fix sib23 transmission in MAC layer, need to check with PHY's timing

c10d87dd · AlanLi · 27d7bdf4 · c10d87dd · c10d87dd · c10d87dd
Commit c10d87dd authored Oct 09, 2018 by AlanLi
14 changed files
--- a/openair2/LAYER2/MAC/config_NB_IoT.c
+++ b/openair2/LAYER2/MAC/config_NB_IoT.c
@@ -428,17 +428,21 @@ void rrc_mac_config_req_NB_IoT(
-        mac_config->sib1_NB_IoT_sched_config.starting_rf = *(sib1_NB_IoT->si_RadioFrameOffset_r13);
+        //mac_config->sib1_NB_IoT_sched_config.starting_rf = *(sib1_NB_IoT->si_RadioFrameOffset_r13);
-        mac_config->si_window_length = sib1_NB_IoT->si_WindowLength_r13;
+        mac_config->sib1_NB_IoT_sched_config.starting_rf = 2;
+        mac_config->si_window_length = ms160;
        ///OAI only supports SIB2/3-NB for the sibs
-            mac_config->sibs_NB_IoT_sched[0].si_periodicity =   si_Periodicity_rf4096 ;
+            mac_config->sibs_NB_IoT_sched[0].si_periodicity =   si_Periodicity_rf64 ;
            mac_config->sibs_NB_IoT_sched[0].si_repetition_pattern =  si_RepetitionPattern_every2ndRF;
            mac_config->sibs_NB_IoT_sched[0].sib_mapping_info =   sib3_v;
            mac_config->sibs_NB_IoT_sched[0].si_tb =      si_TB_680;
+         LOG_I(MAC,"si_periodicity:%d, siw: %d, start rf: %d\n",mac_config->sibs_NB_IoT_sched[0].si_periodicity, mac_config->si_window_length,mac_config->sib1_NB_IoT_sched_config.starting_rf); 
        /*
        /// Thiese value is setting for different SIB set
       if ( sib1_NB_IoT->schedulingInfoList_r13.list.array[1] != NULL) {
@@ -500,6 +504,10 @@ void rrc_mac_config_req_NB_IoT(
        mac_config->mac_NPRACH_ConfigSIB[0].mac_npdcch_NumRepetitions_RA_NB_IoT         = nprach_parameter->npdcch_NumRepetitions_RA_r13;
        mac_config->mac_NPRACH_ConfigSIB[0].mac_npdcch_StartSF_CSS_RA_NB_IoT            = nprach_parameter->npdcch_StartSF_CSS_RA_r13;
        mac_config->mac_NPRACH_ConfigSIB[0].mac_npdcch_Offset_RA_NB_IoT                 = nprach_parameter->npdcch_Offset_RA_r13;
+        mac_inst->npdcch_config_common[0].R_max                                         = rmax[nprach_parameter->npdcch_NumRepetitions_RA_r13];
+        mac_inst->npdcch_config_common[0].G                                             = gvalue[nprach_parameter->npdcch_StartSF_CSS_RA_r13];
+        mac_inst->npdcch_config_common[0].a_offset                                      = pdcchoffset[nprach_parameter->npdcch_Offset_RA_r13];
+        LOG_I(MAC,"NPRACH 0 setting: Rmax: %ld G: %lf a: %lf\n",mac_inst->npdcch_config_common[0].R_max,mac_inst->npdcch_config_common[0].G,mac_inst->npdcch_config_common[0].a_offset);
        }
        ///CE level 1
@@ -510,6 +518,10 @@ void rrc_mac_config_req_NB_IoT(
        mac_config->mac_NPRACH_ConfigSIB[1].mac_npdcch_NumRepetitions_RA_NB_IoT         = nprach_parameter->npdcch_NumRepetitions_RA_r13;
        mac_config->mac_NPRACH_ConfigSIB[1].mac_npdcch_StartSF_CSS_RA_NB_IoT            = nprach_parameter->npdcch_StartSF_CSS_RA_r13;
        mac_config->mac_NPRACH_ConfigSIB[1].mac_npdcch_Offset_RA_NB_IoT                 = nprach_parameter->npdcch_Offset_RA_r13;
+        mac_inst->npdcch_config_common[1].R_max                                         = rmax[nprach_parameter->npdcch_NumRepetitions_RA_r13];
+        mac_inst->npdcch_config_common[1].G                                             = gvalue[nprach_parameter->npdcch_StartSF_CSS_RA_r13];
+        mac_inst->npdcch_config_common[1].a_offset                                      = pdcchoffset[nprach_parameter->npdcch_Offset_RA_r13];
+        LOG_I(MAC,"NPRACH 1 setting: Rmax: %ld G: %lf a: %lf\n",mac_inst->npdcch_config_common[1].R_max,mac_inst->npdcch_config_common[1].G,mac_inst->npdcch_config_common[1].a_offset);
        }
        ///CE level 2
