/******************************************************************************* Eurecom OpenAirInterface Copyright(c) 1999 - 2010 Eurecom This program is free software; you can redistribute it and/or modify it under the terms and conditions of the GNU General Public License, version 2, as published by the Free Software Foundation. This program is distributed in the hope it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin St - Fifth Floor, Boston, MA 02110-1301 USA. The full GNU General Public License is included in this distribution in the file called "COPYING". Contact Information Openair Admin: openair_admin@eurecom.fr Openair Tech : openair_tech@eurecom.fr Forums : http://forums.eurecom.fsr/openairinterface Address : Eurecom, 2229, route des crĂȘtes, 06560 Valbonne Sophia Antipolis, France *******************************************************************************/ /*! \file ue_procedures.c * \brief procedures related to UE * \author Raymond Knopp, Navid Nikaein * \date 2011 * \version 0.5 * \email: navid.nikaein@eurecom.fr * @ingroup _mac */ #ifdef EXMIMO #include <pthread.h> #endif #include "extern.h" #include "defs.h" #ifdef PHY_EMUL # include "SIMULATION/PHY_EMULATION/impl_defs.h" #else # include "SCHED/defs.h" # include "PHY/impl_defs_top.h" #endif #include "PHY_INTERFACE/defs.h" #include "PHY_INTERFACE/extern.h" #include "COMMON/mac_rrc_primitives.h" #include "RRC/L2_INTERFACE/openair_rrc_L2_interface.h" #include "RRC/LITE/extern.h" #include "UTIL/LOG/log.h" #include "UTIL/LOG/vcd_signal_dumper.h" #include "UTIL/OPT/opt.h" #include "OCG.h" #include "OCG_extern.h" #ifdef PHY_EMUL # include "SIMULATION/simulation_defs.h" #endif #include "pdcp.h" #if defined(ENABLE_ITTI) # include "intertask_interface.h" #endif #define DEBUG_HEADER_PARSING 1 #define ENABLE_MAC_PAYLOAD_DEBUG /* #ifndef USER_MODE #define msg debug_msg #endif */ mapping BSR_names[] = { {"NONE", 0}, {"SHORT BSR", 1}, {"TRUNCATED BSR", 2}, {"LONG BSR", 3}, {"PADDING BSR", 4}, {NULL, -1} }; extern inline unsigned int taus(void); void ue_init_mac(u8 Mod_id){ int i; // default values as deined in 36.331 sec 9.2.2 LOG_I(MAC,"[UE%d] Applying default macMainConfig\n",Mod_id); LOG_D(MAC, "[MSC_NEW][FRAME 00000][MAC_UE][MOD %02d][]\n", Mod_id+NB_eNB_INST); //UE_mac_inst[Mod_id].scheduling_info.macConfig=NULL; UE_mac_inst[Mod_id].scheduling_info.retxBSR_Timer= MAC_MainConfig__ul_SCH_Config__retxBSR_Timer_sf2560; UE_mac_inst[Mod_id].scheduling_info.periodicBSR_Timer=MAC_MainConfig__ul_SCH_Config__periodicBSR_Timer_infinity; UE_mac_inst[Mod_id].scheduling_info.periodicPHR_Timer = MAC_MainConfig__phr_Config__setup__periodicPHR_Timer_sf20; UE_mac_inst[Mod_id].scheduling_info.prohibitPHR_Timer = MAC_MainConfig__phr_Config__setup__prohibitPHR_Timer_sf20; UE_mac_inst[Mod_id].scheduling_info.PathlossChange_db = MAC_MainConfig__phr_Config__setup__dl_PathlossChange_dB1; UE_mac_inst[Mod_id].PHR_state = MAC_MainConfig__phr_Config_PR_setup; UE_mac_inst[Mod_id].scheduling_info.SR_COUNTER=0; UE_mac_inst[Mod_id].scheduling_info.sr_ProhibitTimer=0; UE_mac_inst[Mod_id].scheduling_info.sr_ProhibitTimer_Running=0; UE_mac_inst[Mod_id].scheduling_info.maxHARQ_Tx=MAC_MainConfig__ul_SCH_Config__maxHARQ_Tx_n5; UE_mac_inst[Mod_id].scheduling_info.ttiBundling=0; UE_mac_inst[Mod_id].scheduling_info.drx_config=NULL; UE_mac_inst[Mod_id].scheduling_info.phr_config=NULL; UE_mac_inst[Mod_id].scheduling_info.periodicBSR_SF = get_sf_periodicBSRTimer(UE_mac_inst[Mod_id].scheduling_info.periodicBSR_Timer); UE_mac_inst[Mod_id].scheduling_info.retxBSR_SF = get_sf_retxBSRTimer(UE_mac_inst[Mod_id].scheduling_info.retxBSR_Timer); UE_mac_inst[Mod_id].scheduling_info.periodicPHR_SF = get_sf_perioidicPHR_Timer(UE_mac_inst[Mod_id].scheduling_info.periodicPHR_Timer); UE_mac_inst[Mod_id].scheduling_info.prohibitPHR_SF = get_sf_prohibitPHR_Timer(UE_mac_inst[Mod_id].scheduling_info.prohibitPHR_Timer); UE_mac_inst[Mod_id].scheduling_info.PathlossChange_db = get_db_dl_PathlossChange(UE_mac_inst[Mod_id].scheduling_info.PathlossChange); for (i=0; i < MAX_NUM_LCID; i++){ LOG_D(MAC,"[UE%d] Applying default logical channel config for LCGID %d\n",Mod_id,i); UE_mac_inst[Mod_id].scheduling_info.Bj[i]=-1; UE_mac_inst[Mod_id].scheduling_info.bucket_size[i]=-1; if (i < DTCH) // initilize all control channels lcgid to 0 UE_mac_inst[Mod_id].scheduling_info.LCGID[i]=0; else // initialize all the data channels lcgid to 1 UE_mac_inst[Mod_id].scheduling_info.LCGID[i]=1; UE_mac_inst[Mod_id].scheduling_info.LCID_status[i]=0; } } unsigned char *parse_header(unsigned char *mac_header, unsigned char *num_ce, unsigned char *num_sdu, unsigned char *rx_ces, unsigned char *rx_lcids, unsigned short *rx_lengths, unsigned short tb_length) { unsigned char not_done=1,num_ces=0,num_sdus=0,lcid, num_sdu_cnt; unsigned char *mac_header_ptr = mac_header; unsigned short length,ce_len=0; while (not_done==1) { if (((SCH_SUBHEADER_FIXED *)mac_header_ptr)->E == 0) { // printf("E=0\n"); not_done = 0; } lcid = ((SCH_SUBHEADER_FIXED *)mac_header_ptr)->LCID; if (lcid < UE_CONT_RES) { //printf("[MAC][UE] header %x.%x.%x\n",mac_header_ptr[0],mac_header_ptr[1],mac_header_ptr[2]); if (not_done==0) {// last MAC SDU, length is implicit mac_header_ptr++; length = tb_length-(mac_header_ptr-mac_header)-ce_len; for (num_sdu_cnt=0; num_sdu_cnt < num_sdus ; num_sdu_cnt++) length -= rx_lengths[num_sdu_cnt]; } else { if (((SCH_SUBHEADER_LONG *)mac_header_ptr)->F == 1) { length = ((((SCH_SUBHEADER_LONG *)mac_header_ptr)->L_MSB & 0x7f ) << 8 ) | (((SCH_SUBHEADER_LONG *)mac_header_ptr)->L_LSB & 0xff); mac_header_ptr += 3; #ifdef DEBUG_HEADER_PARSING LOG_D(MAC,"[UE] parse long sdu, size %x \n",length); #endif } else { //if (((SCH_SUBHEADER_SHORT *)mac_header_ptr)->F == 0) { length = ((SCH_SUBHEADER_SHORT *)mac_header_ptr)->L; mac_header_ptr += 2; } } #ifdef DEBUG_HEADER_PARSING LOG_D(MAC,"[UE] sdu %d lcid %d length %d (offset now %d)\n", num_sdus,lcid,length,mac_header_ptr-mac_header); #endif rx_lcids[num_sdus] = lcid; rx_lengths[num_sdus] = length; num_sdus++; } else { // This is a control element subheader if (lcid == SHORT_PADDING) { mac_header_ptr++; } else { rx_ces[num_ces] = lcid; num_ces++; mac_header_ptr ++; if (lcid==TIMING_ADV_CMD) ce_len++; else if (lcid==UE_CONT_RES) ce_len+=6; } #ifdef DEBUG_HEADER_PARSING LOG_D(MAC,"[UE] ce %d lcid %d (offset now %d)\n",num_ces,lcid,mac_header_ptr-mac_header); #endif } } *num_ce = num_ces; *num_sdu = num_sdus; return(mac_header_ptr); } u32 ue_get_SR(u8 Mod_id,u32 frame,u8 eNB_id,u16 rnti, u8 subframe) { // no UL-SCH resources available for this tti && UE has a valid PUCCH resources for SR configuration for this tti // int MGL=6;// measurement gap length in ms int MGRP=0; // measurement gap repition period in ms int gapOffset=-1; int T=0; // int sfn=0; // determin the measurement gap LOG_D(MAC,"[UE %d][SR %x] Frame %d subframe %d PHY asks for SR (SR_COUNTER/dsr_TransMax %d/%d), SR_pending %d\n", Mod_id,rnti,frame,subframe, UE_mac_inst[Mod_id].scheduling_info.SR_COUNTER, (1<<(2+UE_mac_inst[Mod_id].physicalConfigDedicated->schedulingRequestConfig->choice.setup.dsr_TransMax)), UE_mac_inst[Mod_id].scheduling_info.SR_pending); if (UE_mac_inst[Mod_id].measGapConfig !