Files
Rúben Soares Silva c1aaf1ef4a Suppress unused argument warnings in PNF files
Signed-off-by: Rúben Soares Silva <rsilva@allbesmart.pt>
2026-05-28 09:29:37 +01:00

2455 lines
96 KiB
C

/*
* SPDX-License-Identifier: LicenseRef-CSSL-1.0
*/
#define _GNU_SOURCE
#include <stdio.h>
#include <stdlib.h>
#include <stdarg.h>
#include <string.h>
#include <unistd.h>
#include "debug.h"
#include "nfapi/oai_integration/vendor_ext.h"
#include "nfapi_pnf_interface.h"
#include "nfapi_nr_interface.h"
#include "nfapi_nr_interface_scf.h"
#include "nfapi.h"
#include "nfapi_pnf.h"
#include "common/ran_context.h"
#include "openair2/PHY_INTERFACE/phy_stub_UE.h"
#include <sys/socket.h>
#include <sys/time.h>
#include <netinet/in.h>
#include <assert.h>
#include <arpa/inet.h>
#include <pthread.h>
#include <errno.h>
#include <pnf.h>
#include <vendor_ext.h>
#include "fapi_stub.h"
#include "common/utils/LOG/log.h"
#include "PHY/INIT/phy_init.h"
#include "PHY/INIT/nr_phy_init.h"
#include "PHY/LTE_TRANSPORT/transport_proto.h"
#include "openair1/PHY/NR_TRANSPORT/nr_dlsch.h"
#include "openair1/PHY/defs_gNB.h"
#include <openair1/SCHED/fapi_l1.h>
#include <openair1/PHY/NR_TRANSPORT/nr_transport_proto.h>
#include "executables/lte-softmodem.h"
#include "nfapi/open-nFAPI/pnf/inc/pnf_p7.h"
#ifdef ENABLE_WLS
#include <nr_fapi_p5.h>
#include <nr_fapi_p7.h>
#include "nfapi/oai_integration/wls_integration/include/wls_pnf.h"
#endif
#ifdef ENABLE_SOCKET
#include <socket/include/socket_pnf.h>
#endif
#define _GNU_SOURCE
extern void phy_init_RU(RU_t *);
extern int config_sync_var;
extern RAN_CONTEXT_t RC;
extern pthread_cond_t nfapi_sync_cond;
extern pthread_mutex_t nfapi_sync_mutex;
extern int nfapi_sync_var;
extern int sync_var;
nfapi_tx_request_pdu_t *tx_request_pdu[1023][10][10]; // [frame][subframe][max_num_pdus]
uint8_t tx_pdus[32][8][4096];
nfapi_ue_release_request_body_t release_rntis;
static nfapi_pnf_p7_config_t *p7_config_g = NULL;
void *pnf_allocate(size_t size) {
return malloc(size);
}
void pnf_deallocate(void *ptr) {
free(ptr);
}
typedef struct {
//public:
uint8_t enabled;
uint32_t rx_port;
uint32_t tx_port;
//std::string tx_addr;
char tx_addr[80];
} udp_data;
typedef struct {
uint16_t index;
uint16_t id;
uint8_t rfs[2];
uint8_t excluded_rfs[2];
udp_data udp;
char local_addr[80];
int local_port;
char *remote_addr;
int remote_port;
uint8_t duplex_mode;
uint16_t dl_channel_bw_support;
uint16_t ul_channel_bw_support;
uint8_t num_dl_layers_supported;
uint8_t num_ul_layers_supported;
uint16_t release_supported;
uint8_t nmm_modes_supported;
uint8_t dl_ues_per_subframe;
uint8_t ul_ues_per_subframe;
uint8_t first_subframe_ind;
// timing information recevied from the vnf
uint8_t timing_window;
uint8_t timing_info_mode;
uint8_t timing_info_period;
} phy_info;
typedef struct {
//public:
uint16_t index;
uint16_t band;
int16_t max_transmit_power;
int16_t min_transmit_power;
uint8_t num_antennas_supported;
uint32_t min_downlink_frequency;
uint32_t max_downlink_frequency;
uint32_t max_uplink_frequency;
uint32_t min_uplink_frequency;
} rf_info;
typedef struct {
int release;
phy_info phys[2];
rf_info rfs[2];
uint8_t sync_mode;
uint8_t location_mode;
uint8_t location_coordinates[6];
uint32_t dl_config_timing;
uint32_t ul_config_timing;
uint32_t tx_timing;
uint32_t hi_dci0_timing;
uint16_t max_phys;
uint16_t max_total_bw;
uint16_t max_total_dl_layers;
uint16_t max_total_ul_layers;
uint8_t shared_bands;
uint8_t shared_pa;
int16_t max_total_power;
uint8_t oui;
uint8_t wireshark_test_mode;
} pnf_info;
typedef struct {
uint16_t phy_id;
nfapi_pnf_config_t *config;
phy_info *phy;
nfapi_pnf_p7_config_t *p7_config;
} pnf_phy_user_data_t;
static pnf_info pnf;
static pthread_t pnf_p5_init_and_receive_pthread;
int nfapitooai_level(int nfapi_level) {
switch(nfapi_level) {
case NFAPI_TRACE_ERROR:
return OAILOG_ERR;
case NFAPI_TRACE_WARN:
return OAILOG_WARNING;
case NFAPI_TRACE_NOTE:
return OAILOG_INFO;
case NFAPI_TRACE_INFO:
return OAILOG_DEBUG;
}
return OAILOG_ERR;
}
void pnf_nfapi_trace(nfapi_trace_level_t nfapi_level, const char *message, ...) {
va_list args;
va_start(args, message);
VLOG( NFAPI_PNF, nfapitooai_level(nfapi_level), message, args);
va_end(args);
}
void *pnf_p7_thread_start(void *ptr) {
NFAPI_TRACE(NFAPI_TRACE_INFO, "[PNF] P7 THREAD %s\n", __FUNCTION__);
nfapi_pnf_p7_config_t *config = (nfapi_pnf_p7_config_t *)ptr;
nfapi_pnf_p7_start(config);
return 0;
}
int pnf_nr_param_request(nfapi_pnf_config_t *config, nfapi_nr_pnf_param_request_t *req)
{
UNUSED(req)
printf("[PNF] pnf param request\n");
nfapi_nr_pnf_param_response_t resp;
memset(&resp, 0, sizeof(resp));
resp.header.message_id = NFAPI_PNF_PARAM_RESPONSE;
resp.error_code = NFAPI_MSG_OK;
pnf_info *pnf = (pnf_info *)(config->user_data);
resp.pnf_param_general.tl.tag = NFAPI_PNF_PARAM_GENERAL_TAG;
resp.pnf_param_general.nfapi_sync_mode = pnf->sync_mode;
resp.pnf_param_general.location_mode = pnf->location_mode;
resp.pnf_param_general.dl_config_timing = pnf->dl_config_timing;
resp.pnf_param_general.tx_timing = pnf->tx_timing;
resp.pnf_param_general.ul_config_timing = pnf->ul_config_timing;
resp.pnf_param_general.hi_dci0_timing = pnf->hi_dci0_timing;
resp.pnf_param_general.maximum_number_phys = pnf->max_phys;
resp.pnf_param_general.maximum_total_bandwidth = pnf->max_total_bw;
resp.pnf_param_general.maximum_total_number_dl_layers = pnf->max_total_dl_layers;
resp.pnf_param_general.maximum_total_number_ul_layers = pnf->max_total_ul_layers;
resp.pnf_param_general.shared_bands = pnf->shared_bands;
resp.pnf_param_general.shared_pa = pnf->shared_pa;
resp.pnf_param_general.maximum_total_power = pnf->max_total_power;
resp.num_tlvs = 1;
resp.pnf_phy.tl.tag = NFAPI_PNF_PHY_TAG;
resp.pnf_phy.number_of_phys = 1;
for (int i = 0; i < 1; ++i) {
resp.pnf_phy.phy[i].phy_config_index = pnf->phys[i].index;
resp.pnf_phy.phy[i].downlink_channel_bandwidth_supported = pnf->phys[i].dl_channel_bw_support;
resp.pnf_phy.phy[i].uplink_channel_bandwidth_supported = pnf->phys[i].ul_channel_bw_support;
resp.pnf_phy.phy[i].number_of_dl_layers_supported = pnf->phys[i].num_dl_layers_supported;
resp.pnf_phy.phy[i].number_of_ul_layers_supported = pnf->phys[i].num_ul_layers_supported;
resp.pnf_phy.phy[i].maximum_3gpp_release_supported = pnf->phys[i].release_supported;
resp.pnf_phy.phy[i].nmm_modes_supported = pnf->phys[i].nmm_modes_supported;
resp.pnf_phy.phy[i].number_of_rfs = 2;
for (int j = 0; j < 1; ++j) {
resp.pnf_phy.phy[i].rf_config[j].rf_config_index = pnf->phys[i].rfs[j];
}
resp.pnf_phy.phy[i].number_of_rf_exclusions = 0;
for (int j = 0; j < 0; ++j) {
resp.pnf_phy.phy[i].excluded_rf_config[j].rf_config_index = pnf->phys[i].excluded_rfs[j];
}
resp.num_tlvs++;
}
nfapi_nr_pnf_pnf_param_resp(config, &resp);
return 0;
}
int pnf_param_request(nfapi_pnf_config_t *config, nfapi_pnf_param_request_t *req) {
UNUSED(req)
printf("[PNF] pnf param request\n");
nfapi_pnf_param_response_t resp;
memset(&resp, 0, sizeof(resp));
resp.header.message_id = NFAPI_PNF_PARAM_RESPONSE;
resp.error_code = NFAPI_MSG_OK;
pnf_info *pnf = (pnf_info *)(config->user_data);
resp.pnf_param_general.tl.tag = NFAPI_PNF_PARAM_GENERAL_TAG;
resp.pnf_param_general.nfapi_sync_mode = pnf->sync_mode;
resp.pnf_param_general.location_mode = pnf->location_mode;
resp.pnf_param_general.dl_config_timing = pnf->dl_config_timing;
resp.pnf_param_general.tx_timing = pnf->tx_timing;
resp.pnf_param_general.ul_config_timing = pnf->ul_config_timing;
resp.pnf_param_general.hi_dci0_timing = pnf->hi_dci0_timing;
resp.pnf_param_general.maximum_number_phys = pnf->max_phys;
resp.pnf_param_general.maximum_total_bandwidth = pnf->max_total_bw;
resp.pnf_param_general.maximum_total_number_dl_layers = pnf->max_total_dl_layers;
resp.pnf_param_general.maximum_total_number_ul_layers = pnf->max_total_ul_layers;
resp.pnf_param_general.shared_bands = pnf->shared_bands;
resp.pnf_param_general.shared_pa = pnf->shared_pa;
resp.pnf_param_general.maximum_total_power = pnf->max_total_power;
resp.pnf_phy.tl.tag = NFAPI_PNF_PHY_TAG;
resp.pnf_phy.number_of_phys = 1;
for(int i = 0; i < 1; ++i) {
resp.pnf_phy.phy[i].phy_config_index = pnf->phys[i].index;
resp.pnf_phy.phy[i].downlink_channel_bandwidth_supported = pnf->phys[i].dl_channel_bw_support;
resp.pnf_phy.phy[i].uplink_channel_bandwidth_supported = pnf->phys[i].ul_channel_bw_support;
resp.pnf_phy.phy[i].number_of_dl_layers_supported = pnf->phys[i].num_dl_layers_supported;
resp.pnf_phy.phy[i].number_of_ul_layers_supported = pnf->phys[i].num_ul_layers_supported;
resp.pnf_phy.phy[i].maximum_3gpp_release_supported = pnf->phys[i].release_supported;
resp.pnf_phy.phy[i].nmm_modes_supported = pnf->phys[i].nmm_modes_supported;
resp.pnf_phy.phy[i].number_of_rfs = 2;
for(int j = 0; j < 1; ++j) {
resp.pnf_phy.phy[i].rf_config[j].rf_config_index = pnf->phys[i].rfs[j];
}
resp.pnf_phy.phy[i].number_of_rf_exclusions = 0;
for(int j = 0; j < 0; ++j) {
resp.pnf_phy.phy[i].excluded_rf_config[j].rf_config_index = pnf->phys[i].excluded_rfs[j];
}
}
resp.pnf_rf.tl.tag = NFAPI_PNF_RF_TAG;
resp.pnf_rf.number_of_rfs = 2;
for(int i = 0; i < 2; ++i) {
resp.pnf_rf.rf[i].rf_config_index = pnf->rfs[i].index;
resp.pnf_rf.rf[i].band = pnf->rfs[i].band;
resp.pnf_rf.rf[i].maximum_transmit_power = pnf->rfs[i].max_transmit_power;
resp.pnf_rf.rf[i].minimum_transmit_power = pnf->rfs[i].min_transmit_power;
resp.pnf_rf.rf[i].number_of_antennas_suppported = pnf->rfs[i].num_antennas_supported;
resp.pnf_rf.rf[i].minimum_downlink_frequency = pnf->rfs[i].min_downlink_frequency;
resp.pnf_rf.rf[i].maximum_downlink_frequency = pnf->rfs[i].max_downlink_frequency;
resp.pnf_rf.rf[i].minimum_uplink_frequency = pnf->rfs[i].min_uplink_frequency;
resp.pnf_rf.rf[i].maximum_uplink_frequency = pnf->rfs[i].max_uplink_frequency;
}
if(pnf->release >= 10) {
resp.pnf_phy_rel10.tl.tag = NFAPI_PNF_PHY_REL10_TAG;
resp.pnf_phy_rel10.number_of_phys = 1;
for(int i = 0; i < 1; ++i) {
resp.pnf_phy_rel10.phy[i].phy_config_index = pnf->phys[i].index;
resp.pnf_phy_rel10.phy[i].transmission_mode_7_supported = 0;
resp.pnf_phy_rel10.phy[i].transmission_mode_8_supported = 1;
resp.pnf_phy_rel10.phy[i].two_antenna_ports_for_pucch = 0;
resp.pnf_phy_rel10.phy[i].transmission_mode_9_supported = 1;
resp.pnf_phy_rel10.phy[i].simultaneous_pucch_pusch = 0;
resp.pnf_phy_rel10.phy[i].four_layer_tx_with_tm3_and_tm4 = 1;
}
}
if(pnf->release >= 11) {
resp.pnf_phy_rel11.tl.tag = NFAPI_PNF_PHY_REL11_TAG;
resp.pnf_phy_rel11.number_of_phys = 1;
for(int i = 0; i < 1; ++i) {
resp.pnf_phy_rel11.phy[i].phy_config_index = pnf->phys[i].index;
resp.pnf_phy_rel11.phy[i].edpcch_supported = 0;
resp.pnf_phy_rel11.phy[i].multi_ack_csi_reporting = 1;
resp.pnf_phy_rel11.phy[i].pucch_tx_diversity = 0;
resp.pnf_phy_rel11.phy[i].ul_comp_supported = 1;
resp.pnf_phy_rel11.phy[i].transmission_mode_5_supported = 0;
}
}
if(pnf->release >= 12) {
resp.pnf_phy_rel12.tl.tag = NFAPI_PNF_PHY_REL12_TAG;
resp.pnf_phy_rel12.number_of_phys = 1;
for(int i = 0; i < 1; ++i) {
resp.pnf_phy_rel12.phy[i].phy_config_index = pnf->phys[i].index;
resp.pnf_phy_rel12.phy[i].csi_subframe_set = 0;
resp.pnf_phy_rel12.phy[i].enhanced_4tx_codebook = 2;
resp.pnf_phy_rel12.phy[i].drs_supported = 0;
resp.pnf_phy_rel12.phy[i].ul_64qam_supported = 1;
resp.pnf_phy_rel12.phy[i].transmission_mode_10_supported = 0;
resp.pnf_phy_rel12.phy[i].alternative_bts_indices = 1;
}
}
if(pnf->release >= 13) {
resp.pnf_phy_rel13.tl.tag = NFAPI_PNF_PHY_REL13_TAG;
resp.pnf_phy_rel13.number_of_phys = 1;
for(int i = 0; i < 1; ++i) {
resp.pnf_phy_rel13.phy[i].phy_config_index = pnf->phys[i].index;
resp.pnf_phy_rel13.phy[i].pucch_format4_supported = 0;
resp.pnf_phy_rel13.phy[i].pucch_format5_supported = 1;
resp.pnf_phy_rel13.phy[i].more_than_5_ca_support = 0;
resp.pnf_phy_rel13.phy[i].laa_supported = 1;
resp.pnf_phy_rel13.phy[i].laa_ending_in_dwpts_supported = 0;
resp.pnf_phy_rel13.phy[i].laa_starting_in_second_slot_supported = 1;
resp.pnf_phy_rel13.phy[i].beamforming_supported = 0;
resp.pnf_phy_rel13.phy[i].csi_rs_enhancement_supported = 1;
resp.pnf_phy_rel13.phy[i].drms_enhancement_supported = 0;
resp.pnf_phy_rel13.phy[i].srs_enhancement_supported = 1;
}
resp.pnf_phy_rel13_nb_iot.tl.tag = NFAPI_PNF_PHY_REL13_NB_IOT_TAG;
resp.pnf_phy_rel13_nb_iot.number_of_phys = 1;
