Commit 6c73828c authored by Teodora's avatar Teodora Committed by Robert Schmidt

Add option to collect data from CU and DU for KPM

parent 505a00c3
...@@ -8,55 +8,109 @@ ...@@ -8,55 +8,109 @@
#include "openair2/LAYER2/nr_rlc/nr_rlc_entity.h" #include "openair2/LAYER2/nr_rlc/nr_rlc_entity.h"
#include "openair2/LAYER2/nr_rlc/nr_rlc_oai_api.h" #include "openair2/LAYER2/nr_rlc/nr_rlc_oai_api.h"
#include "openair2/LAYER2/nr_pdcp/nr_pdcp_oai_api.h" #include "openair2/LAYER2/nr_pdcp/nr_pdcp_oai_api.h"
#include "openair2/F1AP/f1ap_ids.h"
#include <assert.h> #include <assert.h>
#include <stdio.h> #include <stdio.h>
typedef struct {
NR_UE_info_t *ue_list;
size_t num_ues;
} matched_ues_mac_t;
static static
size_t get_number_connected_ues(void) matched_ues_mac_t filter_ues_by_s_nssai_in_du_or_monolithic(test_cond_e const * condition, int64_t const value)
{ {
size_t num_ues = 0; matched_ues_mac_t matched_ues = {.num_ues = 0, .ue_list = calloc(MAX_MOBILES_PER_GNB, sizeof(NR_UE_info_t)) };
assert(matched_ues.ue_list != NULL && "Memory exhausted");
/* IMPORTANT: in the case of gNB-DU, it is not possible to filter UEs by S-NSSAI as the ngap context is stored in gNB-CU
instead, we take all connected UEs*/
for (int i = 0; i < RC.nb_nr_macrlc_inst; i++) { // Take MAC info
UE_iterator(RC.nrmac[i]->UE_info.list, ue) UE_iterator(RC.nrmac[0]->UE_info.list, ue)
{
if (ue)
{ {
if (ue) num_ues += 1; ngap_gNB_ue_context_t *ngap_ue_context_list = NULL;
// Filter connected UEs by S-NSSAI test condition to get list of matched UEs
// note: not possible to filter
switch (*condition)
{
case EQUAL_TEST_COND:
{
if (NODE_IS_MONOLITHIC(RC.nrrrc[0]->node_type))
{
rrc_gNB_ue_context_t *rrc_ue_context_list = rrc_gNB_get_ue_context_by_rnti(RC.nrrrc[0], ue->rnti);
ngap_ue_context_list = ngap_get_ue_context(rrc_ue_context_list->ue_context.rrc_ue_id);
assert(ngap_ue_context_list->gNB_instance[0].s_nssai[0][0].sST == value && "Please, check the condition for S-NSSAI. At the moment, OAI supports eMBB");
}
matched_ues.ue_list[matched_ues.num_ues] = *ue;
matched_ues.num_ues++;
break;
}
default:
assert(false && "Condition not yet implemented");
}
} }
} }
return num_ues; assert(matched_ues.num_ues >= 1 && "The number of filtered UEs must be at least equal to 1");
return matched_ues;
} }
typedef struct {
f1_ue_data_t * rrc_ue_id_list; // list of matched UEs on RRC level containing only rrc_ue_id (gNB CU UE ID)
size_t num_ues;
} matched_ues_rrc_t;
static static
NR_UE_info_t * connected_ues_list(void) matched_ues_rrc_t filter_ues_by_s_nssai_in_cu(test_cond_e const * condition, int64_t const value)
{ {
size_t num_ues = get_number_connected_ues(); matched_ues_rrc_t matched_ues = {.num_ues = 0, .rrc_ue_id_list = calloc(MAX_MOBILES_PER_GNB, sizeof(f1_ue_data_t)) };
assert(matched_ues.rrc_ue_id_list != NULL && "Memory exhausted");
NR_UE_info_t * ue_list = calloc(num_ues, sizeof(NR_UE_info_t));
assert(ue_list != NULL && "Memory exhausted");
size_t j = 0;
for (int i = 0; i < RC.nb_nr_macrlc_inst; i++) { struct rrc_gNB_ue_context_s *ue_context_p1 = NULL;
UE_iterator(RC.nrmac[i]->UE_info.list, ue) RB_FOREACH(ue_context_p1, rrc_nr_ue_tree_s, &RC.nrrrc[0]->rrc_ue_head) {
ngap_gNB_ue_context_t *ngap_ue_context_list = ngap_get_ue_context(ue_context_p1->ue_context.rrc_ue_id);
// Filter connected UEs by S-NSSAI test condition to get list of matched UEs
switch (*condition)
{ {
if (ue) case EQUAL_TEST_COND:
{ assert(ngap_ue_context_list->gNB_instance[0].s_nssai[0][0].sST == value && "Please, check the condition for S-NSSAI. At the moment, OAI supports eMBB");
ue_list[j] = *ue; matched_ues.rrc_ue_id_list[matched_ues.num_ues].secondary_ue = ue_context_p1->ue_context.rrc_ue_id;
j++; matched_ues.num_ues++;
} break;
}
default:
assert(false && "Condition not yet implemented");
}
} }
return ue_list; assert(matched_ues.num_ues >= 1 && "The number of filtered UEs must be at least equal to 1");
return matched_ues;
} }
static static
nr_rlc_statistics_t get_rlc_stats_per_drb(NR_UE_info_t * const UE, int const rb_id) nr_rlc_statistics_t get_rlc_stats_per_drb(NR_UE_info_t * const UE)
{ {
assert(UE != NULL); assert(UE != NULL);
nr_rlc_statistics_t rlc = {0}; nr_rlc_statistics_t rlc = {0};
const int srb_flag = 0; const int srb_flag = 0;
const int rb_id = 1; // at the moment, only 1 DRB is supported
// Get RLC stats for specific DRB // Get RLC stats for specific DRB
const bool rc = nr_rlc_get_statistics(UE->rnti, srb_flag, rb_id, &rlc); const bool rc = nr_rlc_get_statistics(UE->rnti, srb_flag, rb_id, &rlc);
...@@ -69,15 +123,14 @@ nr_rlc_statistics_t get_rlc_stats_per_drb(NR_UE_info_t * const UE, int const rb_ ...@@ -69,15 +123,14 @@ nr_rlc_statistics_t get_rlc_stats_per_drb(NR_UE_info_t * const UE, int const rb_
} }
static static
