Commit d9c68d8b authored by laurent's avatar laurent

new thread model

parent d1364477
...@@ -2425,11 +2425,10 @@ add_executable(nr-uesoftmodem ...@@ -2425,11 +2425,10 @@ add_executable(nr-uesoftmodem
${rrc_h} ${rrc_h}
${s1ap_h} ${s1ap_h}
# ${OPENAIR_BIN_DIR}/messages_xml.h # ${OPENAIR_BIN_DIR}/messages_xml.h
${OPENAIR_TARGETS}/RT/USER/rt_wrapper.c ${OPENAIR_DIR}/common/utils/threadPool/thread-pool.c
${OPENAIR_TARGETS}/RT/USER/nr-ue.c ${OPENAIR_DIR}/executables//nr-uesoftmodem.c
${OPENAIR_TARGETS}/RT/USER/nr-uesoftmodem.c ${OPENAIR_DIR}/executables/nr-ue.c
${OPENAIR1_DIR}/SIMULATION/TOOLS/taus.c ${OPENAIR1_DIR}/SIMULATION/TOOLS/taus.c
# ${OPENAIR_TARGETS}/COMMON/create_tasks_ue.c
${OPENAIR_TARGETS}/ARCH/COMMON/common_lib.c ${OPENAIR_TARGETS}/ARCH/COMMON/common_lib.c
${OPENAIR1_DIR}/SIMULATION/ETH_TRANSPORT/netlink_init.c ${OPENAIR1_DIR}/SIMULATION/ETH_TRANSPORT/netlink_init.c
${OPENAIR3_DIR}/NAS/UE/nas_ue_task.c ${OPENAIR3_DIR}/NAS/UE/nas_ue_task.c
......
all: measurement_display thread-pool-test
measurement_display: measurement_display.c thread-pool.h
gcc measurement_display.c -I /data/openairinterface5g.nr/common/utils/ -I. /data/openairinterface5g.nr/common/utils/backtrace.c -lpthread -D TEST_THREAD_POOL -I../LOG -I../../utils/T -o measurement_display
thread-pool-test: thread-pool.c thread-pool.h
gcc -g thread-pool.c -I /data/openairinterface5g.nr/common/utils/ -I. /data/openairinterface5g.nr/common/utils/backtrace.c -lpthread -D TEST_THREAD_POOL -I../LOG -I../../utils/T -o thread-pool-test
/*
Author: Laurent THOMAS, Open Cells
copyleft: OpenAirInterface Software Alliance and it's licence
*/
#define __USE_GNU
#define _GNU_SOURCE
#include <stdio.h>
#include <pthread.h>
#include <sched.h>
#include <stdlib.h>
#include <unistd.h>
#include <sys/types.h>
#include <string.h>
#include <unistd.h>
#include <sys/syscall.h>
#include <sys/time.h>
#include <stdint.h>
#include <sys/stat.h>
#include <fcntl.h>
#include "thread-pool.h"
#define SEP "\t"
uint64_t cpuCyclesMicroSec;
int main(int argc, char *argv[]) {
if(argc != 2) {
printf("Need one paramter: the trace Linux pipe (fifo)");
exit(1);
}
mkfifo(argv[1],0666);
int fd=open(argv[1], O_RDONLY);
if ( fd == -1 ) {
perror("open read mode trace file:");
exit(1);
}
uint64_t deb=rdtsc();
usleep(100000);
cpuCyclesMicroSec=(rdtsc()-deb)/100000;
printf("Cycles per µs: %lu\n",cpuCyclesMicroSec);
printf("Key" SEP "delay to process" SEP "processing time" SEP "delay to be read answer\n");
notifiedFIFO_elt_t doneRequest;
while ( 1 ) {
if ( read(fd,&doneRequest, sizeof(doneRequest)) == sizeof(doneRequest)) {
printf("%lu" SEP "%lu" SEP "%lu" SEP "%lu" "\n",
doneRequest.key,
(doneRequest.startProcessingTime-doneRequest.creationTime)/cpuCyclesMicroSec,
(doneRequest.endProcessingTime-doneRequest.startProcessingTime)/cpuCyclesMicroSec,
(doneRequest.returnTime-doneRequest.endProcessingTime)/cpuCyclesMicroSec
);
} else {
printf("no measurements\n");
sleep(1);
}
}
}
/*
Author: Laurent THOMAS, Open Cells
copyleft: OpenAirInterface Software Alliance and it's licence
*/
#define _GNU_SOURCE
#include <sched.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <string.h>
#include <unistd.h>
#include <threadPool/thread-pool.h>
void displayList(notifiedFIFO_t *nf) {
int n=0;
notifiedFIFO_elt_t *ptr=nf->outF;
while(ptr) {
printf("element: %d, key: %lu\n",++n,ptr->key);
ptr=ptr->next;
}
printf("End of list: %d elements\n",n);
}
static inline notifiedFIFO_elt_t *pullNotifiedFifoRemember( notifiedFIFO_t *nf, struct one_thread *thr) {
mutexlock(nf->lockF);
while(!nf->outF)
condwait(nf->notifF, nf->lockF);
notifiedFIFO_elt_t *ret=nf->outF;