for(int i = 0; i < 1; ++i) {
resp.pnf_phy_rel13_nb_iot.phy[i].phy_config_index = pnf->phys[i].index;
resp.pnf_phy_rel13_nb_iot.phy[i].number_of_rfs = 1;
for(int j = 0; j < 1; ++j) {
resp.pnf_phy_rel13_nb_iot.phy[i].rf_config[j].rf_config_index = pnf->phys[i].rfs[j];
}
resp.pnf_phy_rel13_nb_iot.phy[i].number_of_rf_exclusions = 1;
for(int j = 0; j < 1; ++j) {
resp.pnf_phy_rel13_nb_iot.phy[i].excluded_rf_config[j].rf_config_index = pnf->phys[i].excluded_rfs[j];
}
resp.pnf_phy_rel13_nb_iot.phy[i].number_of_dl_layers_supported = pnf->phys[i].num_dl_layers_supported;
resp.pnf_phy_rel13_nb_iot.phy[i].number_of_ul_layers_supported = pnf->phys[i].num_ul_layers_supported;
resp.pnf_phy_rel13_nb_iot.phy[i].maximum_3gpp_release_supported = pnf->phys[i].release_supported;
resp.pnf_phy_rel13_nb_iot.phy[i].nmm_modes_supported = pnf->phys[i].nmm_modes_supported;
}
}
nfapi_pnf_pnf_param_resp(config, &resp);
return 0;
}
int pnf_config_request(nfapi_pnf_config_t *config, nfapi_pnf_config_request_t *req) {
printf("[PNF] pnf config request\n");
pnf_info *pnf = (pnf_info *)(config->user_data);
phy_info *phy = pnf->phys;
phy->id = req->pnf_phy_rf_config.phy_rf_config[0].phy_id;
printf("[PNF] pnf config request assigned phy_id %d to phy_config_index %d\n", phy->id, req->pnf_phy_rf_config.phy_rf_config[0].phy_config_index);
nfapi_pnf_config_response_t resp;
memset(&resp, 0, sizeof(resp));
resp.header.message_id = NFAPI_PNF_CONFIG_RESPONSE;
resp.error_code = NFAPI_MSG_OK;
nfapi_pnf_pnf_config_resp(config, &resp);
printf("[PNF] Sent pnf_config_resp\n");
return 0;
}
int pnf_nr_config_request(nfapi_pnf_config_t *config, nfapi_nr_pnf_config_request_t *req) {
printf("[PNF] pnf config request\n");
pnf_info *pnf = (pnf_info *)(config->user_data);
phy_info *phy = pnf->phys;
phy->id = req->pnf_phy_rf_config.phy_rf_config[0].phy_id;
printf("[PNF] pnf config request assigned phy_id %d to phy_config_index %d\n", phy->id, req->pnf_phy_rf_config.phy_rf_config[0].phy_config_index);
nfapi_nr_pnf_config_response_t resp;
memset(&resp, 0, sizeof(resp));
resp.header.message_id = NFAPI_NR_PHY_MSG_TYPE_PNF_CONFIG_RESPONSE;
resp.error_code = NFAPI_MSG_OK;
nfapi_nr_pnf_pnf_config_resp(config, &resp);
printf("[PNF] Sent pnf_config_resp\n");
return 0;
}
void nfapi_send_pnf_start_resp(nfapi_pnf_config_t *config, uint16_t phy_id) {
printf("Sending NFAPI_START_RESPONSE config:%p phy_id:%d\n", config, phy_id);
nfapi_start_response_t start_resp;
memset(&start_resp, 0, sizeof(start_resp));
start_resp.header.message_id = NFAPI_START_RESPONSE;
start_resp.header.phy_id = phy_id;
start_resp.error_code = NFAPI_MSG_OK;
nfapi_pnf_start_resp(config, &start_resp);
}
void nfapi_nr_send_pnf_start_resp(nfapi_pnf_config_t *config, uint16_t phy_id) {
printf("Sending NFAPI_START_RESPONSE config:%p phy_id:%d\n", config, phy_id);
nfapi_nr_start_response_scf_t start_resp;
memset(&start_resp, 0, sizeof(start_resp));
start_resp.header.message_id = NFAPI_NR_PHY_MSG_TYPE_START_RESPONSE;
start_resp.header.phy_id = phy_id;
start_resp.error_code = NFAPI_NR_START_MSG_OK;
nfapi_nr_pnf_start_resp(config, &start_resp);
}
int pnf_start_request(nfapi_pnf_config_t *config, nfapi_pnf_start_request_t *req) {
UNUSED(req)
printf("Received NFAPI_PNF_START_REQUEST\n");
pnf_info *pnf = (pnf_info *)(config->user_data);
// start all phys that have been configured
phy_info *phy = pnf->phys;
if(phy->id != 0) {
nfapi_pnf_start_response_t resp;
memset(&resp, 0, sizeof(resp));
resp.header.message_id = NFAPI_PNF_START_RESPONSE;
resp.error_code = NFAPI_MSG_OK;
nfapi_pnf_pnf_start_resp(config, &resp);
printf("[PNF] Sent NFAPI_PNF_START_RESP\n");
}
return 0;
}
int pnf_nr_start_request(nfapi_pnf_config_t *config, nfapi_nr_pnf_start_request_t *req) {
UNUSED(req)
printf("Received NFAPI_PNF_START_REQUEST\n");
pnf_info *pnf = (pnf_info *)(config->user_data);
// start all phys that have been configured
phy_info *phy = pnf->phys;
if(phy->id != 0) {
nfapi_nr_pnf_start_response_t resp;
memset(&resp, 0, sizeof(resp));
resp.header.message_id = NFAPI_NR_PHY_MSG_TYPE_PNF_START_RESPONSE;
resp.error_code = NFAPI_MSG_OK;
nfapi_nr_pnf_pnf_start_resp(config, &resp);
printf("[PNF] Sent NFAPI_PNF_START_RESP\n");
}
return 0;
}
int pnf_stop_request(nfapi_pnf_config_t *config, nfapi_pnf_stop_request_t *req) {
UNUSED(req)
printf("[PNF] Received NFAPI_PNF_STOP_REQ\n");
nfapi_pnf_stop_response_t resp;
memset(&resp, 0, sizeof(resp));
resp.header.message_id = NFAPI_PNF_STOP_RESPONSE;
resp.error_code = NFAPI_MSG_OK;
nfapi_pnf_pnf_stop_resp(config, &resp);
printf("[PNF] Sent NFAPI_PNF_STOP_REQ\n");
return 0;
}
int param_request(nfapi_pnf_config_t *config, nfapi_pnf_phy_config_t *phy, nfapi_param_request_t *req) {
UNUSED(phy)
printf("[PNF] Received NFAPI_PARAM_REQUEST phy_id:%d\n", req->header.phy_id);
nfapi_param_response_t nfapi_resp;
pnf_info *pnf = (pnf_info *)(config->user_data);
memset(&nfapi_resp, 0, sizeof(nfapi_resp));
nfapi_resp.header.message_id = NFAPI_PARAM_RESPONSE;
nfapi_resp.header.phy_id = req->header.phy_id;
nfapi_resp.error_code = 0;
struct sockaddr_in pnf_p7_sockaddr;
pnf_p7_sockaddr.sin_addr.s_addr = inet_addr(pnf->phys[0].local_addr);
nfapi_resp.nfapi_config.p7_pnf_address_ipv4.tl.tag = NFAPI_NFAPI_P7_PNF_ADDRESS_IPV4_TAG;
memcpy(nfapi_resp.nfapi_config.p7_pnf_address_ipv4.address, &pnf_p7_sockaddr.sin_addr.s_addr, 4);
nfapi_resp.num_tlv++;
// P7 PNF Port
nfapi_resp.nfapi_config.p7_pnf_port.tl.tag = NFAPI_NFAPI_P7_PNF_PORT_TAG;
nfapi_resp.nfapi_config.p7_pnf_port.value = htons(pnf->phys[0].udp.rx_port);
nfapi_resp.num_tlv++;
nfapi_pnf_param_resp(config, &nfapi_resp);
printf("[PNF] Sent NFAPI_PARAM_RESPONSE phy_id:%d number_of_tlvs:%u\n", req->header.phy_id, nfapi_resp.num_tlv);
return 0;
}
int nr_param_request(nfapi_pnf_config_t *config, nfapi_pnf_phy_config_t *phy, nfapi_nr_param_request_scf_t *req) {
UNUSED(phy)
printf("[PNF] Received NFAPI_PARAM_REQUEST phy_id:%d\n", req->header.phy_id);
nfapi_nr_param_response_scf_t nfapi_resp;
pnf_info *pnf = (pnf_info *)(config->user_data);
memset(&nfapi_resp, 0, sizeof(nfapi_resp));
nfapi_resp.header.message_id = NFAPI_NR_PHY_MSG_TYPE_PARAM_RESPONSE;
nfapi_resp.header.phy_id = req->header.phy_id;
nfapi_resp.error_code = 0;
struct sockaddr_in pnf_p7_sockaddr;
// ASSIGN TAGS
{
nfapi_resp.cell_param.release_capability.tl.tag = NFAPI_NR_PARAM_TLV_RELEASE_CAPABILITY_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.cell_param.phy_state.tl.tag = NFAPI_NR_PARAM_TLV_PHY_STATE_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.cell_param.skip_blank_dl_config.tl.tag = NFAPI_NR_PARAM_TLV_SKIP_BLANK_DL_CONFIG_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.cell_param.skip_blank_ul_config.tl.tag = NFAPI_NR_PARAM_TLV_SKIP_BLANK_UL_CONFIG_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.cell_param.num_config_tlvs_to_report .tl.tag = NFAPI_NR_PARAM_TLV_NUM_CONFIG_TLVS_TO_REPORT_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.carrier_param.cyclic_prefix.tl.tag = NFAPI_NR_PARAM_TLV_CYCLIC_PREFIX_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.carrier_param.supported_subcarrier_spacings_dl.tl.tag = NFAPI_NR_PARAM_TLV_SUPPORTED_SUBCARRIER_SPACINGS_DL_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.carrier_param.supported_bandwidth_dl.tl.tag = NFAPI_NR_PARAM_TLV_SUPPORTED_BANDWIDTH_DL_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.carrier_param.supported_subcarrier_spacings_ul.tl.tag = NFAPI_NR_PARAM_TLV_SUPPORTED_SUBCARRIER_SPACINGS_UL_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.carrier_param.supported_bandwidth_ul.tl.tag = NFAPI_NR_PARAM_TLV_SUPPORTED_BANDWIDTH_UL_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pdcch_param.cce_mapping_type.tl.tag = NFAPI_NR_PARAM_TLV_CCE_MAPPING_TYPE_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pdcch_param.coreset_outside_first_3_of_ofdm_syms_of_slot.tl.tag = NFAPI_NR_PARAM_TLV_CORESET_OUTSIDE_FIRST_3_OFDM_SYMS_OF_SLOT_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pdcch_param.coreset_precoder_granularity_coreset.tl.tag = NFAPI_NR_PARAM_TLV_PRECODER_GRANULARITY_CORESET_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pdcch_param.pdcch_mu_mimo.tl.tag = NFAPI_NR_PARAM_TLV_PDCCH_MU_MIMO_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pdcch_param.pdcch_precoder_cycling.tl.tag = NFAPI_NR_PARAM_TLV_PDCCH_PRECODER_CYCLING_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pdcch_param.max_pdcch_per_slot.tl.tag = NFAPI_NR_PARAM_TLV_MAX_PDCCHS_PER_SLOT_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pucch_param.pucch_formats.tl.tag = NFAPI_NR_PARAM_TLV_PUCCH_FORMATS_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pucch_param.max_pucchs_per_slot.tl.tag = NFAPI_NR_PARAM_TLV_MAX_PUCCHS_PER_SLOT_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pdsch_param.pdsch_mapping_type.tl.tag = NFAPI_NR_PARAM_TLV_PDSCH_MAPPING_TYPE_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pdsch_param.pdsch_dmrs_additional_pos.tl.tag = NFAPI_NR_PARAM_TLV_PDSCH_DMRS_ADDITIONAL_POS_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pdsch_param.pdsch_allocation_types.tl.tag = NFAPI_NR_PARAM_TLV_PDSCH_ALLOCATION_TYPES_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pdsch_param.pdsch_vrb_to_prb_mapping.tl.tag = NFAPI_NR_PARAM_TLV_PDSCH_VRB_TO_PRB_MAPPING_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pdsch_param.pdsch_cbg.tl.tag = NFAPI_NR_PARAM_TLV_PDSCH_CBG_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pdsch_param.pdsch_dmrs_config_types.tl.tag = NFAPI_NR_PARAM_TLV_PDSCH_DMRS_CONFIG_TYPES_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pdsch_param.max_number_mimo_layers_pdsch.tl.tag = NFAPI_NR_PARAM_TLV_MAX_NUMBER_MIMO_LAYERS_PDSCH_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pdsch_param.max_mu_mimo_users_dl.tl.tag = NFAPI_NR_PARAM_TLV_MAX_MU_MIMO_USERS_DL_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pdsch_param.pdsch_data_in_dmrs_symbols.tl.tag = NFAPI_NR_PARAM_TLV_PDSCH_DATA_IN_DMRS_SYMBOLS_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pdsch_param.premption_support.tl.tag = NFAPI_NR_PARAM_TLV_PREMPTION_SUPPORT_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pdsch_param.pdsch_non_slot_support.tl.tag = NFAPI_NR_PARAM_TLV_PDSCH_NON_SLOT_SUPPORT_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pusch_param.uci_mux_ulsch_in_pusch.tl.tag = NFAPI_NR_PARAM_TLV_UCI_MUX_ULSCH_IN_PUSCH_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pusch_param.uci_only_pusch.tl.tag = NFAPI_NR_PARAM_TLV_UCI_ONLY_PUSCH_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pusch_param.pusch_frequency_hopping.tl.tag = NFAPI_NR_PARAM_TLV_PUSCH_FREQUENCY_HOPPING_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pusch_param.pusch_dmrs_config_types.tl.tag = NFAPI_NR_PARAM_TLV_PUSCH_DMRS_CONFIG_TYPES_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pusch_param.pusch_dmrs_max_len.tl.tag = NFAPI_NR_PARAM_TLV_PUSCH_DMRS_MAX_LEN_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pusch_param.pusch_dmrs_additional_pos.tl.tag = NFAPI_NR_PARAM_TLV_PUSCH_DMRS_ADDITIONAL_POS_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pusch_param.pusch_cbg.tl.tag = NFAPI_NR_PARAM_TLV_PUSCH_CBG_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pusch_param.pusch_mapping_type.tl.tag = NFAPI_NR_PARAM_TLV_PUSCH_MAPPING_TYPE_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pusch_param.pusch_allocation_types.tl.tag = NFAPI_NR_PARAM_TLV_PUSCH_ALLOCATION_TYPES_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pusch_param.pusch_vrb_to_prb_mapping.tl.tag = NFAPI_NR_PARAM_TLV_PUSCH_VRB_TO_PRB_MAPPING_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pusch_param.pusch_max_ptrs_ports.tl.tag = NFAPI_NR_PARAM_TLV_PUSCH_MAX_PTRS_PORTS_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pusch_param.max_pduschs_tbs_per_slot.tl.tag = NFAPI_NR_PARAM_TLV_MAX_PDUSCHS_TBS_PER_SLOT_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pusch_param.max_number_mimo_layers_non_cb_pusch.tl.tag = NFAPI_NR_PARAM_TLV_MAX_NUMBER_MIMO_LAYERS_NON_CB_PUSCH_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pusch_param.supported_modulation_order_ul.tl.tag = NFAPI_NR_PARAM_TLV_SUPPORTED_MODULATION_ORDER_UL_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pusch_param.max_mu_mimo_users_ul.tl.tag = NFAPI_NR_PARAM_TLV_MAX_MU_MIMO_USERS_UL_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pusch_param.dfts_ofdm_support.tl.tag = NFAPI_NR_PARAM_TLV_DFTS_OFDM_SUPPORT_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.pusch_param.pusch_aggregation_factor.tl.tag = NFAPI_NR_PARAM_TLV_PUSCH_AGGREGATION_FACTOR_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.prach_param.prach_long_formats.tl.tag = NFAPI_NR_PARAM_TLV_PRACH_LONG_FORMATS_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.prach_param.prach_short_formats.tl.tag = NFAPI_NR_PARAM_TLV_PRACH_SHORT_FORMATS_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.prach_param.prach_restricted_sets.tl.tag = NFAPI_NR_PARAM_TLV_PRACH_RESTRICTED_SETS_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.prach_param.max_prach_fd_occasions_in_a_slot.tl.tag = NFAPI_NR_PARAM_TLV_MAX_PRACH_FD_OCCASIONS_IN_A_SLOT_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.measurement_param.rssi_measurement_support.tl.tag = NFAPI_NR_PARAM_TLV_RSSI_MEASUREMENT_SUPPORT_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.nfapi_config.p7_vnf_address_ipv4.tl.tag = NFAPI_NR_NFAPI_P7_VNF_ADDRESS_IPV4_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.nfapi_config.p7_vnf_address_ipv6.tl.tag = NFAPI_NR_NFAPI_P7_VNF_ADDRESS_IPV6_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.nfapi_config.p7_vnf_port.tl.tag = NFAPI_NR_NFAPI_P7_VNF_PORT_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.nfapi_config.p7_pnf_address_ipv4.tl.tag = NFAPI_NR_NFAPI_P7_PNF_ADDRESS_IPV4_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.nfapi_config.p7_pnf_address_ipv6.tl.tag = NFAPI_NR_NFAPI_P7_PNF_ADDRESS_IPV6_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.nfapi_config.p7_pnf_port.tl.tag = NFAPI_NR_NFAPI_P7_PNF_PORT_TAG;
nfapi_resp.num_tlv++;
/*
nfapi_resp.nfapi_config.dl_ue_per_sf.tl.tag = NFAPI_NR_NFAPI_DOWNLINK_UES_PER_SUBFRAME_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.nfapi_config.ul_ue_per_sf.tl.tag = NFAPI_NR_NFAPI_UPLINK_UES_PER_SUBFRAME_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.nfapi_config.rf_bands.tl.tag = NFAPI_NR_NFAPI_RF_BANDS_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.nfapi_config.max_transmit_power.tl.tag = NFAPI_NR_NFAPI_MAXIMUM_TRANSMIT_POWER_TAG;
nfapi_resp.num_tlv++;
*/
nfapi_resp.nfapi_config.timing_window.tl.tag = NFAPI_NR_NFAPI_TIMING_WINDOW_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.nfapi_config.timing_info_mode.tl.tag = NFAPI_NR_NFAPI_TIMING_INFO_MODE_TAG;
nfapi_resp.num_tlv++;
nfapi_resp.nfapi_config.timing_info_period.tl.tag = NFAPI_NR_NFAPI_TIMING_INFO_PERIOD_TAG;
nfapi_resp.num_tlv++;
}
nfapi_resp.nfapi_config.p7_pnf_port.value = htons(pnf->phys[0].udp.rx_port);
nfapi_resp.num_tlv++;
pnf_p7_sockaddr.sin_addr.s_addr = inet_addr(pnf->phys[0].local_addr);
memcpy(nfapi_resp.nfapi_config.p7_pnf_address_ipv4.address, &pnf_p7_sockaddr.sin_addr.s_addr, 4);
nfapi_resp.num_tlv++;
// P7 PNF Port
printf("TAG value :%d",nfapi_resp.cell_param.phy_state.tl.tag);
nfapi_nr_pnf_param_resp(config, &nfapi_resp);
printf("[PNF] Sent NFAPI_PNF_PARAM_RESPONSE phy_id:%d number_of_tlvs:%u\n", req->header.phy_id, nfapi_resp.num_tlv);
return 0;
}
int config_request(nfapi_pnf_config_t *config, nfapi_pnf_phy_config_t *phy, nfapi_config_request_t *req)
{
UNUSED(phy)
printf("[PNF] Received NFAPI_CONFIG_REQ phy_id:%d\n", req->header.phy_id);
pnf_info *pnf = (pnf_info *)(config->user_data);
uint8_t num_tlv = 0;
//struct PHY_VARS_eNB_s *eNB = RC.eNB[0][0];
// In the case of nfapi_mode = 3 (UE = PNF) we should not have dependency on any eNB var. So we aim
// to keep only the necessary just to keep the nfapi FSM rolling by sending a dummy response.
LTE_DL_FRAME_PARMS *fp;
if (NFAPI_MODE!=NFAPI_UE_STUB_PNF && NFAPI_MODE!=NFAPI_MODE_STANDALONE_PNF) {
struct PHY_VARS_eNB_s *eNB = RC.eNB[0][0];
fp = &eNB->frame_parms;
} else {
fp = (LTE_DL_FRAME_PARMS *) malloc(sizeof(LTE_DL_FRAME_PARMS));
}
phy_info *phy_info = pnf->phys;
if(req->nfapi_config.timing_window.tl.tag == NFAPI_NFAPI_TIMING_WINDOW_TAG) {
phy_info->timing_window = req->nfapi_config.timing_window.value;
printf("Phy_info:Timing window:%u NFAPI_CONFIG:timing_window:%u\n", phy_info->timing_window, req->nfapi_config.timing_window.value);
num_tlv++;
}
if(req->nfapi_config.timing_info_mode.tl.tag == NFAPI_NFAPI_TIMING_INFO_MODE_TAG) {
printf("timing info mode:%d\n", req->nfapi_config.timing_info_mode.value);
phy_info->timing_info_mode = req->nfapi_config.timing_info_mode.value;
num_tlv++;
} else {
phy_info->timing_info_mode = 0;
printf("NO timing info mode provided\n");
}
if(req->nfapi_config.timing_info_period.tl.tag == NFAPI_NFAPI_TIMING_INFO_PERIOD_TAG) {
printf("timing info period provided value:%d\n", req->nfapi_config.timing_info_period.value);
phy_info->timing_info_period = req->nfapi_config.timing_info_period.value;
num_tlv++;
} else {
phy_info->timing_info_period = 0;
}
if(req->rf_config.dl_channel_bandwidth.tl.tag == NFAPI_RF_CONFIG_DL_CHANNEL_BANDWIDTH_TAG) {
phy_info->dl_channel_bw_support = req->rf_config.dl_channel_bandwidth.value;
fp->N_RB_DL = req->rf_config.dl_channel_bandwidth.value;
num_tlv++;
NFAPI_TRACE(NFAPI_TRACE_ERROR, "%s() NFAPI_RF_CONFIG_DL_CHANNEL_BANDWIDTH_TAG N_RB_DL:%u\n", __FUNCTION__, fp->N_RB_DL);
} else {
NFAPI_TRACE(NFAPI_TRACE_ERROR, "%s() Missing NFAPI_RF_CONFIG_DL_CHANNEL_BANDWIDTH_TAG\n", __FUNCTION__);
}
if(req->rf_config.ul_channel_bandwidth.tl.tag == NFAPI_RF_CONFIG_UL_CHANNEL_BANDWIDTH_TAG) {
phy_info->ul_channel_bw_support = req->rf_config.ul_channel_bandwidth.value;
fp->N_RB_UL = req->rf_config.ul_channel_bandwidth.value;
num_tlv++;
}
if(req->nfapi_config.rf_bands.tl.tag == NFAPI_NFAPI_RF_BANDS_TAG) {
pnf->rfs[0].band = req->nfapi_config.rf_bands.rf_band[0];
fp->eutra_band = req->nfapi_config.rf_bands.rf_band[0];
num_tlv++;
}
if(req->nfapi_config.earfcn.tl.tag == NFAPI_NFAPI_EARFCN_TAG) {
fp->dl_CarrierFreq = from_earfcn(fp->eutra_band, req->nfapi_config.earfcn.value);
fp->ul_CarrierFreq = fp->dl_CarrierFreq - (get_uldl_offset(fp->eutra_band) * 1e5);
num_tlv++;
NFAPI_TRACE(NFAPI_TRACE_INFO, "%s() earfcn:%u dl_carrierFreq:%u ul_CarrierFreq:%u band:%u N_RB_DL:%u\n",
__FUNCTION__, req->nfapi_config.earfcn.value, fp->dl_CarrierFreq, fp->ul_CarrierFreq, pnf->rfs[0].band, fp->N_RB_DL);
}
if (req->subframe_config.duplex_mode.tl.tag == NFAPI_SUBFRAME_CONFIG_DUPLEX_MODE_TAG) {
fp->frame_type = req->subframe_config.duplex_mode.value==0 ? TDD : FDD;
num_tlv++;
NFAPI_TRACE(NFAPI_TRACE_INFO, "%s() frame_type:%d\n", __FUNCTION__, fp->frame_type);
}
if (req->subframe_config.dl_cyclic_prefix_type.tl.tag == NFAPI_SUBFRAME_CONFIG_DL_CYCLIC_PREFIX_TYPE_TAG) {
fp->Ncp = req->subframe_config.dl_cyclic_prefix_type.value;
num_tlv++;
}
if (req->subframe_config.ul_cyclic_prefix_type.tl.tag == NFAPI_SUBFRAME_CONFIG_UL_CYCLIC_PREFIX_TYPE_TAG) {
fp->Ncp_UL = req->subframe_config.ul_cyclic_prefix_type.value;
num_tlv++;
}
fp->num_MBSFN_config = 0; // hard code alert
if (req->sch_config.physical_cell_id.tl.tag == NFAPI_SCH_CONFIG_PHYSICAL_CELL_ID_TAG) {
fp->Nid_cell = req->sch_config.physical_cell_id.value;
num_tlv++;
}
if (req->rf_config.tx_antenna_ports.tl.tag == NFAPI_RF_CONFIG_TX_ANTENNA_PORTS_TAG) {
fp->nb_antennas_tx = req->rf_config.tx_antenna_ports.value;
fp->nb_antenna_ports_eNB = 1;
num_tlv++;
}
if (req->rf_config.rx_antenna_ports.tl.tag == NFAPI_RF_CONFIG_RX_ANTENNA_PORTS_TAG) {
fp->nb_antennas_rx = req->rf_config.rx_antenna_ports.value;
num_tlv++;
}
if (req->phich_config.phich_resource.tl.tag == NFAPI_PHICH_CONFIG_PHICH_RESOURCE_TAG) {
fp->phich_config_common.phich_resource = req->phich_config.phich_resource.value;
num_tlv++;
}
if (req->phich_config.phich_duration.tl.tag == NFAPI_PHICH_CONFIG_PHICH_DURATION_TAG) {
fp->phich_config_common.phich_duration = req->phich_config.phich_duration.value;
num_tlv++;
}
if (req->phich_config.phich_power_offset.tl.tag == NFAPI_PHICH_CONFIG_PHICH_POWER_OFFSET_TAG) {
LOG_E(PHY, "%s() NFAPI_PHICH_CONFIG_PHICH_POWER_OFFSET_TAG tag:%d not supported\n", __FUNCTION__, req->phich_config.phich_power_offset.tl.tag);
//fp->phich_config_common.phich_power_offset = req->phich_config.
num_tlv++;
}
// UL RS Config
if (req->uplink_reference_signal_config.cyclic_shift_1_for_drms.tl.tag == NFAPI_UPLINK_REFERENCE_SIGNAL_CONFIG_CYCLIC_SHIFT_1_FOR_DRMS_TAG) {
fp->pusch_config_common.ul_ReferenceSignalsPUSCH.cyclicShift = req->uplink_reference_signal_config.cyclic_shift_1_for_drms.value;
num_tlv++;
}
if (req->uplink_reference_signal_config.uplink_rs_hopping.tl.tag == NFAPI_UPLINK_REFERENCE_SIGNAL_CONFIG_UPLINK_RS_HOPPING_TAG) {
fp->pusch_config_common.ul_ReferenceSignalsPUSCH.groupHoppingEnabled = req->uplink_reference_signal_config.uplink_rs_hopping.value;
num_tlv++;
}
if (req->uplink_reference_signal_config.group_assignment.tl.tag == NFAPI_UPLINK_REFERENCE_SIGNAL_CONFIG_GROUP_ASSIGNMENT_TAG) {
fp->pusch_config_common.ul_ReferenceSignalsPUSCH.groupAssignmentPUSCH = req->uplink_reference_signal_config.group_assignment.value;
num_tlv++;
}
if (req->pusch_config.hopping_mode.tl.tag == NFAPI_PUSCH_CONFIG_HOPPING_MODE_TAG) {
} // not being handled?
if (req->pusch_config.hopping_offset.tl.tag == NFAPI_PUSCH_CONFIG_HOPPING_OFFSET_TAG) {
} // not being handled?
if (req->pusch_config.number_of_subbands.tl.tag == NFAPI_PUSCH_CONFIG_NUMBER_OF_SUBBANDS_TAG) {
} // not being handled?
if (req->prach_config.configuration_index.tl.tag == NFAPI_PRACH_CONFIG_CONFIGURATION_INDEX_TAG) {
fp->prach_config_common.prach_ConfigInfo.prach_ConfigIndex=req->prach_config.configuration_index.value;
num_tlv++;
}
if (req->prach_config.root_sequence_index.tl.tag == NFAPI_PRACH_CONFIG_ROOT_SEQUENCE_INDEX_TAG) {
fp->prach_config_common.rootSequenceIndex=req->prach_config.root_sequence_index.value;
num_tlv++;
}
if (req->prach_config.zero_correlation_zone_configuration.tl.tag == NFAPI_PRACH_CONFIG_ZERO_CORRELATION_ZONE_CONFIGURATION_TAG) {
fp->prach_config_common.prach_ConfigInfo.zeroCorrelationZoneConfig=req->prach_config.zero_correlation_zone_configuration.value;
num_tlv++;
}
if (req->prach_config.high_speed_flag.tl.tag == NFAPI_PRACH_CONFIG_HIGH_SPEED_FLAG_TAG) {
fp->prach_config_common.prach_ConfigInfo.highSpeedFlag=req->prach_config.high_speed_flag.value;
num_tlv++;
}
if (req->prach_config.frequency_offset.tl.tag == NFAPI_PRACH_CONFIG_FREQUENCY_OFFSET_TAG) {
fp->prach_config_common.prach_ConfigInfo.prach_FreqOffset=req->prach_config.frequency_offset.value;
num_tlv++;
}
if(NFAPI_MODE!=NFAPI_UE_STUB_PNF && NFAPI_MODE!=NFAPI_MODE_STANDALONE_PNF) {
printf("[PNF] CONFIG_REQUEST[num_tlv:%d] TLVs processed:%d\n", req->num_tlv, num_tlv);
printf("[PNF] Simulating PHY CONFIG\n");
PHY_Config_t phy_config;
phy_config.Mod_id = 0;
phy_config.CC_id=0;
phy_config.cfg = req;
phy_config_request(&phy_config);
dump_frame_parms(fp);
}
phy_info->remote_port = req->nfapi_config.p7_vnf_port.value;
struct sockaddr_in vnf_p7_sockaddr;
memcpy(&vnf_p7_sockaddr.sin_addr.s_addr, &(req->nfapi_config.p7_vnf_address_ipv4.address[0]), 4);
phy_info->remote_addr = inet_ntoa(vnf_p7_sockaddr.sin_addr);
printf("[PNF] %d vnf p7 %s:%d timing %d %d %d\n", phy_info->id, phy_info->remote_addr, phy_info->remote_port,
phy_info->timing_window, phy_info->timing_info_mode, phy_info->timing_info_period);
nfapi_config_response_t nfapi_resp;
memset(&nfapi_resp, 0, sizeof(nfapi_resp));
nfapi_resp.header.message_id = NFAPI_CONFIG_RESPONSE;
nfapi_resp.header.phy_id = phy_info->id;
nfapi_resp.error_code = 0;
nfapi_pnf_config_resp(config, &nfapi_resp);
printf("[PNF] Sent NFAPI_CONFIG_RESPONSE phy_id:%d\n", phy_info->id);
if(NFAPI_MODE==NFAPI_UE_STUB_PNF || NFAPI_MODE==NFAPI_MODE_STANDALONE_PNF)
free(fp);
return 0;
}
int nr_config_request(nfapi_pnf_config_t *config, nfapi_pnf_phy_config_t *phy, nfapi_nr_config_request_scf_t *req)
{
UNUSED(phy)
printf("[PNF] Received NFAPI_CONFIG_REQ phy_id:%d\n", req->header.phy_id);
pnf_info *pnf = (pnf_info *)(config->user_data);
uint8_t num_tlv = 0;
// struct PHY_VARS_eNB_s *eNB = RC.eNB[0][0];
// In the case of nfapi_mode = 3 (UE = PNF) we should not have dependency on any eNB var. So we aim
// to keep only the necessary just to keep the nfapi FSM rolling by sending a dummy response.