nr_pdcp_statistics_t get_pdcp_stats_per_drb(NR_UE_info_t * const UE, int const rb_id) nr_pdcp_statistics_t get_pdcp_stats_per_drb(const uint32_t rrc_ue_id)
{ {
assert(UE != NULL);
nr_pdcp_statistics_t pdcp = {0}; nr_pdcp_statistics_t pdcp = {0};
const int srb_flag = 0; const int srb_flag = 0;
const int rb_id = 1; // at the moment, only 1 DRB is supported
// Get PDCP stats for specific DRB // Get PDCP stats for specific DRB
const bool rc = nr_pdcp_get_statistics(UE->rnti, srb_flag, rb_id, &pdcp); const bool rc = nr_pdcp_get_statistics(rrc_ue_id, srb_flag, rb_id, &pdcp);
assert(rc == true && "Cannot get PDCP stats\n"); assert(rc == true && "Cannot get PDCP stats\n");
return pdcp; return pdcp;
...@@ -91,8 +144,7 @@ gnb_e2sm_t fill_gnb_data(rrc_gNB_ue_context_t * ue_context_p) ...@@ -91,8 +144,7 @@ gnb_e2sm_t fill_gnb_data(rrc_gNB_ue_context_t * ue_context_p)
// 6.2.3.16 // 6.2.3.16
// Mandatory // Mandatory
// AMF UE NGAP ID // AMF UE NGAP ID
// fill with openair3/NGAP/ngap_gNB_ue_context.h:61 gnb.amf_ue_ngap_id = ue_context_p->ue_context.rrc_ue_id;
gnb.amf_ue_ngap_id = ue_context_p->ue_context.gNB_ue_ngap_id;
// Mandatory // Mandatory
//GUAMI 6.2.3.17 //GUAMI 6.2.3.17
...@@ -109,18 +161,43 @@ gnb_e2sm_t fill_gnb_data(rrc_gNB_ue_context_t * ue_context_p) ...@@ -109,18 +161,43 @@ gnb_e2sm_t fill_gnb_data(rrc_gNB_ue_context_t * ue_context_p)
return gnb; return gnb;
} }
static
static gnb_du_e2sm_t fill_gnb_du_data(const f1_ue_data_t * rrc_ue_id)
ue_id_e2sm_t fill_ue_id_data(rrc_gNB_ue_context_t * ue_context_p)
{ {
ue_id_e2sm_t ue_id_data = {0}; gnb_du_e2sm_t gnb_du = {0};
ue_id_data.type = GNB_UE_ID_E2SM; // 6.2.3.21
ue_id_data.gnb = fill_gnb_data(ue_context_p); // gNB CU UE F1AP
// Mandatory
gnb_du.gnb_cu_ue_f1ap = rrc_ue_id->secondary_ue;
// 6.2.3.25
// RAN UE ID
// Optional
gnb_du.ran_ue_id = NULL;
return ue_id_data; return gnb_du;
} }
static
gnb_cu_up_e2sm_t fill_gnb_cu_up_data(const uint32_t rrc_ue_id)
{
gnb_cu_up_e2sm_t gnb_cu_up = {0};
// 6.2.3.20
// gNB CU CP UE E1AP
// Mandatory
gnb_cu_up.gnb_cu_cp_ue_e1ap = rrc_ue_id;
// 6.2.3.25
// RAN UE ID
// Optional
gnb_cu_up.ran_ue_id = NULL;
return gnb_cu_up;
}
uint32_t last_dl_rlc_pdu_total_bytes[MAX_MOBILES_PER_GNB] = {0}; uint32_t last_dl_rlc_pdu_total_bytes[MAX_MOBILES_PER_GNB] = {0};
...@@ -130,8 +207,148 @@ uint32_t last_ul_total_prbs[MAX_MOBILES_PER_GNB] = {0}; ...@@ -130,8 +207,148 @@ uint32_t last_ul_total_prbs[MAX_MOBILES_PER_GNB] = {0};
uint32_t last_dl_pdcp_sdu_total_bytes[MAX_MOBILES_PER_GNB] = {0}; uint32_t last_dl_pdcp_sdu_total_bytes[MAX_MOBILES_PER_GNB] = {0};
uint32_t last_ul_pdcp_sdu_total_bytes[MAX_MOBILES_PER_GNB] = {0}; uint32_t last_ul_pdcp_sdu_total_bytes[MAX_MOBILES_PER_GNB] = {0};
static
kpm_ind_msg_format_1_t fill_kpm_ind_msg_frm_1(NR_UE_info_t* const UE, size_t const ue_idx, kpm_act_def_format_1_t const * act_def_fr_1) static
meas_record_lst_t fill_ue_mac_rlc_data(const NR_UE_info_t* UE, const size_t ue_idx, const char * meas_info_name_str, const uint32_t gran_period_ms)
{
assert(UE != NULL);
meas_record_lst_t meas_record = {0};
// Get RLC stats per DRB
nr_rlc_statistics_t rlc = get_rlc_stats_per_drb(UE);
// Measurement Type as requested in Action Definition
if (strcmp(meas_info_name_str, "DRB.UEThpDl") == 0) // 3GPP TS 28.522 - section 5.1.1.3.1
{
meas_record.value = REAL_MEAS_VALUE;
// Calculate DL Thp
meas_record.real_val = (double)(rlc.txpdu_bytes - last_dl_rlc_pdu_total_bytes[ue_idx])*8/gran_period_ms; // [kbps]
last_dl_rlc_pdu_total_bytes[ue_idx] = rlc.txpdu_bytes;
/* note: per spec, average UE throughput in DL (taken into consideration values from all UEs, and averaged)
here calculated as: UE specific throughput in DL */
}
else if (strcmp(meas_info_name_str, "DRB.UEThpUl") == 0) // 3GPP TS 28.522 - section 5.1.1.3.3
{
meas_record.value = REAL_MEAS_VALUE;
// Calculate UL Thp
meas_record.real_val = (double)(rlc.rxpdu_bytes - last_ul_rlc_pdu_total_bytes[ue_idx])*8/gran_period_ms; // [kbps]
last_ul_rlc_pdu_total_bytes[ue_idx] = rlc.rxpdu_bytes;
/* note: per spec, average UE throughput in UL (taken into consideration values from all UEs, and averaged)
here calculated as: UE specific throughput in UL */
}
else if (strcmp(meas_info_name_str, "DRB.RlcSduDelayDl") == 0) // 3GPP TS 28.522 - section 5.1.3.3.3
{
meas_record.value = REAL_MEAS_VALUE;
// Get the value of sojourn time at the RLC buffer
meas_record.real_val = rlc.txsdu_avg_time_to_tx; // [μs]
/* note: by default this measurement is calculated for previous 100ms (openair2/LAYER2/nr_rlc/nr_rlc_entity.c:118, 173, 213); please, update according to your needs */
}
else if (strcmp(meas_info_name_str, "RRU.PrbTotDl") == 0) // 3GPP TS 28.522 - section 5.1.1.2.1
{
meas_record.value = INTEGER_MEAS_VALUE;
// Get the number of DL PRBs
meas_record.int_val = UE->mac_stats.dl.total_rbs - last_dl_total_prbs[ue_idx]; // [PRBs]
