/******************************************************************************* OpenAirInterface Copyright(c) 1999 - 2014 Eurecom OpenAirInterface is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. OpenAirInterface is distributed in the hope that 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 OpenAirInterface.The full GNU General Public License is included in this distribution in the file called "COPYING". If not, see <http://www.gnu.org/licenses/>. Contact Information OpenAirInterface Admin: openair_admin@eurecom.fr OpenAirInterface Tech : openair_tech@eurecom.fr OpenAirInterface Dev : openair4g-devel@eurecom.fr Address : Eurecom, Campus SophiaTech, 450 Route des Chappes, CS 50193 - 06904 Biot Sophia Antipolis cedex, FRANCE *******************************************************************************/ /*! \file PHY/LTE_TRANSPORT/phich.c * \brief Routines for generation of and computations regarding the uplink control information (UCI) for PUSCH. V8.6 2009-03 * \author R. Knopp, F. Kaltenberger, A. Bhamri * \date 2011 * \version 0.1 * \company Eurecom * \email: knopp@eurecom.fr, florian.kaltenberger@eurecom.fr, ankit.bhamri@eurecom.fr * \note * \warning */ #include "PHY/defs.h" #include "PHY/extern.h" #include "MAC_INTERFACE/defs.h" #include "MAC_INTERFACE/extern.h" #ifdef DEBUG_UCI_TOOLS #include "PHY/vars.h" #endif #define DEBUG_UCI uint64_t pmi2hex_2Ar1(uint32_t pmi) { uint64_t pmil = (uint64_t)pmi; return ((pmil&3) + (((pmil>>2)&3)<<4) + (((pmil>>4)&3)<<8) + (((pmil>>6)&3)<<12) + (((pmil>>8)&3)<<16) + (((pmil>>10)&3)<<20) + (((pmil>>12)&3)<<24) + (((pmil>>14)&3)<<28) + (((pmil>>16)&3)<<32) + (((pmil>>18)&3)<<36) + (((pmil>>20)&3)<<40) + (((pmil>>22)&3)<<44) + (((pmil>>24)&3)<<48)); } uint64_t pmi2hex_2Ar2(uint32_t pmi) { uint64_t pmil = (uint64_t)pmi; return ((pmil&1) + (((pmil>>1)&1)<<4) + (((pmil>>2)&1)<<8) + (((pmil>>3)&1)<<12) + (((pmil>>4)&1)<<16) + (((pmil>>5)&1)<<20) + (((pmil>>6)&1)<<24) + (((pmil>>7)&1)<<28) + (((pmil>>8)&1)<<32) + (((pmil>>9)&1)<<36) + (((pmil>>10)&1)<<40) + (((pmil>>11)&1)<<44) + (((pmil>>12)&1)<<48)); } uint64_t cqi2hex(uint32_t cqi) { uint64_t cqil = (uint64_t)cqi; return ((cqil&3) + (((cqil>>2)&3)<<4) + (((cqil>>4)&3)<<8) + (((cqil>>6)&3)<<12) + (((cqil>>8)&3)<<16) + (((cqil>>10)&3)<<20) + (((cqil>>12)&3)<<24) + (((cqil>>14)&3)<<28) + (((cqil>>16)&3)<<32) + (((cqil>>18)&3)<<36) + (((cqil>>20)&3)<<40) + (((cqil>>22)&3)<<44) + (((cqil>>24)&3)<<48)); } //void do_diff_cqi(uint8_t N_RB_DL, // uint8_t *DL_subband_cqi, // uint8_t DL_cqi, // uint32_t diffcqi1) { // // uint8_t nb_sb,i,offset; // // // This is table 7.2.1-3 from 36.213 (with k replaced by the number of subbands, nb_sb) // switch (N_RB_DL) { // case 6: // nb_sb=0; // break; // case 15: // nb_sb = 4; // case 