NR_DL_FRAME_PARMS *fp;
if (NFAPI_MODE != NFAPI_UE_STUB_PNF) {
struct PHY_VARS_gNB_s *gNB = RC.gNB[0];
fp = &gNB->frame_parms;
} else {
fp = (NR_DL_FRAME_PARMS *)malloc(sizeof(NR_DL_FRAME_PARMS));
}
phy_info *phy_info = pnf->phys;
printf("\nTiming window tag: %d\n", NFAPI_NR_NFAPI_TIMING_WINDOW_TAG);
if (req->nfapi_config.timing_window.tl.tag == NFAPI_NR_NFAPI_TIMING_WINDOW_TAG) {
phy_info->timing_window = req->nfapi_config.timing_window.value;
printf("Phy_info:Timing window:%u NFAPI_CONFIG:timing_window:%u\n",
phy_info->timing_window,
req->nfapi_config.timing_window.value);
num_tlv++;
}else {
// This is a nFAPI TLV, thus not sent when working with FAPI.
// When not sent, we still need a default value, otherwise every message from the L2 is treated as late and not processed
phy_info->timing_window = 30;
}
if (req->nfapi_config.timing_info_mode.tl.tag == NFAPI_NR_NFAPI_TIMING_INFO_MODE_TAG) {
printf("timing info mode:%d\n", req->nfapi_config.timing_info_mode.value);
phy_info->timing_info_mode = req->nfapi_config.timing_info_mode.value;
num_tlv++;
} else {
phy_info->timing_info_mode = 0;
printf("NO timing info mode provided\n");
}
// TODO: Read the P7 message offset values
if (req->nfapi_config.timing_info_period.tl.tag == NFAPI_NR_NFAPI_TIMING_INFO_PERIOD_TAG) {
printf("timing info period provided value:%d\n", req->nfapi_config.timing_info_period.value);
phy_info->timing_info_period = req->nfapi_config.timing_info_period.value;
num_tlv++;
} else {
phy_info->timing_info_period = 0;
}
if (req->carrier_config.dl_bandwidth.tl.tag == NFAPI_NR_CONFIG_DL_BANDWIDTH_TAG) {
phy_info->dl_channel_bw_support = req->carrier_config.dl_bandwidth.value; // rf_config.dl_channel_bandwidth.value;
fp->N_RB_DL = req->carrier_config.dl_bandwidth.value; // rf_config.dl_channel_bandwidth.value;
num_tlv++;
NFAPI_TRACE(NFAPI_TRACE_ERROR, "%s() NFAPI_NR_CONFIG_DL_BANDWIDTH_TAG N_RB_DL:%u\n", __FUNCTION__, fp->N_RB_DL);
} else {
NFAPI_TRACE(NFAPI_TRACE_ERROR, "%s() Missing NFAPI_NR_CONFIG_DL_BANDWIDTH_TAG\n", __FUNCTION__);
}
if (req->carrier_config.uplink_bandwidth.tl.tag == NFAPI_NR_CONFIG_UPLINK_BANDWIDTH_TAG) {
phy_info->ul_channel_bw_support = req->carrier_config.uplink_bandwidth.value; // req->rf_config.ul_channel_bandwidth.value;
fp->N_RB_UL = req->carrier_config.uplink_bandwidth.value; // req->rf_config.ul_channel_bandwidth.value;
num_tlv++;
}
if (req->cell_config.phy_cell_id.tl.tag == NFAPI_NR_CONFIG_PHY_CELL_ID_TAG) {
fp->Nid_cell = req->cell_config.phy_cell_id.value; // sch_config.physical_cell_id.value;
num_tlv++;
}
if (NFAPI_MODE != NFAPI_UE_STUB_PNF) {
printf("[PNF] CONFIG_REQUEST[num_tlv:%d] TLVs processed:%d\n", req->num_tlv, num_tlv);
printf("[PNF] Simulating PHY CONFIG\n");
NR_PHY_Config_t nr_phy_config;
nr_phy_config.Mod_id = 0;
nr_phy_config.CC_id = 0;
nr_phy_config.cfg = req;
nr_phy_config_request(&nr_phy_config);
nr_dump_frame_parms(fp);
}
phy_info->remote_port = req->nfapi_config.p7_vnf_port.value;
struct sockaddr_in vnf_p7_sockaddr;
memcpy(&vnf_p7_sockaddr.sin_addr.s_addr, &(req->nfapi_config.p7_vnf_address_ipv4.address[0]), 4);
phy_info->remote_addr = inet_ntoa(vnf_p7_sockaddr.sin_addr);
printf("[PNF] %d vnf p7 %s:%d timing %d %d %d\n",
phy_info->id,
phy_info->remote_addr,
phy_info->remote_port,
phy_info->timing_window,
phy_info->timing_info_mode,
phy_info->timing_info_period);
nfapi_nr_config_response_scf_t nfapi_resp;
memset(&nfapi_resp, 0, sizeof(nfapi_resp));
nfapi_resp.header.message_id = NFAPI_NR_PHY_MSG_TYPE_CONFIG_RESPONSE;
nfapi_resp.header.phy_id = phy_info->id;
nfapi_resp.error_code = 0;
nfapi_resp.num_invalid_tlvs = 0;
nfapi_resp.num_invalid_tlvs_configured_in_idle = 0;
nfapi_resp.num_invalid_tlvs_configured_in_running = 0;
nfapi_resp.num_missing_tlvs = 0;
nfapi_nr_pnf_config_resp(config, &nfapi_resp);
printf("[PNF] Sent NFAPI_PNF_CONFIG_RESPONSE phy_id:%d\n", phy_info->id);
if (NFAPI_MODE == NFAPI_UE_STUB_PNF)
free(fp);
return 0;
}
void *pnf_phy_allocate_p7_vendor_ext(uint16_t message_id, uint16_t *msg_size)
{
if (message_id == P7_VENDOR_EXT_REQ) {
(*msg_size) = sizeof(vendor_ext_p7_req);
return (nfapi_p7_message_header_t *)malloc(sizeof(vendor_ext_p7_req));
}
return 0;
}
void *pnf_nr_phy_allocate_p7_vendor_ext(uint16_t message_id, uint16_t *msg_size)
{
if (message_id == P7_VENDOR_EXT_REQ) {
(*msg_size) = sizeof(vendor_ext_p7_req);
return (nfapi_nr_p7_message_header_t *)malloc(sizeof(vendor_ext_p7_req));
}
return 0;
}
void pnf_phy_deallocate_p7_vendor_ext(void *header)
{
free(header);
}
void pnf_nr_phy_deallocate_p7_vendor_ext(void *header)
{
free(header);
}
int pnf_phy_hi_dci0_req(nfapi_pnf_p7_config_t *pnf_p7, nfapi_hi_dci0_request_t *req) {
UNUSED(pnf_p7)
if (req->hi_dci0_request_body.number_of_dci == 0 && req->hi_dci0_request_body.number_of_hi == 0)
LOG_D(PHY,"[PNF] HI_DCI0_REQUEST SFN/SF:%05d dci:%d hi:%d\n", NFAPI_SFNSF2DEC(req->sfn_sf), req->hi_dci0_request_body.number_of_dci, req->hi_dci0_request_body.number_of_hi);
//phy_info* phy = (phy_info*)(pnf_p7->user_data);
struct PHY_VARS_eNB_s *eNB = RC.eNB[0][0];
L1_rxtx_proc_t *proc = &eNB->proc.L1_proc;
for (int i=0; i<req->hi_dci0_request_body.number_of_dci + req->hi_dci0_request_body.number_of_hi; i++) {
//LOG_D(PHY,"[PNF] HI_DCI0_REQ sfn_sf:%d PDU[%d]\n", NFAPI_SFNSF2DEC(req->sfn_sf), i);
if (req->hi_dci0_request_body.hi_dci0_pdu_list[i].pdu_type == NFAPI_HI_DCI0_DCI_PDU_TYPE) {
//LOG_D(PHY,"[PNF] HI_DCI0_REQ sfn_sf:%d PDU[%d] - NFAPI_HI_DCI0_DCI_PDU_TYPE\n", NFAPI_SFNSF2DEC(req->sfn_sf), i);
nfapi_hi_dci0_request_pdu_t *hi_dci0_req_pdu = &req->hi_dci0_request_body.hi_dci0_pdu_list[i];
handle_nfapi_hi_dci0_dci_pdu(eNB,NFAPI_SFNSF2SFN(req->sfn_sf),NFAPI_SFNSF2SF(req->sfn_sf),proc,hi_dci0_req_pdu);
eNB->pdcch_vars[NFAPI_SFNSF2SF(req->sfn_sf)&1].num_dci++;
} else if (req->hi_dci0_request_body.hi_dci0_pdu_list[i].pdu_type == NFAPI_HI_DCI0_HI_PDU_TYPE) {
LOG_D(PHY,"[PNF] HI_DCI0_REQ sfn_sf:%d PDU[%d] - NFAPI_HI_DCI0_HI_PDU_TYPE\n", NFAPI_SFNSF2DEC(req->sfn_sf), i);
nfapi_hi_dci0_request_pdu_t *hi_dci0_req_pdu = &req->hi_dci0_request_body.hi_dci0_pdu_list[i];
handle_nfapi_hi_dci0_hi_pdu(eNB, NFAPI_SFNSF2SFN(req->sfn_sf),NFAPI_SFNSF2SF(req->sfn_sf), proc, hi_dci0_req_pdu);
} else {
LOG_E(PHY,"[PNF] HI_DCI0_REQ sfn_sf:%d PDU[%d] - unknown pdu type:%d\n", NFAPI_SFNSF2DEC(req->sfn_sf), i, req->hi_dci0_request_body.hi_dci0_pdu_list[i].pdu_type);
}
}
return 0;
}
int pnf_phy_dl_config_req(nfapi_pnf_p7_config_t *pnf_p7, nfapi_dl_config_request_t *req) {
UNUSED(pnf_p7)
if (RC.eNB == 0) {
return -2;
}
if (RC.eNB[0][0] == 0) {
return -3;
}
if (sync_var != 0) {
NFAPI_TRACE(NFAPI_TRACE_INFO, "%s() Main system not up - is this a dummy subframe?\n", __FUNCTION__);
return -4;
}
int sfn = NFAPI_SFNSF2SFN(req->sfn_sf);
int sf = NFAPI_SFNSF2SF(req->sfn_sf);
struct PHY_VARS_eNB_s *eNB = RC.eNB[0][0];
L1_rxtx_proc_t *proc = &eNB->proc.L1_proc;
nfapi_dl_config_request_pdu_t *dl_config_pdu_list = req->dl_config_request_body.dl_config_pdu_list;
LTE_eNB_PDCCH *pdcch_vars = &eNB->pdcch_vars[sf&1];
pdcch_vars->num_pdcch_symbols = req->dl_config_request_body.number_pdcch_ofdm_symbols;
pdcch_vars->num_dci = 0;
if (req->dl_config_request_body.number_dci ||
req->dl_config_request_body.number_pdu ||
req->dl_config_request_body.number_pdsch_rnti)
NFAPI_TRACE(NFAPI_TRACE_INFO, "%s() TX:%d/%d RX:%d/%d sfn_sf:%d pdcch:%u dl_cfg[dci:%u pdus:%d pdsch_rnti:%d] pcfich:%u\n",
__FUNCTION__, proc->frame_tx, proc->subframe_tx, proc->frame_rx, proc->subframe_rx,
NFAPI_SFNSF2DEC(req->sfn_sf),
req->dl_config_request_body.number_pdcch_ofdm_symbols,
req->dl_config_request_body.number_dci,
req->dl_config_request_body.number_pdu,
req->dl_config_request_body.number_pdsch_rnti,
req->dl_config_request_body.transmission_power_pcfich);
for (int i=0; i<req->dl_config_request_body.number_pdu; i++) {
NFAPI_TRACE(NFAPI_TRACE_INFO, "%s() sfn/sf:%d PDU[%d] size:%d pdcch_vars->num_dci:%d\n", __FUNCTION__, NFAPI_SFNSF2DEC(req->sfn_sf), i, dl_config_pdu_list[i].pdu_size,pdcch_vars->num_dci);
if (dl_config_pdu_list[i].pdu_type == NFAPI_DL_CONFIG_DCI_DL_PDU_TYPE) {
handle_nfapi_dci_dl_pdu(eNB,NFAPI_SFNSF2SFN(req->sfn_sf),NFAPI_SFNSF2SF(req->sfn_sf),proc,&dl_config_pdu_list[i]);
pdcch_vars->num_dci++; // Is actually number of DCI PDUs
NFAPI_TRACE(NFAPI_TRACE_INFO, "%s() pdcch_vars->num_dci:%d\n", __FUNCTION__, pdcch_vars->num_dci);
} else if (dl_config_pdu_list[i].pdu_type == NFAPI_DL_CONFIG_BCH_PDU_TYPE) {
nfapi_dl_config_bch_pdu *bch_pdu = &dl_config_pdu_list[i].bch_pdu;
uint16_t pdu_index = bch_pdu->bch_pdu_rel8.pdu_index;
if (tx_request_pdu[sfn][sf][pdu_index] != NULL) {
//NFAPI_TRACE(NFAPI_TRACE_INFO, "%s() PDU:%d BCH: pdu_index:%u pdu_length:%d sdu_length:%d BCH_SDU:%x,%x,%x\n", __FUNCTION__, i, pdu_index, bch_pdu->bch_pdu_rel8.length, tx_request_pdu[sfn][sf][pdu_index]->segments[0].segment_length, sdu[0], sdu[1], sdu[2]);
handle_nfapi_bch_pdu(eNB, proc, &dl_config_pdu_list[i], tx_request_pdu[sfn][sf][pdu_index]->segments[0].segment_data);
eNB->pbch_configured=1;
} else {
NFAPI_TRACE(NFAPI_TRACE_ERROR, "%s() BCH NULL TX PDU SFN/SF:%d PDU_INDEX:%d\n", __FUNCTION__, NFAPI_SFNSF2DEC(req->sfn_sf), pdu_index);
}
} else if (dl_config_pdu_list[i].pdu_type == NFAPI_DL_CONFIG_DLSCH_PDU_TYPE) {
nfapi_dl_config_dlsch_pdu *dlsch_pdu = &dl_config_pdu_list[i].dlsch_pdu;
nfapi_dl_config_dlsch_pdu_rel8_t *rel8_pdu = &dlsch_pdu->dlsch_pdu_rel8;
nfapi_tx_request_pdu_t *tx_pdu = tx_request_pdu[sfn][sf][rel8_pdu->pdu_index];
if (tx_pdu != NULL) {
int UE_id = find_dlsch(rel8_pdu->rnti,eNB,SEARCH_EXIST_OR_FREE);
AssertFatal(UE_id!=-1,"no free or exiting dlsch_context\n");
AssertFatal(UE_id<NUMBER_OF_UE_MAX,"returned UE_id %d >= %d(NUMBER_OF_UE_MAX)\n",UE_id,NUMBER_OF_UE_MAX);
LTE_eNB_DLSCH_t *dlsch0 = eNB->dlsch[UE_id][0];
//LTE_eNB_DLSCH_t *dlsch1 = eNB->dlsch[UE_id][1];
int harq_pid = dlsch0->harq_ids[sfn%2][sf];
if(harq_pid >= dlsch0->Mdlharq) {
LOG_E(PHY,"pnf_phy_dl_config_req illegal harq_pid %d\n", harq_pid);
return(-1);
}