=NULL){ if (UE_mac_inst[Mod_id].measGapConfig->choice.setup.gapOffset.present == MeasGapConfig__setup__gapOffset_PR_gp0){ MGRP= 40; gapOffset= UE_mac_inst[Mod_id].measGapConfig->choice.setup.gapOffset.choice.gp0; }else if (UE_mac_inst[Mod_id].measGapConfig->choice.setup.gapOffset.present == MeasGapConfig__setup__gapOffset_PR_gp1){ MGRP= 80; gapOffset= UE_mac_inst[Mod_id].measGapConfig->choice.setup.gapOffset.choice.gp1; }else{ LOG_W(MAC, "Measurement GAP offset is unknown\n"); } T=MGRP/10; //check the measurement gap and sr prohibit timer if ((subframe == gapOffset %10) && ((frame %T) == (floor(gapOffset/10))) && (UE_mac_inst[Mod_id].scheduling_info.sr_ProhibitTimer_Running =0)){ UE_mac_inst[Mod_id].scheduling_info.SR_pending=1; return(0); } } if ((UE_mac_inst[Mod_id].scheduling_info.SR_pending==1) && (UE_mac_inst[Mod_id].scheduling_info.SR_COUNTER < (1<<(2+UE_mac_inst[Mod_id].physicalConfigDedicated->schedulingRequestConfig->choice.setup.dsr_TransMax))) ){ UE_mac_inst[Mod_id].scheduling_info.SR_COUNTER++; // start the sr-prohibittimer : rel 9 and above if (UE_mac_inst[Mod_id].scheduling_info.sr_ProhibitTimer > 0) { // timer configured UE_mac_inst[Mod_id].scheduling_info.sr_ProhibitTimer--; UE_mac_inst[Mod_id].scheduling_info.sr_ProhibitTimer_Running=1; } else UE_mac_inst[Mod_id].scheduling_info.sr_ProhibitTimer_Running=0; LOG_D(MAC,"[UE %d][SR %x] Frame %d subframe %d send SR_indication (SR_COUNTER/dsr_TransMax %d/%d), SR_pending %d\n", Mod_id,rnti,frame,subframe, UE_mac_inst[Mod_id].scheduling_info.SR_COUNTER, (1<<(2+UE_mac_inst[Mod_id].physicalConfigDedicated->schedulingRequestConfig->choice.setup.dsr_TransMax)), UE_mac_inst[Mod_id].scheduling_info.SR_pending); //UE_mac_inst[Mod_id].ul_active =1; return(1); //instruct phy to signal SR } else{ // notify RRC to relase PUCCH/SRS // clear any configured dl/ul // initiate RA UE_mac_inst[Mod_id].scheduling_info.SR_pending=0; UE_mac_inst[Mod_id].scheduling_info.SR_COUNTER=0; return(0); } } void ue_send_sdu(u8 Mod_id,u32 frame,u8 *sdu,u16 sdu_len,u8 eNB_index) { unsigned char rx_ces[MAX_NUM_CE],num_ce,num_sdu,i,*payload_ptr; unsigned char rx_lcids[NB_RB_MAX]; unsigned short rx_lengths[NB_RB_MAX]; unsigned char *tx_sdu; vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_UE_SEND_SDU, VCD_FUNCTION_IN); LOG_T(MAC,"sdu: %x.%x.%x\n",sdu[0],sdu[1],sdu[2]); #if defined(USER_MODE) && defined(OAI_EMU) if (oai_emulation.info.opt_enabled) { trace_pdu(1, sdu, sdu_len, Mod_id, 3, UE_mac_inst[Mod_id].crnti, UE_mac_inst[Mod_id].subframe, 0, 0); } #endif payload_ptr = parse_header(sdu,&num_ce,&num_sdu,rx_ces,rx_lcids,rx_lengths,sdu_len); #ifdef DEBUG_HEADER_PARSING LOG_D(MAC,"[UE %d] ue_send_sdu : Frame %d eNB_index %d : num_ce %d num_sdu %d\n",Mod_id, frame,eNB_index,num_ce,num_sdu); #endif #if defined(ENABLE_MAC_PAYLOAD_DEBUG) LOG_T(MAC,"[eNB %d] First 32 bytes of DLSCH : \n"); for (i=0;i<32;i++) LOG_T(MAC,"%x.",sdu[i]); LOG_T(MAC,"\n"); #endif for (i=0;i<num_ce;i++) { // printf("ce %d : %d\n",i,rx_ces[i]); switch (rx_ces[i]) { case UE_CONT_RES: LOG_I(MAC,"[UE %d][RAPROC] Frame %d : received contention resolution msg: %x.%x.%x.%x.%x.%x, Terminating RA procedure\n", Mod_id,frame,payload_ptr[0],payload_ptr[1],payload_ptr[2],payload_ptr[3],payload_ptr[4],payload_ptr[5]); if (UE_mac_inst[Mod_id].RA_active == 1) { LOG_I(MAC,"[UE %d][RAPROC] Frame %d : Clearing RA_active flag\n"); UE_mac_inst[Mod_id].RA_active=0; // check if RA procedure has finished completely (no contention) tx_sdu = &UE_mac_inst[Mod_id].CCCH_pdu.payload[3]; //Note: 3 assumes sizeof(SCH_SUBHEADER_SHORT) + PADDING CE, which is when UL-Grant has TBS >= 9 (64 bits) // (other possibility is 1 for TBS=7 (SCH_SUBHEADER_FIXED), or 2 for TBS=8 (SCH_SUBHEADER_FIXED+PADDING or SCH_SUBHEADER_SHORT) for (i=0;i<6;i++) if (tx_sdu[i] != payload_ptr[i]) { LOG_E(MAC,"[UE %d][RAPROC] Contention detected, RA failed\n",Mod_id); mac_xface->ra_failed(Mod_id,eNB_index); UE_mac_inst[Mod_id].RA_contention_resolution_timer_active = 0; vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_UE_SEND_SDU, VCD_FUNCTION_OUT); return; } LOG_I(MAC,"[UE %d][RAPROC] Frame %d : Clearing contention resolution timer\n"); UE_mac_inst[Mod_id].RA_contention_resolution_timer_active = 0; mac_xface->ra_succeeded(Mod_id,eNB_index); } payload_ptr+=6; break; case TIMING_ADV_CMD: #ifdef DEBUG_HEADER_PARSING LOG_D(MAC,"[UE] CE %d : UE Timing Advance : %d\n",i,payload_ptr[0]); #endif //mac_xface->process_timing_advance(Mod_id,payload_ptr[0]); payload_ptr++; break; case DRX_CMD: #ifdef DEBUG_HEADER_PARSING LOG_D(MAC,"[UE] CE %d : UE DRX :",i); #endif payload_ptr++; break; } } for (i=0;i<num_sdu;i++) { #ifdef DEBUG_HEADER_PARSING LOG_D(MAC,"[UE] SDU %d : LCID %d, length %d\n",i,rx_lcids[i],rx_lengths[i]); #endif if (rx_lcids[i] == CCCH) { LOG_D(MAC,"[UE %d] Frame %d : DLSCH -> DL-CCCH, RRC message (eNB %d, %d bytes)\n",Mod_id,frame, eNB_index, rx_lengths[i]); #if defined(ENABLE_MAC_PAYLOAD_DEBUG) int j; for (j=0;j<rx_lengths[i];j++) LOG_T(MAC,"%x.",(u8)payload_ptr[j]); LOG_T(MAC,"\n"); #endif mac_rrc_data_ind(Mod_id, frame, CCCH, (u8 *)payload_ptr,rx_lengths[i],0,eNB_index,0); } else if (rx_lcids[i] == DCCH) { LOG_D(MAC,"[UE %d] Frame %d : DLSCH -> DL-DCCH%d, RRC message (eNB %d, %d bytes)\n", Mod_id, frame, rx_lcids[i],eNB_index,rx_lengths[i]); mac_rlc_data_ind(Mod_id+NB_eNB_INST, frame, 0, RLC_MBMS_NO, DCCH, (char *)payload_ptr, rx_lengths[i], 1, NULL); } else if (rx_lcids[i] == DCCH1) { LOG_D(MAC,"[UE %d] Frame %d : DLSCH -> DL-DCCH%d, RRC message (eNB %d, %d bytes)\n", Mod_id, frame, rx_lcids[i], eNB_index,rx_lengths[i]); mac_rlc_data_ind(Mod_id+NB_eNB_INST, frame, 0, RLC_MBMS_NO, DCCH1, (char *)payload_ptr, rx_lengths[i], 1, NULL); } else if (rx_lcids[i] == DTCH) { LOG_D(MAC,"[UE %d] Frame %d : DLSCH -> DL-DTCH%d (eNB %d, %d bytes)\n", Mod_id, frame,rx_lcids[i], eNB_index,rx_lengths[i]); #if defined(ENABLE_MAC_PAYLOAD_DEBUG) int j; for (j=0;j<rx_lengths[i];j++) LOG_T(MAC,"%x.",(unsigned char)payload_ptr[j]); LOG_T(MAC,"\n"); #endif mac_rlc_data_ind(Mod_id+NB_eNB_INST, frame, 0, RLC_MBMS_NO, DTCH, (char *)payload_ptr, rx_lengths[i], 1, NULL); } payload_ptr+= rx_lengths[i]; } vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_UE_SEND_SDU, VCD_FUNCTION_OUT); } void ue_decode_si(u8 Mod_id,u32 frame, u8 eNB_index, void *pdu,u16 len) { vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_UE_DECODE_SI, VCD_FUNCTION_IN); LOG_D(MAC,"[UE %d] Frame %d Sending SI to RRC (LCID Id %d,len %d)\n",Mod_id,frame,BCCH,len); mac_rrc_data_ind(Mod_id, frame, BCCH, (u8 *)pdu, len, 0, eNB_index, 0); vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_UE_DECODE_SI, VCD_FUNCTION_OUT); } #ifdef Rel10 unsigned char *parse_mch_header(unsigned char *mac_header, unsigned char *num_sdu, unsigned char *rx_lcids, unsigned short *rx_lengths, unsigned short tb_length) { unsigned char not_done=1, num_sdus=0, lcid, i; unsigned char *mac_header_ptr = mac_header; unsigned short length; while (not_done == 1) { if (((SCH_SUBHEADER_FIXED *)mac_header_ptr)->E == 0) { not_done = 0; } lcid = ((SCH_SUBHEADER_FIXED *)mac_header_ptr)->LCID; if (lcid < SHORT_PADDING) {// subheader for MSI, MCCH or MTCH if (not_done == 0) { // last MAC SDU, length is implicit mac_header_ptr++; length = tb_length- (mac_header_ptr - mac_header); for (i=0; i<num_sdus; i++) length -= rx_lengths[i]; } else { // not the last MAC SDU if ( ((SCH_SUBHEADER_LONG *)mac_header_ptr)->F == 1) {// subheader has length of 3octets // length = ((SCH_SUBHEADER_LONG *)mac_header_ptr)->L; length = ((((SCH_SUBHEADER_LONG *)mac_header_ptr)->L_MSB & 0x7f ) << 8 ) | (((SCH_SUBHEADER_LONG *)mac_header_ptr)->L_LSB & 0xff); mac_header_ptr += 3; } else {// subheader has length of 2octets length = ((SCH_SUBHEADER_SHORT *)mac_header_ptr)->L; mac_header_ptr += 2; } } rx_lcids[num_sdus] = lcid; rx_lengths[num_sdus] = length; num_sdus++; } else {// subheader for padding // if (lcid == SHORT_PADDING) mac_header_ptr++; } } *num_sdu = num_sdus; return(mac_header_ptr); } // this function is for sending mch_sdu from phy to mac void ue_send_mch_sdu(u8 Mod_id, u32 frame, u8 *sdu, u16 sdu_len, u8 eNB_index, u8 sync_area) { unsigned char num_sdu, i, *payload_ptr; unsigned char rx_lcids[NB_RB_MAX]; unsigned short rx_lengths[NB_RB_MAX]; // vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_UE_SEND_MCH_SDU, VCD_FUNCTION_IN); LOG_D(MAC,"[UE %d] Frame %d : process the mch PDU for sync area %d \n",Mod_id,frame, sync_area); LOG_D(MAC,"[UE %d] sdu: %x.