last_dl_total_prbs[ue_idx] = UE->mac_stats.dl.total_rbs;
/* note: per spec, DL PRB usage [%] = (total used PRBs for DL traffic / total available PRBs for DL traffic) * 100
here calculated as: aggregated DL PRBs (t) - aggregated DL PRBs (t-gran_period) */
}
else if (strcmp(meas_info_name_str, "RRU.PrbTotUl") == 0) // 3GPP TS 28.522 - section 5.1.1.2.2
{
meas_record.value = INTEGER_MEAS_VALUE;
// Get the number of UL PRBs
meas_record.int_val = UE->mac_stats.ul.total_rbs - last_ul_total_prbs[ue_idx]; // [PRBs]
last_ul_total_prbs[ue_idx] = UE->mac_stats.ul.total_rbs;
/* note: per spec, UL PRB usage [%] = (total used PRBs for UL traffic / total available PRBs for UL traffic) * 100
here calculated as: aggregated UL PRBs (t) - aggregated UL PRBs (t-gran_period) */
}
else
{
assert(false && "Measurement Name not yet implemented");
}
return meas_record;
}
static
meas_record_lst_t fill_ue_pdcp_data(const uint32_t rrc_ue_id, const size_t ue_idx, const char * meas_info_name_str)
{
meas_record_lst_t meas_record = {0};
// Get PDCP stats per DRB
nr_pdcp_statistics_t pdcp = get_pdcp_stats_per_drb(rrc_ue_id);
// Measurement Type as requested in Action Definition
if (strcmp(meas_info_name_str, "DRB.PdcpSduVolumeDL") == 0) // 3GPP TS 28.522 - section 5.1.2.1.1.1
{
meas_record.value = INTEGER_MEAS_VALUE;
// Get DL data volume delivered to PDCP layer
meas_record.int_val = (pdcp.rxsdu_bytes - last_dl_pdcp_sdu_total_bytes[ue_idx])*8/1000; // [kb]
last_dl_pdcp_sdu_total_bytes[ue_idx] = pdcp.rxsdu_bytes;
/* note: this measurement is calculated as per spec */
}
else if (strcmp(meas_info_name_str, "DRB.PdcpSduVolumeUL") == 0) // 3GPP TS 28.522 - section 5.1.2.1.2.1
{
meas_record.value = INTEGER_MEAS_VALUE;
// Get UL data volume delivered from PDCP layer
meas_record.int_val = (pdcp.txsdu_bytes - last_ul_pdcp_sdu_total_bytes[ue_idx])*8/1000; // [kb]
last_ul_pdcp_sdu_total_bytes[ue_idx] = pdcp.txsdu_bytes;
/* note: this measurement is calculated as per spec */
}
else
{
assert(false && "Measurement Name not yet implemented");
}
return meas_record;
}
static
meas_info_format_1_lst_t * fill_kpm_meas_info_frm_1(const size_t len, const kpm_act_def_format_1_t * act_def_fr_1)
{
meas_info_format_1_lst_t * meas_info_lst = calloc(len, sizeof(meas_info_format_1_lst_t));
assert(meas_info_lst != NULL && "Memory exhausted" );
// Get measInfo from action definition
for (size_t i = 0; i < len; i++)
{
// Measurement Type
meas_info_lst[i].meas_type.type = act_def_fr_1->meas_info_lst[i].meas_type.type;
// Measurement Name
if (act_def_fr_1->meas_info_lst[i].meas_type.type == NAME_MEAS_TYPE) {
meas_info_lst[i].meas_type.name.buf = calloc(act_def_fr_1->meas_info_lst[i].meas_type.name.len, sizeof(uint8_t));
memcpy(meas_info_lst[i].meas_type.name.buf, act_def_fr_1->meas_info_lst[i].meas_type.name.buf, act_def_fr_1->meas_info_lst[i].meas_type.name.len);
meas_info_lst[i].meas_type.name.len = act_def_fr_1->meas_info_lst[i].meas_type.name.len;
} else {
meas_info_lst[i].meas_type.id = act_def_fr_1->meas_info_lst[i].meas_type.id;
}
// Label Information
meas_info_lst[i].label_info_lst_len = 1;
meas_info_lst[i].label_info_lst = calloc(meas_info_lst[i].label_info_lst_len, sizeof(label_info_lst_t));
assert(meas_info_lst[i].label_info_lst != NULL && "Memory exhausted" );
for (size_t j = 0; j < meas_info_lst[i].label_info_lst_len; j++) {
meas_info_lst[i].label_info_lst[j].noLabel = malloc(sizeof(enum_value_e));
*meas_info_lst[i].label_info_lst[j].noLabel = TRUE_ENUM_VALUE;
}
}
return meas_info_lst;
}
static
kpm_ind_msg_format_1_t fill_kpm_ind_msg_frm_1_in_du(const NR_UE_info_t* UE, const size_t ue_idx, const kpm_act_def_format_1_t * act_def_fr_1)
{ {
kpm_ind_msg_format_1_t msg_frm_1 = {0}; kpm_ind_msg_format_1_t msg_frm_1 = {0};
...@@ -142,105 +359,26 @@ kpm_ind_msg_format_1_t fill_kpm_ind_msg_frm_1(NR_UE_info_t* const UE, size_t con ...@@ -142,105 +359,26 @@ kpm_ind_msg_format_1_t fill_kpm_ind_msg_frm_1(NR_UE_info_t* const UE, size_t con
msg_frm_1.meas_data_lst = calloc(msg_frm_1.meas_data_lst_len, sizeof(*msg_frm_1.meas_data_lst)); msg_frm_1.meas_data_lst = calloc(msg_frm_1.meas_data_lst_len, sizeof(*msg_frm_1.meas_data_lst));
assert(msg_frm_1.meas_data_lst != NULL && "Memory exhausted" ); assert(msg_frm_1.meas_data_lst != NULL && "Memory exhausted" );
for (size_t i = 0; i<msg_frm_1.meas_data_lst_len; i++) for (size_t i = 0; i<msg_frm_1.meas_data_lst_len; i++)
{ {
meas_data_lst_t* meas_data = &msg_frm_1.meas_data_lst[i];
// Get RLC stats per DRB
nr_rlc_statistics_t rlc = get_rlc_stats_per_drb(UE, i+1);
// Get PDCP stats per DRB
nr_pdcp_statistics_t pdcp = get_pdcp_stats_per_drb(UE, i+1);
// Measurement Record // Measurement Record