        if ( radioResourceConfigCommon->nprach_Config_r13.nprach_ParametersList_r13.list.array[2] != NULL) {
@@ -519,6 +531,10 @@ void rrc_mac_config_req_NB_IoT(
        mac_config->mac_NPRACH_ConfigSIB[2].mac_npdcch_NumRepetitions_RA_NB_IoT         = nprach_parameter->npdcch_NumRepetitions_RA_r13;
        mac_config->mac_NPRACH_ConfigSIB[2].mac_npdcch_StartSF_CSS_RA_NB_IoT            = nprach_parameter->npdcch_StartSF_CSS_RA_r13;
        mac_config->mac_NPRACH_ConfigSIB[2].mac_npdcch_Offset_RA_NB_IoT                 = nprach_parameter->npdcch_Offset_RA_r13;
+        mac_inst->npdcch_config_common[2].R_max                                         = rmax[nprach_parameter->npdcch_NumRepetitions_RA_r13];
+        mac_inst->npdcch_config_common[2].G                                             = gvalue[nprach_parameter->npdcch_StartSF_CSS_RA_r13];
+        mac_inst->npdcch_config_common[2].a_offset                                      = pdcchoffset[nprach_parameter->npdcch_Offset_RA_r13];
+        LOG_I(MAC,"NPRACH 2 setting: Rmax: %ld G: %lf a: %lf\n",mac_inst->npdcch_config_common[2].R_max,mac_inst->npdcch_config_common[2].G,mac_inst->npdcch_config_common[2].a_offset);
        }
@@ -584,16 +600,17 @@ void rrc_mac_config_req_NB_IoT(
      LOG_I(MAC,"[NB-IoT] Init_MAC done\n");
+/*
      //for sacheduler testing
-      /*for(int i =0;i<30;i++)
+      for(int i =0;i<30;i++)
      {
        LOG_I(MAC,"[NB-IoT] scheduler testing start %d\n",i);
-        eNB_dlsch_ulsch_scheduler_NB_IoT(RC.nb_iot_mac[Mod_idP], i);
+        eNB_dlsch_ulsch_scheduler_NB_IoT(mac_inst, i);
        LOG_I(MAC,"[NB-IoT] scheduler testing done %d\n",i);
-      }*/
+      }
+*/
 //      RC.L1_NB_IoT[Mod_idP]->configured=1;

--- a/openair2/LAYER2/MAC/defs_NB_IoT.h
+++ b/openair2/LAYER2/MAC/defs_NB_IoT.h
@@ -44,13 +44,14 @@
 #include "config_NB_IoT.h"
 //  MAC definition
-#define MAX_FRAME 0xfffff
+#define MAX_FRAME 0xfff
-#define NUM_FRAME 0x100000
+#define MAX_SUBFRAME 40960
-#define MAX_SUBFRAME 10485760
 #define MAX(a, b) (((a)>(b))?(a):(b))
+//  RNTI
+//#define P_RNTI      0xffee
+//#define SI_RNTI     0xffff
 //  RA-RNTI: 1+SFN_id>>2
 #define RA_RNTI_LOW   0x0001  //  SFN_id = 0
 #define RA_RNTI_HIGH  0x0100  //  SFN_id = 1023
@@ -130,7 +131,6 @@ typedef enum{
 #define BCCH1_NB_IoT 12 // SI-SIB-NB_IoTs
 /*!\brief Values of PCCH logical channel */
 #define PCCH_NB_IoT 13  // Paging XXX not used for the moment
-#define MCCH_NB_IoT 14
 /*!\brief Value of CCCH / SRB0 logical channel */
 #define CCCH_NB_IoT 0  // srb0 ---> XXX exactly the same as in LTE (commented for compilation purposes)
 /*!\brief DCCH0 / SRB1bis logical channel */
@@ -231,11 +231,109 @@ typedef struct {
  int prev;
  // MSG4 complete
  int RRC_connected;
+  uint8_t flag_schedule_success;
  // UE active flag
  boolean_t active;
+  uint8_t allocated_data_size_ul;
 } UE_TEMPLATE_NB_IoT;
+typedef struct available_resource_UL_s{
+    ///Resource start subframe
+    uint32_t start_subframe;
+    ///Resource end subframe
+    uint32_t end_subframe;
+    // pointer to next node
+    struct available_resource_UL_s *next, *prev;
+}available_resource_UL_t;
+typedef struct available_resource_DL_s{
+  uint32_t start_subframe;
+  uint32_t end_subframe;
+  //uint32_t DLSF_num;
+  struct available_resource_DL_s *next, *prev;
+}available_resource_DL_t;
+/*Structure used for scheduling*/
+typedef struct{
+  //resource position info.
+  uint32_t sf_end,sf_start;
+  //resource position info. separate by HyperSF, Frame, Subframe
+  uint32_t start_h, end_h;
+  uint32_t start_f, end_f;
+  uint32_t start_sf, end_sf;
+  //whcih available resource node is used
+  available_resource_DL_t *node;
+}sched_temp_DL_NB_IoT_t;
+/*Structure used for UL scheduling*/
+typedef struct{
+  //resource position info.