uint8_t *dlsch_sdu = tx_pdus[UE_id][harq_pid];
memcpy(dlsch_sdu, tx_pdu->segments[0].segment_data, tx_pdu->segments[0].segment_length);
//NFAPI_TRACE(NFAPI_TRACE_INFO, "%s() DLSCH:pdu_index:%d handle_nfapi_dlsch_pdu(eNB, proc_rxtx, dlsch_pdu, transport_blocks:%d sdu:%p) eNB->pdcch_vars[proc->subframe_tx & 1].num_pdcch_symbols:%d\n", __FUNCTION__, rel8_pdu->pdu_index, rel8_pdu->transport_blocks, dlsch_sdu, eNB->pdcch_vars[proc->subframe_tx & 1].num_pdcch_symbols);
handle_nfapi_dlsch_pdu( eNB, sfn,sf, proc, &dl_config_pdu_list[i], rel8_pdu->transport_blocks-1, dlsch_sdu);
} else {
NFAPI_TRACE(NFAPI_TRACE_ERROR, "%s() DLSCH NULL TX PDU SFN/SF:%d PDU_INDEX:%d\n", __FUNCTION__, NFAPI_SFNSF2DEC(req->sfn_sf), rel8_pdu->pdu_index);
}
} else {
NFAPI_TRACE(NFAPI_TRACE_ERROR, "%s() UNKNOWN:%d\n", __FUNCTION__, dl_config_pdu_list[i].pdu_type);
}
}
if(req->vendor_extension)
free(req->vendor_extension);
return 0;
}
int pnf_phy_tx_req(nfapi_pnf_p7_config_t *pnf_p7, nfapi_tx_request_t *req) {
UNUSED(pnf_p7)
uint16_t sfn = NFAPI_SFNSF2SFN(req->sfn_sf);
uint16_t sf = NFAPI_SFNSF2SF(req->sfn_sf);
if (req->tx_request_body.number_of_pdus==0)
LOG_D(PHY,"%s() SFN/SF:%d%d PDUs:%d\n", __FUNCTION__, sfn, sf, req->tx_request_body.number_of_pdus);
if (req->tx_request_body.tl.tag==NFAPI_TX_REQUEST_BODY_TAG) {
for (int i=0; i<req->tx_request_body.number_of_pdus; i++) {
LOG_D(PHY,"%s() SFN/SF:%d%d number_of_pdus:%d [PDU:%d] pdu_length:%d pdu_index:%d num_segments:%d\n",
__FUNCTION__,
sfn, sf,
req->tx_request_body.number_of_pdus,
i,
req->tx_request_body.tx_pdu_list[i].pdu_length,
req->tx_request_body.tx_pdu_list[i].pdu_index,
req->tx_request_body.tx_pdu_list[i].num_segments
);
tx_request_pdu[sfn][sf][i] = &req->tx_request_body.tx_pdu_list[i];
}
}
return 0;
}
int pnf_phy_ul_config_req(nfapi_pnf_p7_config_t *pnf_p7, nfapi_ul_config_request_t *req) {
UNUSED(pnf_p7)
if (0)LOG_D(PHY,"[PNF] UL_CONFIG_REQ %s() sfn_sf:%d pdu:%d rach_prach_frequency_resources:%d srs_present:%u\n",
__FUNCTION__,
NFAPI_SFNSF2DEC(req->sfn_sf),
req->ul_config_request_body.number_of_pdus,
req->ul_config_request_body.rach_prach_frequency_resources,
req->ul_config_request_body.srs_present
);
if (RC.eNB == 0) {
return -2;
}
if (RC.eNB[0][0] == 0) {
return -3;
}
if (sync_var != 0) {
NFAPI_TRACE(NFAPI_TRACE_INFO, "%s() Main system not up - is this a dummy subframe?\n", __FUNCTION__);
return -4;
}
uint16_t curr_sfn = NFAPI_SFNSF2SFN(req->sfn_sf);
uint16_t curr_sf = NFAPI_SFNSF2SF(req->sfn_sf);
struct PHY_VARS_eNB_s *eNB = RC.eNB[0][0];
L1_rxtx_proc_t *proc = &eNB->proc.L1_proc;
nfapi_ul_config_request_pdu_t *ul_config_pdu_list = req->ul_config_request_body.ul_config_pdu_list;
for (int i=0; i<req->ul_config_request_body.number_of_pdus; i++) {
//LOG_D(PHY, "%s() sfn/sf:%d PDU[%d] size:%d\n", __FUNCTION__, NFAPI_SFNSF2DEC(req->sfn_sf), i, ul_config_pdu_list[i].pdu_size);
if (
ul_config_pdu_list[i].pdu_type == NFAPI_UL_CONFIG_ULSCH_PDU_TYPE ||
ul_config_pdu_list[i].pdu_type == NFAPI_UL_CONFIG_ULSCH_HARQ_PDU_TYPE ||
ul_config_pdu_list[i].pdu_type == NFAPI_UL_CONFIG_ULSCH_CQI_RI_PDU_TYPE ||
ul_config_pdu_list[i].pdu_type == NFAPI_UL_CONFIG_ULSCH_CQI_HARQ_RI_PDU_TYPE ||
ul_config_pdu_list[i].pdu_type == NFAPI_UL_CONFIG_UCI_HARQ_PDU_TYPE ||
ul_config_pdu_list[i].pdu_type == NFAPI_UL_CONFIG_UCI_SR_PDU_TYPE ||
ul_config_pdu_list[i].pdu_type == NFAPI_UL_CONFIG_UCI_SR_HARQ_PDU_TYPE
) {
//LOG_D(PHY, "%s() handle_nfapi_ul_pdu() for PDU:%d\n", __FUNCTION__, i);
handle_nfapi_ul_pdu(eNB,proc,&ul_config_pdu_list[i],curr_sfn,curr_sf,req->ul_config_request_body.srs_present);
} else {
NFAPI_TRACE(NFAPI_TRACE_ERROR, "%s() PDU:%i UNKNOWN type :%d\n", __FUNCTION__, i, ul_config_pdu_list[i].pdu_type);
}
}
return 0;
}
int pnf_phy_lbt_dl_config_req(nfapi_pnf_p7_config_t *config, nfapi_lbt_dl_config_request_t *req) {
UNUSED(config)
UNUSED(req)
//printf("[PNF] lbt dl config request\n");
return 0;
}
int pnf_phy_ue_release_req(nfapi_pnf_p7_config_t* config, nfapi_ue_release_request_t* req) {
UNUSED(config)
if (req->ue_release_request_body.number_of_TLVs==0)
return -1;
release_rntis.number_of_TLVs = req->ue_release_request_body.number_of_TLVs;
memcpy(&release_rntis.ue_release_request_TLVs_list, req->ue_release_request_body.ue_release_request_TLVs_list, sizeof(nfapi_ue_release_request_TLVs_t)*req->ue_release_request_body.number_of_TLVs);
return 0;
}
int pnf_phy_vendor_ext(nfapi_pnf_p7_config_t *config, void *msg)
{
UNUSED(config)
if (((nfapi_p7_message_header_t *)msg)->message_id == P7_VENDOR_EXT_REQ) {
// vendor_ext_p7_req* req = (vendor_ext_p7_req*)msg;
// printf("[PNF] vendor request (1:%d 2:%d)\n", req->dummy1, req->dummy2);
} else {
printf("[PNF] unknown vendor ext\n");
}
return 0;
}
int pnf_nr_phy_vendor_ext(nfapi_pnf_p7_config_t *config, void *msg)
{
UNUSED(config)
if (((nfapi_nr_p7_message_header_t *)msg)->message_id == P7_VENDOR_EXT_REQ) {
// vendor_ext_p7_req* req = (vendor_ext_p7_req*)msg;
// printf("[PNF] vendor request (1:%d 2:%d)\n", req->dummy1, req->dummy2);
} else {
printf("[PNF] unknown vendor ext\n");
}
return 0;
}
int pnf_phy_pack_p7_vendor_extension(void *header, uint8_t **ppWritePackedMsg, uint8_t *end, nfapi_p7_codec_config_t *codex) {
UNUSED(codex)
//NFAPI_TRACE(NFAPI_TRACE_INFO, "%s\n", __FUNCTION__);
if(((nfapi_p7_message_header_t*)header)->message_id == P7_VENDOR_EXT_IND) {
vendor_ext_p7_ind *ind = (vendor_ext_p7_ind *)(header);
if(!push16(ind->error_code, ppWritePackedMsg, end))
return 0;
return 1;
}
return -1;
}
int pnf_phy_unpack_p7_vendor_extension(void *header, uint8_t **ppReadPackedMessage, uint8_t *end, nfapi_p7_codec_config_t *codec)
{
UNUSED(codec)
if (((nfapi_p7_message_header_t *)header)->message_id == P7_VENDOR_EXT_REQ) {
// NFAPI_TRACE(NFAPI_TRACE_INFO, "%s\n", __FUNCTION__);
vendor_ext_p7_req *req = (vendor_ext_p7_req *)(header);
if (!(pull16(ppReadPackedMessage, &req->dummy1, end) && pull16(ppReadPackedMessage, &req->dummy2, end)))
return 0;
return 1;
}
return -1;
}
int pnf_nr_phy_pack_p7_vendor_extension(void *header, uint8_t **ppWritePackedMsg, uint8_t *end, nfapi_p7_codec_config_t *codex)
{
UNUSED(codex)
// NFAPI_TRACE(NFAPI_TRACE_INFO, "%s\n", __FUNCTION__);
if (((nfapi_nr_p7_message_header_t *)header)->message_id == P7_VENDOR_EXT_IND) {
vendor_ext_p7_ind *ind = (vendor_ext_p7_ind *)(header);
if (!push16(ind->error_code, ppWritePackedMsg, end))
return 0;
return 1;
}
return -1;
}
int pnf_nr_phy_unpack_p7_vendor_extension(void *header, uint8_t **ppReadPackedMessage, uint8_t *end, nfapi_p7_codec_config_t *codec)
{
UNUSED(codec)
if (((nfapi_nr_p7_message_header_t *)header)->message_id == P7_VENDOR_EXT_REQ) {
// NFAPI_TRACE(NFAPI_TRACE_INFO, "%s\n", __FUNCTION__);
vendor_ext_p7_req *req = (vendor_ext_p7_req *)(header);
if (!(pull16(ppReadPackedMessage, &req->dummy1, end) && pull16(ppReadPackedMessage, &req->dummy2, end)))
return 0;
return 1;
}
return -1;
}
int pnf_phy_unpack_vendor_extension_tlv(nfapi_tl_t *tl, uint8_t **ppReadPackedMessage, uint8_t *end, void **ve, nfapi_p7_codec_config_t *config) {
UNUSED(config)
//NFAPI_TRACE(NFAPI_TRACE_INFO, "pnf_phy_unpack_vendor_extension_tlv\n");
switch(tl->tag) {
case VENDOR_EXT_TLV_1_TAG:
*ve = malloc(sizeof(vendor_ext_tlv_1));
if(!pull32(ppReadPackedMessage, &((vendor_ext_tlv_1 *)(*ve))->dummy, end))
return 0;
return 1;
break;
}
return -1;
}
int pnf_phy_pack_vendor_extention_tlv(void *ve, uint8_t **ppWritePackedMsg, uint8_t *end, nfapi_p7_codec_config_t *config) {
//printf("%s\n", __FUNCTION__);
UNUSED(ve)
UNUSED(ppWritePackedMsg)
UNUSED(end)
UNUSED(config)
return -1;
}
int pnf_nr_phy_unpack_vendor_extension_tlv(nfapi_tl_t *tl,
uint8_t **ppReadPackedMessage,
uint8_t *end,
void **ve,
nfapi_p7_codec_config_t *config)
{
UNUSED(config)
// NFAPI_TRACE(NFAPI_TRACE_INFO, "pnf_phy_unpack_vendor_extension_tlv\n");
switch (tl->tag) {
case VENDOR_EXT_TLV_1_TAG:
*ve = malloc(sizeof(vendor_ext_tlv_1));
if (!pull32(ppReadPackedMessage, &((vendor_ext_tlv_1 *)(*ve))->dummy, end))
return 0;
return 1;
break;
}
return -1;
}
int pnf_nr_phy_pack_vendor_extention_tlv(void *ve, uint8_t **ppWritePackedMsg, uint8_t *end, nfapi_p7_codec_config_t *config)
{
// printf("%s\n", __FUNCTION__);
UNUSED(ve)
UNUSED(ppWritePackedMsg)
UNUSED(end)
UNUSED(config)
return -1;
}
int pnf_sim_unpack_vendor_extension_tlv(nfapi_tl_t *tl, uint8_t **ppReadPackedMessage, uint8_t *end, void **ve, nfapi_p4_p5_codec_config_t *config) {
UNUSED(config)
//NFAPI_TRACE(NFAPI_TRACE_INFO, "pnf_sim_unpack_vendor_extension_tlv\n");
switch(tl->tag) {
case VENDOR_EXT_TLV_2_TAG:
*ve = malloc(sizeof(vendor_ext_tlv_2));
if(!pull32(ppReadPackedMessage, &((vendor_ext_tlv_2 *)(*ve))->dummy, end))
return 0;
return 1;
break;
}
return -1;
}
int pnf_nr_sim_unpack_vendor_extension_tlv(nfapi_tl_t *tl,
uint8_t **ppReadPackedMessage,
uint8_t *end,
void **ve,
nfapi_p4_p5_codec_config_t *config)
{
UNUSED(config)
// NFAPI_TRACE(NFAPI_TRACE_INFO, "pnf_sim_unpack_vendor_extension_tlv\n");
switch (tl->tag) {
case VENDOR_EXT_TLV_2_TAG:
*ve = malloc(sizeof(vendor_ext_tlv_2));
if (!pull32(ppReadPackedMessage, &((vendor_ext_tlv_2 *)(*ve))->dummy, end))
return 0;
return 1;
break;
}
return -1;
}
int pnf_sim_pack_vendor_extention_tlv(void *ve, uint8_t **ppWritePackedMsg, uint8_t *end, nfapi_p4_p5_codec_config_t *config) {
//printf("%s\n", __FUNCTION__);
UNUSED(ve)
UNUSED(ppWritePackedMsg)
UNUSED(end)
UNUSED(config)
return -1;
}
int pnf_nr_sim_pack_vendor_extention_tlv(void *ve, uint8_t **ppWritePackedMsg, uint8_t *end, nfapi_p4_p5_codec_config_t *config)
{
// printf("%s\n", __FUNCTION__);
UNUSED(ve)
UNUSED(ppWritePackedMsg)
UNUSED(end)
UNUSED(config)
return -1;
}
static nfapi_dl_config_request_t dummy_dl_config_req;
static nfapi_tx_request_t dummy_tx_req;
int start_request(nfapi_pnf_config_t *config, nfapi_pnf_phy_config_t *phy, nfapi_start_request_t *req) {
printf("[PNF] Received NFAPI_START_REQ phy_id:%d\n", req->header.phy_id);
pnf_info *pnf = (pnf_info *)(config->user_data);
phy_info *phy_info = pnf->phys;
