Files
openairinterface5g/executables/nr-gnb.c
Robert Schmidt 595a80a3f7 Remove FHI72 memory workaround
The queue L1_rx_out was in place to keep RX/TX processing relatively
"close" to each other (in terms of time, since in RFsim, they might
advance faster than realtime; see also parent commit). This lead to a
memory leak in radios that do not use ru->feprx (no front-end processing
for RX, e.g., PRACH), as the code to read the L1_rx_out messages was
inside a block of if (ru->feprx). Move it out so that the queue is
always read and messages are freed to eliminate the memory leak, and
remove the workaround for FHI72 to avoid this memory leak.

This also allows to run RFsim when compiling FHI72, which was not
possible before this commit.

Closes: #812
2025-02-13 09:17:01 +01:00

449 lines
17 KiB
C

/*
* Licensed to the OpenAirInterface (OAI) Software Alliance under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The OpenAirInterface Software Alliance licenses this file to You under
* the OAI Public License, Version 1.1 (the "License"); you may not use this file
* except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.openairinterface.org/?page_id=698
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*-------------------------------------------------------------------------------
* For more information about the OpenAirInterface (OAI) Software Alliance:
* contact@openairinterface.org
*/
/*! \file nr-gnb.c
* \brief Top-level threads for gNodeB
* \author R. Knopp, F. Kaltenberger, Navid Nikaein
* \date 2012
* \version 0.1
* \company Eurecom
* \email: knopp@eurecom.fr,florian.kaltenberger@eurecom.fr, navid.nikaein@eurecom.fr
* \note
* \warning
*/
#define _GNU_SOURCE
#include <pthread.h>
#include "assertions.h"
#include <common/utils/LOG/log.h>
#include <common/utils/system.h>
#include "PHY/types.h"
#include "PHY/INIT/nr_phy_init.h"
#include "PHY/defs_gNB.h"
#include "SCHED_NR/sched_nr.h"
#include "SCHED_NR/fapi_nr_l1.h"
#include "PHY/NR_TRANSPORT/nr_transport_proto.h"
#include "PHY/MODULATION/nr_modulation.h"
#include "PHY/NR_TRANSPORT/nr_dlsch.h"
#include "openair2/NR_PHY_INTERFACE/nr_sched_response.h"
#include "LAYER2/NR_MAC_COMMON/nr_mac_extern.h"
#include "LAYER2/NR_MAC_gNB/mac_proto.h"
#include "radio/COMMON/common_lib.h"
#include "PHY/LTE_TRANSPORT/if4_tools.h"
#include "PHY/phy_extern.h"
#include "common/ran_context.h"
#include "RRC/LTE/rrc_extern.h"
#include "PHY_INTERFACE/phy_interface.h"
#include "common/utils/LOG/log.h"
#include "UTIL/OTG/otg_tx.h"
#include "UTIL/OTG/otg_externs.h"
#include "common/utils/LOG/vcd_signal_dumper.h"
#include "UTIL/OPT/opt.h"
#include "gnb_paramdef.h"
#include <executables/softmodem-common.h>
#include "T.h"
#include "nfapi/oai_integration/vendor_ext.h"
#include "executables/softmodem-common.h"
#include <nfapi/oai_integration/nfapi_pnf.h>
#include <openair1/PHY/NR_TRANSPORT/nr_ulsch.h>
#include <openair1/PHY/NR_TRANSPORT/nr_dlsch.h>
#include <PHY/NR_ESTIMATION/nr_ul_estimation.h>
// #define USRP_DEBUG 1
#include "executables/thread-common.h"
//#define TICK_TO_US(ts) (ts.diff)
#define TICK_TO_US(ts) (ts.trials==0?0:ts.diff/ts.trials)
#define L1STATSSTRLEN 16384
static void rx_func(processingData_L1_t *param);
static void tx_func(processingData_L1tx_t *info)
{
int frame_tx = info->frame;
int slot_tx = info->slot;