25: // nb_sb = 7; // break; // case 50: // nb_sb = 9; // break; // case 75: // nb_sb = 10; // break; // case 100: // nb_sb = 13; // break; // default: // nb_sb=0; // break; // } // // memset(DL_subband_cqi,0,13); // // for (i=0;i<nb_sb;i++) { // offset = (DL_cqi>>(2*i))&3; // if (offset == 3) // DL_subband_cqi[i] = DL_cqi - 1; // else // DL_subband_cqi[i] = DL_cqi + offset; // } //} void do_diff_cqi(uint8_t N_RB_DL, uint8_t *DL_subband_cqi, uint8_t DL_cqi, uint32_t diffcqi1) { uint8_t nb_sb,i,offset; // This is table 7.2.1-3 from 36.213 (with k replaced by the number of subbands, nb_sb) switch (N_RB_DL) { case 6: nb_sb=1; break; case 15: nb_sb = 4; case 25: nb_sb = 7; break; case 50: nb_sb = 9; break; case 75: nb_sb = 10; break; case 100: nb_sb = 13; break; default: nb_sb=0; break; } memset(DL_subband_cqi,0,13); for (i=0;i<nb_sb;i++) { offset = (diffcqi1>>(2*i))&3; if (offset == 3) DL_subband_cqi[i] = DL_cqi - 1; else DL_subband_cqi[i] = DL_cqi + offset; } } void extract_CQI(void *o,UCI_format_t uci_format,LTE_eNB_UE_stats *stats, uint16_t * crnti, uint8_t * access_mode) { //unsigned char rank; //UCI_format fmt; uint8_t N_RB_DL = 25; *access_mode=SCHEDULED_ACCESS; switch(N_RB_DL) { case 6: switch(uci_format){ case wideband_cqi_rank1_2A: stats->DL_cqi[0] = (((wideband_cqi_rank1_2A_1_5MHz *)o)->cqi1); if (stats->DL_cqi[0] > 24) stats->DL_cqi[0] = 24; stats->DL_pmi_single = ((wideband_cqi_rank1_2A_1_5MHz *)o)->pmi; break; case wideband_cqi_rank2_2A: stats->DL_cqi[0] = (((wideband_cqi_rank2_2A_1_5MHz *)o)->cqi1); if (stats->DL_cqi[0] > 24) stats->DL_cqi[0] = 24; stats->DL_cqi[1] = (((wideband_cqi_rank2_2A_1_5MHz *)o)->cqi2); if (stats->DL_cqi[1] > 24) stats->DL_cqi[1] = 24; stats->DL_pmi_dual = ((wideband_cqi_rank2_2A_1_5MHz *)o)->pmi; break; case HLC_subband_cqi_nopmi: stats->DL_cqi[0] = (((HLC_subband_cqi_nopmi_1_5MHz *)o)->cqi1); if (stats->DL_cqi[0] > 24) stats->DL_cqi[0] = 24; do_diff_cqi(N_RB_DL,stats->DL_subband_cqi[0],stats->DL_cqi[0],((HLC_subband_cqi_nopmi_1_5MHz *)o)->diffcqi1); break; case HLC_subband_cqi_rank1_2A: stats->DL_cqi[0] = (((HLC_subband_cqi_rank1_2A_1_5MHz *)o)->cqi1); if (stats->DL_cqi[0] > 24) stats->DL_cqi[0] = 24; do_diff_cqi(N_RB_DL,stats->DL_subband_cqi[0],stats->DL_cqi[0],(((HLC_subband_cqi_rank1_2A_1_5MHz *)o)->diffcqi1)); stats->DL_pmi_single = ((HLC_subband_cqi_rank1_2A_1_5MHz *)o)->pmi; break; case HLC_subband_cqi_rank2_2A: stats->DL_cqi[0] = (((HLC_subband_cqi_rank2_2A_1_5MHz *)o)->cqi1); if (stats->DL_cqi[0] > 24) stats->DL_cqi[0] = 24; stats->DL_cqi[1] = (((HLC_subband_cqi_rank2_2A_1_5MHz *)o)->cqi2); if (stats->DL_cqi[1] > 24) stats->DL_cqi[1] = 24; do_diff_cqi(N_RB_DL,stats->DL_subband_cqi[0],stats->DL_cqi[0],(((HLC_subband_cqi_rank2_2A_1_5MHz *)o)->diffcqi1)); do_diff_cqi(N_RB_DL,stats->DL_subband_cqi[1],stats->DL_cqi[1],(((HLC_subband_cqi_rank2_2A_1_5MHz *)o)->diffcqi2)); stats->DL_pmi_dual = ((HLC_subband_cqi_rank2_2A_1_5MHz *)o)->pmi; break; case HLC_subband_cqi_mcs_CBA: if ((*crnti == ((HLC_subband_cqi_mcs_CBA_1_5MHz *)o)->crnti) && (*crnti !