FreeCalypso > hg > fc-magnetite
view src/g23m-gprs/grr/grr_cpapf.c @ 648:337e6d3a4454
abb.c: disable superdeep sleep on Luna
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Thu, 07 May 2020 06:28:56 +0000 |
parents | 219afcfc6250 |
children |
line wrap: on
line source
/* +----------------------------------------------------------------------------- | Project : GPRS (8441) | Modul : GRR +----------------------------------------------------------------------------- | 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 CPAP of | entity GRR. +----------------------------------------------------------------------------- */ #ifndef GRR_CPAPF_C #define GRR_CPAPF_C #endif #define ENTITY_GRR /*==== INCLUDES =============================================================*/ #include <string.h> #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_grr.h" /* to get cnf-definitions */ #include "mon_grr.h" /* to get mon-definitions */ #include "prim.h" /* to get the definitions of used SAP and directions */ #include "message.h" #include "pcm.h" /* to get a lot of macros */ #include "grr.h" /* to get the global entity definitions */ #include "grr_f.h" /* to get the global function definitions */ #include "grr_tcf.h" /* to get the tc function definitions */ #include "grr_tcs.h" /* to get the tc sig function definitions */ #include "grr_cpapf.h" #include "grr_meass.h" /* to get the definitions for interference measurements */ /*==== CONST ================================================================*/ /*==== LOCAL VARS ===========================================================*/ /*==== PRIVATE FUNCTIONS ====================================================*/ LOCAL void cpap_set_da_assignment_pdch (T_MPHP_ASSIGNMENT_REQ * ptr2prim_i); LOCAL void cpap_set_dl_assignment_pdch (T_MPHP_ASSIGNMENT_REQ * ptr2prim_i); LOCAL BOOL cpap_check_and_save_freq (void); /*==== PUBLIC FUNCTIONS =====================================================*/ /* +------------------------------------------------------------------------------ | Function : cpap_init +------------------------------------------------------------------------------ | Description : The function cpap_init() .... | | Parameters : void | +------------------------------------------------------------------------------ */ GLOBAL void cpap_init ( void ) { TRACE_FUNCTION( "cpap_init" ); INIT_STATE(CPAP,CPAP_IDLE); grr_data->cpap.new_tbf_type = CGRLC_TBF_MODE_NULL; grr_data->cpap.v_tma_ia = FALSE; grr_data->cpap.p_d_imm_assign = NULL; } /* cpap_init() */ /* +------------------------------------------------------------------------------ | Function : cpap_eval_ia +------------------------------------------------------------------------------ | Description : The function cpap_eval_ia() .... | | Parameters : void | +------------------------------------------------------------------------------ */ GLOBAL T_EVAL_IA cpap_eval_ia ( void ) { MCAST(d_imm_assign,D_IMM_ASSIGN);/* T_D_IMM_ASSIGN T_U_CTRL_ACK */ T_EVAL_IA result = E_IA_NULL; T_tfi_ass_alloc * p_tfi_ass; TRACE_FUNCTION( "cpap_eval_ia" ); if(d_imm_assign->tma EQ TMA_1) { /* the 1st message is only delivered by rr if the 2nd message has arrived */ /* with correct request reference so it has not to be checked here again */ result = E_IA_TMA; /* 1st part of TWO MESSAGE ASSIGNMENT */ } else if(d_imm_assign->d_t EQ D_T_DED) { result = E_IA_DCCH; } else if(d_imm_assign->ia_rest_oct.v_ia_assign_par AND d_imm_assign->ia_rest_oct.ia_assign_par.v_pck_upl_ass_ia AND d_imm_assign->ia_rest_oct.ia_assign_par.pck_upl_ass_ia.v_tfi_ass_alloc) { T_pck_upl_ass_ia *pck_upl_ass_ia = &(d_imm_assign->ia_rest_oct.ia_assign_par.pck_upl_ass_ia); p_tfi_ass = &(pck_upl_ass_ia->tfi_ass_alloc); /* more contents than before*/ grr_data->uplink_tbf.ts_usage = (0x80>>d_imm_assign->pck_chan_desc.tn); grr_data->uplink_tbf.nts = 1; /* * handle polling bit */ if(p_tfi_ass->poll AND (!grr_check_if_tbf_start_is_elapsed(grr_decode_tbf_start_abs((T_abs *)&d_imm_assign->ia_rest_oct.ia_assign_par.pck_upl_ass_ia.tfi_ass_alloc.tbf_start_time ),grr_data->ul_fn))) grr_data->uplink_tbf.polling_bit = d_imm_assign->pck_chan_desc.tn; else grr_data->uplink_tbf.polling_bit = 0xFF; grr_data->uplink_tbf.cs_mode = p_tfi_ass->ccm; grr_data->uplink_tbf.tlli_cs_mode = p_tfi_ass->tlli_bcc; if(p_tfi_ass->allo_flag EQ 0) /* Dynamic Allocation */ { if(p_tfi_ass->v_usf AND p_tfi_ass->v_usf_gran) { result = E_IA_UL; /* Dynamic Allocation */ grr_data->uplink_tbf.mac_mode = CGRLC_MAC_MODE_DA; } else /* dynamic alloc but no usf value */ { result = E_IA_ERROR_RA; TRACE_ERROR("dynamic alloc but no usf value!"); } } else /*fixed alloc*/ if (p_tfi_ass->v_allo_len5 AND p_tfi_ass->v_allo_bmp5 AND p_tfi_ass->v_tbf_start_time) { result = E_IA_UL; /* Fixed Allocation */ grr_data->uplink_tbf.mac_mode = CGRLC_MAC_MODE_FA; } else /* fixed alloc but no alloc bitmap or tbf starting time */ { result = E_IA_ERROR_RA; TRACE_ERROR("fixed alloc but no alloc bitmap or tbf starting time!"); } if (!cpap_check_and_save_freq()) { result = E_IA_ERROR_RA; TRACE_EVENT("cpap_eval_ia: return E_IA_ERROR_RA (frequencies wrong)"); } if( result NEQ E_IA_ERROR_RA ) { /* process power control parameter */ grr_store_type_pck_upl_ass_ia( p_tfi_ass, d_imm_assign->pck_chan_desc.tn ); } } else if(d_imm_assign->ia_rest_oct.v_ia_assign_par AND d_imm_assign->ia_rest_oct.ia_assign_par.v_pck_upl_ass_ia AND d_imm_assign->ia_rest_oct.ia_assign_par.pck_upl_ass_ia.v_sngl_block_alloc) { /* single block */ T_sngl_block_alloc *sngl_block_ass = &d_imm_assign->ia_rest_oct.ia_assign_par.pck_upl_ass_ia.sngl_block_alloc; if( grr_data->tc.v_sb_without_tbf ) { result = E_IA_SB_WITHOUT_TBF; } else { result = E_IA_SB_2PHASE_ACCESS; } if (!cpap_check_and_save_freq()) { result = E_IA_ERROR_RA; TRACE_EVENT("cpap_eval_ia: return E_IA_ERROR_RA (frequencies wrong)"); } if( result NEQ E_IA_ERROR_RA ) { /* process power control parameter */ grr_store_type_pck_snbl_ass_ia( sngl_block_ass, d_imm_assign->pck_chan_desc.tn ); } } else if(d_imm_assign->ia_rest_oct.v_ia_assign_par AND d_imm_assign->ia_rest_oct.ia_assign_par.v_ia_2nd_part) { result = E_IA_TMA_SECOND; } else { result = E_IA_ERROR_RA; TRACE_ERROR("corrupted message recieved!"); } return(result); } /* cpap_eval_ia() */ /* +------------------------------------------------------------------------------ | Function : cpap_eval_ia_dl +------------------------------------------------------------------------------ | Description : The function cpap_eval_ia_dl() .... | | Parameters : void | +------------------------------------------------------------------------------ */ GLOBAL T_EVAL_IA_DL cpap_eval_ia_dl ( void ) { MCAST(d_imm_assign,D_IMM_ASSIGN);/* T_D_IMM_ASSIGN */ T_EVAL_IA_DL result = E_IA_DL_IGNORE; T_pck_downl_ass_ia * p_dl_assign; TRACE_FUNCTION( "cpap_eval_ia_dl" ); if(d_imm_assign->d_t EQ D_T_DED) { result = E_IA_DL_DCCH; } else if(d_imm_assign->tma EQ TMA_1) { /* the 1st message is only delivered by rr if the 2nd message has arrived */ /* with correct request reference so it has not to be checked here again */ if(d_imm_assign->ia_rest_oct.v_ia_assign_par AND d_imm_assign->ia_rest_oct.ia_assign_par.v_pck_downl_ass_ia AND d_imm_assign->ia_rest_oct.ia_assign_par.pck_downl_ass_ia.v_tfi_ass_rlc) { p_dl_assign = &(d_imm_assign->ia_rest_oct.ia_assign_par.pck_downl_ass_ia); if(grr_check_all_tlli((BUF_tlli_value *)&(p_dl_assign->ded_tlli))) { result = E_IA_DL_TMA; } else { result = E_IA_DL_NOT_OURS; } } else { result = E_IA_DL_IGNORE; TRACE_ERROR("the 1st message is only delivered by rr if the 2nd message has arrived"); } } else if(d_imm_assign->ia_rest_oct.v_ia_assign_par AND d_imm_assign->ia_rest_oct.ia_assign_par.v_pck_downl_ass_ia AND d_imm_assign->ia_rest_oct.ia_assign_par.pck_downl_ass_ia.v_tfi_ass_rlc) { p_dl_assign = &(d_imm_assign->ia_rest_oct.ia_assign_par.pck_downl_ass_ia); if(grr_check_all_tlli((BUF_tlli_value *)&(p_dl_assign->ded_tlli))) { result = E_IA_DL_ASSIGN; grr_data->downlink_tbf.ts_usage = (0x80>>d_imm_assign->pck_chan_desc.tn); grr_data->downlink_tbf.nts = 1; /* * handle polling bit */ if(p_dl_assign->tfi_ass_rlc.poll AND (!grr_check_if_tbf_start_is_elapsed(grr_decode_tbf_start_abs((T_abs *)&d_imm_assign->ia_rest_oct.ia_assign_par.pck_downl_ass_ia.tbf_start_time ),grr_data->ul_fn))) grr_data->downlink_tbf.polling_bit = d_imm_assign->pck_chan_desc.tn; else grr_data->downlink_tbf.polling_bit = 0xFF; grr_data->downlink_tbf.mac_mode = DA; /* by default set to */ grr_data->downlink_tbf.t3192 = FALSE; /* indicates if t3192 is running*/ grr_data->downlink_tbf.rlc_mode = p_dl_assign->tfi_ass_rlc.rlc_mode; grr_data->downlink_tbf.ctrl_ack_bit= 0; if (!cpap_check_and_save_freq()) { result = E_IA_DL_IGNORE; TRACE_EVENT("cpap_eval_ia_dl: return E_IA_DL_IGNORE (frequencies wrong)"); } if( result EQ E_IA_DL_ASSIGN ) { grr_store_type_tfi_ass_rlc( &p_dl_assign->tfi_ass_rlc, d_imm_assign->pck_chan_desc.tn ); } } else { result = E_IA_DL_NOT_OURS; } } else if(d_imm_assign->ia_rest_oct.v_ia_assign_par AND d_imm_assign->ia_rest_oct.ia_assign_par.v_pck_downl_ass_ia AND d_imm_assign->ia_rest_oct.ia_assign_par.pck_downl_ass_ia.v_tbf_start_time) { p_dl_assign = &(d_imm_assign->ia_rest_oct.ia_assign_par.pck_downl_ass_ia); if(grr_check_all_tlli((BUF_tlli_value *)&(p_dl_assign->ded_tlli))) { result = E_IA_DL_SB; if (!cpap_check_and_save_freq()) { result = E_IA_DL_IGNORE; TRACE_EVENT("cpap_eval_ia_dl: return E_IA_DL_IGNORE (frequencies wrong)"); } } else { result = E_IA_DL_NOT_OURS; } } else if(d_imm_assign->ia_rest_oct.v_ia_assign_par AND d_imm_assign->ia_rest_oct.ia_assign_par.v_ia_2nd_part) { result = E_IA_DL_TMA_SECOND; } if(result EQ E_IA_DL_IGNORE) { TRACE_ERROR("None of the if switches were reached LINE 330 cpapf"); } return(result); } /* cpap_eval_ia_dl() */ /* +------------------------------------------------------------------------------ | Function : cpap_eval_pdch_assignment +------------------------------------------------------------------------------ | Description : The function cpap_eval_pdch_assignment() .... | | Parameters : void | +------------------------------------------------------------------------------ */ GLOBAL T_EVAL_PDCH_ASSIGN cpap_eval_pdch_assignment ( void ) { MCAST(d_pdch_ass_cmd,D_PDCH_ASS_CMD);/* T_D_PDCH_ASS_CMD */ T_EVAL_PDCH_ASSIGN result = E_PDCH_ASSIGN_IGNORE; TRACE_FUNCTION( "cpap_eval_pdch_assignment" ); if(d_pdch_ass_cmd->msg_type EQ D_PDCH_ASS_CMD) { if(!(d_pdch_ass_cmd->v_pck_ul_ass OR d_pdch_ass_cmd->v_pck_dl_ass)) { result = E_PDCH_ASSIGN_ERROR; TRACE_ERROR("no Packet Assignment included in message"); } else if(d_pdch_ass_cmd->v_pck_ul_ass AND d_pdch_ass_cmd->pck_ul_ass.v_dyn_alloc) { UBYTE tx_slots = 0, ts_usage = 0,i,mask; grr_data->uplink_tbf.mac_mode = CGRLC_MAC_MODE_DA; result = E_PDCH_ASSIGN_UL; if(d_pdch_ass_cmd->pck_ul_ass.dyn_alloc.v_tagged_usf_tn) { for(i = 0,mask = 0x80;i < 8;i++) { if(d_pdch_ass_cmd->pck_ul_ass.dyn_alloc.tagged_usf_tn[i].v_usf) { ts_usage |= mask; tx_slots++; } mask >>= 1; } } else if(d_pdch_ass_cmd->pck_ul_ass.dyn_alloc.v_usf_gamma_csn1) { for(i = 0,mask = 0x80;i < 8;i++) { if(d_pdch_ass_cmd->pck_ul_ass.dyn_alloc.usf_gamma_csn1[i].v_usf_gamma) { ts_usage |= mask; tx_slots++; } mask >>= 1; } } grr_store_type_dyn_alloc( &d_pdch_ass_cmd->pck_ul_ass.dyn_alloc ); grr_data->uplink_tbf.ts_usage = ts_usage; grr_data->uplink_tbf.nts = tx_slots; if( !handle_ms_cap(UL_ASSIGNMENT) ) { result = E_PDCH_ASSIGN_ERROR; TRACE_ERROR("too much or no timeslot(s) assigned!"); } } else if(d_pdch_ass_cmd->v_pck_ul_ass AND d_pdch_ass_cmd->pck_ul_ass.v_single_alloc) { result = E_PDCH_ASSIGN_SB; if( d_pdch_ass_cmd->pck_ul_ass.single_alloc.v_alpha_gamma EQ TRUE ) { grr_store_type_alpha_gamma ( &d_pdch_ass_cmd->pck_ul_ass.single_alloc.alpha_gamma, d_pdch_ass_cmd->pck_ul_ass.single_alloc.tn ); } /* SZML-CPAP/029 */ } else if(d_pdch_ass_cmd->v_pck_ul_ass AND d_pdch_ass_cmd->pck_ul_ass.v_fix_alloc) { result = E_PDCH_ASSIGN_UL; grr_data->uplink_tbf.mac_mode = CGRLC_MAC_MODE_FA; if( d_pdch_ass_cmd->pck_ul_ass.fix_alloc.v_pwr_ctrl EQ TRUE ) { grr_store_type_pwr_ctrl( &d_pdch_ass_cmd->pck_ul_ass.fix_alloc.pwr_ctrl ); } /* SZML-CPAP/030 */ } else if(d_pdch_ass_cmd->v_pck_dl_ass) { result = E_PDCH_ASSIGN_DL; if( d_pdch_ass_cmd->pck_dl_ass.v_pwr_ctrl EQ TRUE ) { grr_store_type_pwr_ctrl( &d_pdch_ass_cmd->pck_dl_ass.pwr_ctrl ); } /* SZML-CPAP/031 */ } } else { TRACE_ERROR("wrong message type!"); } return(result); } /* cpap_eval_pdch_assignment() */ /* +------------------------------------------------------------------------------ | Function : cpap_build_gprs_data_request +------------------------------------------------------------------------------ | Description : The function cpap_build_gprs_data_request() .... | | Parameters : void | +------------------------------------------------------------------------------ */ GLOBAL void cpap_build_gprs_data_request (T_RRGRR_GPRS_DATA_REQ *rrgrr_gprs_data_req) { /* T_D_RR_INIT_REQ */ /* T_PRIM_QUEUE */ /* T_D_IMM_ASSIGN */ /* T_GRR_DATA_REQ */ TRACE_FUNCTION( "cpap_build_gprs_data_request" ); rrgrr_gprs_data_req->new_ptmsi = grr_data->db.ms_id.new_ptmsi; rrgrr_gprs_data_req->old_ptmsi = grr_data->db.ms_id.old_ptmsi; rrgrr_gprs_data_req->tlli = grr_data->db.ms_id.new_tlli; rrgrr_gprs_data_req->rai = grr_data->db.ms_id.rai; rrgrr_gprs_data_req->mac_req = DA; rrgrr_gprs_data_req->cs_req = COD_S_1; rrgrr_gprs_data_req->p_chan_req_des.mo_mt = OR_TY_MO; if( grr_data->tc.v_sb_without_tbf ) { rrgrr_gprs_data_req->p_chan_req_des.llc_type = LLC_NOT_ACK; rrgrr_gprs_data_req->p_chan_req_des.rlc_mode_req = RLC_UNACK_MODE; rrgrr_gprs_data_req->p_chan_req_des.prio = RADIO_PRIO_4; rrgrr_gprs_data_req->p_chan_req_des.req_bwd = 80;/* 8000 bit/s */ rrgrr_gprs_data_req->p_chan_req_des.rlc_octets = 22;/* one RLC/MAC block */ } else { UBYTE i=0; USHORT j =1; if(grr_data->uplink_tbf.prim_type EQ CGRLC_LLC_PRIM_TYPE_DATA_REQ) { /* CGRLC_LLC_PRIM_TYPE_DATA_REQ */ rrgrr_gprs_data_req->p_chan_req_des.llc_type = LLC_NOT_ACK; rrgrr_gprs_data_req->p_chan_req_des.rlc_mode_req = RLC_ACK_MODE; } else { /* CGRLC_LLC_PRIM_TYPE_UNITDATA_REQ*/ rrgrr_gprs_data_req->p_chan_req_des.llc_type = LLC_IS_ACK; rrgrr_gprs_data_req->p_chan_req_des.rlc_mode_req = RLC_UNACK_MODE; } rrgrr_gprs_data_req->p_chan_req_des.prio = grr_data->uplink_tbf.prio; rrgrr_gprs_data_req->p_chan_req_des.req_bwd = 0; for(i=2; i<=grr_data->uplink_tbf.peak;i++) { j *= 2; } if(grr_data->uplink_tbf.peak) rrgrr_gprs_data_req->p_chan_req_des.req_bwd = j*80; rrgrr_gprs_data_req->p_chan_req_des.rlc_octets = grr_data->uplink_tbf.rlc_oct_cnt; } rrgrr_gprs_data_req->gprs_meas_results.c_value = meas_c_get_value( ); rrgrr_gprs_data_req->gprs_meas_results.rxqual = 0; rrgrr_gprs_data_req->gprs_meas_results.sign_var = 0; } /* cpap_build_gprs_data_request() */ /* +------------------------------------------------------------------------------ | Function : cpap_send_ass_fail +------------------------------------------------------------------------------ | Description : The function cpap_send_ass_fail() .... | | Parameters : void | +------------------------------------------------------------------------------ */ GLOBAL void cpap_send_ass_fail (UBYTE cause) { TRACE_FUNCTION( "cpap_send_ass_fail" ); { PALLOC_SDU(rrgrr_data_req,RRGRR_DATA_REQ,3*8); rrgrr_data_req->sdu.l_buf = 3*8; rrgrr_data_req->sdu.o_buf = 0; rrgrr_data_req->sdu.buf[0] = 0x06; /* protocol discriminator & skip indicator */ rrgrr_data_req->sdu.buf[1] = U_ASSIGN_FAIL; /* message type */ /*lint !e415*/ rrgrr_data_req->sdu.buf[2] = cause; /* RRC_CHANNEL_MODE*/ /* assignment failure cause */ /*lint !e415 !e416*/ sig_cpap_tc_dcch_data_req(rrgrr_data_req); } } /* cpap_send_ass_fail() */ /* +------------------------------------------------------------------------------ | Function : cpap_send_assign_req_pdch +------------------------------------------------------------------------------ | Description : The function cpap_send_assign_req_pdch() builds MPHP_ASSIGNMENT_REQ | and send it. | | Parameters : tbf_type_i - type of TBF that is to activate | +------------------------------------------------------------------------------ */ GLOBAL void cpap_send_assign_req_pdch (T_TBF_TYPE tbf_type_i) { TRACE_FUNCTION( "cpap_send_assign_req_pdch" ); { PALLOC(ptr2prim,MPHP_ASSIGNMENT_REQ); memset(ptr2prim,0,sizeof(T_MPHP_ASSIGNMENT_REQ)); grr_set_tbf_cfg_req_param( ptr2prim ); switch( tbf_type_i ) { case CGRLC_TBF_MODE_UL: ptr2prim->assign_cmd = UL_ASSIGNMENT; if(grr_data->uplink_tbf.mac_mode EQ CGRLC_MAC_MODE_DA) cpap_set_da_assignment_pdch(ptr2prim); else { /* SZML-CPAP/032 */ } sig_cpap_tc_assign_pdch(ptr2prim, PDCH_UL_ASS_CMD); break; case CGRLC_TBF_MODE_DL: ptr2prim->assign_cmd = DL_ASSIGNMENT; cpap_set_dl_assignment_pdch(ptr2prim); sig_cpap_tc_assign_pdch(ptr2prim, PDCH_DL_ASS_CMD); break; default: PFREE(ptr2prim); TRACE_ERROR ( "unknown tbf type!" ); break; } /* switch (tbf_type_i) */ } } /* cpap_send_assign_req_pdch() */ /* +------------------------------------------------------------------------------ | Function : cpap_set_da_assignment_pdch +------------------------------------------------------------------------------ | Description : This function sets some parameter of MPHP_ASSIGFNMENT_REQ in | case of uplink dynamic allocation. | | Parameters : ptr2prim_i - ptr to mphp_assignment_req | +------------------------------------------------------------------------------ */ LOCAL void cpap_set_da_assignment_pdch (T_MPHP_ASSIGNMENT_REQ * ptr2prim_i) { UBYTE i; MCAST(d_pdch_ass_cmd,D_PDCH_ASS_CMD); /* T_D_PDCH_ASS_CMD */ /* T_D_IMM_ASSIGN */ TRACE_FUNCTION( "cpap_set_da_assignment_pdch" ); if( d_pdch_ass_cmd->msg_type EQ D_PDCH_ASS_CMD) { /* bts downlink power control parameters */ if(d_pdch_ass_cmd->pck_ul_ass.dyn_alloc.v_p0) ptr2prim_i->p_dl_power.p0 = d_pdch_ass_cmd->pck_ul_ass.dyn_alloc.p0; else ptr2prim_i->p_dl_power.p0 = 0xff; /* dynamic allocation must use mode a */ ptr2prim_i->p_dl_power.bts_pwr_ctl_mode = MODE_A; ptr2prim_i->p_dl_power.pr_mode = PR_MODE_A_ONE; /* * timing advance */ if(d_pdch_ass_cmd->pck_ul_ass.pck_ta.v_ta) { ptr2prim_i->p_timing_advance.ta_value = d_pdch_ass_cmd->pck_ul_ass.pck_ta.ta; } else { ptr2prim_i->p_timing_advance.ta_value = 0xff; } if(d_pdch_ass_cmd->pck_ul_ass.pck_ta.v_ta_idx_nm) { ptr2prim_i->p_timing_advance.ta_index = d_pdch_ass_cmd->pck_ul_ass.pck_ta.ta_idx_nm.ta_idx; ptr2prim_i->p_timing_advance.tn = d_pdch_ass_cmd->pck_ul_ass.pck_ta.ta_idx_nm.ta_nm; } else { ptr2prim_i->p_timing_advance.ta_index = 0xff; ptr2prim_i->p_timing_advance.tn = 0xff; } /* * trainings sequence */ ptr2prim_i->tsc = d_pdch_ass_cmd->chan_desc.tsc; /* * frequency parameters */ if(!d_pdch_ass_cmd->chan_desc.hop) { if(d_pdch_ass_cmd->chan_desc.v_arfcn) { ptr2prim_i->p_frequency_par.p_chan_sel.hopping=0; memset(ptr2prim_i->p_frequency_par.p_freq_list.p_rf_chan_no.p_radio_freq,0,MPHP_NUMC_MA); ptr2prim_i->p_frequency_par.p_chan_sel.p_rf_ch.arfcn = grr_g23_arfcn_to_l1(d_pdch_ass_cmd->chan_desc.arfcn); } } /* SZML-CPAP/002 */ /* SZML-CPAP/003 */ /* * mac mode */ ptr2prim_i->mac_mode = (d_pdch_ass_cmd->pck_ul_ass.dyn_alloc.ext_dyn_all)? EDA:DA; /* * uplink allocation structure */ if(d_pdch_ass_cmd->pck_ul_ass.dyn_alloc.v_tfi) ptr2prim_i->p_ul_alloc.ul_tfi = d_pdch_ass_cmd->pck_ul_ass.dyn_alloc.tfi; else ptr2prim_i->p_ul_alloc.ul_tfi = grr_data->uplink_tbf.tfi; ptr2prim_i->p_ul_alloc.ts_mask = grr_data->uplink_tbf.ts_usage; /* * dynamic allocation structure */ ptr2prim_i->p_ul_alloc.p_dynamic_alloc.usf_gran = d_pdch_ass_cmd->pck_ul_ass.dyn_alloc.usf_gran; if(d_pdch_ass_cmd->pck_ul_ass.dyn_alloc.v_tagged_usf_tn) { for(i = 0;i < 8;i++) { ptr2prim_i->p_ul_alloc.p_dynamic_alloc.usf_table[i] = d_pdch_ass_cmd->pck_ul_ass.dyn_alloc.tagged_usf_tn[i].usf; } } else if(d_pdch_ass_cmd->pck_ul_ass.dyn_alloc.v_usf_gamma_csn1) { for(i = 0;i < 8;i++) { ptr2prim_i->p_ul_alloc.p_dynamic_alloc.usf_table[i] = d_pdch_ass_cmd->pck_ul_ass.dyn_alloc.usf_gamma_csn1[i].usf_gamma.usf; } } else { ptr2prim_i->p_ul_alloc.p_dynamic_alloc.usf_table[0] = 5; TRACE_EVENT("USF-Error: set (hardcoded) USF_TN0 = 0x05"); } /* * TBF starting time */ if(d_pdch_ass_cmd->v_start_time) { ptr2prim_i->p_tbf_start.tbf_start_present = 1; ptr2prim_i->p_tbf_start.fn = grr_decode_tbf_start_abs((T_abs *)&d_pdch_ass_cmd->start_time); if(d_pdch_ass_cmd->v_chan_desc_before) { PALLOC(ptr2prim2,MPHP_ASSIGNMENT_REQ); memset(ptr2prim2,0,sizeof(T_MPHP_ASSIGNMENT_REQ)); grr_set_tbf_cfg_req_param( ptr2prim2 ); ptr2prim2->assign_cmd = UL_ASSIGNMENT; ptr2prim2->p_dl_power.p0 = ptr2prim_i->p_dl_power.p0; ptr2prim2->p_dl_power.bts_pwr_ctl_mode = ptr2prim_i->p_dl_power.bts_pwr_ctl_mode; ptr2prim2->p_dl_power.pr_mode = ptr2prim_i->p_dl_power.pr_mode; ptr2prim2->p_timing_advance.ta_value = ptr2prim_i->p_timing_advance.ta_value; ptr2prim2->p_timing_advance.ta_index = ptr2prim_i->p_timing_advance.ta_index; ptr2prim2->p_timing_advance.tn = ptr2prim_i->p_timing_advance.tn; /* trainings sequence */ ptr2prim2->tsc = d_pdch_ass_cmd->chan_desc_before.tsc; /* frequency parameters */ if(!d_pdch_ass_cmd->chan_desc_before.hop) { if(d_pdch_ass_cmd->chan_desc_before.v_arfcn) { ptr2prim_i->p_frequency_par.p_chan_sel.hopping=0; memset(ptr2prim_i->p_frequency_par.p_freq_list.p_rf_chan_no.p_radio_freq,0,MPHP_NUMC_MA); ptr2prim_i->p_frequency_par.p_chan_sel.p_rf_ch.arfcn = grr_g23_arfcn_to_l1(d_pdch_ass_cmd->chan_desc_before.arfcn); } } /* SZML-CPAP/004 */ /* SZML-CPAP/005 */ /* mac mode */ ptr2prim2->mac_mode = ptr2prim_i->mac_mode; /* uplink allocation structure */ /* take from grr_data to avoide mistakes */ ptr2prim2->p_ul_alloc.ul_tfi = ptr2prim_i->p_ul_alloc.ul_tfi; ptr2prim2->p_ul_alloc.ts_mask = ptr2prim_i->p_ul_alloc.ts_mask; /* dynamic allocation structure */ ptr2prim2->p_ul_alloc.p_dynamic_alloc.usf_gran = ptr2prim_i->p_ul_alloc.p_dynamic_alloc.usf_gran; for(i = 0;i < 8;i++) { ptr2prim2->p_ul_alloc.p_dynamic_alloc.usf_table[i] = ptr2prim_i->p_ul_alloc.p_dynamic_alloc.usf_table[i]; } ptr2prim2->p_tbf_start.tbf_start_present = 0; sig_cpap_tc_assign_pdch(ptr2prim2, PDCH_UL_ASS_CMD); } /* if(d_pdch_ass_cmd->v_chan_desc_before) */ } else /* if(d_pdch_ass_cmd->v_start_time) */ { ptr2prim_i->p_tbf_start.tbf_start_present = 0; ptr2prim_i->p_tbf_start.fn = 0xFFFFFFFF; } } else /* if( d_pdch_ass_cmd->msg_type EQ D_PDCH_ASS_CMD) */ { TRACE_ERROR ( "Wrong message type in _decodedCtrlMsg" ); } if(ptr2prim_i->p_tbf_start.tbf_start_present) grr_data->uplink_tbf.tbf_start_fn = ptr2prim_i->p_tbf_start.fn; else grr_data->uplink_tbf.tbf_start_fn = CGRLC_STARTING_TIME_NOT_PRESENT; grr_data->uplink_tbf.st_tfi = ptr2prim_i->p_ul_alloc.ul_tfi; grr_data->uplink_tbf.mac_mode = DA; return; } /* cpap_set_da_assignment_pdch */ /* +------------------------------------------------------------------------------ | Function : cpap_set_dl_assignment_pdch +------------------------------------------------------------------------------ | Description : This function sets some parameter of T_MPHP_ASSIGNMENT_REQ is | case of ia downlink allocation | | Parameters : ptr2prim_i - ptr to MPHP_ASSIGNMENT_REQ | +------------------------------------------------------------------------------ */ LOCAL void cpap_set_dl_assignment_pdch (T_MPHP_ASSIGNMENT_REQ * ptr2prim_i) { MCAST(d_imm_assign,D_IMM_ASSIGN); /* T_D_IMM_ASSIGN */ T_pck_downl_ass_ia *ptr2dl_assign; TRACE_FUNCTION( "cpap_set_dl_assignment_pdch" ); if( d_imm_assign->msg_type EQ D_IMM_ASSIGN) { ptr2dl_assign = &d_imm_assign->ia_rest_oct.ia_assign_par.pck_downl_ass_ia; /* * timing advance */ if (ptr2dl_assign->tfi_ass_rlc.ta_valid) { ptr2prim_i->p_timing_advance.ta_value = d_imm_assign->time_advance.ta; } else { ptr2prim_i->p_timing_advance.ta_value = 0xff; } if(ptr2dl_assign->v_ta_idx) { ptr2prim_i->p_timing_advance.ta_index = ptr2dl_assign->ta_idx; ptr2prim_i->p_timing_advance.tn = d_imm_assign->pck_chan_desc.tn; } else { ptr2prim_i->p_timing_advance.ta_index = 0xff; ptr2prim_i->p_timing_advance.tn = 0xff; } /* * trainings sequence */ ptr2prim_i->tsc = d_imm_assign->pck_chan_desc.tsc; /* * TBF starting time */ if(ptr2dl_assign->v_tbf_start_time) { ptr2prim_i->p_tbf_start.tbf_start_present = 1; ptr2prim_i->p_tbf_start.fn = grr_decode_tbf_start_abs((T_abs *)&ptr2dl_assign->tbf_start_time); } else { ptr2prim_i->p_tbf_start.tbf_start_present = 0; } /* * mac mode */ ptr2prim_i->mac_mode = DA; /* * downlink allocation structure */ ptr2prim_i->p_dl_alloc.dl_tfi = grr_data->downlink_tbf.tfi; /* take from grr_data to avoide mistakes */ ptr2prim_i->p_dl_alloc.ts_mask = grr_data->downlink_tbf.ts_usage; if(ptr2prim_i->p_tbf_start.tbf_start_present) grr_data->downlink_tbf.tbf_start_fn = ptr2prim_i->p_tbf_start.fn; else grr_data->downlink_tbf.tbf_start_fn = CGRLC_STARTING_TIME_NOT_PRESENT; grr_data->downlink_tbf.st_tfi = ptr2prim_i->p_dl_alloc.dl_tfi; grr_data->downlink_tbf.mac_mode = DA; } return; } /* cpap_set_dl_assignment_pdch() */ /* +------------------------------------------------------------------------------ | Function : cpap_send_assign_req_ia +------------------------------------------------------------------------------ | Description : The function cpap_send_assign_req_ia() builds MPHP_ASSIGNMENT_REQ | and send it. | | Parameters : tbf_type_i - type of TBF that is to activate | +------------------------------------------------------------------------------ */ GLOBAL BOOL cpap_send_assign_req_ia ( T_TBF_TYPE tbf_type_i ) { T_MPHP_ASSIGNMENT_REQ *ptr2prim = NULL; TRACE_FUNCTION( "cpap_send_assign_req_ia" ); ptr2prim = tc_set_freq(); if(NULL EQ ptr2prim) { return FALSE; } grr_set_tbf_cfg_req_param( ptr2prim ); switch( tbf_type_i ) { case CGRLC_TBF_MODE_UL: ptr2prim->assign_cmd = UL_ASSIGNMENT; if(grr_data->uplink_tbf.mac_mode EQ CGRLC_MAC_MODE_DA) cpap_set_da_assignment_ia(ptr2prim); else if(!cpap_set_fa_assignment_ia(ptr2prim)) { PFREE(ptr2prim); return FALSE; } sig_cpap_tc_assign_pdch( ptr2prim, IA_UL ); break; case CGRLC_TBF_MODE_DL: ptr2prim->assign_cmd = DL_ASSIGNMENT; cpap_set_dl_assignment_ia(ptr2prim); sig_cpap_tc_assign_pdch( ptr2prim, IA_DL ); break; default: return FALSE; } /* switch (tbf_type_i) */ return TRUE; } /* cpap_send_assign_req_ia() */ /* +------------------------------------------------------------------------------ | Function : cpap_set_da_assignment_ia +------------------------------------------------------------------------------ | Description : This function sets some parameter of MPHP_ASSIGFNMENT_REQ in | case of uplink dynamic allocation. | | Parameters : ptr2prim_i - ptr to mphp_assignment_req | +------------------------------------------------------------------------------ */ GLOBAL void cpap_set_da_assignment_ia (T_MPHP_ASSIGNMENT_REQ *ptr2prim) { MCAST(d_imm_assign,D_IMM_ASSIGN); /* T_D_IMM_ASSIGN */ T_pck_upl_ass_ia *ptr2ul_assign; TRACE_FUNCTION( "cpap_set_da_assignment_ia" ); if( d_imm_assign->msg_type EQ D_IMM_ASSIGN) { /* * timing advance */ ptr2ul_assign = &d_imm_assign->ia_rest_oct.ia_assign_par.pck_upl_ass_ia; if(ptr2ul_assign->v_tfi_ass_alloc AND ptr2ul_assign->tfi_ass_alloc.v_p0_prmode) { ptr2prim->p_dl_power.p0 = ptr2ul_assign->tfi_ass_alloc.p0_prmode.p0; ptr2prim->p_dl_power.pr_mode = ptr2ul_assign->tfi_ass_alloc.p0_prmode.pr_mode; } else { ptr2prim->p_dl_power.p0 = 0xff; } /* Timing Advance */ grr_data->ta_params.ta_valid = TRUE; grr_handle_ta ( 1, /* always present in Immediate Assignment*/ d_imm_assign->time_advance.ta, ptr2ul_assign->tfi_ass_alloc.v_ta_idx, ptr2ul_assign->tfi_ass_alloc.ta_idx, d_imm_assign->pck_chan_desc.tn, 0xFF, 0, 0, &ptr2prim->p_timing_advance); /* TBF starting time */ if(ptr2ul_assign->tfi_ass_alloc.v_tbf_start_time) { ptr2prim->p_tbf_start.tbf_start_present = 1; ptr2prim->p_tbf_start.fn = grr_decode_tbf_start_abs((T_abs *)&ptr2ul_assign->tfi_ass_alloc.tbf_start_time); } else { ptr2prim->p_tbf_start.tbf_start_present = 0; } /* * mac mode */ ptr2prim->mac_mode = DA; /* * uplink allocation structure */ /* take from grr_data to avoide mistakes */ ptr2prim->p_ul_alloc.ul_tfi = ptr2ul_assign->tfi_ass_alloc.tfi; ptr2prim->p_ul_alloc.ts_mask = grr_data->uplink_tbf.ts_usage; /* * dynamic allocation structure */ ptr2prim->p_ul_alloc.p_dynamic_alloc.usf_gran = ptr2ul_assign->tfi_ass_alloc.usf_gran; if(ptr2ul_assign->tfi_ass_alloc.v_usf) { ptr2prim->p_ul_alloc.p_dynamic_alloc.usf_table[ d_imm_assign->pck_chan_desc.tn] = ptr2ul_assign->tfi_ass_alloc.usf; } else { ptr2prim->p_ul_alloc.p_dynamic_alloc.usf_table[ d_imm_assign->pck_chan_desc.tn] = 5; TRACE_EVENT("USF-Error: set (hardcoded) USF_TN0 = 0x05"); } } else { TRACE_ERROR ( "Wrong message type in _decodedCtrlMsg" ); } if(ptr2prim->p_tbf_start.tbf_start_present) grr_data->uplink_tbf.tbf_start_fn = ptr2prim->p_tbf_start.fn; else grr_data->uplink_tbf.tbf_start_fn = CGRLC_STARTING_TIME_NOT_PRESENT; grr_data->uplink_tbf.st_tfi = ptr2prim->p_ul_alloc.ul_tfi; grr_data->uplink_tbf.mac_mode = DA; return; } /* cpap_set_da_assignment_ia */ /* +------------------------------------------------------------------------------ | Function : cpap_set_fa_assignment_ia +------------------------------------------------------------------------------ | Description : This function sets some parameter of MPHP_ASSIGFNMENT_REQ in | case of uplink fixed allocation. | | Parameters : ptr2prim_i - ptr to mphp_assignment_req | +------------------------------------------------------------------------------ */ GLOBAL UBYTE cpap_set_fa_assignment_ia (T_MPHP_ASSIGNMENT_REQ *ptr2prim) { MCAST(d_imm_assign,D_IMM_ASSIGN); /* T_D_IMM_ASSIGN */ T_pck_upl_ass_ia *ptr2ul_assign; TRACE_FUNCTION( "cpap_set_fa_assignment_ia" ); ptr2ul_assign = &d_imm_assign->ia_rest_oct.ia_assign_par.pck_upl_ass_ia; if( d_imm_assign->msg_type EQ D_IMM_ASSIGN) { /* PO, BTS_POWER_MODE and PR_ MODE */ if(ptr2ul_assign->v_tfi_ass_alloc AND ptr2ul_assign->tfi_ass_alloc.v_p0_bts_prmode) { ptr2prim->p_dl_power.p0 = ptr2ul_assign->tfi_ass_alloc.p0_bts_prmode.p0; ptr2prim->p_dl_power.bts_pwr_ctl_mode = ptr2ul_assign->tfi_ass_alloc.p0_bts_prmode.pwr_ctrl_mode; ptr2prim->p_dl_power.pr_mode = ptr2ul_assign->tfi_ass_alloc.p0_bts_prmode.pr_mode; } else { ptr2prim->p_dl_power.p0 = 0xff; } /* * timing advance */ grr_data->ta_params.ta_valid = TRUE; grr_handle_ta ( 1, /* always present in Immediate Assignment*/ d_imm_assign->time_advance.ta, ptr2ul_assign->tfi_ass_alloc.v_ta_idx, ptr2ul_assign->tfi_ass_alloc.ta_idx, d_imm_assign->pck_chan_desc.tn, 0xFF, 0, 0, &ptr2prim->p_timing_advance); /* * mac mode */ ptr2prim->mac_mode = FA; /* * uplink allocation structure */ /* take from grr_data to avoide mistakes */ ptr2prim->p_ul_alloc.ul_tfi = ptr2ul_assign->tfi_ass_alloc.tfi; ptr2prim->p_ul_alloc.ts_mask = grr_data->uplink_tbf.ts_usage; /* TBF starting time */ if(ptr2ul_assign->tfi_ass_alloc.v_tbf_start_time) { ptr2prim->p_tbf_start.tbf_start_present = 1; ptr2prim->p_tbf_start.fn = grr_decode_tbf_start_abs((T_abs *)&ptr2ul_assign->tfi_ass_alloc.tbf_start_time); } else { TRACE_ERROR("IA FIX ALLOC WITHOUT TBF STARTING TIME"); return FALSE; } /* * DOWNLINK_CONTROL_TIMESLOT parameter shall always indicate a timeslot number * which is used for TBF uplink. GSM 04.60 Chapter 8.1.1.3.4 */ switch(grr_data->uplink_tbf.ts_usage) { case 1: ptr2prim->p_ul_alloc.p_fixed_alloc.dl_ctrl_ts = 7; break; case 2: ptr2prim->p_ul_alloc.p_fixed_alloc.dl_ctrl_ts = 6; break; case 4: ptr2prim->p_ul_alloc.p_fixed_alloc.dl_ctrl_ts = 5; break; case 8: ptr2prim->p_ul_alloc.p_fixed_alloc.dl_ctrl_ts = 4; break; case 16: ptr2prim->p_ul_alloc.p_fixed_alloc.dl_ctrl_ts = 3; break; case 32: ptr2prim->p_ul_alloc.p_fixed_alloc.dl_ctrl_ts = 2; break; case 64: ptr2prim->p_ul_alloc.p_fixed_alloc.dl_ctrl_ts = 1; break; case 128: ptr2prim->p_ul_alloc.p_fixed_alloc.dl_ctrl_ts = 0; break; } /* * ALLOCATION BITMAP tc function call not allowed */ grr_data->tc.fa_ctrl.fa_type = FA_NO_CURRENT; tc_calc_fa_bitmap(ptr2prim->p_tbf_start.fn, /* starting time of cuurent tbf*/ 1, /* block periods*/ ptr2ul_assign->tfi_ass_alloc.allo_len5, /* bitmap length */ ptr2ul_assign->tfi_ass_alloc.allo_bmp5, /* ptr to alloc struct*/ &ptr2prim->p_ul_alloc.p_fixed_alloc); /* ptr to fix sttruct*/ } else { TRACE_ERROR ( "Wrong message type in _decodedCtrlMsg" ); } if(ptr2prim->p_tbf_start.tbf_start_present) grr_data->uplink_tbf.tbf_start_fn = ptr2prim->p_tbf_start.fn; else grr_data->uplink_tbf.tbf_start_fn = CGRLC_STARTING_TIME_NOT_PRESENT; grr_data->uplink_tbf.st_tfi = ptr2prim->p_ul_alloc.ul_tfi; grr_data->uplink_tbf.mac_mode = FA; return TRUE; } /* cpap_set_fa_assignment_ia */ /* +------------------------------------------------------------------------------ | Function : cpap_set_dl_assignment_ia +------------------------------------------------------------------------------ | Description : This function sets some parameter of T_MPHP_ASSIGNMENT_REQ is | case of ia downlink allocation | | Parameters : ptr2prim_i - ptr to MPHP_ASSIGNMENT_REQ | +------------------------------------------------------------------------------ */ GLOBAL void cpap_set_dl_assignment_ia (T_MPHP_ASSIGNMENT_REQ *ptr2prim) { MCAST(d_imm_assign,D_IMM_ASSIGN); /* T_D_IMM_ASSIGN */ T_pck_downl_ass_ia *ptr2dl_assign; TRACE_FUNCTION( "cpap_set_dl_assignment_ia" ); if( d_imm_assign->msg_type EQ D_IMM_ASSIGN) { ptr2dl_assign = &d_imm_assign->ia_rest_oct.ia_assign_par.pck_downl_ass_ia; if(ptr2dl_assign->v_p0_bts_prmode) { ptr2prim->p_dl_power.p0 = ptr2dl_assign->p0_bts_prmode.p0; ptr2prim->p_dl_power.bts_pwr_ctl_mode = ptr2dl_assign->p0_bts_prmode.pwr_ctrl_mode; ptr2prim->p_dl_power.pr_mode = ptr2dl_assign->p0_bts_prmode.pr_mode; } else { ptr2prim->p_dl_power.p0 = 0xff; } /* * timing advance */ grr_handle_ta ( ptr2dl_assign->tfi_ass_rlc.ta_valid, d_imm_assign->time_advance.ta, 0xFF, 0, 0, ptr2dl_assign->v_ta_idx, ptr2dl_assign->ta_idx, d_imm_assign->pck_chan_desc.tn, &ptr2prim->p_timing_advance); /* * TBF starting time */ if(ptr2dl_assign->v_tbf_start_time) { ptr2prim->p_tbf_start.tbf_start_present = 1; ptr2prim->p_tbf_start.fn = grr_decode_tbf_start_abs((T_abs *)&ptr2dl_assign->tbf_start_time); } else { ptr2prim->p_tbf_start.tbf_start_present = 0; } /* SZML-CPAP/008 */ ptr2prim->mac_mode = DA; /* * downlink allocation structure */ ptr2prim->p_dl_alloc.dl_tfi = ptr2dl_assign->tfi_ass_rlc.tfi; ptr2prim->p_dl_alloc.ts_mask = grr_data->downlink_tbf.ts_usage; if(ptr2prim->p_tbf_start.tbf_start_present) grr_data->downlink_tbf.tbf_start_fn = ptr2prim->p_tbf_start.fn; else grr_data->downlink_tbf.tbf_start_fn = CGRLC_STARTING_TIME_NOT_PRESENT; grr_data->downlink_tbf.st_tfi = ptr2prim->p_dl_alloc.dl_tfi; } return; } /* cpap_set_dl_assignment_ia() */ /* +------------------------------------------------------------------------------ | Function : cpap_send_resource_request_ia +------------------------------------------------------------------------------ | Description : The function cpap_send_resource_request_ia() sends the primitive | MPHP_SINGLE_BLOCK_REQ with Packet Resource Request | for two phase access due to the reception of a Immediate | Assignment message. | | Parameters : void | +------------------------------------------------------------------------------ */ GLOBAL UBYTE cpap_send_resource_request_ia ( void ) { { MCAST(d_imm_assign,D_IMM_ASSIGN); /* T_D_IMM_ASSIGN */ T_pck_upl_ass_ia *ptr2ul_assign; UBYTE frame[23]; ULONG start_fn; TRACE_FUNCTION( "cpap_send_resource_request_ia" ); ptr2ul_assign = &d_imm_assign->ia_rest_oct.ia_assign_par.pck_upl_ass_ia; start_fn = grr_decode_tbf_start_abs((T_abs *)&ptr2ul_assign->sngl_block_alloc.tbf_start_time); if( !(grr_check_if_tbf_start_is_elapsed ( start_fn, grr_data->ul_fn))) { T_U_RESOURCE_REQ resource_req; sig_cpap_tc_build_res_req( &resource_req ); grr_encode_ul_ctrl_block( frame, ( UBYTE* )&resource_req ); } else { TRACE_ERROR("TBF Starting time is elpased in single block allocation!"); return FALSE; } { PALLOC(ptr2prim,MPHP_SINGLE_BLOCK_REQ); memcpy( ptr2prim->l2_frame, frame, 23 ); ptr2prim->p_tbf_start.tbf_start_present = 1; ptr2prim->p_tbf_start.fn = start_fn; if( ptr2ul_assign->v_sngl_block_alloc AND ptr2ul_assign->sngl_block_alloc.v_p0_bts_prmode ) { ptr2prim->p_dl_power.p0 = ptr2ul_assign->sngl_block_alloc.p0_bts_prmode.p0; ptr2prim->p_dl_power.bts_pwr_ctl_mode = ptr2ul_assign->sngl_block_alloc.p0_bts_prmode.pwr_ctrl_mode; ptr2prim->p_dl_power.pr_mode = ptr2ul_assign->sngl_block_alloc.p0_bts_prmode.pr_mode; } else { ptr2prim->p_dl_power.p0 = 0xff; } /* * mark that single block is because of two phase access procedure */ ptr2prim->purpose = TWO_PHASE_ACESS; ptr2prim->pc_meas_chan = psc_db->g_pwr_par.pc_meas_chan; ptr2prim->burst_type = (psc_db->gprs_cell_opt.ab_type EQ AB_8_BIT) ?AB_8_BIT :AB_11_BIT; grr_handle_ta ( 1, /*Ta is mandatory in immediate assignment*/ d_imm_assign->time_advance.ta, 0, 0, 0, 0, 0, 0, &ptr2prim->p_timing_advance); /* * trainings sequence */ ptr2prim->tsc = d_imm_assign->pck_chan_desc.tsc; ptr2prim->tn = d_imm_assign->pck_chan_desc.tn; /* * frequency parameters */ grr_set_freq_par( &ptr2prim->p_frequency_par ); sig_cpap_tc_assign_sb( ( void* )ptr2prim, TWO_PHASE_ACESS ); } return TRUE; } } /* cpap_send_resource_request_ia() */ /* +------------------------------------------------------------------------------ | Function : cpap_send_single_block_without_tbf +------------------------------------------------------------------------------ | Description : The function cpap_send_single_block_without_tbf() sends | the primitive MPHP_SINGLE_BLOCK_REQ with single | block request without TBF establishment due to the reception | of an immediate assignment message. | | Parameters : void | +------------------------------------------------------------------------------ */ GLOBAL UBYTE cpap_send_single_block_without_tbf ( void ) { PALLOC( prim, MPHP_SINGLE_BLOCK_REQ ); { MCAST( d_imm_assign, D_IMM_ASSIGN ); T_pck_upl_ass_ia *assign; UBYTE result = FALSE; TRACE_FUNCTION( "cpap_send_single_block_without_tbf" ); assign = &d_imm_assign->ia_rest_oct.ia_assign_par.pck_upl_ass_ia; if( assign->v_sngl_block_alloc AND assign->sngl_block_alloc.v_p0_bts_prmode ) { prim->p_dl_power.p0 = assign->sngl_block_alloc.p0_bts_prmode.p0; prim->p_dl_power.bts_pwr_ctl_mode = assign->sngl_block_alloc.p0_bts_prmode.pwr_ctrl_mode; prim->p_dl_power.pr_mode = assign->sngl_block_alloc.p0_bts_prmode.pr_mode; } else { prim->p_dl_power.p0 = 0xff; } /* * mark that single block is because of two phase access procedure */ prim->purpose = SINGLE_BLOCK_TRANSFER_UL; prim->pc_meas_chan = psc_db->g_pwr_par.pc_meas_chan; prim->burst_type = ( psc_db->gprs_cell_opt.ab_type EQ AB_8_BIT ) ? AB_8_BIT : AB_11_BIT; prim->p_timing_advance.ta_value = d_imm_assign->time_advance.ta; grr_data->ta_params.ta_value = d_imm_assign->time_advance.ta; grr_data->ta_params.ta_valid = TRUE; if( assign->tfi_ass_alloc.v_ta_idx ) { prim->p_timing_advance.ta_index = assign->tfi_ass_alloc.ta_idx; prim->p_timing_advance.tn = d_imm_assign->pck_chan_desc.tn; } else { prim->p_timing_advance.ta_index = 0xff; prim->p_timing_advance.tn = 0xff; } /* * trainings sequence */ prim->tsc = d_imm_assign->pck_chan_desc.tsc; /* TRACE_EVENT_P4( "request_ia1 tn:%d tsc: %d p0:%d pr_mode:%d", d_imm_assign->pck_chan_desc.tn, prim->tsc, prim->p_dl_power.p0, prim->p_dl_power.pr_mode ); */ /* SZML-CPAP/009 */ /* * handle TBF starting time is always present in single block allocation, * otherwise something is wrong */ if( assign->v_sngl_block_alloc) { prim->p_tbf_start.tbf_start_present = 1; prim->p_tbf_start.fn = grr_decode_tbf_start_abs((T_abs*) &assign->sngl_block_alloc.tbf_start_time); if(grr_check_if_tbf_start_is_elapsed ( prim->p_tbf_start.fn, grr_data->ul_fn)) { TRACE_ERROR("TBF Starting time is ELAPSED in single block allocation!"); TRACE_EVENT_P2("CPAP SBR TBF ST ELAPSED st=%ld c_fn=%ld ", prim->p_tbf_start.fn,grr_data->dl_fn); } else { result = TRUE; } } if( result ) { tc_cpy_ctrl_blk_to_buffer( prim->l2_frame ); prim->tsc = grr_data->tc.freq_set.tsc; prim->tn = d_imm_assign->pck_chan_desc.tn; /* * frequency parameters */ grr_set_freq_par( &prim->p_frequency_par ); sig_cpap_tc_assign_sb( (void*)prim, SINGLE_BLOCK_TRANSFER_UL ); /* TRACE_EVENT_P8("request_ia2 tn:%d tsc: %d ta:%d arfcn:%ld : nr: %d p0:%d pr:%d ctrl:%d", prim_i->tn, prim_i->tsc, prim_i->p_timing_advance, prim_i->p_chan_sel.p_rf_ch.arfcn, prim_i->ptr2prim->p_frequency_par.p_freq_list.p_rf_chan_cnt, prim_i->p_dl_power.p0, prim_i->p_dl_power.pr_mode, prim_i->p_dl_power.bts_pwr_ctl_mode); */ } else { PFREE(prim); } return result; } } /* cpap_send_single_block_without_tbf() */ /* +------------------------------------------------------------------------------ | Function : cpap_send_receive_normal_burst +------------------------------------------------------------------------------ | Description : The function cpap_send_receive_normal_burst() sends the | primitive MPHP_SINGLE_BLOCK_REQ to receive a single packet | control block on the specified radio resource. | | Parameters : void | +------------------------------------------------------------------------------ */ GLOBAL UBYTE cpap_send_receive_normal_burst ( void ) { MCAST( d_imm_assign, D_IMM_ASSIGN ); T_pck_downl_ass_ia *ptr2dl_assign = &d_imm_assign->ia_rest_oct.ia_assign_par.pck_downl_ass_ia; UBYTE result = FALSE; PALLOC( mphp_single_block_req, MPHP_SINGLE_BLOCK_REQ ); TRACE_FUNCTION( "cpap_send_receive_normal_burst" ); memset( mphp_single_block_req, 0, sizeof( T_MPHP_SINGLE_BLOCK_REQ ) ); mphp_single_block_req->assign_id = 0; grr_data->tc.last_rec_nb_id = mphp_single_block_req->assign_id; mphp_single_block_req->purpose = SINGLE_BLOCK_TRANSFER_DL; mphp_single_block_req->tsc = grr_data->tc.freq_set.tsc; mphp_single_block_req->tn = d_imm_assign->pck_chan_desc.tn; grr_set_freq_par( &mphp_single_block_req->p_frequency_par ); if( ptr2dl_assign->v_p0_bts_prmode ) { mphp_single_block_req->p_dl_power.p0 = ptr2dl_assign->p0_bts_prmode.p0; mphp_single_block_req->p_dl_power.bts_pwr_ctl_mode = ptr2dl_assign->p0_bts_prmode.pwr_ctrl_mode; mphp_single_block_req->p_dl_power.pr_mode = ptr2dl_assign->p0_bts_prmode.pr_mode; } else { mphp_single_block_req->p_dl_power.p0 = 0xff; mphp_single_block_req->p_dl_power.bts_pwr_ctl_mode = 0xff; mphp_single_block_req->p_dl_power.pr_mode = 0xff; } mphp_single_block_req->pc_meas_chan = psc_db->g_pwr_par.pc_meas_chan; mphp_single_block_req->burst_type = (psc_db->gprs_cell_opt.ab_type EQ AB_8_BIT) ?AB_8_BIT :AB_11_BIT; /* a downlink single block don't need timing advance!! */ mphp_single_block_req->p_timing_advance.ta_value = 0xff; mphp_single_block_req->p_timing_advance.ta_index = 0xff; mphp_single_block_req->p_timing_advance.tn = 0xff; /* * handle TBF starting time * is always present in single block allocation (otherwise something is wrong) */ if(ptr2dl_assign->v_tbf_start_time) { mphp_single_block_req->p_tbf_start.tbf_start_present = 1; mphp_single_block_req->p_tbf_start.fn = grr_decode_tbf_start_abs((T_abs *)&ptr2dl_assign->tbf_start_time); if(grr_check_if_tbf_start_is_elapsed ( mphp_single_block_req->p_tbf_start.fn, grr_data->ul_fn)) { TRACE_ERROR("TBF Starting time is ELAPSED in single block allocation!"); TRACE_EVENT_P2("CPAP SBR TBF ST ELAPSED st=%ld c_fn=%ld ", mphp_single_block_req->p_tbf_start.fn,grr_data->dl_fn); } else { result = TRUE; grr_data->tc.last_rec_nb_fn = mphp_single_block_req->p_tbf_start.fn; } } else { TRACE_ERROR("TBF Starting time is missing in single block allocation!"); /* SZML-CPAP/013 */ } if(result) { sig_cpap_tc_assign_sb((void*)mphp_single_block_req,SINGLE_BLOCK_TRANSFER_DL); } else { PFREE(mphp_single_block_req); TRACE_ERROR("SINGLE BLOCK STARTING TIME HAS ALREADY BEEN ELAPSED"); } return result; } /* cpap_send_receive_normal_burst() */ /* +------------------------------------------------------------------------------ | Function : cpap_store_ia_message +------------------------------------------------------------------------------ | Description : The function cpap_store_ia_message() stores the 1st message of | a two message assignment. | | Parameters : void | +------------------------------------------------------------------------------ */ GLOBAL void cpap_store_ia_message ( void ) { MCAST(d_imm_assign,D_IMM_ASSIGN); /* T_D_IMM_ASSIGN */ TRACE_FUNCTION( "cpap_store_ia_message" ); memcpy(&grr_data->cpap.tma_ia, d_imm_assign, sizeof(T_D_IMM_ASSIGN)); grr_data->cpap.v_tma_ia = TRUE; } /* cpap_store_ia_message() */ /* +------------------------------------------------------------------------------ | Function : cpap_join_tma_messages +------------------------------------------------------------------------------ | Description : The function cpap_join_tma_messages() join the stored 1st and | the 2nd message of a two message assignment. | | Parameters : void | +------------------------------------------------------------------------------ */ GLOBAL void cpap_join_tma_messages ( void ) { MCAST(d_imm_assign,D_IMM_ASSIGN); /* T_D_IMM_ASSIGN */ TRACE_FUNCTION( "cpap_join_tma_messages" ); /* the 2nd message contains only the packet channel description and the * mobile allocation if needed. */ d_imm_assign->tma = TMA_0; d_imm_assign->page_mode.pm = grr_data->cpap.tma_ia.page_mode.pm; d_imm_assign->time_advance.ta = grr_data->cpap.tma_ia.time_advance.ta; if(grr_data->cpap.tma_ia.v_start_time) { d_imm_assign->v_start_time = TRUE; d_imm_assign->start_time.t1 = grr_data->cpap.tma_ia.start_time.t1; d_imm_assign->start_time.t2 = grr_data->cpap.tma_ia.start_time.t2; d_imm_assign->start_time.t3 = grr_data->cpap.tma_ia.start_time.t3; } memcpy( &d_imm_assign->ia_rest_oct, &grr_data->cpap.tma_ia.ia_rest_oct, sizeof(T_ia_rest_oct) ); grr_data->cpap.v_tma_ia = FALSE; } /* cpap_join_tma_messages() */ /* +------------------------------------------------------------------------------ | Function : cpap_malloc_ia +------------------------------------------------------------------------------ | Description : The function cpap_malloc_ia() .... | | Parameters : | +------------------------------------------------------------------------------ */ GLOBAL void cpap_malloc_ia ( void ) { TRACE_FUNCTION( "cpap_malloc_ia" ); if( grr_data->cpap.p_d_imm_assign EQ NULL ) { MALLOC( grr_data->cpap.p_d_imm_assign, sizeof( T_D_IMM_ASSIGN ) ); } else { TRACE_ERROR( "cpap_malloc_ia: fatal error, memory reallocation not implemented" ); } *grr_data->cpap.p_d_imm_assign = *( ( T_D_IMM_ASSIGN * )_decodedMsg ); } /* cpap_malloc_ia() */ /* +------------------------------------------------------------------------------ | Function : cpap_mfree_ia +------------------------------------------------------------------------------ | Description : The function cpap_mfree_ia() .... | | Parameters : | +------------------------------------------------------------------------------ */ GLOBAL void cpap_mfree_ia ( BOOL restore_data ) { TRACE_FUNCTION( "cpap_mfree_ia" ); if( grr_data->cpap.p_d_imm_assign NEQ NULL ) { if( restore_data ) { *( ( T_D_IMM_ASSIGN * )_decodedMsg ) = *grr_data->cpap.p_d_imm_assign; } MFREE( grr_data->cpap.p_d_imm_assign ); grr_data->cpap.p_d_imm_assign = NULL; } else { TRACE_ERROR( "cpap_mfree_ia: fatal error, no memory allocated" ); } } /* cpap_mfree_ia() */ /* +------------------------------------------------------------------------------ | Function : cpap_check_and_save_freq +------------------------------------------------------------------------------ | Description : This function check if the freq_par is valid or not.. | If it is hopping case, save the hoppinging freq. | | Parameters : void | +------------------------------------------------------------------------------ */ LOCAL BOOL cpap_check_and_save_freq (void) { MCAST(d_imm_assign,D_IMM_ASSIGN); /* T_D_IMM_ASSIGN */ T_pck_chan_desc *chan_desc = &d_imm_assign->pck_chan_desc; T_mob_alloc *mob_alloc = &d_imm_assign->mob_alloc; BOOL result = FALSE; T_freq_par freq_par; TRACE_FUNCTION( "cpap_check_and_save_freq" ); if(chan_desc->hop OR (!chan_desc->hop AND chan_desc->indir)) { /* hopping*/ if (chan_desc->indir) { /* indirect encoding */ /* set up tc's freq_par struct */ memset(&freq_par,0,sizeof(T_freq_par)); freq_par.v_indi_encod = TRUE; freq_par.indi_encod.maio = chan_desc->maio; freq_par.tsc = chan_desc->tsc; freq_par.indi_encod.ma_num = chan_desc->ma_num + MA_NUMBER_4_PSI13_OR_CELL_ALLOC; if( chan_desc->v_ch_mark1) { freq_par.indi_encod.v_chamge_ma_sub = TRUE; freq_par.indi_encod.chamge_ma_sub.cm1 = chan_desc->ch_mark1; } result = tc_set_hopping_par( &freq_par ); } else if( chan_desc->v_maio AND chan_desc->v_hsn ) { /* direct encoding */ UBYTE i; memset(&freq_par,0,sizeof(T_freq_par)); freq_par.v_di_encod1 = TRUE; freq_par.di_encod1.maio = chan_desc->maio; freq_par.tsc = chan_desc->tsc; freq_par.di_encod1.gprs_ms_alloc_ie.hsn = chan_desc->hsn; if(0 NEQ mob_alloc->c_mac) { freq_par.di_encod1.gprs_ms_alloc_ie.v_ma_struct = TRUE; freq_par.di_encod1.gprs_ms_alloc_ie.ma_struct.c_ma_map = mob_alloc->c_mac*8; freq_par.di_encod1.gprs_ms_alloc_ie.ma_struct.ma_len = (mob_alloc->c_mac*8)-1; for(i = 0;i < (mob_alloc->c_mac*8);i++) { /* convert bitbuffer type of rr to type of grr */ freq_par.di_encod1.gprs_ms_alloc_ie.ma_struct.ma_map[i] = (mob_alloc->mac[i/8]>>(7-(i%8)))&0x01; } } result = tc_set_hopping_par( &freq_par ); } else { /* corrupted message decoding */ grr_data->tc.v_freq_set = FALSE; result = FALSE; } } else if(chan_desc->v_arfcn) { /* absolut radio frequency channel number */ grr_data->tc.v_freq_set = TRUE; result = TRUE; grr_data->tc.freq_set.freq_par.p_chan_sel.hopping = FALSE; grr_data->tc.freq_set.tsc = chan_desc->tsc; grr_data->tc.freq_set.freq_par.p_chan_sel.p_rf_ch.arfcn = grr_g23_arfcn_to_l1(chan_desc->arfcn); /* set up tc's freq_par struct */ memset(&grr_data->tc.freq_set.freq_par.p_freq_list.p_rf_chan_no.p_radio_freq,0,sizeof(grr_data->tc.freq_set.freq_par.p_freq_list.p_rf_chan_no.p_radio_freq)); grr_data->tc.freq_set.freq_par.p_freq_list.p_rf_chan_cnt = 0; } else { grr_data->tc.v_freq_set = FALSE; result = FALSE; } grr_data->pwr_ctrl_valid_flags.v_glbl_pwr_ctrl_param = TRUE; grr_data->pwr_ctrl_valid_flags.v_freq_param = TRUE; return result; } /* cpap_check_and_save_freq */