meas_data->meas_record_len = act_def_fr_1->meas_info_lst_len; // record data list length corresponds to info list length from action definition msg_frm_1.meas_data_lst[i].meas_record_len = act_def_fr_1->meas_info_lst_len; // record data list length corresponds to info list length from action definition
meas_data->meas_record_lst = calloc(meas_data->meas_record_len, sizeof(meas_record_lst_t)); msg_frm_1.meas_data_lst[i].meas_record_lst = calloc(msg_frm_1.meas_data_lst[i].meas_record_len, sizeof(meas_record_lst_t));
assert(meas_data->meas_record_lst != NULL && "Memory exhausted"); assert(msg_frm_1.meas_data_lst[i].meas_record_lst != NULL && "Memory exhausted");
for (size_t j = 0; j < meas_data->meas_record_len; j++) // each meas record corresponds to one meas type for (size_t j = 0; j < msg_frm_1.meas_data_lst[i].meas_record_len; j++) // each meas record corresponds to one meas type
{ {
meas_record_lst_t* meas_record = &meas_data->meas_record_lst[j];
// Measurement Type as requested in Action Definition // Measurement Type as requested in Action Definition
meas_type_t const meas_info_type = act_def_fr_1->meas_info_lst[j].meas_type; switch (act_def_fr_1->meas_info_lst[j].meas_type.type)
switch (meas_info_type.type)
{ {
case NAME_MEAS_TYPE: case NAME_MEAS_TYPE:
{ {
char meas_info_name_str[meas_info_type.name.len + 1]; char meas_info_name_str[act_def_fr_1->meas_info_lst[j].meas_type.name.len + 1];
memcpy(meas_info_name_str, meas_info_type.name.buf, meas_info_type.name.len); memcpy(meas_info_name_str, act_def_fr_1->meas_info_lst[j].meas_type.name.buf, act_def_fr_1->meas_info_lst[j].meas_type.name.len);
meas_info_name_str[meas_info_type.name.len] = '\0'; meas_info_name_str[act_def_fr_1->meas_info_lst[j].meas_type.name.len] = '\0';
if (strcmp(meas_info_name_str, "DRB.UEThpDl") == 0) // 3GPP TS 28.522 - section 5.1.1.3.1
{
meas_record->value = REAL_MEAS_VALUE;
// Calculate DL Thp
meas_record->real_val = (double)(rlc.txpdu_bytes - last_dl_rlc_pdu_total_bytes[ue_idx])*8/act_def_fr_1->gran_period_ms; // [kbps]
last_dl_rlc_pdu_total_bytes[ue_idx] = rlc.txpdu_bytes;
/* note: per spec, average UE throughput in DL (taken into consideration values from all UEs, and averaged)
here calculated as: UE specific throughput in DL */
}
else if (strcmp(meas_info_name_str, "DRB.UEThpUl") == 0) // 3GPP TS 28.522 - section 5.1.1.3.3
{
meas_record->value = REAL_MEAS_VALUE;
// Calculate UL Thp
meas_record->real_val = (double)(rlc.rxpdu_bytes - last_ul_rlc_pdu_total_bytes[ue_idx])*8/act_def_fr_1->gran_period_ms; // [kbps]
last_ul_rlc_pdu_total_bytes[ue_idx] = rlc.rxpdu_bytes;
/* note: per spec, average UE throughput in UL (taken into consideration values from all UEs, and averaged)
here calculated as: UE specific throughput in UL */
}
else if (strcmp(meas_info_name_str, "DRB.RlcSduDelayDl") == 0) // 3GPP TS 28.522 - section 5.1.3.3.3
{
meas_record->value = REAL_MEAS_VALUE;
// Get the value of sojourn time at the RLC buffer
meas_record->real_val = rlc.txsdu_avg_time_to_tx; // [μs]
/* note: by default this measurement is calculated for previous 100ms (openair2/LAYER2/nr_rlc/nr_rlc_entity.c:118, 173, 213); please, update according to your needs */
}
else if (strcmp(meas_info_name_str, "RRU.PrbTotDl") == 0) // 3GPP TS 28.522 - section 5.1.1.2.1
{
meas_record->value = INTEGER_MEAS_VALUE;
// Get the number of DL PRBs
meas_record->int_val = UE->mac_stats.dl.total_rbs - last_dl_total_prbs[ue_idx]; // [PRBs]
last_dl_total_prbs[ue_idx] = UE->mac_stats.dl.total_rbs;
/* note: per spec, DL PRB usage [%] = (total used PRBs for DL traffic / total available PRBs for DL traffic) * 100
here calculated as: aggregated DL PRBs (t) - aggregated DL PRBs (t-gran_period) */
}
else if (strcmp(meas_info_name_str, "RRU.PrbTotUl") == 0) // 3GPP TS 28.522 - section 5.1.1.2.2
{
meas_record->value = INTEGER_MEAS_VALUE;
// Get the number of UL PRBs
meas_record->int_val = UE->mac_stats.ul.total_rbs - last_ul_total_prbs[ue_idx]; // [PRBs]
last_ul_total_prbs[ue_idx] = UE->mac_stats.ul.total_rbs;
/* note: per spec, UL PRB usage [%] = (total used PRBs for UL traffic / total available PRBs for UL traffic) * 100
here calculated as: aggregated UL PRBs (t) - aggregated UL PRBs (t-gran_period) */
}
else if (strcmp(meas_info_name_str, "DRB.PdcpSduVolumeDL") == 0) // 3GPP TS 28.522 - section 5.1.2.1.1.1
{
meas_record->value = INTEGER_MEAS_VALUE;
// Get DL data volume delivered to PDCP layer
meas_record->int_val = (pdcp.rxsdu_bytes - last_dl_pdcp_sdu_total_bytes[ue_idx])*8/1000; // [kb]
last_dl_pdcp_sdu_total_bytes[ue_idx] = pdcp.rxsdu_bytes;
/* note: this measurement is calculated as per spec */
}
else if (strcmp(meas_info_name_str, "DRB.PdcpSduVolumeUL") == 0) // 3GPP TS 28.522 - section 5.1.2.1.2.1
{
meas_record->value = INTEGER_MEAS_VALUE;
// Get UL data volume delivered from PDCP layer