=0)){ *access_mode=CBA_ACCESS; LOG_D(PHY,"[eNB] UCI for CBA : mcs %d crnti %x\n", ((HLC_subband_cqi_mcs_CBA_1_5MHz *)o)->mcs, ((HLC_subband_cqi_mcs_CBA_1_5MHz *)o)->crnti); } else { *access_mode=UNKNOWN_ACCESS; LOG_N(PHY,"[eNB] UCI for CBA : rnti (enb context %x, rx uci %x) invalid, unknown access\n", *crnti, ((HLC_subband_cqi_mcs_CBA_1_5MHz *)o)->crnti); } break; case unknown_cqi: default: LOG_N(PHY,"[eNB][UCI] received unknown uci \n"); *access_mode=UNKNOWN_ACCESS; break; } break; case 25: switch(uci_format){ case wideband_cqi_rank1_2A: stats->DL_cqi[0] = (((wideband_cqi_rank1_2A_5MHz *)o)->cqi1); if (stats->DL_cqi[0] > 24) stats->DL_cqi[0] = 24; stats->DL_pmi_single = ((wideband_cqi_rank1_2A_5MHz *)o)->pmi; break; case wideband_cqi_rank2_2A: stats->DL_cqi[0] = (((wideband_cqi_rank2_2A_5MHz *)o)->cqi1); if (stats->DL_cqi[0] > 24) stats->DL_cqi[0] = 24; stats->DL_cqi[1] = (((wideband_cqi_rank2_2A_5MHz *)o)->cqi2); if (stats->DL_cqi[1] > 24) stats->DL_cqi[1] = 24; stats->DL_pmi_dual = ((wideband_cqi_rank2_2A_5MHz *)o)->pmi; break; case HLC_subband_cqi_nopmi: stats->DL_cqi[0] = (((HLC_subband_cqi_nopmi_5MHz *)o)->cqi1); if (stats->DL_cqi[0] > 24) stats->DL_cqi[0] = 24; do_diff_cqi(N_RB_DL,stats->DL_subband_cqi[0],stats->DL_cqi[0],((HLC_subband_cqi_nopmi_5MHz *)o)->diffcqi1); break; case HLC_subband_cqi_rank1_2A: stats->DL_cqi[0] = (((HLC_subband_cqi_rank1_2A_5MHz *)o)->cqi1); if (stats->DL_cqi[0] > 24) stats->DL_cqi[0] = 24; do_diff_cqi(N_RB_DL,stats->DL_subband_cqi[0],stats->DL_cqi[0],(((HLC_subband_cqi_rank1_2A_5MHz *)o)->diffcqi1)); stats->DL_pmi_single = ((HLC_subband_cqi_rank1_2A_5MHz *)o)->pmi; break; case HLC_subband_cqi_rank2_2A: stats->DL_cqi[0] = (((HLC_subband_cqi_rank2_2A_5MHz *)o)->cqi1); if (stats->DL_cqi[0] > 24) stats->DL_cqi[0] = 24; stats->DL_cqi[1] = (((HLC_subband_cqi_rank2_2A_5MHz *)o)->cqi2); if (stats->DL_cqi[1] > 24) stats->DL_cqi[1] = 24; do_diff_cqi(N_RB_DL,stats->DL_subband_cqi[0],stats->DL_cqi[0],(((HLC_subband_cqi_rank2_2A_5MHz *)o)->diffcqi1)); do_diff_cqi(N_RB_DL,stats->DL_subband_cqi[1],stats->DL_cqi[1],(((HLC_subband_cqi_rank2_2A_5MHz *)o)->diffcqi2)); stats->DL_pmi_dual = ((HLC_subband_cqi_rank2_2A_5MHz *)o)->pmi; break; case HLC_subband_cqi_mcs_CBA: if ((*crnti == ((HLC_subband_cqi_mcs_CBA_5MHz *)o)->crnti) && (*crnti !