+  uint32_t sf_end, sf_start;
+  //resource position info. separate by HyperSF, Frame, Subframe
+  //uint32_t start_h, end_h;
+  //uint32_t start_f, end_f;
+  //uint32_t start_sf, end_sf;
+  // information for allocating the resource
+  int tone;
+  int scheduling_delay;
+  int subcarrier_indication;
+  int ACK_NACK_resource_field;
+  available_resource_UL_t *node;
+}sched_temp_UL_NB_IoT_t;
+/******Update******/
+/*** the value of variable in this structure is able to be changed in Preprocessor**/
+typedef struct{
+  uint16_t TBS;
+  uint8_t index_tbs;
+  uint32_t total_sdu_size;
+  //Repetition
+  uint16_t R_dci;
+  uint16_t R_dl_data;
+  uint16_t R_dl_harq;
+  uint16_t R_ul_data;
+  //DL relative
+  uint8_t dci_n1_index_R_dci;
+  uint8_t dci_n1_index_R_data;
+  uint8_t dci_n1_index_mcs;
+  uint8_t dci_n1_index_sf;
+  uint8_t dci_n1_index_delay;
+  uint8_t dci_n1_index_ack_nack;
+  uint32_t dci_n1_n_sf;
+  //UL relative
+  uint8_t dci_n0_index_R_dci;
+  uint8_t dci_n0_index_R_data;
+  uint8_t dci_n0_index_mcs;
+  uint8_t dci_n0_index_ru;
+  uint8_t dci_n0_index_delay;
+  uint8_t dci_n0_index_subcarrier;
+  uint32_t dci_n0_n_ru;
+  uint8_t dci_n0_index_rv;
+  uint8_t dci_n0_index_ndi;
+  // byte
+  uint16_t total_data_size_dl;
+  // byte
+  uint16_t total_data_size_ul;
+  //0:UL 1:DL 2:both
+  uint16_t transmit_direction;
+  /*resource allocation*/
+  // scheduling result for NPDCCH
+  uint32_t NPDCCH_sf_end, NPDCCH_sf_start;
+  // scheduling result for USS DL
+  uint32_t NPDSCH_sf_end, NPDSCH_sf_start;
+  uint32_t HARQ_sf_end, HARQ_sf_start;
+  // scheduling result for USS UL
+  uint32_t NPUSCH_sf_end, NPUSCH_sf_start;
+  // schedule success 1 failure 0
+  uint8_t flag_schedule_success;
+}UE_SCHED_CTRL_NB_IoT_t;
 /*36331 NPDCCH-ConfigDedicated-NB_IoT*/
 typedef struct{
  //npdcch-NumRepetitions-r13
@@ -257,6 +355,8 @@ typedef struct {
  /// DCI template and MAC connection parameters for UEs
  UE_TEMPLATE_NB_IoT UE_template_NB_IoT[MAX_NUMBER_OF_UE_MAX_NB_IoT];
+  UE_SCHED_CTRL_NB_IoT_t UE_sched_ctrl_NB_IoT[MAX_NUMBER_OF_UE_MAX_NB_IoT];
  /// NPDCCH Period and searching space info
  NPDCCH_config_dedicated_NB_IoT_t NPDCCH_config_dedicated;
  //int next[MAX_NUMBER_OF_UE_MAX_NB_IoT];
@@ -295,36 +395,6 @@ typedef struct{
 }scheduling_flag_t;
-typedef struct available_resource_UL_s{
-    ///Resource start subframe
-    uint32_t start_subframe;
-    ///Resource end subframe
-    uint32_t end_subframe;
-    // pointer to next node
-    struct available_resource_UL_s *next, *prev;
-}available_resource_UL_t;
-typedef struct available_resource_DL_s{
-  uint32_t start_subframe;
-  uint32_t end_subframe;
-  struct available_resource_DL_s *next, *prev;
-}available_resource_DL_t;
-/*Structure used for scheduling*/
-typedef struct{
-  //resource position info.
-  uint32_t sf_end,sf_start;
-  //resource position info. separate by HyperSF, Frame, Subframe
-  uint32_t start_h, end_h;
-  uint32_t start_f, end_f;
-  uint32_t start_sf, end_sf;
-  //whcih available resource node is used
-  available_resource_DL_t *node;
-}sched_temp_DL_NB_IoT_t;
 /*!\brief  MAC subheader short with 7bit Length field */
 typedef struct {
  uint8_t LCID:5;  // octet 1 LSB
@@ -377,21 +447,6 @@ typedef struct {
  uint8_t E:1;
 } __attribute__((__packed__))RA_HEADER_RAPID_NB_IoT;
-/*Structure used for UL scheduling*/
-typedef struct{
-  //resource position info.
-  uint32_t sf_end, sf_start;
-  //resource position info. separate by HyperSF, Frame, Subframe
-  //uint32_t start_h, end_h;
-  //uint32_t start_f, end_f;
-  //uint32_t start_sf, end_sf;
-  // information for allocating the resource
-  int tone;
-  int scheduling_delay;
-  int subcarrier_indication;
-  int ACK_NACK_resource_field;
-  available_resource_UL_t *node;
-}sched_temp_UL_NB_IoT_t;
 typedef struct Available_available_resource_DL{
@@ -442,6 +497,14 @@ typedef struct schedule_result{
  uint32_t end_subframe;
  uint8_t *rar_buffer;
+  int16_t dl_sdly;
+  int16_t ul_sdly;
+  int16_t num_sf;
+  //-----clare
+  int16_t harq_round;