nf->outF=nf->outF->next;
if (nf->outF==NULL)
nf->inF=NULL;
// For abort feature
thr->runningOnKey=ret->key;
thr->abortFlag=false;
mutexunlock(nf->lockF);
return ret;
}
void *one_thread(void *arg) {
struct one_thread *myThread=(struct one_thread *) arg;
struct thread_pool *tp=myThread->pool;
// configure the thread core assignment
// TBD: reserve the core for us exclusively
cpu_set_t cpuset;
CPU_ZERO(&cpuset);
CPU_SET(myThread->coreID, &cpuset);
pthread_setaffinity_np(pthread_self(), sizeof(cpu_set_t), &cpuset);
//Configure the thread scheduler policy for Linux
struct sched_param sparam= {0};
sparam.sched_priority = sched_get_priority_max(SCHED_RR);
pthread_setschedparam(pthread_self(), SCHED_RR, &sparam);
// set the thread name for debugging
sprintf(myThread->name,"Tpool_%d",myThread->coreID);
pthread_setname_np(pthread_self(), myThread->name );
// Infinite loop to process requests
do {
notifiedFIFO_elt_t *elt=pullNotifiedFifoRemember(&tp->incomingFifo, myThread);
if (tp->measurePerf) elt->startProcessingTime=rdtsc();
elt->processingFunc(NotifiedFifoData(elt));
if (tp->measurePerf) elt->endProcessingTime=rdtsc();
if (elt->reponseFifo) {
// Check if the job is still alive, else it has been aborted
mutexlock(tp->incomingFifo.lockF);
if (myThread->abortFlag)
delNotifiedFIFO_elt(elt);
else
pushNotifiedFIFO(elt->reponseFifo, elt);
mutexunlock(tp->incomingFifo.lockF);
}
} while (true);
}
void initTpool(char *params,tpool_t *pool, bool performanceMeas) {
memset(pool,0,sizeof(*pool));
char *measr=getenv("threadPoolMeasurements");
pool->measurePerf=performanceMeas;
// force measurement if the output is defined
pool->measurePerf=measr!=NULL;
if (measr) {
mkfifo(measr,0666);
AssertFatal(-1 != (pool->dummyTraceFd=
open(measr, O_RDONLY| O_NONBLOCK)),"");
AssertFatal(-1 != (pool->traceFd=
open(measr, O_WRONLY|O_APPEND|O_NOATIME|O_NONBLOCK)),"");
} else
pool->traceFd=-1;
//Configure the thread scheduler policy for Linux
struct sched_param sparam= {0};
sparam.sched_priority = sched_get_priority_max(SCHED_RR)-1;
pthread_setschedparam(pthread_self(), SCHED_RR, &sparam);
pool->activated=true;
initNotifiedFIFO(&pool->incomingFifo);
char *saveptr, * curptr;
pool->nbThreads=0;
pool->restrictRNTI=false;
curptr=strtok_r(params,",",&saveptr);
while ( curptr!=NULL ) {
if (curptr[0] == 'u' || curptr[0] == 'U') {
pool->restrictRNTI=true;
} else if ( curptr[0]>='0' && curptr[0]<='9' ) {
struct one_thread *tmp=pool->allthreads;
pool->allthreads=(struct one_thread *)malloc(sizeof(struct one_thread));
pool->allthreads->next=tmp;
printf("create a thread for core %d\n", atoi(curptr));
pool->allthreads->coreID=atoi(curptr);
pool->allthreads->id=pool->nbThreads;
pool->allthreads->pool=pool;
pthread_create(&pool->allthreads->threadID, NULL, one_thread, (void *)pool->allthreads);
pool->nbThreads++;
} else if (curptr[0] == 'n' || curptr[0] == 'N') {
pool->activated=false;
} else
printf("Error in options for thread pool: %s\n",curptr);
curptr=strtok_r(NULL,",",&saveptr);
}
if (pool->activated && pool->nbThreads==0) {
printf("No servers created in the thread pool, exit\n");
exit(1);
}
}
#ifdef TEST_THREAD_POOL
struct testData {
int id;
char txt[30];
};
void processing(void *arg) {
struct testData *in=(struct testData *)arg;
printf("doing: %d, %s, in thr %ld\n",in->id, in->txt,pthread_self() );
sprintf(in->txt,"Done by %ld, job %d", pthread_self(), in->id);
usleep(rand()%100);
printf("done: %d, %s, in thr %ld\n",in->id, in->txt,pthread_self() );
}
int main() {
notifiedFIFO_t myFifo;
initNotifiedFIFO(&myFifo);
pushNotifiedFIFO(&myFifo,newNotifiedFIFO_elt(sizeof(struct testData), 1234,NULL,NULL));