nfapi_pnf_p7_config_t *p7_config = nfapi_pnf_p7_config_create();
p7_config->phy_id = phy->phy_id;
p7_config->remote_p7_port = phy_info->remote_port;
p7_config->remote_p7_addr = phy_info->remote_addr;
p7_config->local_p7_port = phy_info->udp.rx_port;
p7_config->local_p7_addr = phy_info->local_addr;
printf("[PNF] P7 remote:%s:%d local:%s:%d\n", p7_config->remote_p7_addr, p7_config->remote_p7_port, p7_config->local_p7_addr, p7_config->local_p7_port);
p7_config->user_data = phy_info;
p7_config->malloc = &pnf_allocate;
p7_config->free = &pnf_deallocate;
p7_config->codec_config.allocate = &pnf_allocate;
p7_config->codec_config.deallocate = &pnf_deallocate;
p7_config->trace = &pnf_nfapi_trace;
phy->user_data = p7_config;
p7_config->subframe_buffer_size = phy_info->timing_window;
printf("subframe_buffer_size configured using phy_info->timing_window:%d\n", phy_info->timing_window);
if(phy_info->timing_info_mode & 0x1) {
p7_config->timing_info_mode_periodic = 1;
p7_config->timing_info_period = phy_info->timing_info_period;
}
if(phy_info->timing_info_mode & 0x2) {
p7_config->timing_info_mode_aperiodic = 1;
}
p7_config->dl_config_req = &pnf_phy_dl_config_req;
p7_config->ul_config_req = &pnf_phy_ul_config_req;
p7_config->hi_dci0_req = &pnf_phy_hi_dci0_req;
p7_config->tx_req = &pnf_phy_tx_req;
p7_config->lbt_dl_config_req = &pnf_phy_lbt_dl_config_req;
p7_config->ue_release_req = &pnf_phy_ue_release_req;
if (NFAPI_MODE==NFAPI_UE_STUB_PNF || NFAPI_MODE==NFAPI_MODE_STANDALONE_PNF) {
p7_config->dl_config_req = NULL;
p7_config->ul_config_req = NULL;
p7_config->hi_dci0_req = NULL;
p7_config->tx_req = NULL;
} else {
p7_config->dl_config_req = &pnf_phy_dl_config_req;
p7_config->ul_config_req = &pnf_phy_ul_config_req;
p7_config->hi_dci0_req = &pnf_phy_hi_dci0_req;
p7_config->tx_req = &pnf_phy_tx_req;
}
p7_config->lbt_dl_config_req = &pnf_phy_lbt_dl_config_req;
memset(&dummy_dl_config_req, 0, sizeof(dummy_dl_config_req));
dummy_dl_config_req.dl_config_request_body.tl.tag=NFAPI_DL_CONFIG_REQUEST_BODY_TAG;
dummy_dl_config_req.dl_config_request_body.number_pdcch_ofdm_symbols=1;
dummy_dl_config_req.dl_config_request_body.number_dci=0;
dummy_dl_config_req.dl_config_request_body.number_pdu=0;
dummy_dl_config_req.dl_config_request_body.number_pdsch_rnti=0;
dummy_dl_config_req.dl_config_request_body.transmission_power_pcfich=6000;
dummy_dl_config_req.dl_config_request_body.dl_config_pdu_list=0;
memset(&dummy_tx_req, 0, sizeof(dummy_tx_req));
dummy_tx_req.tx_request_body.number_of_pdus=0;
dummy_tx_req.tx_request_body.tl.tag=NFAPI_TX_REQUEST_BODY_TAG;
memset(&p7_config->dummy_subframe, 0, sizeof(p7_config->dummy_subframe));
p7_config->dummy_subframe.dl_config_req = &dummy_dl_config_req;
p7_config->vendor_ext = &pnf_phy_vendor_ext;
p7_config->allocate_p7_vendor_ext = &pnf_phy_allocate_p7_vendor_ext;
p7_config->deallocate_p7_vendor_ext = &pnf_phy_deallocate_p7_vendor_ext;
p7_config->codec_config.unpack_p7_vendor_extension = &pnf_phy_unpack_p7_vendor_extension;
p7_config->codec_config.pack_p7_vendor_extension = &pnf_phy_pack_p7_vendor_extension;
p7_config->codec_config.unpack_vendor_extension_tlv = &pnf_phy_unpack_vendor_extension_tlv;
p7_config->codec_config.pack_vendor_extension_tlv = &pnf_phy_pack_vendor_extention_tlv;
NFAPI_TRACE(NFAPI_TRACE_INFO, "[PNF] Creating P7 thread %s\n", __FUNCTION__);
pthread_t p7_thread;
threadCreate(&p7_thread, &pnf_p7_thread_start, p7_config, "pnf_p7_thread", -1, OAI_PRIORITY_RT);
//((pnf_phy_user_data_t*)(phy_info->fapi->user_data))->p7_config = p7_config;
NFAPI_TRACE(NFAPI_TRACE_INFO, "[PNF] Calling l1_north_init_eNB() %s\n", __FUNCTION__);
l1_north_init_eNB();
NFAPI_TRACE(NFAPI_TRACE_INFO, "[PNF] HACK - Set p7_config global ready for subframe ind%s\n", __FUNCTION__);
p7_config_g = p7_config;
// Need to wait for main thread to create RU structures
while(config_sync_var<0) {
usleep(5000000);
printf("[PNF] waiting for OAI to be configured (eNB/RU)\n");
}
printf("[PNF] OAI eNB/RU configured\n");
//printf("[PNF] About to call phy_init_RU() for RC.ru[0]:%p\n", RC.ru[0]);
//phy_init_RU(RC.ru[0]);
printf("[PNF] About to call init_eNB_afterRU()\n");
if (NFAPI_MODE!=NFAPI_UE_STUB_PNF && NFAPI_MODE!=NFAPI_MODE_STANDALONE_PNF) {
init_eNB_afterRU();
}
// Signal to main thread that it can carry on - otherwise RU will startup too quickly and it is not initialised
{
pthread_mutex_lock(&nfapi_sync_mutex);
nfapi_sync_var=0;
pthread_cond_broadcast(&nfapi_sync_cond);
pthread_mutex_unlock(&nfapi_sync_mutex);
}
while(sync_var<0) {
usleep(5000000);
printf("[PNF] waiting for OAI to be started\n");
}
printf("[PNF] Sending PNF_START_RESP\n");
nfapi_send_pnf_start_resp(config, p7_config->phy_id);
printf("[PNF] Sending first P7 subframe ind\n");
nfapi_pnf_p7_subframe_ind(p7_config, p7_config->phy_id, 0); // SFN_SF set to zero - correct???
printf("[PNF] Sent first P7 subframe ind\n");
return 0;
}
int nr_start_request(nfapi_pnf_config_t *config, nfapi_pnf_phy_config_t *phy, nfapi_nr_start_request_scf_t *req)
{
printf("[PNF] Received NFAPI_START_REQ phy_id:%d\n", req->header.phy_id);
pnf_info *pnf = (pnf_info *)(config->user_data);
phy_info *phy_info = pnf->phys;
nfapi_pnf_p7_config_t *p7_config = nfapi_pnf_p7_config_create();
p7_config->phy_id = phy->phy_id;
p7_config->remote_p7_port = phy_info->remote_port;
p7_config->remote_p7_addr = phy_info->remote_addr;
p7_config->local_p7_port = phy_info->udp.rx_port;
p7_config->local_p7_addr = phy_info->local_addr;
printf("[PNF] P7 remote:%s:%d local:%s:%d\n",
p7_config->remote_p7_addr,
p7_config->remote_p7_port,
p7_config->local_p7_addr,
p7_config->local_p7_port);
p7_config->user_data = phy_info;
p7_config->malloc = &pnf_allocate;
p7_config->free = &pnf_deallocate;
p7_config->codec_config.allocate = &pnf_allocate;
p7_config->codec_config.deallocate = &pnf_deallocate;
p7_config->trace = &pnf_nfapi_trace;
phy->user_data = p7_config;
p7_config->subframe_buffer_size = phy_info->timing_window;
p7_config->slot_buffer_size = phy_info->timing_window; // TODO: check if correct for NR
printf("subframe_buffer_size configured using phy_info->timing_window:%d\n", phy_info->timing_window);
if (phy_info->timing_info_mode & 0x1) {
p7_config->timing_info_mode_periodic = 1;
p7_config->timing_info_period = phy_info->timing_info_period;
}
if (phy_info->timing_info_mode & 0x2) {
p7_config->timing_info_mode_aperiodic = 1;
}
// NR
p7_config->dl_tti_req_fn = NULL;
p7_config->ul_tti_req_fn = NULL;
p7_config->ul_dci_req_fn = NULL;
p7_config->tx_data_req_fn = NULL;
// LTE
p7_config->dl_config_req = &pnf_phy_dl_config_req;
p7_config->ul_config_req = &pnf_phy_ul_config_req;
p7_config->hi_dci0_req = &pnf_phy_hi_dci0_req;
p7_config->tx_req = &pnf_phy_tx_req;
p7_config->lbt_dl_config_req = &pnf_phy_lbt_dl_config_req;
p7_config->ue_release_req = &pnf_phy_ue_release_req;
if (NFAPI_MODE == NFAPI_UE_STUB_PNF) {
p7_config->dl_config_req = NULL;
p7_config->ul_config_req = NULL;
p7_config->hi_dci0_req = NULL;
p7_config->tx_req = NULL;
} else {
p7_config->dl_config_req = &pnf_phy_dl_config_req;
p7_config->ul_config_req = &pnf_phy_ul_config_req;
p7_config->hi_dci0_req = &pnf_phy_hi_dci0_req;
p7_config->tx_req = &pnf_phy_tx_req;
}
p7_config->lbt_dl_config_req = &pnf_phy_lbt_dl_config_req;
memset(&dummy_dl_config_req, 0, sizeof(dummy_dl_config_req));
dummy_dl_config_req.dl_config_request_body.tl.tag = NFAPI_DL_CONFIG_REQUEST_BODY_TAG;
dummy_dl_config_req.dl_config_request_body.number_pdcch_ofdm_symbols = 1;
dummy_dl_config_req.dl_config_request_body.number_dci = 0;
dummy_dl_config_req.dl_config_request_body.number_pdu = 0;
dummy_dl_config_req.dl_config_request_body.number_pdsch_rnti = 0;
dummy_dl_config_req.dl_config_request_body.transmission_power_pcfich = 6000;
dummy_dl_config_req.dl_config_request_body.dl_config_pdu_list = 0;
memset(&dummy_tx_req, 0, sizeof(dummy_tx_req));
dummy_tx_req.tx_request_body.number_of_pdus = 0;
dummy_tx_req.tx_request_body.tl.tag = NFAPI_TX_REQUEST_BODY_TAG;
memset(&p7_config->dummy_subframe, 0, sizeof(p7_config->dummy_subframe));
p7_config->dummy_subframe.dl_config_req = &dummy_dl_config_req;
p7_config->vendor_ext = &pnf_nr_phy_vendor_ext;
p7_config->allocate_p7_vendor_ext = &pnf_nr_phy_allocate_p7_vendor_ext;
p7_config->deallocate_p7_vendor_ext = &pnf_nr_phy_deallocate_p7_vendor_ext;
p7_config->codec_config.unpack_p7_vendor_extension = &pnf_nr_phy_unpack_p7_vendor_extension;
p7_config->codec_config.pack_p7_vendor_extension = &pnf_nr_phy_pack_p7_vendor_extension;
p7_config->codec_config.unpack_vendor_extension_tlv = &pnf_nr_phy_unpack_vendor_extension_tlv;
p7_config->codec_config.pack_vendor_extension_tlv = &pnf_nr_phy_pack_vendor_extention_tlv;
#ifdef ENABLE_WLS
p7_config->unpack_func = &fapi_nr_p7_message_unpack;
p7_config->hdr_unpack_func = &fapi_nr_p7_message_header_unpack;
p7_config->pack_func = &fapi_nr_p7_message_pack;
p7_config->send_p7_msg = &wls_pnf_nr_send_p7_message;
// pass p7_config to WLS handler
wls_pnf_set_p7_config(p7_config);
#endif
#ifdef ENABLE_SOCKET
p7_config->unpack_func = &nfapi_nr_p7_message_unpack;
p7_config->hdr_unpack_func = &nfapi_nr_p7_message_header_unpack;
p7_config->pack_func = &nfapi_nr_p7_message_pack;
p7_config->send_p7_msg = &pnf_nr_send_p7_message;
NFAPI_TRACE(NFAPI_TRACE_INFO, "[PNF] Creating P7 thread %s\n", __FUNCTION__);
pthread_t p7_thread;
threadCreate(&p7_thread, &pnf_nr_p7_thread_start, p7_config, "pnf_p7_thread", -1, OAI_PRIORITY_RT);
#endif
NFAPI_TRACE(NFAPI_TRACE_INFO, "[PNF] Calling l1_north_init_eNB() %s\n", __FUNCTION__);
l1_north_init_gNB();
NFAPI_TRACE(NFAPI_TRACE_INFO, "[PNF] HACK - Set p7_config global ready for subframe ind%s\n", __FUNCTION__);
p7_config_g = p7_config;
// Hack? in the config request (which comes before the start request here),
// we receive the SCS/mu. The PNF needs that for calculating frame/slot
// offsets. However, the memory for the structure which actually keeps track
// of the time, is only allocated here, so "pick" the SCS from memory.