meas_record->int_val = (pdcp.txsdu_bytes - last_ul_pdcp_sdu_total_bytes[ue_idx])*8/1000; // [kb]
last_ul_pdcp_sdu_total_bytes[ue_idx] = pdcp.txsdu_bytes;
/* note: this measurement is calculated as per spec */
}
msg_frm_1.meas_data_lst[i].meas_record_lst[j] = fill_ue_mac_rlc_data(UE, ue_idx, meas_info_name_str, act_def_fr_1->gran_period_ms);
break; break;
} }
...@@ -258,124 +396,214 @@ kpm_ind_msg_format_1_t fill_kpm_ind_msg_frm_1(NR_UE_info_t* const UE, size_t con ...@@ -258,124 +396,214 @@ kpm_ind_msg_format_1_t fill_kpm_ind_msg_frm_1(NR_UE_info_t* const UE, size_t con
// Measurement Information - OPTIONAL // Measurement Information - OPTIONAL
msg_frm_1.meas_info_lst_len = act_def_fr_1->meas_info_lst_len; msg_frm_1.meas_info_lst_len = act_def_fr_1->meas_info_lst_len;
msg_frm_1.meas_info_lst = calloc(msg_frm_1.meas_info_lst_len, sizeof(meas_info_format_1_lst_t)); msg_frm_1.meas_info_lst = fill_kpm_meas_info_frm_1(msg_frm_1.meas_info_lst_len, act_def_fr_1);
assert(msg_frm_1.meas_info_lst != NULL && "Memory exhausted" );
// Get measInfo from action definition return msg_frm_1;
for (size_t i = 0; i < msg_frm_1.meas_info_lst_len; i++) { }
// Measurement Type
msg_frm_1.meas_info_lst[i].meas_type.type = act_def_fr_1->meas_info_lst[i].meas_type.type;
// Measurement Name
if (act_def_fr_1->meas_info_lst[i].meas_type.type == NAME_MEAS_TYPE) {
msg_frm_1.meas_info_lst[i].meas_type.name.buf = calloc(act_def_fr_1->meas_info_lst[i].meas_type.name.len, sizeof(uint8_t));
memcpy(msg_frm_1.meas_info_lst[i].meas_type.name.buf, act_def_fr_1->meas_info_lst[i].meas_type.name.buf, act_def_fr_1->meas_info_lst[i].meas_type.name.len);
msg_frm_1.meas_info_lst[i].meas_type.name.len = act_def_fr_1->meas_info_lst[i].meas_type.name.len;
} else {
msg_frm_1.meas_info_lst[i].meas_type.id = act_def_fr_1->meas_info_lst[i].meas_type.id;
}
static
kpm_ind_msg_format_3_t fill_kpm_ind_msg_frm_3_in_du(const matched_ues_mac_t matched_ues, const kpm_act_def_format_1_t * act_def_fr_1)
{
assert(act_def_fr_1 != NULL);
// Label Information
msg_frm_1.meas_info_lst[i].label_info_lst_len = 1;
msg_frm_1.meas_info_lst[i].label_info_lst = calloc(msg_frm_1.meas_info_lst[i].label_info_lst_len, sizeof(label_info_lst_t));
assert(msg_frm_1.meas_info_lst[i].label_info_lst != NULL && "Memory exhausted" );
for (size_t j = 0; j < msg_frm_1.meas_info_lst[i].label_info_lst_len; j++) { kpm_ind_msg_format_3_t msg_frm_3 = {0};
msg_frm_1.meas_info_lst[i].label_info_lst[j].noLabel = malloc(sizeof(enum_value_e));
*msg_frm_1.meas_info_lst[i].label_info_lst[j].noLabel = TRUE_ENUM_VALUE;
}
}
return msg_frm_1; // Fill UE Measurement Reports
}
msg_frm_3.ue_meas_report_lst_len = matched_ues.num_ues;
msg_frm_3.meas_report_per_ue = calloc(msg_frm_3.ue_meas_report_lst_len, sizeof(meas_report_per_ue_t));
assert(msg_frm_3.meas_report_per_ue != NULL && "Memory exhausted");
for (size_t i = 0; i<msg_frm_3.ue_meas_report_lst_len; i++)
{
// Fill UE ID data
f1_ue_data_t rrc_ue_id = du_get_f1_ue_data(matched_ues.ue_list[i].rnti); // get gNB CU UE ID as rrc_ue_id
msg_frm_3.meas_report_per_ue[i].ue_meas_report_lst.type = GNB_DU_UE_ID_E2SM;
msg_frm_3.meas_report_per_ue[i].ue_meas_report_lst.gnb_du = fill_gnb_du_data(&rrc_ue_id);
// Fill UE related info
msg_frm_3.meas_report_per_ue[i].ind_msg_format_1 = fill_kpm_ind_msg_frm_1_in_du(&matched_ues.ue_list[i], i, act_def_fr_1);
}
typedef struct {
NR_UE_info_t *ue_list; return msg_frm_3;
size_t num_ues; }
} matched_ues_t;
static static
matched_ues_t filter_ues_by_s_nssai_criteria(test_cond_e const * condition, int64_t const value, NR_UE_info_t * ue_list, size_t const num_connected_ues) kpm_ind_msg_format_1_t fill_kpm_ind_msg_frm_1_in_cu(const uint32_t rrc_ue_id, const size_t ue_idx, const kpm_act_def_format_1_t * act_def_fr_1)
{ {
matched_ues_t matched_ues = {.num_ues = 0, .ue_list = calloc(num_connected_ues, sizeof(NR_UE_info_t))}; kpm_ind_msg_format_1_t msg_frm_1 = {0};
assert(matched_ues.ue_list != NULL && "Memory exhausted");
assert(RC.nb_nr_inst == 1 && "Number of RRC instances greater than 1 not yet implemented"); // Measurement Data contains a set of Meas Records, each collected at each granularity period
msg_frm_1.meas_data_lst_len = 1; /* this value is equal to (kpm_ric_event_trigger_format_1.report_period_ms/act_def_fr_1->gran_period_ms)
please, check their values in xApp */
// Check if each UE satisfies the given S-NSSAI criteria msg_frm_1.meas_data_lst = calloc(msg_frm_1.meas_data_lst_len, sizeof(*msg_frm_1.meas_data_lst));
for (size_t i = 0; i<num_connected_ues; i++) assert(msg_frm_1.meas_data_lst != NULL && "Memory exhausted" );
for (size_t i = 0; i<msg_frm_1.meas_data_lst_len; i++)
{ {
rrc_gNB_ue_context_t *rrc_ue_context_list = rrc_gNB_get_ue_context_by_rnti(RC.nrrrc[0], ue_list[i].rnti); // Measurement Record