int frame_rx = info->frame_rx;
int slot_rx = info->slot_rx;
LOG_D(NR_PHY, "%d.%d running tx_func\n", frame_tx, slot_tx);
PHY_VARS_gNB *gNB = info->gNB;
module_id_t module_id = gNB->Mod_id;
uint8_t CC_id = gNB->CC_id;
NR_IF_Module_t *ifi = gNB->if_inst;
nfapi_nr_config_request_scf_t *cfg = &gNB->gNB_config;
T(T_GNB_PHY_DL_TICK, T_INT(gNB->Mod_id), T_INT(frame_tx), T_INT(slot_tx));
if (slot_rx == 0) {
reset_active_stats(gNB, frame_rx);
reset_active_ulsch(gNB, frame_rx);
}
start_meas(&gNB->slot_indication_stats);
ifi->NR_slot_indication(module_id, CC_id, frame_tx, slot_tx);
stop_meas(&gNB->slot_indication_stats);
gNB->msgDataTx->timestamp_tx = info->timestamp_tx;
info = gNB->msgDataTx;
info->gNB = gNB;
// At this point, MAC scheduler just ran, including scheduling
// PRACH/PUCCH/PUSCH, so trigger RX chain processing
LOG_D(NR_PHY, "Trigger RX for %d.%d\n", frame_rx, slot_rx);
notifiedFIFO_elt_t *res = newNotifiedFIFO_elt(sizeof(processingData_L1_t), 0, &gNB->resp_L1, NULL);
processingData_L1_t *syncMsg = NotifiedFifoData(res);
syncMsg->gNB = gNB;
syncMsg->frame_rx = frame_rx;
syncMsg->slot_rx = slot_rx;
syncMsg->timestamp_tx = info->timestamp_tx;
res->key = slot_rx;
pushNotifiedFIFO(&gNB->resp_L1, res);
int tx_slot_type = nr_slot_select(cfg, frame_tx, slot_tx);
if (tx_slot_type == NR_DOWNLINK_SLOT || tx_slot_type == NR_MIXED_SLOT || get_softmodem_params()->continuous_tx) {
start_meas(&info->gNB->phy_proc_tx);
phy_procedures_gNB_TX(info, frame_tx, slot_tx, 1);
PHY_VARS_gNB *gNB = info->gNB;
processingData_RU_t syncMsgRU;
syncMsgRU.frame_tx = frame_tx;
syncMsgRU.slot_tx = slot_tx;
syncMsgRU.ru = gNB->RU_list[0];
syncMsgRU.timestamp_tx = info->timestamp_tx;
LOG_D(PHY, "gNB: %d.%d : calling RU TX function\n", syncMsgRU.frame_tx, syncMsgRU.slot_tx);
ru_tx_func((void *)&syncMsgRU);
stop_meas(&info->gNB->phy_proc_tx);
}
if (NFAPI_MODE == NFAPI_MONOLITHIC) {
/* this thread is done with the sched_info, decrease the reference counter.
* This only applies for monolithic; in the PNF, the memory is allocated in
* a ring buffer that should never be overwritten (one frame duration). */
LOG_D(NR_PHY, "Calling deref_sched_response for id %d (tx_func) in %d.%d\n", info->sched_response_id, frame_tx, slot_tx);
deref_sched_response(info->sched_response_id);
}
}
void *L1_rx_thread(void *arg)
{
PHY_VARS_gNB *gNB = (PHY_VARS_gNB*)arg;
while (oai_exit == 0) {
notifiedFIFO_elt_t *res = pullNotifiedFIFO(&gNB->resp_L1);
if (res == NULL)
break;
processingData_L1_t *info = (processingData_L1_t *)NotifiedFifoData(res);
rx_func(info);
delNotifiedFIFO_elt(res);
}
return NULL;
}
// Added for URLLC, requires MAC scheduling to be split from UL indication
void *L1_tx_thread(void *arg) {
PHY_VARS_gNB *gNB = (PHY_VARS_gNB*)arg;
while (oai_exit == 0) {
notifiedFIFO_elt_t *res = pullNotifiedFIFO(&gNB->L1_tx_out);
if (res == NULL) // stopping condition, happens only when queue is freed
break;
processingData_L1tx_t *info = (processingData_L1tx_t *)NotifiedFifoData(res);
tx_func(info);
delNotifiedFIFO_elt(res);
}
return NULL;
}
static void rx_func(processingData_L1_t *info)
{
PHY_VARS_gNB *gNB = info->gNB;
int frame_rx = info->frame_rx;
int slot_rx = info->slot_rx;
nfapi_nr_config_request_scf_t *cfg = &gNB->gNB_config;
// RX processing
int rx_slot_type = nr_slot_select(cfg, frame_rx, slot_rx);