+  //-----clare
 }schedule_result_t;
@@ -495,8 +558,23 @@ typedef struct RA_template_list_s{
 }RA_template_list_t;
+/*36331 NPDCCH-ConfigDedicated-NB_IoT*/
+typedef struct{
+  //npdcch-NumRepetitions-r13
+  uint32_t R_max;
+  //npdcch-StartSF-CSS-r13
+  double G;
+  //npdcch-Offset-USS-r13
+  double a_offset;
+  //NPDCCH period
+  uint32_t T;
+  //Starting subfrane of Search Space which is mod T
+  uint32_t ss_start_css;
+}NPDCCH_config_common_NB_IoT_t;
 /*! \brief top level eNB MAC structure */
-typedef struct {
+typedef struct mac_NB_IoT_s{
    uint8_t Mod_id;
@@ -533,7 +611,8 @@ typedef struct {
  scheduling_flag_t scheduling_flag;
  uint32_t schedule_subframe_DL;
-  uint32_t schedule_subframe_UL;
+  //uint32_t schedule_subframe_UL;
+  NPDCCH_config_common_NB_IoT_t npdcch_config_common[3];
  rrc_config_NB_IoT_t rrc_config;

--- a/openair2/LAYER2/MAC/eNB_scheduler_NB_IoT.c
+++ b/openair2/LAYER2/MAC/eNB_scheduler_NB_IoT.c
--- a/openair2/LAYER2/MAC/eNB_scheduler_RA_NB_IoT.c
+++ b/openair2/LAYER2/MAC/eNB_scheduler_RA_NB_IoT.c
@@ -113,9 +113,7 @@ void schedule_rar_NB_IoT(eNB_MAC_INST_NB_IoT *mac_inst, int abs_subframe){
    int fail_num = 0;
    int flag=0;
 	while((RA_TEMPLATE_NB_IoT *)0 != msg2_nodes){
-		if(flag==0)
+			fail=0;
-			flag=1;
-		fail=0;
 		rmax = mac_inst->rrc_config.mac_NPRACH_ConfigSIB[msg2_nodes->ce_level].mac_npdcch_NumRepetitions_RA_NB_IoT;//32;
 		num_candidate = 8;//rmax / r;
 		r = rmax/num_candidate;
@@ -227,6 +225,11 @@ void schedule_rar_NB_IoT(eNB_MAC_INST_NB_IoT *mac_inst, int abs_subframe){
 		    dci_result->R_harq = 0;
 		    dci_result->next = (schedule_result_t *)0;
 		    dci_result->DCI_pdu = (void *)dci_n1_rar;
+		    //----------clare
+		    dci_result->dl_sdly = msg2_subframe - dci_end_subframe;
+			dci_result->ul_sdly = msg3_subframe - msg2_end_subframe;
+			dci_result->num_sf = msg2_end_subframe - msg2_subframe+1;
+			//----------clare
 			//	for msg2
 		    msg2_result->output_subframe = msg2_first_subframe;//msg2_subframe;
 		    msg2_result->end_subframe = msg2_end_subframe;
@@ -242,6 +245,10 @@ void schedule_rar_NB_IoT(eNB_MAC_INST_NB_IoT *mac_inst, int abs_subframe){
 		    msg2_result->next = (schedule_result_t *)0;
 		    msg2_result->DCI_pdu = (void *)dci_n1_rar;
 			msg2_result->rar_buffer = msg2_nodes->rar_buffer;
+			//----------clare
+			msg2_result->dl_sdly = -1;
+			msg2_result->ul_sdly = -1;
+			//----------clare
 			//	for msg3(fake DCI N0)
 			dci_n0->type = 0;
@@ -542,6 +549,12 @@ void schedule_msg3_retransimission_NB_IoT(eNB_MAC_INST_NB_IoT *mac_inst, int abs
 			    dci_result->R_harq = 0;
 			    dci_result->next = (schedule_result_t *)0;
 			    dci_result->DCI_pdu = (void *)dci_n0_msg3;
+			    //----------clare
+			    dci_result->dl_sdly = msg3_subframe - dci_end_subframe + 1;
+				dci_result->ul_sdly = -1;
+				dci_result->num_sf = -1;
+				dci_result->harq_round = msg3_nodes->msg3_retransmit_count;
+				//----------clare
 			    //	fill dci resource
 			    fill_resource_DL(mac_inst, dci_node, dci_first_subframe, dci_end_subframe, dci_result);
@@ -632,7 +645,7 @@ void schedule_msg4_NB_IoT(eNB_MAC_INST_NB_IoT *mac_inst, int abs_subframe){
 	available_resource_DL_t *dci_node, *msg4_node;
 	int rmax, fail, r;
 	int dci_subframe, dci_end_subframe, dci_first_subframe, num_dci_subframe;
-	int msg4_subframe, msg4_end_subframe, msg4_first_subframe, num_msg4_subframe;
+	int msg4_subframe = 0, msg4_end_subframe, msg4_first_subframe, num_msg4_subframe;
 	int harq_subframe, harq_end_subframe;
 	int dci_candidate, num_candidate;
@@ -776,6 +789,12 @@ void schedule_msg4_NB_IoT(eNB_MAC_INST_NB_IoT *mac_inst, int abs_subframe){
 				dci_result->R_harq = 0;
 				dci_result->next = (schedule_result_t *)0;
 				dci_result->DCI_pdu = (void *)dci_n1_msg4;
+				//-------clare
+				dci_result->dl_sdly = msg4_subframe - dci_end_subframe;
+				dci_result->ul_sdly = harq_subframe - msg4_end_subframe;
+				dci_result->num_sf = msg4_end_subframe - msg4_subframe+1;
+				dci_result->harq_round = msg4_nodes->msg4_retransmit_count;