=0)){ *access_mode=CBA_ACCESS; LOG_D(PHY,"[eNB] UCI for CBA : mcs %d crnti %x\n", ((HLC_subband_cqi_mcs_CBA_5MHz *)o)->mcs, ((HLC_subband_cqi_mcs_CBA_5MHz *)o)->crnti); } else { *access_mode=UNKNOWN_ACCESS; LOG_N(PHY,"[eNB] UCI for CBA : rnti (enb context %x, rx uci %x) invalid, unknown access\n", *crnti, ((HLC_subband_cqi_mcs_CBA_5MHz *)o)->crnti); } break; case unknown_cqi: default: LOG_N(PHY,"[eNB][UCI] received unknown uci \n"); *access_mode=UNKNOWN_ACCESS; break; } break; case 50: break; case 100: break; } /* switch (tmode) { case 1: case 2: case 3: case 5: case 6: case 7: default: fmt = hlc_cqi; break; case 4: fmt = wideband_cqi; break; } rank = o_RI[0]; //printf("extract_CQI: rank = %d\n",rank); switch (fmt) { case wideband_cqi: //and subband pmi if (rank == 0) { stats->DL_cqi[0] = (((wideband_cqi_rank1_2A_5MHz *)o)->cqi1); if (stats->DL_cqi[0] > 15) stats->DL_cqi[0] = 15; stats->DL_pmi_single = ((wideband_cqi_rank1_2A_5MHz *)o)->pmi; } else { stats->DL_cqi[0] = (((wideband_cqi_rank2_2A_5MHz *)o)->cqi1); if (stats->DL_cqi[0] > 15) stats->DL_cqi[0] = 15; stats->DL_cqi[1] = (((wideband_cqi_rank2_2A_5MHz *)o)->cqi2); if (stats->DL_cqi[1] > 15) stats->DL_cqi[1] = 15; stats->DL_pmi_dual = ((wideband_cqi_rank2_2A_5MHz *)o)->pmi; } break; case hlc_cqi: if (tmode > 2) { if (rank == 0) { stats->DL_cqi[0] = (((HLC_subband_cqi_rank1_2A_5MHz *)o)->cqi1); if (stats->DL_cqi[0] > 15) stats->DL_cqi[0] = 15; do_diff_cqi(N_RB_DL,stats->DL_subband_cqi[0],stats->DL_cqi[0],(((HLC_subband_cqi_rank1_2A_5MHz *)o)->diffcqi1)); stats->DL_pmi_single = ((HLC_subband_cqi_rank1_2A_5MHz *)o)->pmi; } else { stats->DL_cqi[0] = (((HLC_subband_cqi_rank2_2A_5MHz *)o)->cqi1); if (stats->DL_cqi[0] > 15) stats->DL_cqi[0] = 15; stats->DL_cqi[1] = (((HLC_subband_cqi_rank2_2A_5MHz *)o)->cqi2); if (stats->DL_cqi[1] > 15) stats->DL_cqi[1] = 15; do_diff_cqi(N_RB_DL,stats->DL_subband_cqi[0],stats->DL_cqi[0],(((HLC_subband_cqi_rank2_2A_5MHz *)o)->diffcqi1)); do_diff_cqi(N_RB_DL,stats->DL_subband_cqi[1],stats->DL_cqi[1],(((HLC_subband_cqi_rank2_2A_5MHz *)o)->diffcqi2)); stats->DL_pmi_dual = ((HLC_subband_cqi_rank2_2A_5MHz *)o)->pmi; } } else { stats->DL_cqi[0] = (((HLC_subband_cqi_nopmi_5MHz *)o)->cqi1); if (stats->DL_cqi[0] > 15) stats->DL_cqi[0] = 15; do_diff_cqi(N_RB_DL,stats->DL_subband_cqi[0],stats->DL_cqi[0],((HLC_subband_cqi_nopmi_5MHz *)o)->diffcqi1); } break; default: break; } */ } void print_CQI(void *o,UCI_format_t uci_format,unsigned char eNB_id,int N_RB_DL) { switch(uci_format){ case wideband_cqi_rank1_2A: #ifdef DEBUG_UCI switch(N_RB_DL) { case 6: LOG_I(PHY,"[PRINT CQI] wideband_cqi rank 1: eNB %d, cqi %d\n",eNB_id, ((wideband_cqi_rank1_2A_1_5MHz *)o)->cqi1); LOG_I(PHY,"[PRINT CQI] wideband_cqi rank 1: eNB %d, pmi (%x) %8x\n",eNB_id, ((wideband_cqi_rank1_2A_1_5MHz *)o)->pmi, pmi2hex_2Ar1(((wideband_cqi_rank1_2A_1_5MHz *)o)->pmi)); break; case 25: LOG_I(PHY,"[PRINT CQI] wideband_cqi rank 1: eNB %d, cqi %d\n",eNB_id, ((wideband_cqi_rank1_2A_5MHz *)o)->cqi1); LOG_I(PHY,"[PRINT CQI] wideband_cqi rank 1: eNB %d, pmi (%x) %8x\n",eNB_id, ((wideband_cqi_rank1_2A_5MHz *)o)->pmi, pmi2hex_2Ar1(((wideband_cqi_rank1_2A_5MHz *)o)->pmi)); break; case 50: LOG_I(PHY,"[PRINT CQI] wideband_cqi rank 1: eNB %d, cqi %d\n",eNB_id, ((wideband_cqi_rank1_2A_10MHz *)o)->cqi1); LOG_I(PHY,"[PRINT CQI] wideband_cqi rank 1: eNB %d, pmi (%x) %8x\n",eNB_id, ((wideband_cqi_rank1_2A_10MHz *)o)->pmi, pmi2hex_2Ar1(((wideband_cqi_rank1_2A_10MHz *)o)->pmi)); break; case 100: LOG_I(PHY,"[PRINT CQI] wideband_cqi rank 1: eNB %d, cqi %d\n",eNB_id, ((wideband_cqi_rank1_2A_20MHz *)o)->cqi1); LOG_I(PHY,"[PRINT CQI] wideband_cqi rank 1: eNB %d, pmi (%x) %8x\n",eNB_id, ((wideband_cqi_rank1_2A_20MHz *)o)->pmi, pmi2hex_2Ar1(((wideband_cqi_rank1_2A_20MHz *)o)->pmi)); break; } #endif //DEBUG_UCI break; case wideband_cqi_rank2_2A: #ifdef DEBUG_UCI switch(N_RB_DL) { case 6: LOG_I(PHY,"[PRINT CQI] wideband_cqi rank 2: eNB %d, cqi1 %d\n",eNB_id,((wideband_cqi_rank2_2A_1_5MHz *)o)->cqi1); LOG_I(PHY,"[PRINT CQI] wideband_cqi rank 2: eNB %d, cqi2 %d\n",eNB_id,((wideband_cqi_rank2_2A_1_5MHz *)o)->cqi2); LOG_I(PHY,"[PRINT CQI] wideband_cqi rank 2: eNB %d, pmi %8x\n",eNB_id,pmi2hex_2Ar2(((wideband_cqi_rank2_2A_1_5MHz *)o)->pmi)); break; case 25: LOG_I(PHY,"[PRINT CQI] wideband_cqi rank 2: eNB %d, cqi1 %d\n",eNB_id,((wideband_cqi_rank2_2A_5MHz *)o)->cqi1); LOG_I(PHY,"[PRINT CQI] wideband_cqi rank 2: eNB %d, cqi2 %d\n",eNB_id,((wideband_cqi_rank2_2A_5MHz *)o)->cqi2); LOG_I(PHY,"[PRINT CQI] wideband_cqi rank 2: eNB %d, pmi %8x\n",eNB_id,pmi2hex_2Ar2(((wideband_cqi_rank2_2A_5MHz *)o)->pmi)); break; case 50: LOG_I(PHY,"[PRINT CQI] wideband_cqi rank 2: eNB %d, cqi1 %d\n",eNB_id,((wideband_cqi_rank2_2A_10MHz *)o)->cqi1); LOG_I(PHY,"[PRINT CQI] wideband_cqi rank 2: eNB %d, cqi2 %d\n",eNB_id,((wideband_cqi_rank2_2A_10MHz *)o)->cqi2); LOG_I(PHY,"[PRINT CQI] wideband_cqi rank 2: eNB %d, pmi %8x\n",eNB_id,pmi2hex_2Ar2(((wideband_cqi_rank2_2A_10MHz *)o)->pmi)); break; case 100: LOG_I(PHY,"[PRINT CQI] wideband_cqi rank 2: eNB %d, cqi1 %d\n",eNB_id,((wideband_cqi_rank2_2A_20MHz *)o)->cqi1); LOG_I(PHY,"[PRINT CQI] wideband_cqi rank 2: eNB %d, cqi2 %d\n",eNB_id,((wideband_cqi_rank2_2A_20MHz *)o)->cqi2); LOG_I(PHY,"[PRINT CQI] wideband_cqi rank 2: eNB %d, pmi %8x\n",eNB_id,pmi2hex_2Ar2(((wideband_cqi_rank2_2A_20MHz *)o)->pmi)); break; } #endif //DEBUG_UCI break; case HLC_subband_cqi_nopmi: #ifdef DEBUG_UCI switch(N_RB_DL) { case 6: LOG_I(PHY,"[PRINT CQI] hlc_cqi (no pmi) : eNB %d, cqi1 %d\n",eNB_id,((HLC_subband_cqi_rank1_2A_1_5MHz *)o)->cqi1); LOG_I(PHY,"[PRINT CQI] hlc_cqi (no pmi) : eNB %d, diffcqi1 %8x\n",eNB_id,cqi2hex(((HLC_subband_cqi_rank1_2A_1_5MHz *)o)->diffcqi1)); break; case 25: LOG_I(PHY,"[PRINT