if (rx_slot_type == NR_UPLINK_SLOT || rx_slot_type == NR_MIXED_SLOT) {
LOG_D(NR_PHY, "%d.%d Starting RX processing\n", frame_rx, slot_rx);
// UE-specific RX processing for subframe n
NR_UL_IND_t UL_INFO = {.frame = frame_rx, .slot = slot_rx, .module_id = gNB->Mod_id, .CC_id = gNB->CC_id};
// Do PRACH RU processing
UL_INFO.rach_ind.pdu_list = UL_INFO.prach_pdu_indication_list;
L1_nr_prach_procedures(gNB, frame_rx, slot_rx, &UL_INFO.rach_ind);
//WA: comment rotation in tx/rx
if (gNB->phase_comp) {
//apply the rx signal rotation here
int soffset = (slot_rx & 3) * gNB->frame_parms.symbols_per_slot * gNB->frame_parms.ofdm_symbol_size;
for (int bb = 0; bb < gNB->common_vars.num_beams_period; bb++) {
for (int aa = 0; aa < gNB->frame_parms.nb_antennas_rx; aa++) {
apply_nr_rotation_RX(&gNB->frame_parms,
gNB->common_vars.rxdataF[bb][aa],
gNB->frame_parms.symbol_rotation[1],
slot_rx,
gNB->frame_parms.N_RB_UL,
soffset,
0,
gNB->frame_parms.Ncp == EXTENDED ? 12 : 14);
}
}
}
phy_procedures_gNB_uespec_RX(gNB, frame_rx, slot_rx, &UL_INFO);
// Call the scheduler
start_meas(&gNB->ul_indication_stats);
gNB->if_inst->NR_UL_indication(&UL_INFO);
stop_meas(&gNB->ul_indication_stats);
notifiedFIFO_elt_t *res = newNotifiedFIFO_elt(sizeof(processingData_L1_t), 0, &gNB->L1_rx_out, NULL);
processingData_L1_t *syncMsg = NotifiedFifoData(res);
syncMsg->gNB = gNB;
syncMsg->frame_rx = frame_rx;
syncMsg->slot_rx = slot_rx;
res->key = slot_rx;
LOG_D(NR_PHY, "Signaling completion for %d.%d (mod_slot %d) on L1_rx_out\n", frame_rx, slot_rx, slot_rx % RU_RX_SLOT_DEPTH);
pushNotifiedFIFO(&gNB->L1_rx_out, res);
}
}
static size_t dump_L1_meas_stats(PHY_VARS_gNB *gNB, RU_t *ru, char *output, size_t outputlen) {
const char *begin = output;
const char *end = output + outputlen;
output += print_meas_log(&gNB->phy_proc_tx, "L1 Tx processing", NULL, NULL, output, end - output);
output += print_meas_log(&gNB->dlsch_encoding_stats, "DLSCH encoding", NULL, NULL, output, end - output);
output += print_meas_log(&gNB->dlsch_scrambling_stats, "DLSCH scrambling", NULL, NULL, output, end-output);
output += print_meas_log(&gNB->dlsch_modulation_stats, "DLSCH modulation", NULL, NULL, output, end - output);
output += print_meas_log(&gNB->dlsch_resource_mapping_stats, "DLSCH resource mapping", NULL, NULL, output,end-output);
output += print_meas_log(&gNB->dlsch_precoding_stats, "DLSCH precoding", NULL, NULL, output,end-output);
output += print_meas_log(&gNB->phy_proc_rx, "L1 Rx processing", NULL, NULL, output, end - output);
output += print_meas_log(&gNB->ul_indication_stats, "UL Indication", NULL, NULL, output, end - output);
output += print_meas_log(&gNB->slot_indication_stats, "Slot Indication", NULL, NULL, output, end - output);
output += print_meas_log(&gNB->rx_pusch_stats, "PUSCH inner-receiver", NULL, NULL, output, end - output);
output += print_meas_log(&gNB->schedule_response_stats, "Schedule Response", NULL, NULL, output, end - output);
output += print_meas_log(&gNB->rx_prach, "PRACH RX", NULL, NULL, output, end - output);
if (ru->feprx)
output += print_meas_log(&ru->ofdm_demod_stats, "feprx", NULL, NULL, output, end - output);
if (ru->feptx_prec) {
output += print_meas_log(&ru->precoding_stats,"feptx_prec",NULL,NULL, output, end - output);
}
if (ru->feptx_ofdm) {
output += print_meas_log(&ru->txdataF_copy_stats,"txdataF_copy",NULL,NULL, output, end - output);