+				//-------clare
 				//	for msg4
 				msg4_result = (schedule_result_t *)malloc(sizeof(schedule_result_t));
@@ -804,7 +823,8 @@ void schedule_msg4_NB_IoT(eNB_MAC_INST_NB_IoT *mac_inst, int abs_subframe){
 			    harq_result->DCI_release = 1;
 			    harq_result->channel = NPUSCH;
 			    harq_result->next = (schedule_result_t *)0;
 				LOG_D(MAC,"[%04d][RA scheduler][MSG4] UE:%x MSG4DCI %d-%d MSG4 %d-%d HARQ %d-%d\n", abs_subframe-1, msg4_nodes->ue_rnti, dci_first_subframe, dci_end_subframe, msg4_first_subframe, msg4_end_subframe, HARQ_info.sf_start, HARQ_info.sf_end);
 	            LOG_D(MAC,"[%04d][RA scheduler][MSG4][CE%d] MSG4 DCI %d-%d MSG4 %d-%d HARQ %d-%d\n", abs_subframe-1, msg4_nodes->ce_level, dci_first_subframe, dci_end_subframe, msg4_first_subframe, msg4_end_subframe, HARQ_info.sf_start, HARQ_info.sf_end);
 	            msg4_nodes->msg4_retransmit_count++;

--- a/openair2/LAYER2/MAC/eNB_scheduler_bch_NB_IoT.c
+++ b/openair2/LAYER2/MAC/eNB_scheduler_bch_NB_IoT.c
@@ -27,8 +27,10 @@ void schedule_sibs(eNB_MAC_INST_NB_IoT *mac_inst, uint32_t sibs_order, int start
 	schedule_result_t *new_node;	
 	DCIFormatN1_t *sibs_dci;
 	uint32_t j, i, k;
-	uint8_t SIB23_size = 0;
+	//------clare
-	uint8_t *SIB23_pdu = get_NB_IoT_SIB23();
+	//uint8_t SIB23_size = 0;
+	//uint8_t *SIB23_pdu = get_NB_IoT_SIB23();
+	//------clare
 	int residual_subframe, num_subframe, last_subframe;
 	num_subframe = mac_inst->rrc_config.sibs_NB_IoT_sched[sibs_order].si_tb;
@@ -75,15 +77,17 @@ void schedule_sibs(eNB_MAC_INST_NB_IoT *mac_inst, uint32_t sibs_order, int start
 			sibs_dci->DCIRep = 0;
 			for(k=0, j=start_subframe1;j<=i;++k, j+=si_repetition_pattern[mac_inst->rrc_config.sibs_NB_IoT_sched[sibs_order].si_repetition_pattern]){	
-LOG_D(MAC,"for1 k=%d j=%d i=%d rep=%d\n", k, j, i, si_repetition_pattern[mac_inst->rrc_config.sibs_NB_IoT_sched[sibs_order].si_repetition_pattern]);
+				LOG_D(MAC,"for1 k=%d j=%d i=%d rep=%d\n", k, j, i, si_repetition_pattern[mac_inst->rrc_config.sibs_NB_IoT_sched[sibs_order].si_repetition_pattern]);
 				if((available_resource_DL_t *)0 != pt[k]){
 					new_node = (schedule_result_t *)malloc(sizeof(schedule_result_t));
 					//	fill new node
-					SIB23_size = get_NB_IoT_SIB23_size();
+					//SIB23_size = get_NB_IoT_SIB23_size();
 					new_node->output_subframe = first_subframe[k];
 					new_node->end_subframe = (j==i)?last_subframe:j+9;
-					new_node->sdu_length = SIB23_size;
+					//------clare
-					new_node->DLSCH_pdu = SIB23_pdu;
+					new_node->sdu_length = 0;
+					//new_node->DLSCH_pdu = SIB23_pdu;
+					//------clare
 					new_node->direction = DL;	
 					new_node->DCI_release = (j==i);
 					new_node->channel = NPDSCH;
@@ -94,11 +98,11 @@ LOG_D(MAC,"for1 k=%d j=%d i=%d rep=%d\n", k, j, i, si_repetition_pattern[mac_ins
 					new_node->next = (schedule_result_t *)0;
 					new_node->DCI_pdu = (void *)sibs_dci;
 					//new_node->debug_str = str[sibs_order];
-LOG_D(MAC,"for*1 %d %d %d %p\n", pt[k]->start_subframe, first_subframe[k], (j==i)?last_subframe:j+9, new_node);
+					LOG_D(MAC,"for*1 %d %d %d %p\n", pt[k]->start_subframe, first_subframe[k], (j==i)?last_subframe:j+9, new_node);
 					fill_resource_DL(mac_inst, pt[k], first_subframe[k], (j==i)?last_subframe:j+9, new_node);
-LOG_D(MAC,"for*2\n");
+					LOG_D(MAC,"for*2\n");
 				}
-LOG_D(MAC,"for2\n");
+				LOG_D(MAC,"for2\n");
 			}
 			return ;

--- a/openair2/LAYER2/MAC/eNB_scheduler_dlsch_NB_IoT.c
+++ b/openair2/LAYER2/MAC/eNB_scheduler_dlsch_NB_IoT.c
--- a/openair2/LAYER2/MAC/eNB_scheduler_ulsch_NB_IoT.c
+++ b/openair2/LAYER2/MAC/eNB_scheduler_ulsch_NB_IoT.c
--- a/openair2/LAYER2/MAC/extern_NB_IoT.h
+++ b/openair2/LAYER2/MAC/extern_NB_IoT.h
@@ -105,6 +105,11 @@ extern const int rachstart[8];
 extern const int rachrepeat[8];
 extern const int rachscofst[7];
 extern const int rachnumsc[4];
+extern const int rmax[12];
+extern const double gvalue[8];
+extern const double pdcchoffset[4];
 extern const uint32_t RU_table[8];