for(int i=10; i>1; i--) {
pushNotifiedFIFO(&myFifo,newNotifiedFIFO_elt(sizeof(struct testData), 1000+i,NULL,NULL));
}
displayList(&myFifo);
notifiedFIFO_elt_t *tmp=pullNotifiedFIFO(&myFifo);
printf("pulled: %lu\n", tmp->key);
displayList(&myFifo);
tmp=pullNotifiedFIFO(&myFifo);
printf("pulled: %lu\n", tmp->key);
displayList(&myFifo);
abortNotifiedFIFO(&myFifo,1005);
printf("aborted 1005\n");
displayList(&myFifo);
pushNotifiedFIFO(&myFifo,newNotifiedFIFO_elt(sizeof(struct testData), 12345678, NULL, NULL));
displayList(&myFifo);
abortNotifiedFIFO(&myFifo,12345678);
printf("aborted 12345678\n");
displayList(&myFifo);
do {
tmp=pollNotifiedFIFO(&myFifo);
if (tmp) {
printf("pulled: %lu\n", tmp->key);
displayList(&myFifo);
} else
printf("Empty list \n");
} while(tmp);
tpool_t pool;
char params[]="1,2,3,u";
initTpool(params,&pool, true);
notifiedFIFO_t worker_back;
initNotifiedFIFO(&worker_back);
for (int i=0; i <1000 ; i++) {
notifiedFIFO_elt_t *work=newNotifiedFIFO_elt(sizeof(struct testData), i, &worker_back, processing);
struct testData *x=(struct testData *)NotifiedFifoData(work);
x->id=i;
pushTpool(&pool, work);
}
do {
tmp=pullTpool(&worker_back,&pool);
if (tmp) {
struct testData *dd=NotifiedFifoData(tmp);
printf("Result: %s\n",dd->txt);
delNotifiedFIFO_elt(tmp);
} else
printf("Empty list \n");
abortTpool(&pool,510);
} while(tmp);
return 0;
}
#endif
/*
Author: Laurent THOMAS, Open Cells
copyleft: OpenAirInterface Software Alliance and it's licence
*/
#ifndef THREAD_POOL_H
#define THREAD_POOL_H
#include <stdbool.h>
#include <stdint.h>
#include <pthread.h>
#include <sys/syscall.h>
#include <assertions.h>
#include <LOG/log.h>
#ifdef DEBUG
#define THREADINIT PTHREAD_ERRORCHECK_MUTEX_INITIALIZER_NP
#else
#define THREADINIT PTHREAD_MUTEX_INITIALIZER
#endif
#define mutexinit(mutex) AssertFatal(pthread_mutex_init(&mutex,NULL)==0,"");
#define condinit(signal) AssertFatal(pthread_cond_init(&signal,NULL)==0,"");
#define mutexlock(mutex) AssertFatal(pthread_mutex_lock(&mutex)==0,"");
#define mutextrylock(mutex) pthread_mutex_trylock(&mutex)
#define mutexunlock(mutex) AssertFatal(pthread_mutex_unlock(&mutex)==0,"");
#define condwait(condition, mutex) AssertFatal(pthread_cond_wait(&condition, &mutex)==0,"");
#define condbroadcast(signal) AssertFatal(pthread_cond_broadcast(&signal)==0,"");
#define condsignal(signal) AssertFatal(pthread_cond_broadcast(&signal)==0,"");
typedef struct notifiedFIFO_elt_s {
struct notifiedFIFO_elt_s *next;
uint64_t key; //To filter out elements
struct notifiedFIFO_s *reponseFifo;
void (*processingFunc)(void *);
bool malloced;
uint64_t creationTime;
uint64_t startProcessingTime;
uint64_t endProcessingTime;
uint64_t returnTime;
void *msgData;
} notifiedFIFO_elt_t;
typedef struct notifiedFIFO_s {
notifiedFIFO_elt_t *outF;
notifiedFIFO_elt_t *inF;
pthread_mutex_t lockF;
pthread_cond_t notifF;
} notifiedFIFO_t;
// You can use this allocator or use any piece of memory
static inline notifiedFIFO_elt_t *newNotifiedFIFO_elt(int size,
uint64_t key,
notifiedFIFO_t *reponseFifo,
void (*processingFunc)(void *)) {
notifiedFIFO_elt_t *ret;
AssertFatal( NULL != (ret=(notifiedFIFO_elt_t *) malloc(sizeof(notifiedFIFO_elt_t)+size+32)), "");
ret->next=NULL;
ret->key=key;
ret->reponseFifo=reponseFifo;
ret->processingFunc=processingFunc;
// We set user data piece aligend 32 bytes to be able to process it with SIMD
ret->msgData=(void *)ret+(sizeof(notifiedFIFO_elt_t)/32+1)*32;
ret->malloced=true;
return ret;
}
static inline void *NotifiedFifoData(notifiedFIFO_elt_t *elt) {
return elt->msgData;
}
static inline void delNotifiedFIFO_elt(notifiedFIFO_elt_t *elt) {