output += print_meas_log(&ru->ofdm_mod_stats,"feptx_ofdm",NULL,NULL, output, end - output);
output += print_meas_log(&ru->ofdm_total_stats,"feptx_total",NULL,NULL, output, end - output);
}
if (ru->fh_north_asynch_in)
output += print_meas_log(&ru->rx_fhaul,"rx_fhaul",NULL,NULL, output, end - output);
output += print_meas_log(&ru->tx_fhaul,"tx_fhaul",NULL,NULL, output, end - output);
if (ru->fh_north_out) {
output += print_meas_log(&ru->compression,"compression",NULL,NULL, output, end - output);
output += print_meas_log(&ru->transport,"transport",NULL,NULL, output, end - output);
}
return output - begin;
}
void *nrL1_stats_thread(void *param) {
PHY_VARS_gNB *gNB = (PHY_VARS_gNB *)param;
RU_t *ru = RC.ru[0];
char output[L1STATSSTRLEN];
memset(output,0,L1STATSSTRLEN);
wait_sync("L1_stats_thread");
FILE *fd;
fd=fopen("nrL1_stats.log","w");
AssertFatal(fd!=NULL,"Cannot open nrL1_stats.log\n");
reset_meas(&gNB->phy_proc_tx);
reset_meas(&gNB->dlsch_encoding_stats);
reset_meas(&gNB->phy_proc_rx);
reset_meas(&gNB->ul_indication_stats);
reset_meas(&gNB->slot_indication_stats);
reset_meas(&gNB->rx_pusch_stats);
reset_meas(&gNB->schedule_response_stats);
reset_meas(&gNB->dlsch_scrambling_stats);
reset_meas(&gNB->dlsch_modulation_stats);
reset_meas(&gNB->dlsch_resource_mapping_stats);
reset_meas(&gNB->dlsch_precoding_stats);
while (!oai_exit) {
sleep(1);
dump_nr_I0_stats(fd,gNB);
dump_pdsch_stats(fd,gNB);
dump_pusch_stats(fd,gNB);
dump_L1_meas_stats(gNB, ru, output, L1STATSSTRLEN);
fprintf(fd,"%s\n",output);
fflush(fd);
fseek(fd,0,SEEK_SET);
}
fclose(fd);
return(NULL);
}
void init_gNB_Tpool(int inst)
{
AssertFatal(NFAPI_MODE == NFAPI_MODE_PNF || NFAPI_MODE == NFAPI_MONOLITHIC,
"illegal NFAPI_MODE %d (%s): it cannot have an L1\n",
NFAPI_MODE,
nfapi_get_strmode());
PHY_VARS_gNB *gNB;
gNB = RC.gNB[inst];
gNB_L1_proc_t *proc = &gNB->proc;
// PUSCH symbols per thread need to be calculated by how many threads we have
gNB->num_pusch_symbols_per_thread = 1;
// ULSCH decoding threadpool
initTpool(get_softmodem_params()->threadPoolConfig, &gNB->threadPool, cpumeas(CPUMEAS_GETSTATE));
// ULSCH decoder result FIFO
initNotifiedFIFO(&gNB->respPuschSymb);
initNotifiedFIFO(&gNB->respDecode);
// L1 RX result FIFO
initNotifiedFIFO(&gNB->resp_L1);
// L1 TX result FIFO
initNotifiedFIFO(&gNB->L1_tx_free);
initNotifiedFIFO(&gNB->L1_tx_filled);
initNotifiedFIFO(&gNB->L1_tx_out);
initNotifiedFIFO(&gNB->L1_rx_out);
// create the RX thread responsible for RX processing start event (resp_L1 msg queue), then launch rx_func()
threadCreate(&gNB->L1_rx_thread, L1_rx_thread, (void *)gNB, "L1_rx_thread", gNB->L1_rx_thread_core, OAI_PRIORITY_RT_MAX);
// create the TX thread responsible for TX processing start event (L1_tx_out msg queue), then launch tx_func()
threadCreate(&gNB->L1_tx_thread, L1_tx_thread, (void *)gNB, "L1_tx_thread", gNB->L1_tx_thread_core, OAI_PRIORITY_RT_MAX);
notifiedFIFO_elt_t *msgL1Tx = newNotifiedFIFO_elt(sizeof(processingData_L1tx_t), 0, &gNB->L1_tx_out, NULL);
processingData_L1tx_t *msgDataTx = (processingData_L1tx_t *)NotifiedFifoData(msgL1Tx);
memset(msgDataTx, 0, sizeof(processingData_L1tx_t));
init_DLSCH_struct(gNB, msgDataTx);
memset(msgDataTx->ssb, 0, 64 * sizeof(NR_gNB_SSB_t));
// this will be removed when the msgDataTx is not necessary anymore