--- a/openair2/LAYER2/MAC/main_NB_IoT.c
+++ b/openair2/LAYER2/MAC/main_NB_IoT.c
@@ -57,10 +57,11 @@ void init_mac_NB_IoT(eNB_MAC_INST_NB_IoT *mac_inst)
    mac_inst->sib1_flag[i] = 0;
    mac_inst->sib1_count[i] = 0;
  }
-    //rrc_mac_config_req_NB_IoT(&mac_inst->rrc_config, 1, 1, 0, 0);
  init_tool_sib1(mac_inst);
  //  output handler 
  //  RA
  mac_inst->RA_msg2_list.head = (RA_TEMPLATE_NB_IoT *)0;
  mac_inst->RA_msg3_list.head = (RA_TEMPLATE_NB_IoT *)0;
@@ -86,25 +87,25 @@ void init_mac_NB_IoT(eNB_MAC_INST_NB_IoT *mac_inst)
    }
    mac_inst->sib1_count[i]=j;
  }
-//LOG_D(MAC,"%d", mac_inst->sib1_period);
+//printf("%d", mac_inst->sib1_period);
  for(i=0, j=0;i<640;++i){
-    //LOG_D(MAC,"*%d", i);
+    //printf("*%d", i);
    if(is_dlsf(mac_inst, i)){
      ++j;
    }
-    //LOG_D(MAC,"-");
+    //printf("-");
    if(i%10==9){
      mac_inst->dlsf_table[i/10] = j;
    }
  }
-  mac_inst->rrc_config.si_window_length = ms160;
-  mac_inst->rrc_config.sibs_NB_IoT_sched[0].si_periodicity = rf64;
-  mac_inst->rrc_config.si_radio_frame_offset = 1;
  for(i=0;i<256;++i){
    mac_inst->sibs_table[i] = -1;
  }
+  mac_inst->rrc_config.si_window_length = ms160;
+  mac_inst->rrc_config.sibs_NB_IoT_sched[0].si_periodicity = rf64;
+//  mac_inst->rrc_config.si_radio_frame_offset = 1;
  for(j=0;j<6;++j){
    if(0x0 != mac_inst->rrc_config.sibs_NB_IoT_sched[j].sib_mapping_info){
      k = mac_inst->rrc_config.sibs_NB_IoT_sched[j].si_periodicity / mac_inst->rrc_config.si_window_length;
@@ -115,7 +116,7 @@ void init_mac_NB_IoT(eNB_MAC_INST_NB_IoT *mac_inst)
  }
  mac_inst->schedule_subframe_DL = 0;
-  mac_inst->schedule_subframe_UL = 0;
+  //mac_inst->schedule_subframe_UL = 0;
  available_resource_DL = available_resource_DL_last = (available_resource_DL_t *)0;
@@ -135,36 +136,7 @@ void init_mac_NB_IoT(eNB_MAC_INST_NB_IoT *mac_inst)
    mac_inst->RA_template[i].wait_msg4_ack = 0;
    mac_inst->RA_template[i].wait_msg3_ack = 0;
  }
-  //3 CE level USS list
-  mac_inst->UE_list_spec = (UE_list_NB_IoT_t*)malloc(NUM_USS_PP*sizeof(UE_list_NB_IoT_t));
-  //initial UE list
-  LOG_I(MAC,"[NB-IoT] Initial UE list\n");
-  mac_inst->num_uss_list = NUM_USS_PP;
-  for(i=0;i<NUM_USS_PP;++i)
-  {
-    rrc_mac_config_req_NB_IoT(0,0,0,NULL,NULL,NULL,NULL,NULL,1,i);
-    (mac_inst->UE_list_spec+i)->head = -1;
-    (mac_inst->UE_list_spec+i)->tail = -1;
-    (mac_inst->UE_list_spec+i)->NPDCCH_config_dedicated.R_max = mac_inst->rrc_config.npdcch_ConfigDedicated[i].R_max;
-    (mac_inst->UE_list_spec+i)->NPDCCH_config_dedicated.G = mac_inst->rrc_config.npdcch_ConfigDedicated[i].G;
-    (mac_inst->UE_list_spec+i)->NPDCCH_config_dedicated.a_offset = mac_inst->rrc_config.npdcch_ConfigDedicated[i].a_offset;
-    //(mac_inst->UE_list_spec+i)->NPDCCH_config_dedicated.R_max = 8;
-    //(mac_inst->UE_list_spec+i)->NPDCCH_config_dedicated.G = 1;
-    //(mac_inst->UE_list_spec+i)->NPDCCH_config_dedicated.a_offset = 0;
-    (mac_inst->UE_list_spec+i)->NPDCCH_config_dedicated.T = (mac_inst->UE_list_spec+i)->NPDCCH_config_dedicated.R_max * (mac_inst->UE_list_spec+i)->NPDCCH_config_dedicated.G;
-    (mac_inst->UE_list_spec+i)->NPDCCH_config_dedicated.ss_start_uss = (mac_inst->UE_list_spec+i)->NPDCCH_config_dedicated.T * (mac_inst->UE_list_spec+i)->NPDCCH_config_dedicated.a_offset;
-    for(j=0;j<MAX_NUMBER_OF_UE_MAX_NB_IoT;++j)
-    {
-      (mac_inst->UE_list_spec+i)->UE_template_NB_IoT[j].active=0;
-      (mac_inst->UE_list_spec+i)->UE_template_NB_IoT[j].RRC_connected=0;
-      (mac_inst->UE_list_spec+i)->UE_template_NB_IoT[j].direction = -1;
-    }
-    //SCHEDULE_LOG("[%04d][init_mac_NB_IoT] List_number %d R_max %d G %.1f a_offset %.1f T %d SS_start %d\n", mac_inst->current_subframe, i, (mac_inst->UE_list_spec+i)->NPDCCH_config_dedicated.R_max, (mac_inst->UE_list_spec+i)->NPDCCH_config_dedicated.G, (mac_inst->UE_list_spec+i)->NPDCCH_config_dedicated.a_offset, (mac_inst->UE_list_spec+i)->NPDCCH_config_dedicated.T, (mac_inst->UE_list_spec+i)->NPDCCH_config_dedicated.ss_start_uss);