if (elt->malloced) {
elt->malloced=false;
free(elt);
} else
printf("delNotifiedFIFO on something not allocated by newNotifiedFIFO\n");
//LOG_W(UTIL,"delNotifiedFIFO on something not allocated by newNotifiedFIFO\n");
}
static inline void initNotifiedFIFO(notifiedFIFO_t *nf) {
mutexinit(nf->lockF);
condinit (nf->notifF);
nf->inF=NULL;
nf->outF=NULL;
// No delete function: the creator has only to free the memory
}
static inline void pushNotifiedFIFO(notifiedFIFO_t *nf, notifiedFIFO_elt_t *msg) {
mutexlock(nf->lockF);
msg->next=NULL;
if (nf->outF == NULL)
nf->outF = msg;
if (nf->inF)
nf->inF->next = msg;
nf->inF = msg;
condbroadcast(nf->notifF);
mutexunlock(nf->lockF);
}
static inline notifiedFIFO_elt_t *pullNotifiedFIFO(notifiedFIFO_t *nf) {
mutexlock(nf->lockF);
while(!nf->outF)
condwait(nf->notifF, nf->lockF);
notifiedFIFO_elt_t *ret=nf->outF;
nf->outF=nf->outF->next;
if (nf->outF==NULL)
nf->inF=NULL;
mutexunlock(nf->lockF);
return ret;
}
static inline notifiedFIFO_elt_t *pollNotifiedFIFO(notifiedFIFO_t *nf) {
int tmp=mutextrylock(nf->lockF);
if (tmp != 0 )
return NULL;
notifiedFIFO_elt_t *ret=nf->outF;
if (ret!=NULL)
nf->outF=nf->outF->next;
if (nf->outF==NULL)
nf->inF=NULL;
mutexunlock(nf->lockF);
return ret;
}
// This function aborts all messages matching the key
// If the queue is used in thread pools, it doesn't cancels already running processing
// because the message has already been picked
static inline void abortNotifiedFIFO(notifiedFIFO_t *nf, uint64_t key) {
mutexlock(nf->lockF);
notifiedFIFO_elt_t **start=&nf->outF;
while(*start!=NULL) {
if ( (*start)->key == key ) {
notifiedFIFO_elt_t *request=*start;
*start=(*start)->next;
delNotifiedFIFO_elt(request);
}
if (*start != NULL)
start=&(*start)->next;
}
mutexunlock(nf->lockF);
}
struct one_thread {
pthread_t threadID;
int id;
int coreID;
char name[256];
uint64_t runningOnKey;
bool abortFlag;
struct thread_pool *pool;
struct one_thread *next;
};
typedef struct thread_pool {
int activated;
bool measurePerf;
int traceFd;
int dummyTraceFd;
uint64_t cpuCyclesMicroSec;
uint64_t startProcessingUE;
int nbThreads;
bool restrictRNTI;
notifiedFIFO_t incomingFifo;
struct one_thread *allthreads;
} tpool_t;
static inline void pushTpool(tpool_t *t, notifiedFIFO_elt_t *msg) {
if (t->measurePerf) msg->creationTime=rdtsc();
pushNotifiedFIFO(&t->incomingFifo, msg);
}
static inline notifiedFIFO_elt_t *pullTpool(notifiedFIFO_t *responseFifo, tpool_t *t) {
notifiedFIFO_elt_t *msg= pullNotifiedFIFO(responseFifo);
if (t->measurePerf)
msg->returnTime=rdtsc();
if (t->traceFd)
if(write(t->traceFd, msg, sizeof(*msg)));
return msg;
}
static inline notifiedFIFO_elt_t *tryPullTpool(notifiedFIFO_t *responseFifo, tpool_t *t) {
notifiedFIFO_elt_t *msg= pollNotifiedFIFO(responseFifo);
if (msg == NULL)
return NULL;
if (t->measurePerf)
msg->returnTime=rdtsc();
if (t->traceFd)
if(write(t->traceFd, msg, sizeof(*msg)));
return msg;
}
static inline void abortTpool(tpool_t *t, uint64_t key) {
notifiedFIFO_t *nf=&t->incomingFifo;
mutexlock(nf->lockF);
notifiedFIFO_elt_t **start=&nf->outF;
while(*start!=NULL) {
if ( (*start)->key == key ) {
notifiedFIFO_elt_t *request=*start;
*start=(*start)->next;
delNotifiedFIFO_elt(request);
}
if (*start != NULL)
start=&(*start)->next;
}
struct one_thread *ptr=t->allthreads;
while(ptr!=NULL) {
if (ptr->runningOnKey==key)
ptr->abortFlag=true;
ptr=ptr->next;
}
mutexunlock(nf->lockF);
}
void initTpool(char *params,tpool_t *pool, bool performanceMeas);
#endif
# Thread pool
The thread pool is a working server, made of a set of worker threads that can be mapped on CPU cores.