%x\n", Mod_id,sdu[0], sdu[1]); LOG_D(MAC,"[UE %d] parse_mch_header, demultiplex\n",Mod_id); payload_ptr = parse_mch_header(sdu, &num_sdu, rx_lcids, rx_lengths, sdu_len); LOG_D(MAC,"[UE %d] parse_mch_header, found %d sdus\n",Mod_id,num_sdu); for (i=0; i<num_sdu; i++) { if (rx_lcids[i] == MCH_SCHDL_INFO) { if (UE_mac_inst[Mod_id].mcch_status==1) { LOG_I(MAC,"[UE %d] Frame %d : MCH->MSI for sync area %d (eNB %d, %d bytes)\n",Mod_id,frame, sync_area, eNB_index, rx_lengths[i]); // ??store necessary scheduling info to ue_mac_inst in order to // calculate exact position of interested service (for the complex case has >1 mtch) // set msi_status to 1 UE_mac_inst[Mod_id].msi_status = 1; } } else if (rx_lcids[i] == MCCH_LCHANID) { LOG_I(MAC,"[UE %d] Frame %d : SDU %d MCH->MCCH for sync area %d (eNB %d, %d bytes)\n",Mod_id,frame, i, sync_area, eNB_index, rx_lengths[i]); mac_rrc_data_ind(Mod_id, frame, MCCH, payload_ptr, rx_lengths[i], 0, eNB_index, sync_area); } else if (rx_lcids[i] == MTCH) { if (UE_mac_inst[Mod_id].msi_status==1) { LOG_I(MAC,"[UE %d] Frame %d : MCH->MTCH for sync area %d (eNB %d, %d bytes)\n",Mod_id,frame, sync_area, eNB_index, rx_lengths[i]); mac_rlc_data_ind(Mod_id+NB_eNB_INST, // because rlc[module_idP] (to differential between eNB and UE) frame, 0, RLC_MBMS_YES, MTCH + (maxDRB + 3), (char *)payload_ptr, rx_lengths[i], 1, NULL); } } else { LOG_W(MAC,"[UE %d] Frame %d : unknown sdu %d mcch status %d eNB %d \n",Mod_id,frame,rx_lengths[i], UE_mac_inst[Mod_id].mcch_status, eNB_index); } payload_ptr += rx_lengths[i]; } // vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_UE_SEND_MCH_SDU, VCD_FUNCTION_OUT); } s8 ue_get_mbsfn_sf_alloction (unsigned char Mod_id, u8 mbsfn_sync_area, unsigned char eNB_index){ // currently there is one-to-one mapping between sf allocation pattern and sync area if (mbsfn_sync_area > MAX_MBSFN_AREA){ LOG_W(MAC,"[UE %d] MBSFN synchronization area %d out of range for eNB %d\n ", Mod_id, mbsfn_sync_area, eNB_index); return -1; } else if (UE_mac_inst[Mod_id].mbsfn_SubframeConfig[mbsfn_sync_area] != NULL) return mbsfn_sync_area; else { LOG_W(MAC,"[UE %d] MBSFN Subframe Config pattern %d not found \n ", Mod_id, mbsfn_sync_area); return -1; } } int ue_query_mch(uint8_t Mod_id, uint32_t frame, uint32_t subframe, uint8_t eNB_index,uint8_t *sync_area, uint8_t *mcch_active) { int i=0, j=0, ii=0, msi_pos=0, mcch_mcs; int mcch_flag=0, mtch_flag=0, msi_flag=0; int mbsfn_period = 0;// 1<<(UE_mac_inst[Mod_id].mbsfn_SubframeConfig[0]->radioframeAllocationPeriod); int mcch_period = 0;// 32<<(UE_mac_inst[Mod_id].mbsfn_AreaInfo[0]->mcch_Config_r9.mcch_RepetitionPeriod_r9); int mch_scheduling_period; if (UE_mac_inst[Mod_id].pmch_Config[0]) mch_scheduling_period = 8<<(UE_mac_inst[Mod_id].pmch_Config[0]->mch_SchedulingPeriod_r9); for (i=0; i< eNB_mac_inst[Mod_id].num_active_mbsfn_area; i++ ){ // assume, that there is always a mapping if ((j=ue_get_mbsfn_sf_alloction(Mod_id,i,eNB_index)) == -1) return -1; // continue; ii=0; msi_pos=0; mbsfn_period = 1<<(UE_mac_inst[Mod_id].mbsfn_SubframeConfig[0]->radioframeAllocationPeriod); mcch_period = 32<<(UE_mac_inst[Mod_id].mbsfn_AreaInfo[0]->mcch_Config_r9.mcch_RepetitionPeriod_r9); LOG_D(MAC,"[UE %d] Frame %d subframe %d: Checking MBSFN Sync Area %d/%d with SF allocation %d/%d for MCCH and MTCH (mbsfn period %d, mcch period %d)\n", Mod_id,frame, subframe,i,UE_mac_inst[Mod_id].num_active_mbsfn_area, j,UE_mac_inst[Mod_id].num_sf_allocation_pattern,mbsfn_period,mcch_period); // get the real MCS value switch (UE_mac_inst[Mod_id].mbsfn_AreaInfo[i]->mcch_Config_r9.signallingMCS_r9) { case 0: mcch_mcs = 2; break; case 1: mcch_mcs = 7; break; case 2: mcch_mcs = 13; break; case 3: mcch_mcs = 19; break; } if (frame % mbsfn_period == UE_mac_inst[Mod_id].mbsfn_SubframeConfig[j]->radioframeAllocationOffset){ // MBSFN frame if (UE_mac_inst[Mod_id].mbsfn_SubframeConfig[j]->subframeAllocation.present == MBSFN_SubframeConfig__subframeAllocation_PR_oneFrame){// one-frame format if (UE_mac_inst[Mod_id].pmch_Config[0]) { // Find the first subframe in this MCH to transmit MSI if (frame % mch_scheduling_period == UE_mac_inst[Mod_id].mbsfn_SubframeConfig[j]->radioframeAllocationOffset ) { while (ii == 0) { ii = UE_mac_inst[Mod_id].mbsfn_SubframeConfig[j]->subframeAllocation.choice.oneFrame.buf[0] & (0x80>>msi_pos); msi_pos++; } } } // Check if the subframe is for MSI, MCCH or MTCHs and Set the correspoding flag to 1 switch (subframe) { case 1: if (mac_xface->lte_frame_parms->frame_type == FDD) { if ((UE_mac_inst[Mod_id].mbsfn_SubframeConfig[j]->subframeAllocation.choice.oneFrame.buf[0] & MBSFN_FDD_SF1) == MBSFN_FDD_SF1) { if (msi_pos == 1) msi_flag = 1; if ( (frame % mcch_period == UE_mac_inst[Mod_id].mbsfn_AreaInfo[i]->mcch_Config_r9.mcch_Offset_r9) && ((UE_mac_inst[Mod_id].mbsfn_AreaInfo[i]->mcch_Config_r9.sf_AllocInfo_r9.buf[0] & MBSFN_FDD_SF1) == MBSFN_FDD_SF1) ) mcch_flag = 1; mtch_flag = 1; } } break; case 2: if (mac_xface->lte_frame_parms->frame_type == FDD){ if ((UE_mac_inst[Mod_id].mbsfn_SubframeConfig[j]->subframeAllocation.choice.oneFrame.buf[0] & MBSFN_FDD_SF2) == MBSFN_FDD_SF2) { if (msi_pos == 2) msi_flag = 1; if ( (frame % mcch_period == UE_mac_inst[Mod_id].mbsfn_AreaInfo[i]->mcch_Config_r9.mcch_Offset_r9) && ((UE_mac_inst[Mod_id].mbsfn_AreaInfo[i]->mcch_Config_r9.sf_AllocInfo_r9.buf[0] & MBSFN_FDD_SF2) == MBSFN_FDD_SF2) ) mcch_flag = 1; mtch_flag = 1; } } break; case 3: if (mac_xface->lte_frame_parms->frame_type == TDD){// TDD if ((UE_mac_inst[Mod_id].mbsfn_SubframeConfig[j]->subframeAllocation.choice.oneFrame.buf[0] & MBSFN_TDD_SF3) == MBSFN_TDD_SF3) { if (msi_pos == 1) msi_flag = 1; if ( (frame % mcch_period == UE_mac_inst[Mod_id].mbsfn_AreaInfo[i]->mcch_Config_r9.mcch_Offset_r9) && ((UE_mac_inst[Mod_id].mbsfn_AreaInfo[i]->mcch_Config_r9.sf_AllocInfo_r9.buf[0] & MBSFN_TDD_SF3) == MBSFN_TDD_SF3) ) mcch_flag = 1; mtch_flag = 1; } } else {// FDD if ((UE_mac_inst[Mod_id].mbsfn_SubframeConfig[j]->subframeAllocation.choice.oneFrame.buf[0] & MBSFN_FDD_SF3) == MBSFN_FDD_SF3) { if (msi_pos == 3) msi_flag = 1; if ((frame % mcch_period == UE_mac_inst[Mod_id].mbsfn_AreaInfo[i]->mcch_Config_r9.mcch_Offset_r9) && ((UE_mac_inst[Mod_id].mbsfn_AreaInfo[i]->mcch_Config_r9.sf_AllocInfo_r9.buf[0] & MBSFN_FDD_SF3) == MBSFN_FDD_SF3) ) mcch_flag = 1; mtch_flag = 1; } } break; case 4: if (mac_xface->lte_frame_parms->frame_type == TDD){ if ((UE_mac_inst[Mod_id].mbsfn_SubframeConfig[j]->subframeAllocation.choice.oneFrame.buf[0] & MBSFN_TDD_SF4) == MBSFN_TDD_SF4) { if (msi_pos == 2) msi_flag = 1; if ((frame % mcch_period == UE_mac_inst[Mod_id].mbsfn_AreaInfo[i]->mcch_Config_r9.mcch_Offset_r9) && ((UE_mac_inst[Mod_id].mbsfn_AreaInfo[i]->mcch_Config_r9.sf_AllocInfo_r9.buf[0] & MBSFN_TDD_SF4) == MBSFN_TDD_SF4) ) mcch_flag = 1; mtch_flag = 1; } } break; case 6: if (mac_xface->lte_frame_parms->frame_type == FDD){ if ((UE_mac_inst[Mod_id].mbsfn_SubframeConfig[j]->subframeAllocation.choice.oneFrame.buf[0] & MBSFN_FDD_SF6) == MBSFN_FDD_SF6) { if (msi_pos == 4) msi_flag = 1; if ((frame % mcch_period == UE_mac_inst[Mod_id].mbsfn_AreaInfo[i]->mcch_Config_r9.mcch_Offset_r9) && ((UE_mac_inst[Mod_id].mbsfn_AreaInfo[i]->mcch_Config_r9.sf_AllocInfo_r9.buf[0] & MBSFN_FDD_SF6) == MBSFN_FDD_SF6) ) mcch_flag = 1; mtch_flag = 1; } } break; case 7: if (mac_xface->lte_frame_parms->frame_type == TDD){ // TDD if ((UE_mac_inst[Mod_id].mbsfn_SubframeConfig[j]->subframeAllocation.choice.oneFrame.buf[0] & MBSFN_TDD_SF7) == MBSFN_TDD_SF7) { if (msi_pos == 3) msi_flag = 1; if ((frame % mcch_period == UE_mac_inst[Mod_id].mbsfn_AreaInfo[i]->mcch_Config_r9.mcch_Offset_r9) && ((UE_mac_inst[Mod_id].mbsfn_AreaInfo[i]->mcch_Config_r9.sf_AllocInfo_r9.buf[0] & MBSFN_TDD_SF7) == MBSFN_TDD_SF7) ) mcch_flag = 1; mtch_flag = 1; } } else {// FDD if ((UE_mac_inst[Mod_id].mbsfn_SubframeConfig[j]->subframeAllocation.choice.oneFrame.buf[0] & MBSFN_FDD_SF7) == MBSFN_FDD_SF7) { if (msi_pos == 5) msi_flag = 1; if ((frame % mcch_period == UE_mac_inst[Mod_id].mbsfn_AreaInfo[i]->mcch_Config_r9.mcch_Offset_r9) && ((UE_mac_inst[Mod_id].mbsfn_AreaInfo[i]->mcch_Config_r9.sf_AllocInfo_r9.buf[0] & MBSFN_FDD_SF7) == MBSFN_FDD_SF7) ) mcch_flag = 1; mtch_flag = 1; } } break; case 8: if (mac_xface->lte_frame_parms->frame_type == TDD){ //TDD if ((UE_mac_inst[Mod_id].mbsfn_SubframeConfig[j]->subframeAllocation.choice.oneFrame.buf[0] & MBSFN_TDD_SF8) == MBSFN_TDD_SF8) { if (msi_pos == 4) msi_flag = 1; if ( (frame % mcch_period == UE_mac_inst[Mod_id].mbsfn_AreaInfo[i]->mcch_Config_r9.mcch_Offset_r9) && ((UE_mac_inst[Mod_id].mbsfn_AreaInfo[i]->mcch_Config_r9.sf_AllocInfo_r9.buf[0] & MBSFN_TDD_SF8) == MBSFN_TDD_SF8) ) mcch_flag = 1; mtch_flag = 1; } } else{ // FDD if ((UE_mac_inst[Mod_id].mbsfn_SubframeConfig[j]->subframeAllocation.choice.oneFrame.buf[0] & MBSFN_FDD_SF8) == MBSFN_FDD_SF8) { if (msi_pos == 6) msi_flag = 1; if ((frame % mcch_period == UE_mac_inst[Mod_id].mbsfn_AreaInfo[i]->mcch_Config_r9.mcch_Offset_r9) && ((UE_mac_inst[Mod_id].mbsfn_AreaInfo[i]->mcch_Config_r9.sf_AllocInfo_r9.buf[0] & MBSFN_FDD_SF8) == MBSFN_FDD_SF8) ) mcch_flag = 1; mtch_flag = 1; } } break; case 9: if (mac_xface->lte_frame_parms->frame_type == TDD){ if ((UE_mac_inst[Mod_id].mbsfn_SubframeConfig[j]->subframeAllocation.choice.oneFrame.buf[0] & MBSFN_TDD_SF9) == MBSFN_TDD_SF9) { if (msi_pos == 5) msi_flag = 1; if ((frame % mcch_period == UE_mac_inst[Mod_id].mbsfn_AreaInfo[i]->mcch_Config_r9.mcch_Offset_r9) && ((UE_mac_inst[Mod_id].mbsfn_AreaInfo[i]->mcch_Config_r9.sf_AllocInfo_r9.buf[0] & MBSFN_TDD_SF9) == MBSFN_TDD_SF9) ) mcch_flag = 1; mtch_flag = 1; } } break; }// end switch // sf allocation is non-overlapping if ((msi_flag==1) || (mcch_flag==1) || (mtch_flag==1)){ LOG_D(MAC,"[UE %d] Frame %d Subframe %d: sync area %d SF alloc %d: msi flag %d, mcch flag %d, mtch flag %d\n", Mod_id, frame, subframe,i,j,msi_flag,mcch_flag,mtch_flag); *sync_area=i; break; } } else {// four-frame format } } } // end of for if ( (mcch_flag==1))// || (msi_flag==1)) *mcch_active=1; if ( (mcch_flag==1) || ((msi_flag==1) && (UE_mac_inst[Mod_id].mcch_status==1)) ){ return mcch_mcs; } else if ((mtch_flag==1) && (UE_mac_inst[Mod_id].msi_status==1)) return UE_mac_inst[Mod_id].pmch_Config[0]->dataMCS_r9; else return -1; } #endif unsigned char generate_ulsch_header(u8 *mac_header, u8 num_sdus, u8 short_padding, u16 *sdu_lengths, u8 *sdu_lcids, POWER_HEADROOM_CMD *power_headroom, u16 *crnti, BSR_SHORT *truncated_bsr, BSR_SHORT *short_bsr, BSR_LONG *long_bsr, unsigned short post_padding) { SCH_SUBHEADER_FIXED *mac_header_ptr = (SCH_SUBHEADER_FIXED *)mac_header; unsigned char first_element=0,last_size=0,i; unsigned char mac_header_control_elements[16],*ce_ptr; LOG_D(MAC,"[UE] Generate ULSCH : num_sdus %d\n",num_sdus); #ifdef DEBUG_HEADER_PARSING for (i=0;i<num_sdus;i++) LOG_T(MAC,"[UE] sdu %d : lcid %d length %d",i,sdu_lcids[i],sdu_lengths[i]); LOG_T(MAC,"\n"); #endif ce_ptr = &mac_header_control_elements[0]; if ((short_padding == 1) || (short_padding == 2)) { mac_header_ptr->R = 0; mac_header_ptr->E = 0; mac_header_ptr->LCID = SHORT_PADDING; first_element=1; last_size=1; } if (short_padding == 2) { mac_header_ptr->E = 1; mac_header_ptr++; mac_header_ptr->R = 0; mac_header_ptr->E = 0; mac_header_ptr->LCID = SHORT_PADDING; last_size=1; } if (power_headroom) { if (first_element>0) { mac_header_ptr->E = 1; mac_header_ptr++; } else { first_element=1; } mac_header_ptr->R = 0; mac_header_ptr->E = 0; mac_header_ptr->LCID = POWER_HEADROOM; last_size=1; *((POWER_HEADROOM_CMD *)ce_ptr)=(*power_headroom); ce_ptr+=sizeof(POWER_HEADROOM_CMD); LOG_D(MAC, "phr header size %d\n",sizeof(POWER_HEADROOM_CMD)); } if (crnti) { #ifdef DEBUG_HEADER_PARSING LOG_D(MAC,"[UE] CRNTI : %x (first_element %d)\n",*crnti,first_element); #endif if (first_element>0) { mac_header_ptr->E = 1; mac_header_ptr++; } else { first_element=1; } mac_header_ptr->R = 0; mac_header_ptr->E = 0; mac_header_ptr->LCID = CRNTI; last_size=1; *((u16 *)ce_ptr)=(*crnti); ce_ptr+=sizeof(u16); // printf("offset %d\n",ce_ptr-mac_header_control_elements); } if (truncated_bsr) { if (first_element>0) { mac_header_ptr->E = 1; /* printf("last subheader : %x (R%d,E%d,LCID%d)\n",*(unsigned char*)mac_header_ptr, ((SCH_SUBHEADER_FIXED *)mac_header_ptr)->R, ((SCH_SUBHEADER_FIXED *)mac_header_ptr)->E, ((SCH_SUBHEADER_FIXED *)mac_header_ptr)->LCID); */ mac_header_ptr++; } else { first_element=1; } #ifdef DEBUG_HEADER_PARSING LOG_D(MAC,"[UE] Scheduler Truncated BSR Header\n"); #endif mac_header_ptr->R = 0; mac_header_ptr->E = 0; mac_header_ptr->LCID = TRUNCATED_BSR; last_size=1; *((BSR_TRUNCATED *)ce_ptr)=(*truncated_bsr); ce_ptr+=sizeof(BSR_TRUNCATED); // printf("(cont_res) : offset %d\n",ce_ptr-mac_header_control_elements); } else if (short_bsr) { if (first_element>0) { mac_header_ptr->E = 1; /* printf("last subheader : %x (R%d,E%d,LCID%d)\n",*(unsigned char*)mac_header_ptr, ((SCH_SUBHEADER_FIXED *)mac_header_ptr)->R, ((SCH_SUBHEADER_FIXED *)mac_header_ptr)->E, ((SCH_SUBHEADER_FIXED *)mac_header_ptr)->LCID); */ mac_header_ptr++; } else { first_element=1; } #ifdef DEBUG_HEADER_PARSING LOG_D(MAC,"[UE] Scheduler SHORT BSR Header\n"); #endif mac_header_ptr->R = 0; mac_header_ptr->E = 0; mac_header_ptr->LCID = SHORT_BSR; last_size=1; *((BSR_SHORT *)ce_ptr)=(*short_bsr); ce_ptr+=sizeof(BSR_SHORT); // printf("(cont_res) : offset %d\n",ce_ptr-mac_header_control_elements); } else if (long_bsr) { if (first_element>0) { mac_header_ptr->E = 1; /* printf("last subheader : %x (R%d,E%d,LCID%d)\n",*(unsigned char*)mac_header_ptr, ((SCH_SUBHEADER_FIXED *)mac_header_ptr)->R, ((SCH_SUBHEADER_FIXED *)mac_header_ptr)->E, ((SCH_SUBHEADER_FIXED *)mac_header_ptr)->LCID); */ mac_header_ptr++; } else { first_element=1; } #ifdef DEBUG_HEADER_PARSING LOG_D(MAC,"[UE] Scheduler Long BSR Header\n"); #endif mac_header_ptr->R = 0; mac_header_ptr->E = 0; mac_header_ptr->LCID = LONG_BSR; last_size=1; *(ce_ptr) = (long_bsr->Buffer_size0 << 2) | ((long_bsr->Buffer_size1 & 0x30) >> 4); *(ce_ptr + 1) = ((long_bsr->Buffer_size1 & 0x0F) << 4) | ((long_bsr->Buffer_size2 & 0x3C) >> 2); *(ce_ptr + 2) = ((long_bsr->Buffer_size2 & 0x03) << 2) | (long_bsr->Buffer_size3 & 0x3F); /* Padding */ *(ce_ptr + 3) = 0; ce_ptr += BSR_LONG_SIZE; // printf("(cont_res) : offset %d\n",ce_ptr-mac_header_control_elements); } // printf("last_size %d,mac_header_ptr %p\n",last_size,mac_header_ptr); for (i=0;i<num_sdus;i++) { #ifdef DEBUG_HEADER_PARSING LOG_T(MAC,"[UE] sdu subheader %d (lcid %d, %d bytes)\n",i,sdu_lcids[i],sdu_lengths[i]); #endif if ((first_element>0)) { mac_header_ptr->E = 1; #ifdef DEBUG_HEADER_PARSING LOG_D(MAC,"[UE] last subheader : %x (R%d,E%d,LCID%d)\n",*(unsigned char*)mac_header_ptr, ((SCH_SUBHEADER_FIXED *)mac_header_ptr)->R, ((SCH_SUBHEADER_FIXED *)mac_header_ptr)->E, ((SCH_SUBHEADER_FIXED *)mac_header_ptr)->LCID); #endif mac_header_ptr+=last_size; // printf("last_size %d,mac_header_ptr %p\n",last_size,mac_header_ptr); } else { first_element=1; } if (sdu_lengths[i] < 128) { ((SCH_SUBHEADER_SHORT *)mac_header_ptr)->R = 0; // 3 ((SCH_SUBHEADER_SHORT *)mac_header_ptr)->E = 0; ((SCH_SUBHEADER_SHORT *)mac_header_ptr)->F = 0; ((SCH_SUBHEADER_SHORT *)mac_header_ptr)->LCID = sdu_lcids[i]; ((SCH_SUBHEADER_SHORT *)mac_header_ptr)->L = (unsigned char)sdu_lengths[i]; last_size=2; #ifdef DEBUG_HEADER_PARSING LOG_D(MAC,"[UE] short sdu\n"); LOG_T(MAC,"[UE] last subheader : %x (R%d,E%d,LCID%d,F%d,L%d)\n", ((u16*)mac_header_ptr)[0], ((SCH_SUBHEADER_SHORT *)mac_header_ptr)->R, ((SCH_SUBHEADER_SHORT *)mac_header_ptr)->E, ((SCH_SUBHEADER_SHORT *)mac_header_ptr)->LCID, ((SCH_SUBHEADER_SHORT *)mac_header_ptr)->F, ((SCH_SUBHEADER_SHORT *)mac_header_ptr)->L); #endif } else { ((SCH_SUBHEADER_LONG *)mac_header_ptr)->R = 0; ((SCH_SUBHEADER_LONG *)mac_header_ptr)->E = 0; ((SCH_SUBHEADER_LONG *)mac_header_ptr)->F = 1; ((SCH_SUBHEADER_LONG *)mac_header_ptr)->LCID = sdu_lcids[i]; ((SCH_SUBHEADER_LONG *)mac_header_ptr)->L_MSB = ((unsigned short) sdu_lengths[i]>>8)&0x7f; ((SCH_SUBHEADER_LONG *)mac_header_ptr)->L_LSB = (unsigned short) sdu_lengths[i]&0xff; ((SCH_SUBHEADER_LONG *)mac_header_ptr)->padding = 0x00; last_size=3; #ifdef DEBUG_HEADER_PARSING LOG_D(MAC,"[UE] long sdu\n"); #endif } } if (post_padding>0) {// we have lots of padding at the end of the packet mac_header_ptr->E = 1; mac_header_ptr+=last_size; // add a padding element mac_header_ptr->R = 0; mac_header_ptr->E = 0; mac_header_ptr->LCID = SHORT_PADDING; mac_header_ptr++; } else { // no end of packet padding // last SDU subhead is of fixed type (sdu length implicitly to be computed at UE) mac_header_ptr++; //mac_header_ptr=last_size; // FIXME: should be ++ } if ((ce_ptr-mac_header_control_elements) > 0) { memcpy((void*)mac_header_ptr,mac_header_control_elements,ce_ptr-mac_header_control_elements); mac_header_ptr+=(unsigned char)(ce_ptr-mac_header_control_elements); } #ifdef DEBUG_HEADER_PARSING LOG_T(MAC," [UE %d] header : ", crnti); for (i=0;i<((unsigned char*)mac_header_ptr - mac_header);i++) LOG_T(MAC,"%2x.",mac_header[i]); LOG_T(MAC,"\n"); #endif return((unsigned char*)mac_header_ptr - mac_header); } void ue_get_sdu(u8 Mod_id,u32 frame,u8 subframe, u8 eNB_index,u8 *ulsch_buffer,u16 buflen, u8 *access_mode) { mac_rlc_status_resp_t rlc_status; u8 dcch_header_len=0,dcch1_header_len=0,dtch_header_len=0; u8 dcch_header_len_tmp=0, dtch_header_len_tmp=0; u8 bsr_header_len=0, bsr_ce_len=0, bsr_len=0; u8 phr_header_len=0, phr_ce_len=0,phr_len=0; u16 sdu_lengths[8]; u8 sdu_lcids[8],payload_offset=0,num_sdus=0; u8 ulsch_buff[MAX_ULSCH_PAYLOAD_BYTES]; u16 sdu_length_total=0; BSR_SHORT bsr_short; BSR_LONG bsr_long; BSR_SHORT *bsr_s=&bsr_short; BSR_LONG *bsr_l=&bsr_long; POWER_HEADROOM_CMD phr; POWER_HEADROOM_CMD *phr_p=&phr; unsigned short short_padding=0, post_padding=0; int lcgid; int j; // used for padding // Compute header length vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_UE_GET_SDU, VCD_FUNCTION_IN); #ifdef CBA if (*access_mode==CBA_ACCESS){ LOG_D(MAC,"[UE %d] frame %d subframe %d try CBA transmission\n", Mod_id, frame, subframe); //if (UE_mac_inst[Mod_id].scheduling_info.LCID_status[DTCH] == LCID_EMPTY) if (use_cba_access(Mod_id,frame,subframe,eNB_index)==0){ *access_mode=POSTPONED_ACCESS; vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_UE_GET_SDU, VCD_FUNCTION_OUT); return; } LOG_D(MAC,"[UE %d] frame %d subframe %d CBA transmission oppurtunity, tbs %d\n", Mod_id, frame, subframe,buflen); } #endif dcch_header_len=2;//sizeof(SCH_SUBHEADER_SHORT); dcch1_header_len=2;//sizeof(SCH_SUBHEADER_SHORT); // hypo length,in case of long header skip the padding byte dtch_header_len=(buflen > 128 ) ? 3 : 2 ; //sizeof(SCH_SUBHEADER_LONG)-1 : sizeof(SCH_SUBHEADER_SHORT); bsr_header_len = 1;//sizeof(SCH_SUBHEADER_FIXED); phr_header_len = 1;//sizeof(SCH_SUBHEADER_FIXED); phr_ce_len = (UE_mac_inst[Mod_id].PHR_reporting_active == 1) ? 1 /* sizeof(POWER_HEADROOM_CMD)*/: 0; if (phr_ce_len > 0){ phr_len = phr_ce_len + phr_header_len; LOG_D(MAC,"[UE %d] header size info: PHR len %d (ce%d,hdr%d) buff_len %d\n", Mod_id, phr_len, phr_ce_len, phr_header_len, buflen); }else phr_len=0; bsr_ce_len = get_bsr_len (Mod_id, buflen-phr_len); if (bsr_ce_len > 0 ){ bsr_len = bsr_ce_len + bsr_header_len; LOG_D(MAC,"[UE %d] header size info: dcch %d, dcch1 %d, dtch %d, bsr (ce%d,hdr%d) buff_len %d\n", Mod_id, dcch_header_len,dcch1_header_len,dtch_header_len, bsr_ce_len, bsr_header_len, buflen); } else bsr_len = 0; // check for UL bandwidth requests and add SR control element // Check for DCCH first sdu_lengths[0]=0; if (UE_mac_inst[Mod_id].scheduling_info.LCID_status[DCCH] == LCID_NOT_EMPTY) { rlc_status = mac_rlc_status_ind(Mod_id+NB_eNB_INST,frame,0,RLC_MBMS_NO, DCCH, (buflen-dcch_header_len-bsr_len-phr_len)); LOG_D(MAC, "[UE %d] Frame %d : UL-DCCH -> ULSCH, RRC message has %d bytes to " "send (Transport Block size %d, mac header len %d)\n", Mod_id,frame, rlc_status.bytes_in_buffer,buflen,dcch_header_len); sdu_lengths[0] += mac_rlc_data_req(Mod_id+NB_eNB_INST,frame,RLC_MBMS_NO, DCCH, (char *)&ulsch_buff[sdu_lengths[0]]); sdu_length_total += sdu_lengths[0]; sdu_lcids[0] = DCCH; LOG_D(MAC,"[UE %d] TX Got %d bytes for DCCH\n",Mod_id,sdu_lengths[0]); num_sdus = 1; update_bsr(Mod_id, frame, DCCH, UE_mac_inst[Mod_id].scheduling_info.LCGID[DCCH]); //header_len +=2; } else { dcch_header_len=0; num_sdus = 0; } // DCCH1 if (UE_mac_inst[Mod_id].scheduling_info.LCID_status[DCCH1] == LCID_NOT_EMPTY) { rlc_status = mac_rlc_status_ind(Mod_id+NB_eNB_INST,frame,0,RLC_MBMS_NO, DCCH1, (buflen-bsr_len-phr_len-dcch_header_len-dcch1_header_len-sdu_length_total)); LOG_D(MAC,"[UE %d] Frame %d : UL-DCCH1 -> ULSCH, RRC message has %d bytes to" " send (Transport Block size %d, mac header len %d)\n", Mod_id,frame, rlc_status.bytes_in_buffer,buflen,dcch1_header_len); sdu_lengths[num_sdus] = mac_rlc_data_req(Mod_id+NB_eNB_INST,frame,RLC_MBMS_NO, DCCH1, (char *)&ulsch_buff[sdu_lengths[0]]); sdu_length_total += sdu_lengths[num_sdus]; sdu_lcids[num_sdus] = DCCH1; LOG_D(MAC,"[UE %d] TX Got %d bytes for DCCH1\n",Mod_id,sdu_lengths[num_sdus]); num_sdus++; //update_bsr(Mod_id, frame, DCCH1); //dcch_header_len +=2; // include dcch1 } else { dcch1_header_len =0; } if ((UE_mac_inst[Mod_id].scheduling_info.LCID_status[DTCH] == LCID_NOT_EMPTY) && ((bsr_len+phr_len+dcch_header_len+dcch1_header_len+dtch_header_len+sdu_length_total) <= buflen)){ // optimize the dtch header lenght //if ((UE_mac_inst[Mod_id].scheduling_info.BSR_bytes[DTCH] > 128) && /* if (((UE_mac_inst[Mod_id].scheduling_info.BSR_bytes[DTCH] >= 128) && ((UE_mac_inst[Mod_id].scheduling_info.BSR_bytes[DTCH]+bsr_len+phr_len+dcch_header_len+dcch1_header_len+dtch_header_len) > buflen)&& buflen >=128 )) dtch_header_len = 3;//sizeof(SCH_SUBHEADER_LONG); else dtch_header_len = 2;//sizeof(SCH_SUBHEADER_SHORT); */ rlc_status = mac_rlc_status_ind(Mod_id+NB_eNB_INST,frame,0,RLC_MBMS_NO, DTCH, buflen-bsr_len-phr_len-dcch_header_len-dcch1_header_len-dtch_header_len-sdu_length_total); LOG_D(MAC,"[UE %d] Frame %d : UL-DTCH -> ULSCH, %d bytes to send (Transport Block size %d, mac header len %d, BSR byte[DTCH] %d)\n", Mod_id,frame, rlc_status.bytes_in_buffer,buflen,dtch_header_len, UE_mac_inst[Mod_id].scheduling_info.BSR_bytes[DTCH]); sdu_lengths[num_sdus] = mac_rlc_data_req(Mod_id+NB_eNB_INST,frame,RLC_MBMS_NO, DTCH, (char *)&ulsch_buff[sdu_length_total]); //adjust dtch header dtch_header_len = (sdu_lengths[num_sdus] >= 128) ? 