-    LOG_I(MAC,"[NB-IoT] List_number %d R_max %d G %.1f a_offset %.1f T %d SS_start %d\n", i, (mac_inst->UE_list_spec+i)->NPDCCH_config_dedicated.R_max, (mac_inst->UE_list_spec+i)->NPDCCH_config_dedicated.G, (mac_inst->UE_list_spec+i)->NPDCCH_config_dedicated.a_offset, (mac_inst->UE_list_spec+i)->NPDCCH_config_dedicated.T, (mac_inst->UE_list_spec+i)->NPDCCH_config_dedicated.ss_start_uss);
-  }
  //UL initial
  //Setting nprach configuration
@@ -172,7 +144,7 @@ void init_mac_NB_IoT(eNB_MAC_INST_NB_IoT *mac_inst)
  //Initialize uplink resource from nprach configuration
  Initialize_Resource();
  //add_UL_Resource(mac_inst);    
-  extend_available_resource_DL(mac_inst, mac_inst->current_subframe + 1 + mac_inst->rrc_config.si_window_length);  
+ extend_available_resource_DL(mac_inst, mac_inst->current_subframe + 1 + 160);
 }

--- a/openair2/LAYER2/MAC/output_handler_NB_IoT.c
+++ b/openair2/LAYER2/MAC/output_handler_NB_IoT.c
@@ -115,7 +115,8 @@ int output_handler(eNB_MAC_INST_NB_IoT *mac_inst, module_id_t module_id, int CC_
  		//LOG_I(MAC,"NB-IoT fill MIB\n");
  		//dl_scheduled(mac_inst->current_subframe, _NPBCH, 0, "MIB");
 	}
-	else if((subframe == 4)  && (frame%2==0) && (frame%32<16) /*SIB1_flag == 1*/)	//	TODO back to SIB1_flag
+	else if(SIB1_flag==1)
+	//else if((subframe == 4)  && (frame%2==0) && (frame%32<16) /*SIB1_flag == 1*/)	//	TODO back to SIB1_flag
 	{
 		uint8_t *SIB1_pdu = get_NB_IoT_SIB1(0,0,carrier,208,92,1,3584,28,2,subframe,frame,hypersfn);
 		//SIB1_size = mac_rrc_data_req_eNB_NB_IoT(*SIB1);
@@ -140,7 +141,7 @@ int output_handler(eNB_MAC_INST_NB_IoT *mac_inst, module_id_t module_id, int CC_
 		//LOG_D(MAC,"A NB-IoT SIB1 pdu : %d \n",SIB1_pdu);
 		SCHED_info->TX_req->tx_request_body.tx_pdu_list[dl_config_pdu->ndlsch_pdu.ndlsch_pdu_rel13.pdu_index].segments[0].segment_data = SIB1_pdu;
-		LOG_D(MAC,"NB-IoT fill SIB1\n");
+		LOG_I(MAC,"NB-IoT fill SIB1\n");
 		//LOG_I(MAC,"NB-IoT fill SIB1\n");
 		//start symbol, Resource assignment, Repetition number, Number of subframe Resource assignment lost for now
 		//dl_scheduled(mac_inst->current_subframe, _NPDSCH, SI_RNTI, "SIB1");
@@ -227,6 +228,8 @@ int output_handler(eNB_MAC_INST_NB_IoT *mac_inst, module_id_t module_id, int CC_
 					break;
 				case NPDSCH:
 						LOG_D(MAC,"NB-IoT fill DL Data\n");
+						if(schedule_result_list_DL->rnti==SI_RNTI)
+							LOG_I(MAC,"NB-IoT fill SIB23\n");
 						//LOG_I(MAC,"NB-IoT fill DL Data\n");
 						//SCHED_info->DL_req = (nfapi_dl_config_request_t*) malloc (sizeof(nfapi_dl_config_request_t));
 						//SCHED_info->DL_req->dl_config_request_body.number_pdu = 0;

--- a/openair2/LAYER2/MAC/proto_NB_IoT.h
+++ b/openair2/LAYER2/MAC/proto_NB_IoT.h
@@ -145,7 +145,8 @@ void print_available_UL_resource(void);
 /*set nprach configuration at intial time*/
 void setting_nprach(void);
 /*Uplink main scheduler*/
-int schedule_UL_NB_IoT(eNB_MAC_INST_NB_IoT *mac_inst,UE_TEMPLATE_NB_IoT *UE_info, uint32_t subframe, uint32_t frame, uint32_t H_SFN);
+//int schedule_UL_NB_IoT(eNB_MAC_INST_NB_IoT *mac_inst,UE_TEMPLATE_NB_IoT *UE_info, uint32_t subframe, uint32_t frame, uint32_t H_SFN);
+int schedule_UL_NB_IoT(eNB_MAC_INST_NB_IoT *mac_inst,UE_TEMPLATE_NB_IoT *UE_info, uint32_t subframe, uint32_t frame, uint32_t H_SFN, UE_SCHED_CTRL_NB_IoT_t *UE_sched_info);
 /*Check available uplink resource list, if there is available uplink resource, return 0, otherwise, return 1*/
 int Check_UL_resource(uint32_t DL_end, int total_ru, sched_temp_UL_NB_IoT_t *NPUSCH_info, int multi_tone, int fmt2_flag);
 /*Get I Repetition number in DCI*/
@@ -177,7 +178,7 @@ int get_resource_field_value(int subcarrier, int k0);
 uint8_t get_index_Rep_dl(uint16_t R);
 /*******DL Scheduler********/
-void schedule_DL_NB_IoT(module_id_t module_id, eNB_MAC_INST_NB_IoT *mac_inst, UE_TEMPLATE_NB_IoT *UE_info, uint32_t hyperSF_start, uint32_t frame_start, uint32_t subframe_start);
+//void schedule_DL_NB_IoT(module_id_t module_id, eNB_MAC_INST_NB_IoT *mac_inst, UE_TEMPLATE_NB_IoT *UE_info, uint32_t hyperSF_start, uint32_t frame_start, uint32_t subframe_start);