PHY_VARS_gNB *gNB = RC.gNB[0];
DevAssert(gNB != NULL);
// check that SCS has actually been received
const nfapi_uint8_tlv_t *scs = &gNB->gNB_config.ssb_config.scs_common;
DevAssert(scs->tl.tag == NFAPI_NR_CONFIG_SCS_COMMON_TAG);
pnf_p7_t* pnf_p7 = (pnf_p7_t*)(p7_config);
pnf_p7->mu = scs->value;
// Need to wait for main thread to create RU structures
while (config_sync_var < 0) {
usleep(5000000);
printf("[PNF] waiting for OAI to be configured (eNB/RU)\n");
}
printf("[PNF] OAI eNB/RU configured\n");
// printf("[PNF] About to call phy_init_RU() for RC.ru[0]:%p\n", RC.ru[0]);
// phy_init_RU(RC.ru[0]);
printf("[PNF] About to call init_eNB_afterRU()\n");
if (NFAPI_MODE != NFAPI_UE_STUB_PNF) {
init_eNB_afterRU();
}
// Signal to main thread that it can carry on - otherwise RU will startup too quickly and it is not initialised
{
pthread_mutex_lock(&nfapi_sync_mutex);
nfapi_sync_var = 0;
pthread_cond_broadcast(&nfapi_sync_cond);
pthread_mutex_unlock(&nfapi_sync_mutex);
}
while(sync_var<0) {
usleep(50000);
printf("[PNF] waiting for OAI to be started\n");
}
#ifndef ENABLE_WLS
printf("[PNF] Sending PNF_START_RESP\n");
nfapi_nr_send_pnf_start_resp(config, p7_config->phy_id);
printf("[PNF] Sending first P7 slot indication\n");
#endif
return 0;
}
void stop_nr_nfapi_pnf()
{
#ifdef ENABLE_WLS
wls_fapi_nr_pnf_stop();
#endif
#ifdef ENABLE_SOCKET
socket_nfapi_nr_pnf_stop();
#endif
}
static bool has_sent_stop_ind = false;
int nr_stop_request(nfapi_pnf_config_t *config, nfapi_pnf_phy_config_t *phy, nfapi_nr_stop_request_scf_t *req)
{
UNUSED(phy)
if (has_sent_stop_ind) {
// STOP.indication already sent, nothing to do
return 0;
}
NFAPI_TRACE(NFAPI_TRACE_INFO, "Send STOP.indication\n");
nfapi_nr_stop_indication_scf_t resp = {.header.message_id = NFAPI_NR_PHY_MSG_TYPE_STOP_INDICATION,
.header.phy_id = req->header.phy_id};
nfapi_nr_stop_indication(config, &resp);
has_sent_stop_ind = true;
// Upon sending the STOP.indication mark P7 PNF to terminate, to not send any further messages to the VNF
pnf_p7_t *pnf_p7 = (pnf_p7_t *)(p7_config_g);
pnf_p7->terminate = 1;
#ifdef ENABLE_WLS
wls_pnf_close(pnf_p5_init_and_receive_pthread);
#endif
// raise the SIGTERM to simulate CTRL+C
raise(SIGTERM);
return 0;
}
int measurement_request(nfapi_pnf_config_t *config, nfapi_pnf_phy_config_t *phy, nfapi_measurement_request_t *req) {
UNUSED(phy)
nfapi_measurement_response_t resp;
memset(&resp, 0, sizeof(resp));
resp.header.message_id = NFAPI_MEASUREMENT_RESPONSE;
resp.header.phy_id = req->header.phy_id;
resp.error_code = NFAPI_MSG_OK;
nfapi_pnf_measurement_resp(config, &resp);
return 0;
}
int rssi_request(nfapi_pnf_config_t *config, nfapi_pnf_phy_config_t *phy, nfapi_rssi_request_t *req) {
UNUSED(phy)
nfapi_rssi_response_t resp;
memset(&resp, 0, sizeof(resp));
resp.header.message_id = NFAPI_RSSI_RESPONSE;
resp.header.phy_id = req->header.phy_id;
resp.error_code = NFAPI_P4_MSG_OK;
nfapi_pnf_rssi_resp(config, &resp);
nfapi_rssi_indication_t ind;
memset(&ind, 0, sizeof(ind));
ind.header.message_id = NFAPI_RSSI_INDICATION;
ind.header.phy_id = req->header.phy_id;
ind.error_code = NFAPI_P4_MSG_OK;
ind.rssi_indication_body.tl.tag = NFAPI_RSSI_INDICATION_TAG;
ind.rssi_indication_body.number_of_rssi = 1;
ind.rssi_indication_body.rssi[0] = -42;
nfapi_pnf_rssi_ind(config, &ind);
return 0;
}
int cell_search_request(nfapi_pnf_config_t *config, nfapi_pnf_phy_config_t *phy, nfapi_cell_search_request_t *req) {
UNUSED(phy)
nfapi_cell_search_response_t resp;
memset(&resp, 0, sizeof(resp));
resp.header.message_id = NFAPI_CELL_SEARCH_RESPONSE;
resp.header.phy_id = req->header.phy_id;
resp.error_code = NFAPI_P4_MSG_OK;
nfapi_pnf_cell_search_resp(config, &resp);
nfapi_cell_search_indication_t ind;
memset(&ind, 0, sizeof(ind));
ind.header.message_id = NFAPI_CELL_SEARCH_INDICATION;
ind.header.phy_id = req->header.phy_id;
ind.error_code = NFAPI_P4_MSG_OK;
switch(req->rat_type) {
case NFAPI_RAT_TYPE_LTE:
ind.lte_cell_search_indication.tl.tag = NFAPI_LTE_CELL_SEARCH_INDICATION_TAG;
ind.lte_cell_search_indication.number_of_lte_cells_found = 1;
ind.lte_cell_search_indication.lte_found_cells[0].pci = 123;
ind.lte_cell_search_indication.lte_found_cells[0].rsrp = 123;
ind.lte_cell_search_indication.lte_found_cells[0].rsrq = 123;
ind.lte_cell_search_indication.lte_found_cells[0].frequency_offset = 123;
break;
case NFAPI_RAT_TYPE_UTRAN: {
ind.utran_cell_search_indication.tl.tag = NFAPI_UTRAN_CELL_SEARCH_INDICATION_TAG;
ind.utran_cell_search_indication.number_of_utran_cells_found = 1;
ind.utran_cell_search_indication.utran_found_cells[0].psc = 89;
ind.utran_cell_search_indication.utran_found_cells[0].rscp = 89;
ind.utran_cell_search_indication.utran_found_cells[0].ecno = 89;
ind.utran_cell_search_indication.utran_found_cells[0].frequency_offset = -89;
}
break;
case NFAPI_RAT_TYPE_GERAN: {
ind.geran_cell_search_indication.tl.tag = NFAPI_GERAN_CELL_SEARCH_INDICATION_TAG;
ind.geran_cell_search_indication.number_of_gsm_cells_found = 1;
ind.geran_cell_search_indication.gsm_found_cells[0].bsic = 23;
ind.geran_cell_search_indication.gsm_found_cells[0].rxlev = 23;
ind.geran_cell_search_indication.gsm_found_cells[0].rxqual = 23;
ind.geran_cell_search_indication.gsm_found_cells[0].frequency_offset = -23;
ind.geran_cell_search_indication.gsm_found_cells[0].sfn_offset = 230;
}
break;
}
ind.pnf_cell_search_state.tl.tag = NFAPI_PNF_CELL_SEARCH_STATE_TAG;
ind.pnf_cell_search_state.length = 3;
nfapi_pnf_cell_search_ind(config, &ind);
return 0;
}
int broadcast_detect_request(nfapi_pnf_config_t *config, nfapi_pnf_phy_config_t *phy, nfapi_broadcast_detect_request_t *req) {
UNUSED(phy)
nfapi_broadcast_detect_response_t resp;
memset(&resp, 0, sizeof(resp));
resp.header.message_id = NFAPI_BROADCAST_DETECT_RESPONSE;
resp.header.phy_id = req->header.phy_id;
resp.error_code = NFAPI_P4_MSG_OK;
nfapi_pnf_broadcast_detect_resp(config, &resp);
nfapi_broadcast_detect_indication_t ind;
memset(&ind, 0, sizeof(ind));
ind.header.message_id = NFAPI_BROADCAST_DETECT_INDICATION;
ind.header.phy_id = req->header.phy_id;
ind.error_code = NFAPI_P4_MSG_OK;
switch(req->rat_type) {
case NFAPI_RAT_TYPE_LTE: {
ind.lte_broadcast_detect_indication.tl.tag = NFAPI_LTE_BROADCAST_DETECT_INDICATION_TAG;
ind.lte_broadcast_detect_indication.number_of_tx_antenna = 1;
ind.lte_broadcast_detect_indication.mib_length = 4;
//ind.lte_broadcast_detect_indication.mib...
ind.lte_broadcast_detect_indication.sfn_offset = 77;
}
break;
case NFAPI_RAT_TYPE_UTRAN: {
ind.utran_broadcast_detect_indication.tl.tag = NFAPI_UTRAN_BROADCAST_DETECT_INDICATION_TAG;
ind.utran_broadcast_detect_indication.mib_length = 4;
}
break;
}
ind.pnf_cell_broadcast_state.tl.tag = NFAPI_PNF_CELL_BROADCAST_STATE_TAG;
ind.pnf_cell_broadcast_state.length = 3;
nfapi_pnf_broadcast_detect_ind(config, &ind);
return 0;
}
int system_information_schedule_request(nfapi_pnf_config_t *config, nfapi_pnf_phy_config_t *phy, nfapi_system_information_schedule_request_t *req) {
UNUSED(phy)
nfapi_system_information_schedule_response_t resp;
memset(&resp, 0, sizeof(resp));
resp.header.message_id = NFAPI_SYSTEM_INFORMATION_SCHEDULE_RESPONSE;
resp.header.phy_id = req->header.phy_id;
resp.error_code = NFAPI_P4_MSG_OK;
nfapi_pnf_system_information_schedule_resp(config, &resp);
nfapi_system_information_schedule_indication_t ind;
memset(&ind, 0, sizeof(ind));
ind.header.message_id = NFAPI_SYSTEM_INFORMATION_SCHEDULE_INDICATION;
ind.header.phy_id = req->header.phy_id;
ind.error_code = NFAPI_P4_MSG_OK;
ind.lte_system_information_indication.tl.tag = NFAPI_LTE_SYSTEM_INFORMATION_INDICATION_TAG;
ind.lte_system_information_indication.sib_type = 3;
ind.lte_system_information_indication.sib_length = 5;
//ind.lte_system_information_indication.sib...
nfapi_pnf_system_information_schedule_ind(config, &ind);
return 0;
}
int system_information_request(nfapi_pnf_config_t *config, nfapi_pnf_phy_config_t *phy, nfapi_system_information_request_t *req) {
UNUSED(phy)
nfapi_system_information_response_t resp;
memset(&resp, 0, sizeof(resp));
resp.header.message_id = NFAPI_SYSTEM_INFORMATION_RESPONSE;
resp.header.phy_id = req->header.phy_id;
resp.error_code = NFAPI_P4_MSG_OK;
nfapi_pnf_system_information_resp(config, &resp);
nfapi_system_information_indication_t ind;
memset(&ind, 0, sizeof(ind));
ind.header.message_id = NFAPI_SYSTEM_INFORMATION_INDICATION;
ind.header.phy_id = req->header.phy_id;
ind.error_code = NFAPI_P4_MSG_OK;
switch(req->rat_type) {
case NFAPI_RAT_TYPE_LTE: {
ind.lte_system_information_indication.tl.tag = NFAPI_LTE_SYSTEM_INFORMATION_INDICATION_TAG;
ind.lte_system_information_indication.sib_type = 1;
ind.lte_system_information_indication.sib_length = 3;
//ind.lte_system_information_indication.sib...
}
break;
case NFAPI_RAT_TYPE_UTRAN: {
ind.utran_system_information_indication.tl.tag = NFAPI_UTRAN_SYSTEM_INFORMATION_INDICATION_TAG;
ind.utran_system_information_indication.sib_length = 3;
//ind.utran_system_information_indication.sib...
}
break;
case NFAPI_RAT_TYPE_GERAN: {
ind.geran_system_information_indication.tl.tag = NFAPI_GERAN_SYSTEM_INFORMATION_INDICATION_TAG;
ind.geran_system_information_indication.si_length = 3;
//ind.geran_system_information_indication.si...
}
break;
}
nfapi_pnf_system_information_ind(config, &ind);
return 0;
}
int nmm_stop_request(nfapi_pnf_config_t *config, nfapi_pnf_phy_config_t *phy, nfapi_nmm_stop_request_t *req) {
UNUSED(phy)
nfapi_nmm_stop_response_t resp;
memset(&resp, 0, sizeof(resp));
resp.header.message_id = NFAPI_NMM_STOP_RESPONSE;
resp.header.phy_id = req->header.phy_id;
resp.error_code = NFAPI_P4_MSG_OK;
nfapi_pnf_nmm_stop_resp(config, &resp);
return 0;
}
int vendor_ext(nfapi_pnf_config_t *config, void *msg)
{
NFAPI_TRACE(NFAPI_TRACE_INFO, "[PNF] P5 %s %p\n", __FUNCTION__, msg);
switch (((nfapi_p4_p5_message_header_t *)msg)->message_id) {
case P5_VENDOR_EXT_REQ: {
vendor_ext_p5_req *req = (vendor_ext_p5_req *)msg;
NFAPI_TRACE(NFAPI_TRACE_INFO, "[PNF] P5 Vendor Ext Req (%d %d)\n", req->dummy1, req->dummy2);
// send back the P5_VENDOR_EXT_RSP
vendor_ext_p5_rsp rsp;
memset(&rsp, 0, sizeof(rsp));
rsp.header.message_id = P5_VENDOR_EXT_RSP;
rsp.error_code = NFAPI_MSG_OK;
nfapi_pnf_vendor_extension(config, &rsp.header, sizeof(vendor_ext_p5_rsp));
} break;
}
return 0;
}
int nr_vendor_ext(nfapi_pnf_config_t *config, void *msg)
{
NFAPI_TRACE(NFAPI_TRACE_INFO, "[PNF] P5 %s %p\n", __FUNCTION__, msg);
switch (((nfapi_nr_p4_p5_message_header_t *)msg)->message_id) {
case P5_VENDOR_EXT_REQ: {
vendor_ext_p5_req *req = (vendor_ext_p5_req *)msg;
NFAPI_TRACE(NFAPI_TRACE_INFO, "[PNF] P5 Vendor Ext Req (%d %d)\n", req->dummy1, req->dummy2);
// send back the P5_VENDOR_EXT_RSP
vendor_ext_p5_rsp rsp;
memset(&rsp, 0, sizeof(rsp));
rsp.header.message_id = P5_VENDOR_EXT_RSP;
rsp.error_code = NFAPI_MSG_OK;
nfapi_pnf_vendor_extension(config, &rsp.header, sizeof(vendor_ext_p5_rsp));
} break;
}
return 0;
}
void *pnf_sim_allocate_p4_p5_vendor_ext(uint16_t message_id, uint16_t *msg_size)
{
if (message_id == P5_VENDOR_EXT_REQ) {
(*msg_size) = sizeof(vendor_ext_p5_req);
return (nfapi_p4_p5_message_header_t *)malloc(sizeof(vendor_ext_p5_req));
}
return 0;
}
void *pnf_nr_sim_allocate_p4_p5_vendor_ext(uint16_t message_id, uint16_t *msg_size)
{
if (message_id == P5_VENDOR_EXT_REQ) {
(*msg_size) = sizeof(vendor_ext_p5_req);
return (nfapi_p4_p5_message_header_t *)malloc(sizeof(vendor_ext_p5_req));
}
return 0;
}
void pnf_sim_deallocate_p4_p5_vendor_ext(void *header)
{
free(header);
}
void pnf_nr_sim_deallocate_p4_p5_vendor_ext(void *header)
{
free(header);
}
int pnf_sim_pack_p4_p5_vendor_extension(void *header, uint8_t **ppWritePackedMsg, uint8_t *end, nfapi_p4_p5_codec_config_t *config)
{
UNUSED(config)
// NFAPI_TRACE(NFAPI_TRACE_INFO, "%s\n", __FUNCTION__);
if (((nfapi_p4_p5_message_header_t *)header)->message_id == P5_VENDOR_EXT_RSP) {
vendor_ext_p5_rsp *rsp = (vendor_ext_p5_rsp *)(header);
return (!push16(rsp->error_code, ppWritePackedMsg, end));
}
return 0;
}
int pnf_nr_sim_pack_p4_p5_vendor_extension(void *header,
uint8_t **ppWritePackedMsg,
uint8_t *end,
nfapi_p4_p5_codec_config_t *config)
{
UNUSED(config)
// NFAPI_TRACE(NFAPI_TRACE_INFO, "%s\n", __FUNCTION__);
if (((nfapi_nr_p4_p5_message_header_t *)header)->message_id == P5_VENDOR_EXT_RSP) {
vendor_ext_p5_rsp *rsp = (vendor_ext_p5_rsp *)(header);
return (!push16(rsp->error_code, ppWritePackedMsg, end));
}
return 0;
}
int pnf_sim_unpack_p4_p5_vendor_extension(void *header,
uint8_t **ppReadPackedMessage,
uint8_t *end,
nfapi_p4_p5_codec_config_t *codec)
{
UNUSED(codec)
// NFAPI_TRACE(NFAPI_TRACE_INFO, "%s\n", __FUNCTION__);
if (((nfapi_p4_p5_message_header_t *)header)->message_id == P5_VENDOR_EXT_REQ) {
vendor_ext_p5_req *req = (vendor_ext_p5_req *)(header);
return (!(pull16(ppReadPackedMessage, &req->dummy1, end) && pull16(ppReadPackedMessage, &req->dummy2, end)));
// NFAPI_TRACE(NFAPI_TRACE_INFO, "%s (%d %d)\n", __FUNCTION__, req->dummy1, req->dummy2);
}
return 0;
}
int pnf_nr_sim_unpack_p4_p5_vendor_extension(void *header,
uint8_t **ppReadPackedMessage,
uint8_t *end,
nfapi_p4_p5_codec_config_t *codec)
{
UNUSED(codec)
// NFAPI_TRACE(NFAPI_TRACE_INFO, "%s\n", __FUNCTION__);
if (((nfapi_nr_p4_p5_message_header_t *)header)->message_id == P5_VENDOR_EXT_REQ) {
vendor_ext_p5_req *req = (vendor_ext_p5_req *)(header);
return (!(pull16(ppReadPackedMessage, &req->dummy1, end) && pull16(ppReadPackedMessage, &req->dummy2, end)));
// NFAPI_TRACE(NFAPI_TRACE_INFO, "%s (%d %d)\n", __FUNCTION__, req->dummy1, req->dummy2);
}
return 0;
}
/*------------------------------------------------------------------------------*/
void *pnf_start_thread(void *ptr) {
NFAPI_TRACE(NFAPI_TRACE_INFO, "[PNF] IN PNF NFAPI start thread %s\n", __FUNCTION__);
nfapi_pnf_config_t *config = (nfapi_pnf_config_t *)ptr;
struct sched_param sp;
sp.sched_priority = 20;
pthread_setschedparam(pthread_self(),SCHED_FIFO,&sp);
nfapi_pnf_start(config);
return (void *)0;
}
void configure_nr_nfapi_pnf(char *vnf_ip_addr, int vnf_p5_port, char *pnf_ip_addr, int pnf_p7_port, int vnf_p7_port)
{
printf("%s() PNF\n\n\n\n\n\n", __FUNCTION__);
nfapi_setmode(NFAPI_MODE_PNF); // PNF!