Each worker loop on pick from the same input queue jobs to do.
When a job is done, the worker sends a return if a return is defined.
A selective abort allows to cancel parallel jobs (usage: a client pushed jobs, but from a response of one job, the other linked jobs becomes useless).
All the thread pool functions are thread safe, nevertheless the working functions are implemented by the thread pool client, so the client has to tackle the parallel execution of his functions called "processingFunc" hereafter.
## license
Author: Laurent Thomas, Open cells project
The owner share the code usage to Openairsoftware alliance as per OSA license terms
# jobs
A job is a message (notifiedFIFO_elt_t):
next: internal FIFO chain, do not set it
key: a long int that the client can use to identify a message or a group of messages
responseFifo: if the client defines a response FIFO, the message will be posted back after processing
processingFunc: any funtion (type void processingFunc(void *)) that the worker will launch
msgData: the data passed to processingFunc. It can be added automatically, or you can set it to a buffer you are managing
malloced: a boolean that enable internal free in these cases: no return Fifo or Abort feature
The job messages can be created with newNotifiedFIFO_elt() and delNotifiedFIFO_elt() or managed by the client.
# Queues of jobs
Queues are type of: notifiedFIFO_t that must be initialized by init_notifiedFIFO()
No delete function is required, the creator has only to free the data of type notifiedFIFO_t
push_notifiedFIFO() add a job in the queue
pull_notifiedFIFO() is blocking, poll_notifiedFIFO() is non blocking
abort_notifiedFIFO() allows the customer to delete all waiting jobs that match with the key (see key in jobs definition)
# Thread pools
## initialization
The clients can create one or more thread pools with init_tpool()
the params string structure: describes a list of cores, separated by "," that run a worker thread
The threads are all Linux real time scheduler, their name is set automatically is "Tpool_<core id>"
## adding jobs
The client create their jobs messages as a notifiedFIFO_elt_t, then they push it with pushTpool() (that internally calls push_notifiedFIFO())
If they need a return, they have to create response queues with init_notifiedFIFO() and set this FIFO pointer in the notifiedFIFO_elt_t before pushing the job.
## abort
A abort service abortTpool() allows to abort all jobs that match a key (see jobs "key"). When the abort returns, it garanties no job (matching the key) response will be posted on response queues.
Nevertheless, jobs already performed before the return of abortTpool() are pushed in the response Fifo queue.
## Performance measurements
A performance measurement is integrated: the pool will automacillay fill timestamps:
* creationTime: time the request is push to the pool;
* startProcessingTime: time a worker start to run on the job
* endProcessingTime: time the worker finished the job
* returnTime: time the client reads the result
if you set the environement variable: thread-pool-measurements to a valid file name
These measurements will be wrote to this Linux pipe.