CQI] hlc_cqi (no pmi) : eNB %d, cqi1 %d\n",eNB_id,((HLC_subband_cqi_rank1_2A_5MHz *)o)->cqi1); LOG_I(PHY,"[PRINT CQI] hlc_cqi (no pmi) : eNB %d, diffcqi1 %8x\n",eNB_id,cqi2hex(((HLC_subband_cqi_rank1_2A_5MHz *)o)->diffcqi1)); break; case 50: LOG_I(PHY,"[PRINT CQI] hlc_cqi (no pmi) : eNB %d, cqi1 %d\n",eNB_id,((HLC_subband_cqi_rank1_2A_10MHz *)o)->cqi1); LOG_I(PHY,"[PRINT CQI] hlc_cqi (no pmi) : eNB %d, diffcqi1 %8x\n",eNB_id,cqi2hex(((HLC_subband_cqi_rank1_2A_10MHz *)o)->diffcqi1)); break; case 100: LOG_I(PHY,"[PRINT CQI] hlc_cqi (no pmi) : eNB %d, cqi1 %d\n",eNB_id,((HLC_subband_cqi_rank1_2A_20MHz *)o)->cqi1); LOG_I(PHY,"[PRINT CQI] hlc_cqi (no pmi) : eNB %d, diffcqi1 %8x\n",eNB_id,cqi2hex(((HLC_subband_cqi_rank1_2A_20MHz *)o)->diffcqi1)); break; } #endif //DEBUG_UCI break; case HLC_subband_cqi_rank1_2A: #ifdef DEBUG_UCI switch(N_RB_DL) { case 6: LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 1: eNB %d, cqi1 %d\n",eNB_id,((HLC_subband_cqi_rank1_2A_5MHz *)o)->cqi1); LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 1: eNB %d, diffcqi1 %8x\n",eNB_id,cqi2hex(((HLC_subband_cqi_rank1_2A_5MHz *)o)->diffcqi1)); LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 1: eNB %d, pmi %d\n",eNB_id,((HLC_subband_cqi_rank1_2A_5MHz *)o)->pmi); break; case 25: LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 1: eNB %d, cqi1 %d\n",eNB_id,((HLC_subband_cqi_rank1_2A_5MHz *)o)->cqi1); LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 1: eNB %d, diffcqi1 %8x\n",eNB_id,cqi2hex(((HLC_subband_cqi_rank1_2A_5MHz *)o)->diffcqi1)); LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 1: eNB %d, pmi %d\n",eNB_id,((HLC_subband_cqi_rank1_2A_5MHz *)o)->pmi); break; case 50: LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 1: eNB %d, cqi1 %d\n",eNB_id,((HLC_subband_cqi_rank1_2A_5MHz *)o)->cqi1); LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 1: eNB %d, diffcqi1 %8x\n",eNB_id,cqi2hex(((HLC_subband_cqi_rank1_2A_5MHz *)o)->diffcqi1)); LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 1: eNB %d, pmi %d\n",eNB_id,((HLC_subband_cqi_rank1_2A_5MHz *)o)->pmi); break; case 100: LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 1: eNB %d, cqi1 %d\n",eNB_id,((HLC_subband_cqi_rank1_2A_5MHz *)o)->cqi1); LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 1: eNB %d, diffcqi1 %8x\n",eNB_id,cqi2hex(((HLC_subband_cqi_rank1_2A_5MHz *)o)->diffcqi1)); LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 1: eNB %d, pmi %d\n",eNB_id,((HLC_subband_cqi_rank1_2A_5MHz *)o)->pmi); break; } #endif //DEBUG_UCI break; case HLC_subband_cqi_rank2_2A: #ifdef DEBUG_UCI switch(N_RB_DL) { case 6: LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 2: eNB %d, cqi1 %d\n",eNB_id,((HLC_subband_cqi_rank2_2A_1_5MHz *)o)->cqi1); LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 2: eNB %d, cqi2 %d\n",eNB_id,((HLC_subband_cqi_rank2_2A_1_5MHz *)o)->cqi2); LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 2: eNB %d, diffcqi1 %8x\n",eNB_id,cqi2hex(((HLC_subband_cqi_rank2_2A_1_5MHz *)o)->diffcqi1)); LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 2: eNB %d, diffcqi2 %8x\n",eNB_id,cqi2hex(((HLC_subband_cqi_rank2_2A_1_5MHz *)o)->diffcqi2)); LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 2: eNB %d, pmi %d\n",eNB_id,((HLC_subband_cqi_rank2_2A_1_5MHz *)o)->pmi); break; case 25: LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 2: eNB %d, cqi1 %d\n",eNB_id,((HLC_subband_cqi_rank2_2A_5MHz *)o)->cqi1); LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 2: eNB %d, cqi2 %d\n",eNB_id,((HLC_subband_cqi_rank2_2A_5MHz *)o)->cqi2); LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 2: eNB %d, diffcqi1 %8x\n",eNB_id,cqi2hex(((HLC_subband_cqi_rank2_2A_5MHz *)o)->diffcqi1)); LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 2: eNB %d, diffcqi2 %8x\n",eNB_id,cqi2hex(((HLC_subband_cqi_rank2_2A_5MHz *)o)->diffcqi2)); LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 2: eNB %d, pmi %d\n",eNB_id,((HLC_subband_cqi_rank2_2A_5MHz *)o)->pmi); break; case 50: LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 2: eNB %d, cqi1 %d\n",eNB_id,((HLC_subband_cqi_rank2_2A_10MHz *)o)->cqi1); LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 2: eNB %d, cqi2 %d\n",eNB_id,((HLC_subband_cqi_rank2_2A_10MHz *)o)->cqi2); LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 2: eNB %d, diffcqi1 %8x\n",eNB_id,cqi2hex(((HLC_subband_cqi_rank2_2A_10MHz *)o)->diffcqi1)); LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 2: eNB %d, diffcqi2 %8x\n",eNB_id,cqi2hex(((HLC_subband_cqi_rank2_2A_10MHz *)o)->diffcqi2)); LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 2: eNB %d, pmi %d\n",eNB_id,((HLC_subband_cqi_rank2_2A_10MHz *)o)->pmi); break; case 100: LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 2: eNB %d, cqi1 %d\n",eNB_id,((HLC_subband_cqi_rank2_2A_20MHz *)o)->cqi1); LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 2: eNB %d, cqi2 %d\n",eNB_id,((HLC_subband_cqi_rank2_2A_20MHz *)o)->cqi2); LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 2: eNB %d, diffcqi1 %8x\n",eNB_id,cqi2hex(((HLC_subband_cqi_rank2_2A_20MHz *)o)->diffcqi1)); LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 2: eNB %d, diffcqi2 %8x\n",eNB_id,cqi2hex(((HLC_subband_cqi_rank2_2A_20MHz *)o)->diffcqi2)); LOG_I(PHY,"[PRINT CQI] hlc_cqi rank 2: eNB %d, pmi %d\n",eNB_id,((HLC_subband_cqi_rank2_2A_20MHz *)o)->pmi); break; } #endif //DEBUG_UCI break; case HLC_subband_cqi_mcs_CBA: #ifdef DEBUG_UCI LOG_I(PHY,"[PRINT CQI] hlc_cqi_mcs_CBA : eNB %d, mcs %d\n",eNB_id,((HLC_subband_cqi_mcs_CBA_5MHz *)o)->mcs); LOG_I(PHY,"[PRINT CQI] hlc_cqi_mcs_CBA : eNB %d, rnti %x\n",eNB_id,((HLC_subband_cqi_mcs_CBA_5MHz *)o)->crnti); #endif //DEBUG_UCI break; case ue_selected: #ifdef DEBUG_UCI LOG_W(PHY,"[PRINT CQI] ue_selected CQI not supported yet!!!