nfapi_pnf_config_t *config = nfapi_pnf_config_create();
config->vnf_ip_addr = vnf_ip_addr;
config->vnf_p5_port = vnf_p5_port;
pnf.phys[0].udp.enabled = 1;
pnf.phys[0].udp.rx_port = pnf_p7_port;
pnf.phys[0].udp.tx_port = vnf_p7_port;
strcpy(pnf.phys[0].udp.tx_addr, vnf_ip_addr);
strcpy(pnf.phys[0].local_addr, pnf_ip_addr);
printf("%s() VNF:%s:%d PNF_PHY[addr:%s UDP:tx_addr:%s:%u rx:%u]\n",
__FUNCTION__,
config->vnf_ip_addr,
config->vnf_p5_port,
pnf.phys[0].local_addr,
pnf.phys[0].udp.tx_addr,
pnf.phys[0].udp.tx_port,
pnf.phys[0].udp.rx_port);
config->cell_search_req = &cell_search_request;
// config->pnf_nr_param_req = &pnf_nr_param_request;
config->pnf_nr_param_req = &pnf_nr_param_request;
config->pnf_nr_config_req = &pnf_nr_config_request;
config->pnf_nr_start_req = &pnf_nr_start_request;
config->pnf_stop_req = &pnf_stop_request;
config->nr_param_req = &nr_param_request;
config->nr_config_req = &nr_config_request;
config->nr_start_req = &nr_start_request;
config->nr_stop_req = &nr_stop_request;
config->rssi_req = &rssi_request;
config->broadcast_detect_req = &broadcast_detect_request;
config->system_information_schedule_req = &system_information_schedule_request;
config->system_information_req = &system_information_request;
config->nmm_stop_req = &nmm_stop_request;
config->vendor_ext = &nr_vendor_ext;
config->trace = &pnf_nfapi_trace;
config->user_data = &pnf;
// To allow custom vendor extentions to be added to nfapi
config->codec_config.unpack_vendor_extension_tlv = &pnf_nr_sim_unpack_vendor_extension_tlv;
config->codec_config.pack_vendor_extension_tlv = &pnf_nr_sim_pack_vendor_extention_tlv;
config->allocate_p4_p5_vendor_ext = &pnf_nr_sim_allocate_p4_p5_vendor_ext;
config->deallocate_p4_p5_vendor_ext = &pnf_nr_sim_deallocate_p4_p5_vendor_ext;
config->codec_config.unpack_p4_p5_vendor_extension = &pnf_nr_sim_unpack_p4_p5_vendor_extension;
config->codec_config.pack_p4_p5_vendor_extension = &pnf_nr_sim_pack_p4_p5_vendor_extension;
#ifdef ENABLE_WLS
printf("WLS MODE PNF\n");
NFAPI_TRACE(NFAPI_TRACE_INFO, "[PNF] Creating WLS PNF NFAPI start thread %s\n", __FUNCTION__);
// Assume it's the FAPI handler, change from within the PNF if it's not the case
config->unpack_func = &fapi_nr_p5_message_unpack;
config->hdr_unpack_func = &fapi_nr_message_header_unpack;
config->pack_func = &fapi_nr_p5_message_pack;
config->send_p5_msg = &wls_pnf_nr_send_p5_message;
//wls_fapi_pnf_nr_start_thread(config);
threadCreate(&pnf_p5_init_and_receive_pthread, wls_fapi_pnf_nr_start_thread, config, "NFAPI_WLS_PNF", -1, OAI_PRIORITY_RT_MAX);
#endif
#ifdef ENABLE_SOCKET
NFAPI_TRACE(NFAPI_TRACE_INFO, "[PNF] Creating PNF NFAPI start thread %s\n", __FUNCTION__);
config->unpack_func = &nfapi_nr_p5_message_unpack;
config->hdr_unpack_func = &nfapi_nr_p5_message_header_unpack;
config->pack_func = &nfapi_nr_p5_message_pack;
config->send_p5_msg = &pnf_nr_send_p5_message;
NFAPI_TRACE(NFAPI_TRACE_INFO, "[PNF] Creating PNF NFAPI start thread %s\n", __FUNCTION__);
pthread_create(&pnf_p5_init_and_receive_pthread, NULL, &pnf_start_p5_thread, config);
pthread_setname_np(pnf_p5_init_and_receive_pthread, "NFAPI_PNF");
#endif
}
void configure_nfapi_pnf(char *vnf_ip_addr, int vnf_p5_port, char *pnf_ip_addr, int pnf_p7_port, int vnf_p7_port) {
printf("%s() PNF\n\n\n\n\n\n", __FUNCTION__);
if(NFAPI_MODE!=NFAPI_UE_STUB_PNF && NFAPI_MODE!=NFAPI_MODE_STANDALONE_PNF) {
nfapi_setmode(NFAPI_MODE_PNF); // PNF!
}
nfapi_pnf_config_t *config = nfapi_pnf_config_create();
config->vnf_ip_addr = vnf_ip_addr;
config->vnf_p5_port = vnf_p5_port;
pnf.phys[0].udp.enabled = 1;
pnf.phys[0].udp.rx_port = pnf_p7_port;
pnf.phys[0].udp.tx_port = vnf_p7_port;
strcpy(pnf.phys[0].udp.tx_addr, vnf_ip_addr);
strcpy(pnf.phys[0].local_addr, pnf_ip_addr);
printf("%s() VNF:%s:%d PNF_PHY[addr:%s UDP:tx_addr:%s:%u rx:%u]\n",
__FUNCTION__,
config->vnf_ip_addr,
config->vnf_p5_port,
pnf.phys[0].local_addr,
pnf.phys[0].udp.tx_addr,
pnf.phys[0].udp.tx_port,
pnf.phys[0].udp.rx_port);
config->pnf_param_req = &pnf_param_request;
config->pnf_config_req = &pnf_config_request;
config->pnf_start_req = &pnf_start_request;
config->pnf_stop_req = &pnf_stop_request;
config->param_req = &param_request;
config->config_req = &config_request;
config->start_req = &start_request;
config->measurement_req = &measurement_request;
config->rssi_req = &rssi_request;
config->cell_search_req = &cell_search_request;
config->broadcast_detect_req = &broadcast_detect_request;
config->system_information_schedule_req = &system_information_schedule_request;
config->system_information_req = &system_information_request;
config->nmm_stop_req = &nmm_stop_request;
config->vendor_ext = &vendor_ext;
config->trace = &pnf_nfapi_trace;
config->user_data = &pnf;
// To allow custom vendor extentions to be added to nfapi
config->codec_config.unpack_vendor_extension_tlv = &pnf_sim_unpack_vendor_extension_tlv;
config->codec_config.pack_vendor_extension_tlv = &pnf_sim_pack_vendor_extention_tlv;
config->allocate_p4_p5_vendor_ext = &pnf_sim_allocate_p4_p5_vendor_ext;
config->deallocate_p4_p5_vendor_ext = &pnf_sim_deallocate_p4_p5_vendor_ext;
config->codec_config.unpack_p4_p5_vendor_extension = &pnf_sim_unpack_p4_p5_vendor_extension;
config->codec_config.pack_p4_p5_vendor_extension = &pnf_sim_pack_p4_p5_vendor_extension;
NFAPI_TRACE(NFAPI_TRACE_INFO, "[PNF] Creating PNF NFAPI start thread %s\n", __FUNCTION__);
pthread_create(&pnf_p5_init_and_receive_pthread, NULL, &pnf_start_thread, config);
pthread_setname_np(pnf_p5_init_and_receive_pthread, "NFAPI_PNF");
}
void oai_subframe_ind(uint16_t sfn, uint16_t sf) {
//LOG_D(PHY,"%s(sfn:%d, sf:%d)\n", __FUNCTION__, sfn, sf);
//TODO FIXME - HACK - using a global to bodge it in
if (p7_config_g != NULL && sync_var==0) {
uint16_t sfn_sf_tx = sfn<<4 | sf;
if ((sfn % 100 == 0) && sf==0) {
NFAPI_TRACE(NFAPI_TRACE_INFO, "[PNF] (sfn:%u sf:%u) SFN/SF(TX):%u\n", sfn, sf, NFAPI_SFNSF2DEC(sfn_sf_tx));
}
int subframe_ret = nfapi_pnf_p7_subframe_ind(p7_config_g, p7_config_g->phy_id, sfn_sf_tx);
if (subframe_ret) {
NFAPI_TRACE(NFAPI_TRACE_INFO, "[PNF] (frame:%u subframe:%u) SFN/SF(TX):%u - PROBLEM with pnf_p7_subframe_ind()\n", sfn, sf, sfn_sf_tx);
} else {
//NFAPI_TRACE(NFAPI_TRACE_INFO, "***NFAPI subframe handler finished *** \n");
}
} else {
}
}
#define SLOT_DURATION 800 // in microseconds
static void maybe_slow_down_pnf(int mu)
{
/* uses a usleep to wait for approximately the same time period (300 us) */
static struct timespec last_execution = {0};
struct timespec current_execution;
clock_gettime(CLOCK_REALTIME, &current_execution);
// Calculate elapsed time since last execution
long elapsed_time = (current_execution.tv_sec - last_execution.tv_sec) * 1000000; // Convert seconds to microseconds
elapsed_time += (current_execution.tv_nsec - last_execution.tv_nsec) / 1000; // Convert nanoseconds to microseconds
int duration = SLOT_DURATION >> mu;
if (elapsed_time < duration)
usleep(duration - elapsed_time);
// Update last_execution time
last_execution = current_execution;
}
void handle_nr_slot_ind(uint16_t sfn, uint16_t slot, NR_Sched_Rsp_t *sched_resp)
{
nfapi_pnf_p7_config_t *config = p7_config_g;
pnf_p7_t *_this = (pnf_p7_t *)(config);
int mu = _this->mu;
if (IS_SOFTMODEM_RFSIM) {
// RFsim can run faster than realtime. However, we need to give the VNF
// some time to send an answer, so the PNF can run faster than realtime,
// but it should not too much. This function will "maybe" slow down, up to
// a slot length
maybe_slow_down_pnf(mu);
}
//send VNF slot indication, which is aligned with TX thread, so that it can call the scheduler
//we give four additional slots (2ms) which should be enough time for the VNF to
//answer
#ifndef ENABLE_WLS
int slot_ahead = 2 << mu;
#else
int slot_ahead = 1 << mu;
#endif
uint16_t sfn_tx = sfn;
uint16_t slot_tx = slot;
sfnslot_add_slot(mu, &sfn_tx, &slot_tx, slot_ahead); // modify: do in place
// printf("send slot indication for sfn/slot:%4d.%2d current:%4d.%2d\n", sfn_tx, slot_tx, sfn, slot);
nfapi_nr_slot_indication_scf_t ind = {.sfn = sfn_tx, .slot = slot_tx};
oai_nfapi_nr_slot_indication(&ind);
// copy data from appropriate p7 slot buffers into channel structures for PHY processing
nfapi_pnf_p7_get_msgs(config,
config->phy_id,
sfn,
slot,
&sched_resp->DL_req,
&sched_resp->UL_tti_req,
&sched_resp->UL_dci_req,
&sched_resp->TX_req);
return;
}
int oai_nfapi_rach_ind(nfapi_rach_indication_t *rach_ind) {
rach_ind->header.phy_id = 1; // HACK TODO FIXME - need to pass this around!!!!
LOG_D(PHY, "%s() sfn_sf:%d preambles:%d\n", __FUNCTION__, NFAPI_SFNSF2DEC(rach_ind->sfn_sf), rach_ind->rach_indication_body.number_of_preambles);
return nfapi_pnf_p7_rach_ind(p7_config_g, rach_ind);
}
int oai_nfapi_harq_indication(nfapi_harq_indication_t *harq_ind) {
harq_ind->header.phy_id = 1; // HACK TODO FIXME - need to pass this around!!!!
harq_ind->header.message_id = NFAPI_HARQ_INDICATION;
LOG_D(PHY, "%s() sfn_sf:%d number_of_harqs:%d\n", __FUNCTION__, NFAPI_SFNSF2DEC(harq_ind->sfn_sf), harq_ind->harq_indication_body.number_of_harqs);
int retval = nfapi_pnf_p7_harq_ind(p7_config_g, harq_ind);
if (retval != 0)
LOG_E(PHY, "%s() sfn_sf:%d number_of_harqs:%d nfapi_pnf_p7_harq_ind()=%d\n", __FUNCTION__, NFAPI_SFNSF2DEC(harq_ind->sfn_sf), harq_ind->harq_indication_body.number_of_harqs, retval);
return retval;
}
int oai_nfapi_crc_indication(nfapi_crc_indication_t *crc_ind) {
crc_ind->header.phy_id = 1; // HACK TODO FIXME - need to pass this around!!!!
crc_ind->header.message_id = NFAPI_CRC_INDICATION;
//LOG_D(PHY, "%s() sfn_sf:%d number_of_crcs:%d\n", __FUNCTION__, NFAPI_SFNSF2DEC(crc_ind->sfn_sf), crc_ind->crc_indication_body.number_of_crcs);
return nfapi_pnf_p7_crc_ind(p7_config_g, crc_ind);
}
int oai_nfapi_cqi_indication(nfapi_cqi_indication_t *ind) {
ind->header.phy_id = 1; // HACK TODO FIXME - need to pass this around!!!!
ind->header.message_id = NFAPI_RX_CQI_INDICATION;
//LOG_D(PHY, "%s() sfn_sf:%d number_of_cqis:%d\n", __FUNCTION__, NFAPI_SFNSF2DEC(ind->sfn_sf), ind->cqi_indication_body.number_of_cqis);
return nfapi_pnf_p7_cqi_ind(p7_config_g, ind);
}
int oai_nfapi_rx_ind(nfapi_rx_indication_t *ind) {
ind->header.phy_id = 1; // HACK TODO FIXME - need to pass this around!!!!
ind->header.message_id = NFAPI_RX_ULSCH_INDICATION;
int retval = nfapi_pnf_p7_rx_ind(p7_config_g, ind);
//LOG_D(PHY,"%s() SFN/SF:%d pdus:%d retval:%d\n", __FUNCTION__, NFAPI_SFNSF2DEC(ind->sfn_sf), ind->rx_indication_body.number_of_pdus, retval);
//free(ind.rx_indication_body.rx_pdu_list);
return retval;
}
int oai_nfapi_sr_indication(nfapi_sr_indication_t *ind) {
ind->header.phy_id = 1; // HACK TODO FIXME - need to pass this around!!!!
int retval = nfapi_pnf_p7_sr_ind(p7_config_g, ind);
//LOG_D(PHY,"%s() SFN/SF:%d srs:%d retval:%d\n", __FUNCTION__, NFAPI_SFNSF2DEC(ind->sfn_sf), ind->sr_indication_body.number_of_srs, retval);
//free(ind.rx_indication_body.rx_pdu_list);
return retval;
}
//NR UPLINK INDICATION
int oai_nfapi_nr_slot_indication(nfapi_nr_slot_indication_scf_t *ind) {
ind->header.phy_id = 1;
ind->header.message_id = NFAPI_NR_PHY_MSG_TYPE_SLOT_INDICATION;
return nfapi_pnf_p7_nr_slot_ind(p7_config_g, ind);
}
int oai_nfapi_nr_rx_data_indication(nfapi_nr_rx_data_indication_t *ind) {
ind->header.phy_id = 1; // HACK TODO FIXME - need to pass this around!!!!
ind->header.message_id = NFAPI_NR_PHY_MSG_TYPE_RX_DATA_INDICATION;
return nfapi_pnf_p7_nr_rx_data_ind(p7_config_g, ind);
}
int oai_nfapi_nr_crc_indication(nfapi_nr_crc_indication_t *ind) {
ind->header.phy_id = 1; // HACK TODO FIXME - need to pass this around!!!!
ind->header.message_id = NFAPI_NR_PHY_MSG_TYPE_CRC_INDICATION;
return nfapi_pnf_p7_nr_crc_ind(p7_config_g, ind);
}
int oai_nfapi_nr_srs_indication(nfapi_nr_srs_indication_t *ind) {
ind->header.phy_id = 1; // HACK TODO FIXME - need to pass this around!!!!
ind->header.message_id = NFAPI_NR_PHY_MSG_TYPE_SRS_INDICATION;
return nfapi_pnf_p7_nr_srs_ind(p7_config_g, ind);
}
int oai_nfapi_nr_uci_indication(nfapi_nr_uci_indication_t *ind) {
ind->header.phy_id = 1; // HACK TODO FIXME - need to pass this around!!!!
ind->header.message_id = NFAPI_NR_PHY_MSG_TYPE_UCI_INDICATION;
return nfapi_pnf_p7_nr_uci_ind(p7_config_g, ind);
}
int oai_nfapi_nr_rach_indication(nfapi_nr_rach_indication_t *ind) {
ind->header.phy_id = 1; // HACK TODO FIXME - need to pass this around!!!!
ind->header.message_id = NFAPI_NR_PHY_MSG_TYPE_RACH_INDICATION;
return nfapi_pnf_p7_nr_rach_ind(p7_config_g, ind);
}