------------------------------------------ | Function : rd_calc_delta_fn +------------------------------------------------------------------------------ | Description : The function rd_calc_delta_fn() calculates delta_fn. It is | needed at receiving mac_ready_ind to send a poll block. | In Target Enviroment, the poll block(Ack/nack or Control block) | must be calculated one radio block earlier then the send time. | This is needed due to the functional interface. | Parameters : fn_i - framenumber for the uplink call | | +------------------------------------------------------------------------------ */ GLOBAL ULONG rd_calc_delta_fn ( ULONG fn_i ) { ULONG result; TRACE_FUNCTION( "rd_calc_delta_fn" ); #ifdef _TARGET_ { if(fn_i EQ FN_MAX-5) result = grlc_data->next_poll_array[grlc_data->poll_start_tbf].fn + 5; else result = grlc_data->next_poll_array[grlc_data->poll_start_tbf].fn - fn_i; } #endif #ifdef _SIMULATION_ { if(fn_i EQ grlc_data->next_poll_array[grlc_data->poll_start_tbf].fn) result = 4; /*valid: send block*/ else result = 0; /*no poll sending*/ } #endif return result; } /* rd_calc_delta_fn() */ /* +------------------------------------------------------------------------------ | Function : rd_free_desc_list_partions +------------------------------------------------------------------------------ | Description : The function rd_free_desc_list_partions() frees the partions, | which are linked for a candidate LLC pdu. PDU is stored as a | description list, but not passed to LLC because of incomplete. | Parameters : | +------------------------------------------------------------------------------ */ GLOBAL void rd_free_desc_list_partions ( void ) { UBYTE cnt = 0; T_NEXT_ARRAY *help = NULL; TRACE_FUNCTION( "rd_free_desc_list_partions" ); help = (T_NEXT_ARRAY*)grlc_data->rd.grlc_data_ind.desc_list.first; grlc_data->rd.grlc_data_ind.desc_list.first = NULL; while(help != NULL) { T_NEXT_ARRAY *ptr = (T_NEXT_ARRAY*) help->next; MFREE(help); help = ptr; cnt++; } #ifdef _SIMULATION_ TRACE_EVENT_P1("freed partion (linked) : cnt=%d",cnt); #endif /* _SIMULATION_*/ grlc_data->rd.pdu_complete = TRUE; grlc_data->rd.pdu_len = 0; } /* rd_free_desc_list_partions() */ /* +------------------------------------------------------------------------------ | Function : rd_free_database_partions +------------------------------------------------------------------------------ | Description : The function rd_free_database_partions() frees the partions, | which are stored in the RD database. They are not linked to a | LLC pdu because data blocks are not received in sequence. | Partions are removed from left window size (vq) up to the | right window size (vr). | Parameters : | +------------------------------------------------------------------------------ */ GLOBAL void rd_free_database_partions ( void ) { USHORT bsn; UBYTE cnt=0; T_NEXT_ARRAY *help = NULL; TRACE_FUNCTION( "rd_free_database_partions" ); bsn = grlc_data->rd.vq; while (bsn NEQ grlc_data->rd.vr) { help = grlc_data->rd.data_array[bsn & WIN_MOD].first; #ifdef _SIMULATION_ TRACE_EVENT_P2("candiate bsn=%d vn=%d",bsn,grlc_data->rd.vn[bsn & WIN_MOD]); #endif /* _SIMULATION_*/ while (help != NULL) { grlc_data->rd.data_array[bsn & WIN_MOD].first = (T_NEXT_ARRAY *)grlc_data->rd.data_array[bsn & WIN_MOD].first->next; MFREE(help); cnt++; #ifdef _SIMULATION_ TRACE_EVENT_P1("element free : bsn=%d",bsn); #endif /* _SIMULATION_*/ if(grlc_data->rd.data_array[bsn & WIN_MOD].pdu_cnt) help = grlc_data->rd.data_array[bsn & WIN_MOD].first; else help = NULL; } grlc_data->rd.data_array[bsn & WIN_MOD].pdu_complete = FALSE; grlc_data->rd.data_array[bsn & WIN_MOD].pdu_cnt = 0xFF; grlc_data->rd.data_array[bsn & WIN_MOD].first = NULL; bsn = (bsn + 1) & 0x7F; } TRACE_EVENT_P2("rd_free_database_partions after: bsn=%d cnt=%d ", bsn, cnt); } /* rd_free_database_partions() */ /* +------------------------------------------------------------------------------ | Function : rd_cgrlc_st_time_ind +------------------------------------------------------------------------------ | Description : The function rd_cgrlc_st_time_ind () informs higher layers | that the starting time is elapsed | | Parameters : - | +------------------------------------------------------------------------------ */ GLOBAL void rd_cgrlc_st_time_ind ( void ) { PALLOC(cgrlc_starting_time_ind,CGRLC_STARTING_TIME_IND); /* T_CGRLC_STARTING_TIME_IND */ TRACE_FUNCTION( "rd_cgrlc_st_time_ind " ); cgrlc_starting_time_ind->tbf_mode = CGRLC_TBF_MODE_DL; cgrlc_starting_time_ind->tfi = grlc_data->dl_tfi; PSEND(hCommGRR,cgrlc_starting_time_ind); grlc_data->dl_tn_mask = grlc_data->downlink_tbf.ts_mask; } /* rd_cgrlc_st_time_ind () */