3 : 2; LOG_D(MAC,"[UE %d] TX Got %d bytes for DTCH\n",Mod_id,sdu_lengths[num_sdus]); sdu_lcids[num_sdus] = DTCH; sdu_length_total += sdu_lengths[num_sdus]; num_sdus++; UE_mac_inst[Mod_id].ul_active = update_bsr(Mod_id, frame, DTCH, UE_mac_inst[Mod_id].scheduling_info.LCGID[DTCH]); } else { // no rlc pdu : generate the dummy header dtch_header_len = 0; } lcgid= get_bsr_lcgid(Mod_id); if (lcgid < 0 ) { bsr_s = NULL; bsr_l = NULL ; } else if ((lcgid ==MAX_NUM_LCGID) && (bsr_ce_len == sizeof(BSR_LONG))) { bsr_s = NULL; bsr_l->Buffer_size0 = UE_mac_inst[Mod_id].scheduling_info.BSR[LCGID0]; bsr_l->Buffer_size1 = UE_mac_inst[Mod_id].scheduling_info.BSR[LCGID1]; bsr_l->Buffer_size2 = UE_mac_inst[Mod_id].scheduling_info.BSR[LCGID2]; bsr_l->Buffer_size3 = UE_mac_inst[Mod_id].scheduling_info.BSR[LCGID3]; LOG_D(MAC, "[UE %d] Frame %d report long BSR (level LCGID0 %d,level LCGID1 %d,level LCGID2 %d,level LCGID3 %d)\n", Mod_id,frame, UE_mac_inst[Mod_id].scheduling_info.BSR[LCGID0], UE_mac_inst[Mod_id].scheduling_info.BSR[LCGID1], UE_mac_inst[Mod_id].scheduling_info.BSR[LCGID2], UE_mac_inst[Mod_id].scheduling_info.BSR[LCGID3]); } else if (bsr_ce_len == sizeof(BSR_SHORT)) { bsr_l = NULL; bsr_s->LCGID = lcgid; bsr_s->Buffer_size = UE_mac_inst[Mod_id].scheduling_info.BSR[lcgid]; LOG_D(MAC,"[UE %d] Frame %d report SHORT BSR with level %d for LCGID %d\n", Mod_id, frame, UE_mac_inst[Mod_id].scheduling_info.BSR[lcgid],lcgid); } else { bsr_s = NULL; bsr_l = NULL; } // build PHR and update the timers if (phr_ce_len == sizeof(POWER_HEADROOM_CMD)){ phr_p->PH = get_phr_mapping(Mod_id,eNB_index); phr_p->R = 0; LOG_D(MAC,"[UE %d] Frame %d report PHR with mapping (%d->%d) for LCID %d\n", Mod_id,frame, mac_xface->get_PHR(Mod_id,eNB_index), phr_p->PH,POWER_HEADROOM); update_phr(Mod_id); }else phr_p=NULL; LOG_T(MAC,"[UE %d] Frame %d: bsr s %p bsr_l %p, phr_p %p\n", Mod_id,frame,bsr_s, bsr_l, phr_p); // adjust the header length dcch_header_len_tmp = dcch_header_len; dtch_header_len_tmp = dtch_header_len; if (dtch_header_len==0) dcch_header_len = (dcch_header_len>0)? 1: dcch_header_len; else dtch_header_len= (dtch_header_len >0)? 1: dtch_header_len; // for short and long, cut the length+F fields if ((buflen-bsr_len-phr_len-dcch_header_len-dcch1_header_len-dtch_header_len-sdu_length_total) == buflen) { *access_mode=CANCELED_ACCESS; vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_UE_GET_SDU, VCD_FUNCTION_OUT); return; } else if ((buflen-bsr_len-phr_len-dcch_header_len-dcch1_header_len-dtch_header_len-sdu_length_total) <= 2) { short_padding = buflen-bsr_len-phr_len-dcch_header_len-dcch1_header_len-dtch_header_len-sdu_length_total; post_padding = 0; } else { short_padding = 0; if (dtch_header_len==0) dcch_header_len = dcch_header_len_tmp; else dtch_header_len= dtch_header_len_tmp; post_padding = buflen-bsr_len-phr_len-dcch_header_len-dcch1_header_len-dtch_header_len-sdu_length_total -1 ; } // Generate header // if (num_sdus>0) { payload_offset = generate_ulsch_header(ulsch_buffer, // mac header num_sdus, // num sdus short_padding, // short pading sdu_lengths, // sdu length sdu_lcids, // sdu lcid phr_p, // power headroom NULL, // crnti NULL, // truncated bsr bsr_s, // short bsr bsr_l, post_padding); // long_bsr LOG_I(MAC,"[UE %d] Generate header :bufflen %d sdu_length_total %d, num_sdus %d, sdu_lengths[0] %d, sdu_lcids[0] %d => payload offset %d, dcch_header_len %d, dtch_header_len %d, padding %d,post_padding %d, bsr len %d, phr len %d, reminder %d \n", Mod_id,buflen, sdu_length_total,num_sdus,sdu_lengths[0],sdu_lcids[0],payload_offset, dcch_header_len, dtch_header_len, short_padding,post_padding, bsr_len, phr_len,buflen-sdu_length_total-payload_offset); // cycle through SDUs and place in ulsch_buffer memcpy(&ulsch_buffer[payload_offset],ulsch_buff,sdu_length_total); // fill remainder of DLSCH with random data for (j=0;j<(buflen-sdu_length_total-payload_offset);j++) ulsch_buffer[payload_offset+sdu_length_total+j] = (char)(taus()&0xff); #if defined(USER_MODE) && defined(OAI_EMU) if (oai_emulation.info.opt_enabled) trace_pdu(0, ulsch_buffer, buflen, Mod_id, 3, UE_mac_inst[Mod_id].crnti, subframe, 0, 0); LOG_D(OPT,"[UE %d][ULSCH] Frame %d trace pdu for rnti %x with size %d\n", Mod_id, frame, UE_mac_inst[Mod_id].crnti, buflen); #endif LOG_D(MAC,"[UE %d][SR] Gave SDU to PHY, clearing any scheduling request\n", Mod_id,payload_offset, sdu_length_total); UE_mac_inst[Mod_id].scheduling_info.SR_pending=0; UE_mac_inst[Mod_id].scheduling_info.SR_COUNTER=0; vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_UE_GET_SDU, VCD_FUNCTION_OUT); } // called at each subframe // Performs : // 1. Trigger PDCP every 5ms // 2. Call RRC for link status return to PHY // 3. Perform SR/BSR procedures for scheduling feedback // 4. Perform PHR procedures UE_L2_STATE_t ue_scheduler(u8 Mod_id,u32 frame, u8 subframe, lte_subframe_t direction,u8 eNB_index) { int lcid; // lcid index int TTI= 1; int bucketsizeduration; int bucketsizeduration_max; // mac_rlc_status_resp_t rlc_status[MAX_NUM_LCGID]; // 4 // s8 lcg_id; struct RACH_ConfigCommon *rach_ConfigCommon = (struct RACH_ConfigCommon *)NULL; #ifdef EXMIMO int ret; #endif #if defined(ENABLE_ITTI) MessageDef *msg_p; const char *msg_name; instance_t instance; #endif vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_UE_SCHEDULER, VCD_FUNCTION_IN); #if defined(ENABLE_ITTI) do { // Checks if a message has been sent to MAC sub-task itti_poll_msg (TASK_MAC_UE, &msg_p); if (msg_p != NULL) { msg_name = ITTI_MSG_NAME (msg_p); instance = ITTI_MSG_INSTANCE (msg_p); switch (ITTI_MSG_ID(msg_p)) { case RRC_MAC_CCCH_DATA_REQ: LOG_D(MAC, "Received %s from %s: instance %d, frame %d, eNB_index %d\n", msg_name, ITTI_MSG_ORIGIN_NAME(msg_p), instance, RRC_MAC_CCCH_DATA_REQ (msg_p).frame, RRC_MAC_CCCH_DATA_REQ (msg_p).enb_index); // TODO process CCCH data req. break; default: LOG_E(MAC, "Received unexpected message %s\n", msg_name); break; } free (msg_p); } } while(msg_p != NULL); #endif //Mac_rlc_xface->frame=frame; //Rrc_xface->Frame_index=Mac_rlc_xface->frame; //if (subframe%5 == 0) #ifdef EXMIMO pdcp_run(frame, 0, Mod_id, eNB_index); /* ret = pthread_mutex_trylock (&pdcp_mutex); if (ret != 0) { if (ret==EBUSY) LOG_E(PDCP,"Mutex busy\n"); else LOG_E(PDCP,"Cannot lock mutex\n"); //return(-1); } else { pdcp_instance_cnt++; pthread_mutex_unlock(&pdcp_mutex); if (pdcp_instance_cnt == 0) { if (pthread_cond_signal(&pdcp_cond) != 0) { LOG_E(PDCP,"pthread_cond_signal unsuccessfull\n"); //return(-1); } } else { LOG_W(PDCP,"PDCP thread busy!!! inst_cnt=%d\n",pdcp_instance_cnt); } } */ #endif UE_mac_inst[Mod_id].frame = frame; UE_mac_inst[Mod_id].subframe = subframe; #ifdef CELLULAR rrc_rx_tx(Mod_id, frame, 0, eNB_index); #else switch (rrc_rx_tx(Mod_id, frame, 0, eNB_index)) { case RRC_OK: break; case RRC_ConnSetup_failed: LOG_E(MAC,"RRCConnectionSetup failed, returning to IDLE state\n"); return(CONNECTION_LOST); break; case RRC_PHY_RESYNCH: LOG_E(MAC,"RRC Loss of synch, returning PHY_RESYNCH\n"); return(PHY_RESYNCH); case RRC_Handover_failed: LOG_N(MAC,"Handover failure for UE %d eNB_index %d\n",Mod_id,eNB_index); //Invalid...need to add another MAC UE state for re-connection procedure mac_xface->phy_config_afterHO_ue(Mod_id,eNB_index,(MobilityControlInfo_t *)NULL,1); //return(3); break; case RRC_HO_STARTED: LOG_I(MAC,"RRC handover, Instruct PHY to start the contention-free PRACH and synchronization\n"); return(PHY_HO_PRACH); default: break; } #endif // Check Contention resolution timer (put in a function later) if (UE_mac_inst[Mod_id].RA_contention_resolution_timer_active == 1) { if (UE_mac_inst[Mod_id].radioResourceConfigCommon) rach_ConfigCommon = &UE_mac_inst[Mod_id].radioResourceConfigCommon->rach_ConfigCommon; else { LOG_E(MAC,"FATAL: radioResourceConfigCommon is NULL!!!