\n"); #endif //DEBUG_UCI break; default: #ifdef DEBUG_UCI LOG_E(PHY,"[PRINT CQI] unsupported CQI mode (%d)!!!\n",uci_format); #endif //DEBUG_UCI break; } /* switch (tmode) { case 1: case 2: case 3: case 5: case 6: case 7: default: fmt = hlc_cqi; break; case 4: fmt = wideband_cqi; break; } switch (fmt) { case wideband_cqi: if (rank == 0) { #ifdef DEBUG_UCI msg("[PRINT CQI] wideband_cqi rank 1: eNB %d, cqi %d\n",eNB_id,((wideband_cqi_rank1_2A_5MHz *)o)->cqi1); msg("[PRINT CQI] wideband_cqi rank 1: eNB %d, pmi (%x) %8x\n",eNB_id,((wideband_cqi_rank1_2A_5MHz *)o)->pmi,pmi2hex_2Ar1(((wideband_cqi_rank1_2A_5MHz *)o)->pmi)); #endif //DEBUG_UCI } else { #ifdef DEBUG_UCI msg("[PRINT CQI] wideband_cqi rank 2: eNB %d, cqi1 %d\n",eNB_id,((wideband_cqi_rank2_2A_5MHz *)o)->cqi1); msg("[PRINT CQI] wideband_cqi rank 2: eNB %d, cqi2 %d\n",eNB_id,((wideband_cqi_rank2_2A_5MHz *)o)->cqi2); msg("[PRINT CQI] wideband_cqi rank 2: eNB %d, pmi %8x\n",eNB_id,pmi2hex_2Ar2(((wideband_cqi_rank2_2A_5MHz *)o)->pmi)); #endif //DEBUG_UCI } break; case hlc_cqi: if (tmode > 2) { if (rank == 0) { #ifdef DEBUG_UCI msg("[PRINT CQI] hlc_cqi rank 1: eNB %d, cqi1 %d\n",eNB_id,((HLC_subband_cqi_rank1_2A_5MHz *)o)->cqi1); msg("[PRINT CQI] hlc_cqi rank 1: eNB %d, diffcqi1 %8x\n",eNB_id,cqi2hex(((HLC_subband_cqi_rank1_2A_5MHz *)o)->diffcqi1)); msg("[PRINT CQI] hlc_cqi rank 1: eNB %d, pmi %d\n",eNB_id,((HLC_subband_cqi_rank1_2A_5MHz *)o)->pmi); #endif //DEBUG_UCI } else { #ifdef DEBUG_UCI msg("[PRINT CQI] hlc_cqi rank 2: eNB %d, cqi1 %d\n",eNB_id,((HLC_subband_cqi_rank2_2A_5MHz *)o)->cqi1); msg("[PRINT CQI] hlc_cqi rank 2: eNB %d, cqi2 %d\n",eNB_id,((HLC_subband_cqi_rank2_2A_5MHz *)o)->cqi2); msg("[PRINT CQI] hlc_cqi rank 2: eNB %d, diffcqi1 %8x\n",eNB_id,cqi2hex(((HLC_subband_cqi_rank2_2A_5MHz *)o)->diffcqi1)); msg("[PRINT CQI] hlc_cqi rank 2: eNB %d, diffcqi2 %8x\n",eNB_id,cqi2hex(((HLC_subband_cqi_rank2_2A_5MHz *)o)->diffcqi2)); msg("[PRINT CQI] hlc_cqi rank 2: eNB %d, pmi %d\n",eNB_id,((HLC_subband_cqi_rank2_2A_5MHz *)o)->pmi); #endif //DEBUG_UCI } } else { #ifdef DEBUG_UCI msg("[PRINT CQI] hlc_cqi (no pmi) : eNB %d, cqi1 %d\n",eNB_id,((HLC_subband_cqi_rank1_2A_5MHz *)o)->cqi1); msg("[PRINT CQI] hlc_cqi (no pmi) : eNB %d, diffcqi1 %8x\n",eNB_id,cqi2hex(((HLC_subband_cqi_rank1_2A_5MHz *)o)->diffcqi1)); #endif //DEBUG_UCI } break; case ue_selected: #ifdef DEBUG_UCI msg("dci_tools.c: print_CQI ue_selected CQI not supported yet!!!\n"); #endif //DEBUG_UCI break; } */ }