gNB->msgDataTx = msgDataTx;
if (!IS_SOFTMODEM_NOSTATS)
threadCreate(&proc->L1_stats_thread, nrL1_stats_thread, (void *)gNB, "L1_stats", -1, OAI_PRIORITY_RT_LOW);
}
void term_gNB_Tpool(int inst) {
PHY_VARS_gNB *gNB = RC.gNB[inst];
abortNotifiedFIFO(&gNB->resp_L1);
pthread_join(gNB->L1_rx_thread, NULL);
abortNotifiedFIFO(&gNB->L1_tx_out);
pthread_join(gNB->L1_tx_thread, NULL);
abortTpool(&gNB->threadPool);
abortNotifiedFIFO(&gNB->respPuschSymb);
abortNotifiedFIFO(&gNB->respDecode);
abortNotifiedFIFO(&gNB->L1_tx_free);
abortNotifiedFIFO(&gNB->L1_tx_filled);
abortNotifiedFIFO(&gNB->L1_rx_out);
gNB_L1_proc_t *proc = &gNB->proc;
pthread_join(proc->L1_stats_thread, NULL);
}
/// eNB kept in function name for nffapi calls, TO FIX
void init_eNB_afterRU(void) {
int inst,ru_id,i,aa;
PHY_VARS_gNB *gNB;
for (inst=0; inst<RC.nb_nr_L1_inst; inst++) {
gNB = RC.gNB[inst];
phy_init_nr_gNB(gNB);
// map antennas and PRACH signals to gNB RX
if (0) AssertFatal(gNB->num_RU>0,"Number of RU attached to gNB %d is zero\n",gNB->Mod_id);
LOG_D(NR_PHY, "Mapping RX ports from %d RUs to gNB %d\n", gNB->num_RU, gNB->Mod_id);
for (ru_id=0,aa=0; ru_id<gNB->num_RU; ru_id++) {
AssertFatal(gNB->RU_list[ru_id]->common.rxdataF != NULL, "RU %d : common.rxdataF is NULL\n", gNB->RU_list[ru_id]->idx);
AssertFatal(gNB->RU_list[ru_id]->prach_rxsigF != NULL, "RU %d : prach_rxsigF is NULL\n", gNB->RU_list[ru_id]->idx);
for (i=0; i<gNB->RU_list[ru_id]->nb_rx; aa++,i++) {
LOG_I(PHY,"Attaching RU %d antenna %d to gNB antenna %d\n",gNB->RU_list[ru_id]->idx,i,aa);
gNB->prach_vars.rxsigF[aa] = gNB->RU_list[ru_id]->prach_rxsigF[0][i];
// TODO hardcoded beam to 0, still need to understand how to handle this properly
gNB->common_vars.rxdataF[0][aa] = (c16_t *)gNB->RU_list[ru_id]->common.rxdataF[i];
}
}
/* TODO: review this code, there is something wrong.
* In monolithic mode, we come here with nb_antennas_rx == 0
* (not tested in other modes).
*/
//init_precoding_weights(RC.gNB[inst]);
init_gNB_Tpool(inst);
}
}
/**
* @brief Initialize gNB struct in RAN context
*/
void init_gNB()
{
LOG_I(NR_PHY, "Initializing gNB RAN context: RC.nb_nr_L1_inst = %d \n", RC.nb_nr_L1_inst);
if (RC.gNB == NULL) {
RC.gNB = (PHY_VARS_gNB **)calloc_or_fail(RC.nb_nr_L1_inst, sizeof(PHY_VARS_gNB *));
LOG_D(NR_PHY, "gNB L1 structure RC.gNB allocated @ %p\n", RC.gNB);
}
for (int inst = 0; inst < RC.nb_nr_L1_inst; inst++) {
// Allocate L1 instance
if (RC.gNB[inst] == NULL) {
RC.gNB[inst] = (PHY_VARS_gNB *)calloc_or_fail(1, sizeof(PHY_VARS_gNB));
LOG_D(NR_PHY, "[nr-gnb.c] gNB structure RC.gNB[%d] allocated @ %p\n", inst, RC.gNB[inst]);
}
PHY_VARS_gNB *gNB = RC.gNB[inst];
LOG_D(NR_PHY, "Initializing gNB %d\n", inst);
// Init module ID
gNB->Mod_id = inst;
// Register MAC interface module
AssertFatal((gNB->if_inst = NR_IF_Module_init(inst)) != NULL, "Cannot register interface");
LOG_I(NR_PHY, "Registered with MAC interface module (%p)\n", gNB->if_inst);
gNB->if_inst->NR_Schedule_response = nr_schedule_response;
gNB->if_inst->NR_PHY_config_req = nr_phy_config_request;
gNB->prach_energy_counter = 0;
gNB->chest_time = get_softmodem_params()->chest_time;
gNB->chest_freq = get_softmodem_params()->chest_freq;
}
}
void stop_gNB(int nb_inst) {
for (int inst=0; inst<nb_inst; inst++) {
LOG_I(PHY,"Killing gNB %d processing threads\n",inst);
term_gNB_Tpool(inst);
}
}