\n"); mac_xface->macphy_exit(""); vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_UE_SCHEDULER, VCD_FUNCTION_OUT); return(RRC_OK); } LOG_I(MAC,"Frame %d: Contention resolution timer %d/%d\n",frame,UE_mac_inst[Mod_id].RA_contention_resolution_cnt, ((1+rach_ConfigCommon->ra_SupervisionInfo.mac_ContentionResolutionTimer)<<3)); UE_mac_inst[Mod_id].RA_contention_resolution_cnt++; if (UE_mac_inst[Mod_id].RA_contention_resolution_cnt == ((1+rach_ConfigCommon->ra_SupervisionInfo.mac_ContentionResolutionTimer)<<3)) { UE_mac_inst[Mod_id].RA_active = 0; // Signal PHY to quit RA procedure LOG_E(MAC,"Contention resolution timer expired, RA failed\n"); mac_xface->ra_failed(Mod_id,eNB_index); } } // call SR procedure to generate pending SR and BSR for next PUCCH/PUSCH TxOp. This should implement the procedures // outlined in Sections 5.4.4 an 5.4.5 of 36.321 // Put this in another function // Get RLC status info and update Bj for all lcids that are active for (lcid=DCCH; lcid <= DTCH; lcid++ ) { if ((lcid == 0) ||(UE_mac_inst[Mod_id].logicalChannelConfig[lcid])) { // meausre the Bj if ((direction == SF_UL)&& (UE_mac_inst[Mod_id].scheduling_info.Bj[lcid] >= 0)){ if (UE_mac_inst[Mod_id].logicalChannelConfig[lcid]->ul_SpecificParameters) { bucketsizeduration = UE_mac_inst[Mod_id].logicalChannelConfig[lcid]->ul_SpecificParameters->prioritisedBitRate * TTI; bucketsizeduration_max = get_ms_bucketsizeduration(UE_mac_inst[Mod_id].logicalChannelConfig[lcid]->ul_SpecificParameters->bucketSizeDuration); } else { LOG_E(MAC,"[UE %d] lcid %d, NULL ul_SpecificParameters\n",Mod_id,lcid); mac_xface->macphy_exit(""); } if ( UE_mac_inst[Mod_id].scheduling_info.Bj[lcid] > bucketsizeduration_max ) UE_mac_inst[Mod_id].scheduling_info.Bj[lcid] = bucketsizeduration_max; else UE_mac_inst[Mod_id].scheduling_info.Bj[lcid] = bucketsizeduration; } if (update_bsr(Mod_id,frame, lcid, UE_mac_inst[Mod_id].scheduling_info.LCGID[lcid])) { UE_mac_inst[Mod_id].scheduling_info.SR_pending= 1; LOG_D(MAC,"[UE %d][SR] Frame %d subframe %d SR for PUSCH is pending for LCGID %d with BSR level %d (%d bytes in RLC)\n", Mod_id, frame,subframe,UE_mac_inst[Mod_id].scheduling_info.LCGID[lcid], UE_mac_inst[Mod_id].scheduling_info.BSR[UE_mac_inst[Mod_id].scheduling_info.LCGID[lcid]], UE_mac_inst[Mod_id].scheduling_info.BSR_bytes[UE_mac_inst[Mod_id].scheduling_info.LCGID[lcid]]); } } } // UE has no valid phy config dedicated || no valid/released SR if ((UE_mac_inst[Mod_id].physicalConfigDedicated == NULL)) { // cancel all pending SRs UE_mac_inst[Mod_id].scheduling_info.SR_pending=0; UE_mac_inst[Mod_id].ul_active=0; LOG_T(MAC,"[UE %d] Release all SRs \n", Mod_id); vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_UE_SCHEDULER, VCD_FUNCTION_OUT); return(CONNECTION_OK); } if ((UE_mac_inst[Mod_id].physicalConfigDedicated->schedulingRequestConfig == NULL) || (UE_mac_inst[Mod_id].physicalConfigDedicated->schedulingRequestConfig->present == SchedulingRequestConfig_PR_release)){ // initiate RA with CRNTI included in msg3 (no contention) as descibed in 36.321 sec 5.1.5 // cancel all pending SRs UE_mac_inst[Mod_id].scheduling_info.SR_pending=0; UE_mac_inst[Mod_id].ul_active=0; LOG_T(MAC,"[UE %d] Release all SRs \n", Mod_id); } // Put this in a function // Call PHR procedure as described in Section 5.4.6 in 36.321 if (UE_mac_inst[Mod_id].PHR_state == MAC_MainConfig__phr_Config_PR_setup){ // normal operation if (UE_mac_inst[Mod_id].PHR_reconfigured == 1) { // upon (re)configuration of the power headroom reporting functionality by upper layers UE_mac_inst[Mod_id].PHR_reporting_active = 1; UE_mac_inst[Mod_id].PHR_reconfigured = 0; } else { //LOG_D(MAC,"PHR normal operation %d active %d \n", UE_mac_inst[Mod_id].scheduling_info.periodicPHR_SF, UE_mac_inst[Mod_id].PHR_reporting_active); if ((UE_mac_inst[Mod_id].scheduling_info.prohibitPHR_SF <= 0) && ((mac_xface->get_PL(Mod_id,eNB_index) < UE_mac_inst[Mod_id].scheduling_info.PathlossChange_db) || (UE_mac_inst[Mod_id].power_backoff_db[eNB_index] > UE_mac_inst[Mod_id].scheduling_info.PathlossChange_db))) // trigger PHR and reset the timer later when the PHR report is sent UE_mac_inst[Mod_id].PHR_reporting_active = 1; else if (UE_mac_inst[Mod_id].PHR_reporting_active ==0 ) UE_mac_inst[Mod_id].scheduling_info.prohibitPHR_SF--; if (UE_mac_inst[Mod_id].scheduling_info.periodicPHR_SF <= 0 ) // trigger PHR and reset the timer later when the PHR report is sent UE_mac_inst[Mod_id].PHR_reporting_active = 1; else if (UE_mac_inst[Mod_id].PHR_reporting_active == 0 ) UE_mac_inst[Mod_id].scheduling_info.periodicPHR_SF--; } } else { // release / nothing UE_mac_inst[Mod_id].PHR_reporting_active = 0; // release PHR } //If the UE has UL resources allocated for new transmission for this TTI here: vcd_signal_dumper_dump_function_by_name(VCD_SIGNAL_DUMPER_FUNCTIONS_UE_SCHEDULER, VCD_FUNCTION_OUT); return(CONNECTION_OK); } // to be improved #ifdef CBA double uniform_rngen(int min, int max) { double random = (double)taus()/((double)0xffffffff); return (max - min) * random + min; } int use_cba_access(u8 Mod_id,u32 frame,u8 subframe, u8 eNB_index){ if (( ((UE_mac_inst[Mod_id].scheduling_info.BSR[LCGID1]>0)&&(UE_mac_inst[Mod_id].scheduling_info.BSR[LCGID1]<64)) || ((UE_mac_inst[Mod_id].scheduling_info.BSR[LCGID2]>0)&&(UE_mac_inst[Mod_id].scheduling_info.BSR[LCGID2]<64)) || ((UE_mac_inst[Mod_id].scheduling_info.BSR[LCGID3]>0)&&(UE_mac_inst[Mod_id].scheduling_info.BSR[LCGID3]<64)) ) // && (UE_mac_inst[Mod_id].ul_active == 0) // check if the ul is acrtive && (UE_mac_inst[Mod_id].cba_last_access[0] <= 0) ) { // backoff // LOG_D(MAC,"[UE %d] Frame %d Subframe %d: the current CBA backoff is %d \n", Mod_id, frame, subframe, // UE_mac_inst[Mod_id].cba_last_access[0] ); UE_mac_inst[Mod_id].cba_last_access[0]= round(uniform_rngen(1,10)); LOG_D(MAC,"[UE %d] Frame %d Subframe %d: start a new CBA backoff %d UL active state %d \n", Mod_id, frame, subframe, UE_mac_inst[Mod_id].cba_last_access[0], UE_mac_inst[Mod_id].ul_active); return 1; } else if (( ((UE_mac_inst[Mod_id].scheduling_info.BSR[LCGID1]> 0 )) || ((UE_mac_inst[Mod_id].scheduling_info.BSR[LCGID2]> 0 )) || ((UE_mac_inst[Mod_id].scheduling_info.BSR[LCGID3]> 0 )) ) // && (UE_mac_inst[Mod_id].ul_active == 0) // check if the ul is acrtive && (UE_mac_inst[Mod_id].cba_last_access[0]> 0) ){ UE_mac_inst[Mod_id].cba_last_access[0]-=1; LOG_D(MAC,"[UE %d] Frame %d Subframe %d: CBA backoff is decreased by one to %d UL active state %d \n", Mod_id, frame, subframe, UE_mac_inst[Mod_id].cba_last_access[0], UE_mac_inst[Mod_id].ul_active); } /*else if (( ((UE_mac_inst[Mod_id].scheduling_info.BSR[LCGID1] == 0 )) && ((UE_mac_inst[Mod_id].scheduling_info.BSR[LCGID2] == 