 int check_resource_NPDCCH_NB_IoT(eNB_MAC_INST_NB_IoT *mac_inst, uint32_t hyperSF_start, uint32_t frame_start, uint32_t subframe_start, sched_temp_DL_NB_IoT_t *NPDCCH_info, uint32_t cdd_num, uint32_t dci_rep);
 int check_resource_NPDSCH_NB_IoT(eNB_MAC_INST_NB_IoT *mac_inst, sched_temp_DL_NB_IoT_t *NPDSCH_info, uint32_t sf_end, uint32_t I_delay, uint32_t R_max, uint32_t R_dl, uint32_t n_sf);
 int check_resource_DL_NB_IoT(eNB_MAC_INST_NB_IoT *mac_inst, uint32_t hyperSF_start, uint32_t frame_start, uint32_t subframe_start, uint32_t dlsf_require, sched_temp_DL_NB_IoT_t *schedule_info);
@@ -188,8 +189,9 @@ uint32_t get_num_sf(uint32_t I_sf);
 uint32_t get_scheduling_delay(uint32_t I_delay, uint32_t R_max);
 uint32_t get_HARQ_delay(int subcarrier_spacing, uint32_t HARQ_delay_index);
 //void generate_scheduling_result_DL(uint32_t DCI_subframe, uint32_t NPDSCH_subframe, uint32_t HARQ_subframe, DCIFormatN1_t *DCI, rnti_t rnti, uint32_t TBS, uint8_t *DLSCH_pdu);
-void generate_scheduling_result_DL(sched_temp_DL_NB_IoT_t* DCI_info, sched_temp_DL_NB_IoT_t* NPDSCH_info, sched_temp_UL_NB_IoT_t* HARQ_info, DCIFormatN1_t *DCI_inst, rnti_t rnti, uint32_t TBS, uint8_t *DLSCH_pdu);
+//void generate_scheduling_result_DL(sched_temp_DL_NB_IoT_t* DCI_info, sched_temp_DL_NB_IoT_t* NPDSCH_info, sched_temp_UL_NB_IoT_t* HARQ_info, DCIFormatN1_t *DCI_inst, rnti_t rnti, uint32_t TBS, uint8_t *DLSCH_pdu);
-void fill_DCI_N1(DCIFormatN1_t *DCI_N1, UE_TEMPLATE_NB_IoT *UE_info, uint32_t scheddly, uint32_t I_sf, uint32_t I_harq);
+void generate_scheduling_result_DL(uint32_t NPDCCH_sf_end, uint32_t NPDCCH_sf_start, uint32_t NPDSCH_sf_end, uint32_t NPDSCH_sf_start, uint32_t HARQ_sf_end, uint32_t HARQ_sf_start, DCIFormatN1_t *DCI_pdu, rnti_t rnti, uint32_t TBS, uint8_t *DLSCH_pdu);
+//void fill_DCI_N1(DCIFormatN1_t *DCI_N1, UE_TEMPLATE_NB_IoT *UE_info, uint32_t scheddly, uint32_t I_sf, uint32_t I_harq);
 //Transfrom source into hyperSF, Frame, Subframe format
 void convert_system_number(uint32_t source_sf,uint32_t *hyperSF, uint32_t *frame, uint32_t *subframe);
 //Trnasform hyperSF, Frame, Subframe format into subframe unit
@@ -221,4 +223,13 @@ uint32_t from_earfcn_NB_IoT(int eutra_bandP,uint32_t dl_earfcn, float m_dl);
 int32_t get_uldl_offset_NB_IoT(int eutra_band);
+/***Preprocessor***/
+void preprocessor_uss_NB_IoT(module_id_t module_id, eNB_MAC_INST_NB_IoT *mac_inst, uint32_t subframe, uint32_t frame, uint32_t hypersfn, int UE_list_index);
+void sort_UEs_uss(void);
+int schedule_DL_NB_IoT(module_id_t module_id, eNB_MAC_INST_NB_IoT *mac_inst, UE_TEMPLATE_NB_IoT *UE_info, uint32_t hyperSF_start, uint32_t frame_start, uint32_t subframe_start, UE_SCHED_CTRL_NB_IoT_t *UE_sched_ctrl_info);
+void fill_DCI_N0(DCIFormatN0_t *DCI_N0, UE_TEMPLATE_NB_IoT *UE_info, UE_SCHED_CTRL_NB_IoT_t *UE_sched_ctrl_info);
+void fill_DCI_N1(DCIFormatN1_t *DCI_N1, UE_TEMPLATE_NB_IoT *UE_info, UE_SCHED_CTRL_NB_IoT_t *UE_sched_ctrl_info);
+void USS_scheduling_module(eNB_MAC_INST_NB_IoT *mac_inst, uint32_t abs_subframe, uint8_t number_UE_list);
 #endif
--- a/openair2/LAYER2/MAC/schedule_tool_NB_IoT.c
+++ b/openair2/LAYER2/MAC/schedule_tool_NB_IoT.c
--- a/openair2/RRC/LITE/L2_interface_NB_IoT.c
+++ b/openair2/RRC/LITE/L2_interface_NB_IoT.c
@@ -464,7 +464,7 @@ int8_t mac_rrc_data_req_NB_IoT(
      return (Sdu_size);
    }
+/*
 #if defined(Rel10) || defined(Rel14)
    if((Srb_id & RAB_OFFSET) == MCCH_NB_IoT) {
@@ -520,6 +520,8 @@ int8_t mac_rrc_data_req_NB_IoT(
    }
 #endif //Rel10 || Rel14
+*/
  } else {  //This is an UE
    LOG_D(RRC,"[UE %d] Frame %d Filling CCCH SRB_ID %d\n",Mod_idP,frameP,Srb_id);

--- a/targets/RT/USER/lte-enb.c
+++ b/targets/RT/USER/lte-enb.c
@@ -662,6 +662,7 @@ static inline int rxtx(PHY_VARS_eNB *eNB,eNB_rxtx_proc_t *proc, char *thread_nam
  eNB->UL_INFO.subframe  = proc->subframe_rx;
  eNB->UL_INFO.module_id = eNB->Mod_id;
  eNB->UL_INFO.CC_id     = eNB->CC_id;
+  eNB->UL_INFO.hypersfn  = proc->HFN;
  eNB->if_inst->UL_indication(&eNB->UL_INFO);