ngap_gNB_ue_context_t *ngap_ue_context_list = ngap_get_ue_context(rrc_ue_context_list->ue_context.gNB_ue_ngap_id); msg_frm_1.meas_data_lst[i].meas_record_len = act_def_fr_1->meas_info_lst_len; // record data list length corresponds to info list length from action definition
switch (*condition) msg_frm_1.meas_data_lst[i].meas_record_lst = calloc(msg_frm_1.meas_data_lst[i].meas_record_len, sizeof(meas_record_lst_t));
assert(msg_frm_1.meas_data_lst[i].meas_record_lst != NULL && "Memory exhausted");
for (size_t j = 0; j < msg_frm_1.meas_data_lst[i].meas_record_len; j++) // each meas record corresponds to one meas type
{ {
case EQUAL_TEST_COND: // Measurement Type as requested in Action Definition
assert(ngap_ue_context_list->gNB_instance[0].s_nssai[0][0].sST == value && "Please, check the condition for S-NSSAI. At the moment, OAI supports eMBB"); switch (act_def_fr_1->meas_info_lst[j].meas_type.type)
matched_ues.ue_list[matched_ues.num_ues] = ue_list[i]; {
matched_ues.num_ues++; case NAME_MEAS_TYPE:
break; {
char meas_info_name_str[act_def_fr_1->meas_info_lst[j].meas_type.name.len + 1];
default: memcpy(meas_info_name_str, act_def_fr_1->meas_info_lst[j].meas_type.name.buf, act_def_fr_1->meas_info_lst[j].meas_type.name.len);
assert(false && "Condition not yet implemented"); meas_info_name_str[act_def_fr_1->meas_info_lst[j].meas_type.name.len] = '\0';
msg_frm_1.meas_data_lst[i].meas_record_lst[j] = fill_ue_pdcp_data(rrc_ue_id, ue_idx, meas_info_name_str);
break;
}
case ID_MEAS_TYPE:
assert(false && "ID Measurement Type not yet implemented");
break;
default:
assert(false && "Measurement Type not recognized");
break;
}
} }
} }
return matched_ues; // Measurement Information - OPTIONAL
msg_frm_1.meas_info_lst_len = act_def_fr_1->meas_info_lst_len;
msg_frm_1.meas_info_lst = fill_kpm_meas_info_frm_1(msg_frm_1.meas_info_lst_len, act_def_fr_1);
return msg_frm_1;
} }
static static
kpm_ind_msg_format_3_t fill_kpm_ind_msg_frm_3(const kpm_act_def_format_4_t * act_def_fr_4) kpm_ind_msg_format_3_t fill_kpm_ind_msg_frm_3_in_cu(const matched_ues_rrc_t matched_ues, const kpm_act_def_format_1_t * act_def_fr_1)
{ {
assert(act_def_fr_1 != NULL);
kpm_ind_msg_format_3_t msg_frm_3 = {0}; kpm_ind_msg_format_3_t msg_frm_3 = {0};
// Get the number of connected UEs and its info (RNTI)
msg_frm_3.ue_meas_report_lst_len = get_number_connected_ues(); // (rand() % 65535) + 1;
assert(msg_frm_3.ue_meas_report_lst_len != 0 && "Number of UEs to report must be greater than 0");
NR_UE_info_t * ue_list = connected_ues_list(); // Fill UE Measurement Reports
msg_frm_3.ue_meas_report_lst_len = matched_ues.num_ues;
msg_frm_3.meas_report_per_ue = calloc(msg_frm_3.ue_meas_report_lst_len, sizeof(meas_report_per_ue_t));
assert(msg_frm_3.meas_report_per_ue != NULL && "Memory exhausted");
for (size_t i = 0; i<msg_frm_3.ue_meas_report_lst_len; i++)
{
// Fill UE ID data
msg_frm_3.meas_report_per_ue[i].ue_meas_report_lst.type = GNB_CU_UP_UE_ID_E2SM;
msg_frm_3.meas_report_per_ue[i].ue_meas_report_lst.gnb_cu_up = fill_gnb_cu_up_data(matched_ues.rrc_ue_id_list[i].secondary_ue);
// Fill UE related info
msg_frm_3.meas_report_per_ue[i].ind_msg_format_1 = fill_kpm_ind_msg_frm_1_in_cu(matched_ues.rrc_ue_id_list[i].secondary_ue, i, act_def_fr_1);
}
// Filter the UE by the test condition criteria return msg_frm_3;
matched_ues_t matched_ues = {0}; }
static
kpm_ind_msg_format_1_t fill_kpm_ind_msg_frm_1_in_monolithic(const NR_UE_info_t* UE, const size_t ue_idx, const uint32_t rrc_ue_id, const kpm_act_def_format_1_t * act_def_fr_1)
{
kpm_ind_msg_format_1_t msg_frm_1 = {0};
// Measurement Data contains a set of Meas Records, each collected at each granularity period
msg_frm_1.meas_data_lst_len = 1; /* this value is equal to (kpm_ric_event_trigger_format_1.report_period_ms/act_def_fr_1->gran_period_ms)
please, check their values in xApp */
msg_frm_1.meas_data_lst = calloc(msg_frm_1.meas_data_lst_len, sizeof(*msg_frm_1.meas_data_lst));
assert(msg_frm_1.meas_data_lst != NULL && "Memory exhausted" );
for (size_t i = 0; i<msg_frm_1.meas_data_lst_len; i++)
{
// Measurement Record
msg_frm_1.meas_data_lst[i].meas_record_len = act_def_fr_1->meas_info_lst_len; // record data list length corresponds to info list length from action definition
msg_frm_1.meas_data_lst[i].meas_record_lst = calloc(msg_frm_1.meas_data_lst[i].meas_record_len, sizeof(meas_record_lst_t));
assert(msg_frm_1.meas_data_lst[i].meas_record_lst != NULL && "Memory exhausted");
for (size_t j = 0; j<act_def_fr_4->matching_cond_lst_len; j++) for (size_t j = 0; j < msg_frm_1.meas_data_lst[i].meas_record_len; j++) // each meas record corresponds to one meas type
{ {
switch (act_def_fr_4->matching_cond_lst[j].test_info_lst.test_cond_type) // Measurement Type as requested in Action Definition
switch (act_def_fr_1->meas_info_lst[j].meas_type.type)