A tool to read the linux fifo and display it in ascii will be provided (TBD)
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...@@ -52,9 +52,7 @@ void nr_adjust_synch_ue(NR_DL_FRAME_PARMS *frame_parms, ...@@ -52,9 +52,7 @@ void nr_adjust_synch_ue(NR_DL_FRAME_PARMS *frame_parms,
ncoef = 32767 - coef; ncoef = 32767 - coef;
//#ifdef DEBUG_PHY LOG_D(PHY,"AbsSubframe %d: rx_offset (before) = %d\n",subframe,ue->rx_offset);
LOG_D(PHY,"AbsSubframe %d.%d: rx_offset (before) = %d\n",ue->proc.proc_rxtx[0].frame_rx%1024,subframe,ue->rx_offset);
//#endif //DEBUG_PHY
// we only use channel estimates from tx antenna 0 here // we only use channel estimates from tx antenna 0 here
...@@ -122,8 +120,7 @@ void nr_adjust_synch_ue(NR_DL_FRAME_PARMS *frame_parms, ...@@ -122,8 +120,7 @@ void nr_adjust_synch_ue(NR_DL_FRAME_PARMS *frame_parms,
#ifdef DEBUG_PHY #ifdef DEBUG_PHY
LOG_D(PHY,"AbsSubframe %d.%d: ThreadId %d diff =%i rx_offset (final) = %i : clear %d,max_pos = %d,max_pos_fil = %d (peak %d) max_val %d target_pos %d \n", LOG_D(PHY,"AbsSubframe %d: ThreadId %d diff =%i rx_offset (final) = %i : clear %d,max_pos = %d,max_pos_fil = %d (peak %d) max_val %d target_pos %d \n",
ue->proc.proc_rxtx[ue->current_thread_id[subframe]].frame_rx,
subframe, subframe,
ue->current_thread_id[subframe], ue->current_thread_id[subframe],
diff, diff,
......
...@@ -39,7 +39,7 @@ ...@@ -39,7 +39,7 @@
#include "PHY/NR_TRANSPORT/nr_dlsch.h" #include "PHY/NR_TRANSPORT/nr_dlsch.h"
#include "SCHED_NR_UE/defs.h" #include "SCHED_NR_UE/defs.h"
#include "SIMULATION/TOOLS/sim.h" #include "SIMULATION/TOOLS/sim.h"
#include "targets/RT/USER/nr-uesoftmodem.h" #include "executables/nr-uesoftmodem.h"
#include "PHY/CODING/nrLDPC_decoder/nrLDPC_decoder.h" #include "PHY/CODING/nrLDPC_decoder/nrLDPC_decoder.h"
#include "PHY/CODING/nrLDPC_decoder/nrLDPC_types.h" #include "PHY/CODING/nrLDPC_decoder/nrLDPC_types.h"
//#define DEBUG_DLSCH_DECODING //#define DEBUG_DLSCH_DECODING
......
...@@ -203,14 +203,14 @@ int nr_rx_pdsch(PHY_VARS_NR_UE *ue, ...@@ -203,14 +203,14 @@ int nr_rx_pdsch(PHY_VARS_NR_UE *ue,
#endif #endif
} }
else { else {
LOG_E(PHY,"[UE][FATAL] Frame %d nr_tti_rx %d: no active DLSCH\n",ue->proc.proc_rxtx[0].frame_rx,nr_tti_rx); LOG_E(PHY,"[UE][FATAL] nr_tti_rx %d: no active DLSCH\n",nr_tti_rx);
return(-1); return(-1);
} }
beamforming_mode = ue->transmission_mode[eNB_id]<7?0:ue->transmission_mode[eNB_id]; beamforming_mode = ue->transmission_mode[eNB_id]<7?0:ue->transmission_mode[eNB_id];
break; break;
default: default:
LOG_E(PHY,"[UE][FATAL] Frame %d nr_tti_rx %d: Unknown PDSCH format %d\n",ue->proc.proc_rxtx[0].frame_rx,nr_tti_rx,type); LOG_E(PHY,"[UE][FATAL] nr_tti_rx %d: Unknown PDSCH format %d\n",nr_tti_rx,type);
return(-1); return(-1);
break; break;
} }
......