0 )) && ((UE_mac_inst[Mod_id].scheduling_info.BSR[LCGID3] == 0 )) ) && (UE_mac_inst[Mod_id].cba_last_access[0]> 0) ){ UE_mac_inst[Mod_id].cba_last_access[0]-=1; }*/ return 0; } #endif int get_bsr_lcgid (u8 Mod_id){ int lcgid, lcgid_tmp=-1; int num_active_lcgid = 0; for (lcgid = 0 ; lcgid < MAX_NUM_LCGID; lcgid++){ if (UE_mac_inst[Mod_id].scheduling_info.BSR[lcgid] > 0 ){ lcgid_tmp = lcgid; num_active_lcgid+=1; } } if (num_active_lcgid == 0) return -1; else if (num_active_lcgid == 1) return lcgid_tmp; else return MAX_NUM_LCGID; } u8 get_bsr_len (u8 Mod_id, u16 buflen) { int lcgid=0; u8 bsr_len=0, num_lcgid=0; int pdu = 0; for (lcgid=0; lcgid < MAX_NUM_LCGID; lcgid++ ) { if (UE_mac_inst[Mod_id].scheduling_info.BSR_bytes[lcgid] > 0 ) pdu += (UE_mac_inst[Mod_id].scheduling_info.BSR_bytes[lcgid] + bsr_len + 2); //2 = sizeof(SCH_SUBHEADER_SHORT) if (UE_mac_inst[Mod_id].scheduling_info.BSR_bytes[lcgid] > 128 ) // long header size: adjust the header size pdu += 1; // current phy buff can not transport all sdu for this lcgid -> transmit a bsr for this lcgid if ( (pdu > buflen) && (UE_mac_inst[Mod_id].scheduling_info.BSR_bytes[lcgid] > 0 ) ){ num_lcgid +=1; bsr_len = (num_lcgid >= 2 ) ? sizeof(BSR_LONG) : sizeof(BSR_SHORT) ; } LOG_D(MAC,"BSR Bytes %d for lcgid %d bsr len %d num lcgid %d\n", UE_mac_inst[Mod_id].scheduling_info.BSR_bytes[lcgid], lcgid, bsr_len, num_lcgid); } if ( bsr_len > 0 ) LOG_D(MAC,"[UE %d] Prepare a %s (Transport Block Size %d, MAC pdu Size %d) \n", Mod_id, map_int_to_str(BSR_names, bsr_len), buflen, pdu); return bsr_len; } int update_bsr(u8 Mod_id, u32 frame, u8 lcid, u8 lcg_id){ mac_rlc_status_resp_t rlc_status; u8 sr_pending = 0; if ((lcg_id < 0) || (lcg_id > MAX_NUM_LCGID) ) return sr_pending; // fixme: need a better way to reset if ((lcid == DCCH) || (lcid == DTCH)){ UE_mac_inst[Mod_id].scheduling_info.BSR[lcg_id]=0; UE_mac_inst[Mod_id].scheduling_info.BSR_bytes[lcg_id]=0; } // for (lcid =0 ; lcid < MAX_NUM_LCID; lcid++) { if (UE_mac_inst[Mod_id].scheduling_info.LCGID[lcid] == lcg_id) { rlc_status = mac_rlc_status_ind(Mod_id+NB_eNB_INST,frame,0,RLC_MBMS_NO, lcid, 0); if (rlc_status.bytes_in_buffer > 0 ) { sr_pending = 1; UE_mac_inst[Mod_id].scheduling_info.LCID_status[lcid] = LCID_NOT_EMPTY; UE_mac_inst[Mod_id].scheduling_info.BSR[lcg_id] += locate (BSR_TABLE,BSR_TABLE_SIZE, rlc_status.bytes_in_buffer); UE_mac_inst[Mod_id].scheduling_info.BSR_bytes[lcg_id] += rlc_status.bytes_in_buffer; // UE_mac_inst[Mod_id].scheduling_info.BSR_short_lcid = lcid; // only applicable to short bsr LOG_D(MAC,"[UE %d] BSR level %d (LCGID %d, rlc buffer %d byte)\n", Mod_id, UE_mac_inst[Mod_id].scheduling_info.BSR[lcg_id],lcg_id, UE_mac_inst[Mod_id].scheduling_info.BSR_bytes[lcg_id]); } else UE_mac_inst[Mod_id].scheduling_info.LCID_status[lcid]=LCID_EMPTY; } //} return sr_pending; } u8 locate (const u32 *table, int size, int value){ u8 ju, jm, jl; int ascend; if (value == 0) return 0; //elseif (value > 150000) return 63; jl = 0; // lower bound ju = size ;// upper bound ascend = (table[ju] >= table[jl]) ? 1 : 0; // determine the order of the the table: 1 if ascending order of table, 0 otherwise while (ju-jl > 1) { //If we are not yet done, jm = (ju+jl) >> 1; //compute a midpoint, if ((value >= table[jm]) == ascend) jl=jm; // replace the lower limit else ju=jm; //replace the upper limit LOG_T(MAC,"[UE] searching BSR index %d for (BSR TABLE %d < value %d)\n", jm, table[jm], value); } if (value == table[jl]) return jl; else return jl+1; //equally ju } int get_sf_periodicBSRTimer(u8 sf_offset){ switch (sf_offset) { case MAC_MainConfig__ul_SCH_Config__periodicBSR_Timer_sf5: return 5; break; case MAC_MainConfig__ul_SCH_Config__periodicBSR_Timer_sf10: return 10; break; case MAC_MainConfig__ul_SCH_Config__periodicBSR_Timer_sf16: return 16; break; case MAC_MainConfig__ul_SCH_Config__periodicBSR_Timer_sf20: return 20; break; case MAC_MainConfig__ul_SCH_Config__periodicBSR_Timer_sf32: return 32; break; case MAC_MainConfig__ul_SCH_Config__periodicBSR_Timer_sf40: return 40; break; case MAC_MainConfig__ul_SCH_Config__periodicBSR_Timer_sf64: return 64; break; case MAC_MainConfig__ul_SCH_Config__periodicBSR_Timer_sf80: return 80; break; case MAC_MainConfig__ul_SCH_Config__periodicBSR_Timer_sf128: return 128; break; case MAC_MainConfig__ul_SCH_Config__periodicBSR_Timer_sf160: return 160; break; case MAC_MainConfig__ul_SCH_Config__periodicBSR_Timer_sf320: return 320; break; case MAC_MainConfig__ul_SCH_Config__periodicBSR_Timer_sf640: return 640; break; case MAC_MainConfig__ul_SCH_Config__periodicBSR_Timer_sf1280: return 1280; break; case MAC_MainConfig__ul_SCH_Config__periodicBSR_Timer_sf2560: return 2560; break; case MAC_MainConfig__ul_SCH_Config__periodicBSR_Timer_infinity: default: return -1; break; } } int get_sf_retxBSRTimer(u8 sf_offset){ switch (sf_offset) { case MAC_MainConfig__ul_SCH_Config__retxBSR_Timer_sf320: return 320; break; case MAC_MainConfig__ul_SCH_Config__retxBSR_Timer_sf640: return 640; break; case MAC_MainConfig__ul_SCH_Config__retxBSR_Timer_sf1280: return 1280; break; case MAC_MainConfig__ul_SCH_Config__retxBSR_Timer_sf2560: return 2560; break; case MAC_MainConfig__ul_SCH_Config__retxBSR_Timer_sf5120: return 5120; break; case MAC_MainConfig__ul_SCH_Config__retxBSR_Timer_sf10240: return 10240; break; default: return -1; break; } } int get_ms_bucketsizeduration(u8 bucketsizeduration){ switch (bucketsizeduration) { case LogicalChannelConfig__ul_SpecificParameters__bucketSizeDuration_ms50: return 50; break; case LogicalChannelConfig__ul_SpecificParameters__bucketSizeDuration_ms100: return 100; break; case LogicalChannelConfig__ul_SpecificParameters__bucketSizeDuration_ms150: return 150; break; case LogicalChannelConfig__ul_SpecificParameters__bucketSizeDuration_ms300: return 300; break; case LogicalChannelConfig__ul_SpecificParameters__bucketSizeDuration_ms500: return 500; break; case LogicalChannelConfig__ul_SpecificParameters__bucketSizeDuration_ms1000: return 1000; break; default: return 0; break; } } void update_phr(u8 Mod_id){ UE_mac_inst[Mod_id].PHR_reporting_active =0; UE_mac_inst[Mod_id].scheduling_info.periodicPHR_SF = get_sf_perioidicPHR_Timer(UE_mac_inst[Mod_id].scheduling_info.periodicPHR_Timer); UE_mac_inst[Mod_id].scheduling_info.prohibitPHR_SF = get_sf_prohibitPHR_Timer(UE_mac_inst[Mod_id].scheduling_info.prohibitPHR_Timer); // LOG_D(MAC,"phr %d %d\n ",UE_mac_inst[Mod_id].scheduling_info.periodicPHR_SF, UE_mac_inst[Mod_id].scheduling_info.prohibitPHR_SF); } u8 get_phr_mapping (u8 Mod_id, u8 eNB_index){ //power headroom reporting range is from -23 ...+40 dB, as described in 36313 //note: mac_xface->get_Po_NOMINAL_PUSCH(Mod_id) is float if (mac_xface->get_PHR(Mod_id,eNB_index) < -23) return 0; else if (mac_xface->get_PHR(Mod_id,eNB_index) >= 40) return 63; else // -23 to 40 return (u8) mac_xface->get_PHR(Mod_id,eNB_index) + PHR_MAPPING_OFFSET; } int get_sf_perioidicPHR_Timer(u8 perioidicPHR_Timer){ return (perioidicPHR_Timer+1)*10; } int get_sf_prohibitPHR_Timer(u8 prohibitPHR_Timer){ return (prohibitPHR_Timer)*10; } int get_db_dl_PathlossChange(u8 dl_PathlossChange){ switch (dl_PathlossChange){ case MAC_MainConfig__phr_Config__setup__dl_PathlossChange_dB1: return 1; break; case MAC_MainConfig__phr_Config__setup__dl_PathlossChange_dB3: return 3; break; case MAC_MainConfig__phr_Config__setup__dl_PathlossChange_dB6: return 6; break; case MAC_MainConfig__phr_Config__setup__dl_PathlossChange_infinity: default: return -1; break; } }