{ {
case S_NSSAI_TEST_COND_TYPE: case NAME_MEAS_TYPE:
assert(act_def_fr_4->matching_cond_lst[j].test_info_lst.S_NSSAI == TRUE_TEST_COND_TYPE && "Must be true"); {
char meas_info_name_str[act_def_fr_1->meas_info_lst[j].meas_type.name.len + 1];
memcpy(meas_info_name_str, act_def_fr_1->meas_info_lst[j].meas_type.name.buf, act_def_fr_1->meas_info_lst[j].meas_type.name.len);
meas_info_name_str[act_def_fr_1->meas_info_lst[j].meas_type.name.len] = '\0';
if (strcmp(meas_info_name_str, "DRB.PdcpSduVolumeDL") == 0 || strcmp(meas_info_name_str, "DRB.PdcpSduVolumeUL") == 0)
{
msg_frm_1.meas_data_lst[i].meas_record_lst[j] = fill_ue_pdcp_data(rrc_ue_id, ue_idx, meas_info_name_str);
}
else
{
msg_frm_1.meas_data_lst[i].meas_record_lst[j] = fill_ue_mac_rlc_data(UE, ue_idx, meas_info_name_str, act_def_fr_1->gran_period_ms);
}
matched_ues = filter_ues_by_s_nssai_criteria(act_def_fr_4->matching_cond_lst[j].test_info_lst.test_cond, *act_def_fr_4->matching_cond_lst[j].test_info_lst.int_value, ue_list, msg_frm_3.ue_meas_report_lst_len);
break; break;
default:
assert(false && "Test condition type not yet implemented");
} }
case ID_MEAS_TYPE:
assert(false && "ID Measurement Type not yet implemented");
break;
default:
assert(false && "Measurement Type not recognized");
break;
}
} }
}
// Fill UE Measurement Reports // Measurement Information - OPTIONAL
assert(matched_ues.num_ues >= 1 && "The number of filtered UEs must be at least equal to 1"); msg_frm_1.meas_info_lst_len = act_def_fr_1->meas_info_lst_len;
msg_frm_3.meas_report_per_ue = calloc(matched_ues.num_ues, sizeof(meas_report_per_ue_t)); msg_frm_1.meas_info_lst = fill_kpm_meas_info_frm_1(msg_frm_1.meas_info_lst_len, act_def_fr_1);
assert(msg_frm_3.meas_report_per_ue != NULL && "Memory exhausted");
for (size_t i = 0; i<matched_ues.num_ues; i++)
{
// Fill UE ID data
rrc_gNB_ue_context_t *rrc_ue_context_list = rrc_gNB_get_ue_context_by_rnti(RC.nrrrc[0], matched_ues.ue_list[i].rnti);
msg_frm_3.meas_report_per_ue[i].ue_meas_report_lst = fill_ue_id_data(rrc_ue_context_list);
// Fill UE related info
msg_frm_3.meas_report_per_ue[i].ind_msg_format_1 = fill_kpm_ind_msg_frm_1(&matched_ues.ue_list[i], i, &act_def_fr_4->action_def_format_1);
}
return msg_frm_1;
}
static
kpm_ind_msg_format_3_t fill_kpm_ind_msg_frm_3_in_monolithic(const matched_ues_mac_t matched_ues, const kpm_act_def_format_1_t * act_def_fr_1)
{
assert(act_def_fr_1 != NULL);
kpm_ind_msg_format_3_t msg_frm_3 = {0};
// Fill UE Measurement Reports
msg_frm_3.ue_meas_report_lst_len = matched_ues.num_ues;
msg_frm_3.meas_report_per_ue = calloc(msg_frm_3.ue_meas_report_lst_len, sizeof(meas_report_per_ue_t));
assert(msg_frm_3.meas_report_per_ue != NULL && "Memory exhausted");
for (size_t i = 0; i<msg_frm_3.ue_meas_report_lst_len; i++)
{
// Fill UE ID data
rrc_gNB_ue_context_t *rrc_ue_context_list = rrc_gNB_get_ue_context_by_rnti(RC.nrrrc[0], matched_ues.ue_list[i].rnti);
msg_frm_3.meas_report_per_ue[i].ue_meas_report_lst.type = GNB_UE_ID_E2SM;
msg_frm_3.meas_report_per_ue[i].ue_meas_report_lst.gnb = fill_gnb_data(rrc_ue_context_list);
// Fill UE related info
msg_frm_3.meas_report_per_ue[i].ind_msg_format_1 = fill_kpm_ind_msg_frm_1_in_monolithic(&matched_ues.ue_list[i], i, rrc_ue_context_list->ue_context.rrc_ue_id, act_def_fr_1);
}
return msg_frm_3; return msg_frm_3;
} }
static static
kpm_ric_ind_hdr_format_1_t fill_kpm_ind_hdr_frm_1(void) kpm_ric_ind_hdr_format_1_t fill_kpm_ind_hdr_frm_1(void)
{ {
...@@ -384,16 +612,45 @@ kpm_ric_ind_hdr_format_1_t fill_kpm_ind_hdr_frm_1(void) ...@@ -384,16 +612,45 @@ kpm_ric_ind_hdr_format_1_t fill_kpm_ind_hdr_frm_1(void)
hdr_frm_1.collectStartTime = time_now_us(); hdr_frm_1.collectStartTime = time_now_us();
hdr_frm_1.fileformat_version = NULL; hdr_frm_1.fileformat_version = NULL;
// Check E2 Node NG-RAN Type
if (NODE_IS_DU(RC.nrrrc[0]->node_type))
{
hdr_frm_1.sender_name = calloc(1, sizeof(byte_array_t));
hdr_frm_1.sender_name->buf = calloc(strlen("My OAI-DU") + 1, sizeof(char));
memcpy(hdr_frm_1.sender_name->buf, "My OAI-DU", strlen("My OAI-DU"));
hdr_frm_1.sender_name->len = strlen("My OAI-DU");
hdr_frm_1.sender_name = calloc(1, sizeof(byte_array_t)); hdr_frm_1.sender_type = calloc(1, sizeof(byte_array_t));
hdr_frm_1.sender_name->buf = calloc(strlen("My OAI-MONO") + 1, sizeof(char)); hdr_frm_1.sender_type->buf = calloc(strlen("DU") + 1, sizeof(char));
memcpy(hdr_frm_1.sender_name->buf, "My OAI-MONO", strlen("My OAI-MONO")); memcpy(hdr_frm_1.sender_type->buf, "DU", strlen("DU"));
hdr_frm_1.sender_name->len = strlen("My OAI-MONO"); hdr_frm_1.sender_type->len = strlen("DU");
}
else if (NODE_IS_CU(RC.nrrrc[0]->node_type))
{
hdr_frm_1.sender_name = calloc(1, sizeof(byte_array_t));
hdr_frm_1.sender_name->buf = calloc(strlen("My OAI-CU") + 1, sizeof(char));