...@@ -122,11 +122,6 @@ int nr_pbch_detection(PHY_VARS_NR_UE *ue, runmode_t mode) ...@@ -122,11 +122,6 @@ int nr_pbch_detection(PHY_VARS_NR_UE *ue, runmode_t mode)
// ue->pbch_vars[0]->decoded_output[0] = ue->pbch_vars[0]->decoded_output[2]; // ue->pbch_vars[0]->decoded_output[0] = ue->pbch_vars[0]->decoded_output[2];
// ue->pbch_vars[0]->decoded_output[2] = dummy; // ue->pbch_vars[0]->decoded_output[2] = dummy;
for(int i=0; i<RX_NB_TH;i++)
{
ue->proc.proc_rxtx[i].frame_tx = ue->proc.proc_rxtx[0].frame_rx;
}
#ifdef DEBUG_INITIAL_SYNCH #ifdef DEBUG_INITIAL_SYNCH
LOG_I(PHY,"[UE%d] Initial sync: pbch decoded sucessfully\n",ue->Mod_id); LOG_I(PHY,"[UE%d] Initial sync: pbch decoded sucessfully\n",ue->Mod_id);
#endif #endif
...@@ -292,9 +287,8 @@ int nr_initial_sync(PHY_VARS_NR_UE *ue, runmode_t mode) ...@@ -292,9 +287,8 @@ int nr_initial_sync(PHY_VARS_NR_UE *ue, runmode_t mode)
if (ue->UE_scan_carrier == 0) { if (ue->UE_scan_carrier == 0) {
#if UE_AUTOTEST_TRACE #if UE_AUTOTEST_TRACE
LOG_I(PHY,"[UE %d] AUTOTEST Cell Sync : frame = %d, rx_offset %d, freq_offset %d \n", LOG_I(PHY,"[UE %d] AUTOTEST Cell Sync : rx_offset %d, freq_offset %d \n",
ue->Mod_id, ue->Mod_id,
ue->proc.proc_rxtx[0].frame_rx,
ue->rx_offset, ue->rx_offset,
ue->common_vars.freq_offset ); ue->common_vars.freq_offset );
#endif #endif
...@@ -305,30 +299,7 @@ int nr_initial_sync(PHY_VARS_NR_UE *ue, runmode_t mode) ...@@ -305,30 +299,7 @@ int nr_initial_sync(PHY_VARS_NR_UE *ue, runmode_t mode)
} }
#if DISABLE_LOG_X LOG_I(PHY, "[UE %d] RRC Measurements => rssi %3.1f dBm (dig %3.1f dB, gain %d), N0 %d dBm, rsrp %3.1f dBm/RE, rsrq %3.1f dB\n",ue->Mod_id,
printf("[UE %d] Frame %d RRC Measurements => rssi %3.1f dBm (dig %3.1f dB, gain %d), N0 %d dBm, rsrp %3.1f dBm/RE, rsrq %3.1f dB\n",ue->Mod_id,
ue->proc.proc_rxtx[0].frame_rx,
10*log10(ue->measurements.rssi)-ue->rx_total_gain_dB,
10*log10(ue->measurements.rssi),
ue->rx_total_gain_dB,
ue->measurements.n0_power_tot_dBm,
10*log10(ue->measurements.rsrp[0])-ue->rx_total_gain_dB,
(10*log10(ue->measurements.rsrq[0])));
printf("[UE %d] Frame %d MIB Information => %s, %s, NidCell %d, N_RB_DL %d, PHICH DURATION %d, PHICH RESOURCE %s, TX_ANT %d\n",
ue->Mod_id,
ue->proc.proc_rxtx[0].frame_rx,
duplex_string[fp->frame_type],
prefix_string[fp->Ncp],
fp->Nid_cell,
fp->N_RB_DL,
fp->phich_config_common.phich_duration,
phich_string[fp->phich_config_common.phich_resource],
fp->nb_antenna_ports_eNB);
#else
LOG_I(PHY, "[UE %d] Frame %d RRC Measurements => rssi %3.1f dBm (dig %3.1f dB, gain %d), N0 %d dBm, rsrp %3.1f dBm/RE, rsrq %3.1f dB\n",ue->Mod_id,
ue->proc.proc_rxtx[0].frame_rx,
10*log10(ue->measurements.rssi)-ue->rx_total_gain_dB, 10*log10(ue->measurements.rssi)-ue->rx_total_gain_dB,
10*log10(ue->measurements.rssi), 10*log10(ue->measurements.rssi),
ue->rx_total_gain_dB, ue->rx_total_gain_dB,
...@@ -346,22 +317,12 @@ int nr_initial_sync(PHY_VARS_NR_UE *ue, runmode_t mode) ...@@ -346,22 +317,12 @@ int nr_initial_sync(PHY_VARS_NR_UE *ue, runmode_t mode)
fp->phich_config_common.phich_duration, fp->phich_config_common.phich_duration,
phich_string[fp->phich_config_common.phich_resource], phich_string[fp->phich_config_common.phich_resource],
fp->nb_antenna_ports_eNB);*/ fp->nb_antenna_ports_eNB);*/
#endif
#if defined(OAI_USRP) || defined(EXMIMO) || defined(OAI_BLADERF) || defined(OAI_LMSSDR) || defined(OAI_ADRV9371_ZC706) #if defined(OAI_USRP) || defined(EXMIMO) || defined(OAI_BLADERF) || defined(OAI_LMSSDR) || defined(OAI_ADRV9371_ZC706)
# if DISABLE_LOG_X LOG_I(PHY, "[UE %d] Measured Carrier Frequency %.0f Hz (offset %d Hz)\n",
printf("[UE %d] Frame %d Measured Carrier Frequency %.0f Hz (offset %d Hz)\n",
ue->Mod_id, ue->Mod_id,
ue->proc.proc_rxtx[0].frame_rx,
openair0_cfg[0].rx_freq[0]+ue->common_vars.freq_offset,
ue->common_vars.freq_offset);
# else
LOG_I(PHY, "[UE %d] Frame %d Measured Carrier Frequency %.0f Hz (offset %d Hz)\n",
ue->Mod_id,
ue->proc.proc_rxtx[0].frame_rx,
openair0_cfg[0].rx_freq[0]+ue->common_vars.freq_offset, openair0_cfg[0].rx_freq[0]+ue->common_vars.freq_offset,
ue->common_vars.freq_offset); ue->common_vars.freq_offset);
# endif
#endif #endif
} else { } else {
#ifdef DEBUG_INITIAL_SYNC #ifdef DEBUG_INITIAL_SYNC
......