memcpy(hdr_frm_1.sender_name->buf, "My OAI-CU", strlen("My OAI-CU"));
hdr_frm_1.sender_name->len = strlen("My OAI-CU");
hdr_frm_1.sender_type = calloc(1, sizeof(byte_array_t));
hdr_frm_1.sender_type->buf = calloc(strlen("CU") + 1, sizeof(char));
memcpy(hdr_frm_1.sender_type->buf, "CU", strlen("CU"));
hdr_frm_1.sender_type->len = strlen("CU");
}
else if (NODE_IS_MONOLITHIC(RC.nrrrc[0]->node_type))
{
hdr_frm_1.sender_name = calloc(1, sizeof(byte_array_t));
hdr_frm_1.sender_name->buf = calloc(strlen("My OAI-MONO") + 1, sizeof(char));
memcpy(hdr_frm_1.sender_name->buf, "My OAI-MONO", strlen("My OAI-MONO"));
hdr_frm_1.sender_name->len = strlen("My OAI-MONO");
hdr_frm_1.sender_type = calloc(1, sizeof(byte_array_t));
hdr_frm_1.sender_type->buf = calloc(strlen("MONO") + 1, sizeof(char));
memcpy(hdr_frm_1.sender_type->buf, "MONO", strlen("MONO"));
hdr_frm_1.sender_type->len = strlen("MONO");
}
hdr_frm_1.sender_type = calloc(1, sizeof(byte_array_t));
hdr_frm_1.sender_type->buf = calloc(strlen("MONO") + 1, sizeof(char));
memcpy(hdr_frm_1.sender_type->buf, "MONO", strlen("MONO"));
hdr_frm_1.sender_type->len = strlen("MONO");
hdr_frm_1.vendor_name = calloc(1, sizeof(byte_array_t)); hdr_frm_1.vendor_name = calloc(1, sizeof(byte_array_t));
hdr_frm_1.vendor_name->buf = calloc(strlen("OAI") + 1, sizeof(char)); hdr_frm_1.vendor_name->buf = calloc(strlen("OAI") + 1, sizeof(char));
...@@ -433,7 +690,43 @@ void read_kpm_sm(void* data) ...@@ -433,7 +690,43 @@ void read_kpm_sm(void* data)
kpm->ind.hdr = fill_kpm_ind_hdr(); kpm->ind.hdr = fill_kpm_ind_hdr();
kpm->ind.msg.type = FORMAT_3_INDICATION_MESSAGE; kpm->ind.msg.type = FORMAT_3_INDICATION_MESSAGE;
kpm->ind.msg.frm_3 = fill_kpm_ind_msg_frm_3(&kpm->act_def->frm_4);
// Filter the UE by the test condition criteria
for (size_t i = 0; i<kpm->act_def->frm_4.matching_cond_lst_len; i++)
{
switch (kpm->act_def->frm_4.matching_cond_lst[i].test_info_lst.test_cond_type)
{
case S_NSSAI_TEST_COND_TYPE:
assert(kpm->act_def->frm_4.matching_cond_lst[i].test_info_lst.S_NSSAI == TRUE_TEST_COND_TYPE && "Must be true");
// Check E2 Node NG-RAN Type
if (NODE_IS_DU(RC.nrrrc[0]->node_type))
{
matched_ues_mac_t matched_ues = filter_ues_by_s_nssai_in_du_or_monolithic(kpm->act_def->frm_4.matching_cond_lst[i].test_info_lst.test_cond, *kpm->act_def->frm_4.matching_cond_lst[i].test_info_lst.int_value);
kpm->ind.msg.frm_3 = fill_kpm_ind_msg_frm_3_in_du(matched_ues, &kpm->act_def->frm_4.action_def_format_1);
}
else if (NODE_IS_CU(RC.nrrrc[0]->node_type))
{
matched_ues_rrc_t matched_ues = filter_ues_by_s_nssai_in_cu(kpm->act_def->frm_4.matching_cond_lst[i].test_info_lst.test_cond, *kpm->act_def->frm_4.matching_cond_lst[i].test_info_lst.int_value);
kpm->ind.msg.frm_3 = fill_kpm_ind_msg_frm_3_in_cu(matched_ues, &kpm->act_def->frm_4.action_def_format_1);
}
else if (NODE_IS_MONOLITHIC(RC.nrrrc[0]->node_type))
{
matched_ues_mac_t matched_ues = filter_ues_by_s_nssai_in_du_or_monolithic(kpm->act_def->frm_4.matching_cond_lst[i].test_info_lst.test_cond, *kpm->act_def->frm_4.matching_cond_lst[i].test_info_lst.int_value);
kpm->ind.msg.frm_3 = fill_kpm_ind_msg_frm_3_in_monolithic(matched_ues, &kpm->act_def->frm_4.action_def_format_1);
}
else
{
assert(false && "NG-RAN Type not yet implemented");
}
break;
default:
assert(false && "Test condition type not yet implemented");
}
}
break; break;
} }
...@@ -445,6 +738,7 @@ void read_kpm_sm(void* data) ...@@ -445,6 +738,7 @@ void read_kpm_sm(void* data)
break; break;
} }
} }
} }
......
...@@ -106,10 +106,24 @@ If you are interested in TC and SLICE SMs, please follow the instructions at htt ...@@ -106,10 +106,24 @@ If you are interested in TC and SLICE SMs, please follow the instructions at htt
# 3. Start the process # 3. Start the process
In order to configure E2 agent, please, add the following block in the configuration file:
```bash
e2_agent = {
near_ric_ip_addr = "127.0.0.1";
sm_dir = "/usr/local/lib/flexric/"
}
```
* start the gNB * start the gNB
```bash ```bash
cd oai/cmake_targets/ran_build/build cd oai/cmake_targets/ran_build/build
sudo ./nr-softmodem -O ../../../targets/PROJECTS/GENERIC-NR-5GC/CONF/gnb.sa.band78.fr1.106PRB.usrpb210.conf --gNBs.[0].min_rxtxtime 6 --rfsim --sa --rfsimulator.serveraddr server sudo ./nr-softmodem -O ../../../targets/PROJECTS/GENERIC-NR-5GC/CONF/gnb.sa.band78.fr1.106PRB.usrpb210.conf --rfsim --sa -E
```
* if CU-DU split is used, start the gNB as follows
```bash
sudo ./nr-softmodem -O <path_to_du_conf_file> --rfsim --sa -E
sudo ./nr-softmodem -O <path_to_cu_conf_file> --rfsim --sa -E
``` ```
* start the nrUE * start the nrUE
......
flexric @ 793daf62
Subproject commit ad8ea30ffb67ed2d7b958f04fbc639c92311f79b Subproject commit 793daf62b6f7d5b56062ec9f3cf70e874b6538e3
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