...@@ -267,27 +267,6 @@ typedef struct { ...@@ -267,27 +267,6 @@ typedef struct {
uint8_t CC_id; uint8_t CC_id;
/// Last RX timestamp /// Last RX timestamp
openair0_timestamp timestamp_rx; openair0_timestamp timestamp_rx;
/// pthread attributes for main UE thread
pthread_attr_t attr_ue;
/// scheduling parameters for main UE thread
struct sched_param sched_param_ue;
/// pthread descriptor main UE thread
pthread_t pthread_ue;
/// \brief Instance count for synch thread.
/// \internal This variable is protected by \ref mutex_synch.
int instance_cnt_synch;
/// pthread attributes for synch processing thread
pthread_attr_t attr_synch;
/// scheduling parameters for synch thread
struct sched_param sched_param_synch;
/// pthread descriptor synch thread
pthread_t pthread_synch;
/// condition variable for UE synch thread;
pthread_cond_t cond_synch;
/// mutex for UE synch thread
pthread_mutex_t mutex_synch;
/// set of scheduling variables RXn-TXnp4 threads
UE_nr_rxtx_proc_t proc_rxtx[RX_NB_TH];
} UE_nr_proc_t; } UE_nr_proc_t;
typedef enum { typedef enum {
......
...@@ -232,7 +232,6 @@ int8_t nr_ue_phy_config_request(nr_phy_config_t *phy_config){ ...@@ -232,7 +232,6 @@ int8_t nr_ue_phy_config_request(nr_phy_config_t *phy_config){
printf("half frame bit: %d\n", phy_config->config_req.pbch_config.half_frame_bit); printf("half frame bit: %d\n", phy_config->config_req.pbch_config.half_frame_bit);
printf("-------------------------------\n"); printf("-------------------------------\n");
PHY_vars_UE_g[0][0]->proc.proc_rxtx[0].frame_rx = phy_config->config_req.pbch_config.system_frame_number;
} }
if(phy_config->config_req.config_mask & FAPI_NR_CONFIG_REQUEST_MASK_DL_BWP_COMMON){ if(phy_config->config_req.config_mask & FAPI_NR_CONFIG_REQUEST_MASK_DL_BWP_COMMON){
......
...@@ -36,7 +36,7 @@ ...@@ -36,7 +36,7 @@
#include "PHY/defs_UE.h" #include "PHY/defs_UE.h"
#include "PHY/phy_extern_ue.h" #include "PHY/phy_extern_ue.h"
#include <sched.h> #include <sched.h>
#include "targets/RT/USER/lte-softmodem.h" #include "executables/nr-uesoftmodem.h"
#include "PHY/LTE_UE_TRANSPORT/transport_proto_ue.h" #include "PHY/LTE_UE_TRANSPORT/transport_proto_ue.h"
#include "SCHED_UE/sched_UE.h" #include "SCHED_UE/sched_UE.h"
...@@ -5116,13 +5116,13 @@ void phy_procedures_UE_lte(PHY_VARS_UE *ue,UE_rxtx_proc_t *proc,uint8_t eNB_id,u ...@@ -5116,13 +5116,13 @@ void phy_procedures_UE_lte(PHY_VARS_UE *ue,UE_rxtx_proc_t *proc,uint8_t eNB_id,u
if (msg_p != NULL) { if (msg_p != NULL) {
switch (ITTI_MSG_ID(msg_p)) { switch (ITTI_MSG_ID(msg_p)) {
case PHY_FIND_CELL_REQ: case PHY_FIND_CELL_REQ:
LOG_I(PHY, "[UE %d] Received %s\n", ITTI_MSG_INSTANCE (msg_p) - NB_eNB_INST, ITTI_MSG_NAME (msg_p)); LOG_I(PHY, "[UE ] Received %s\n", ITTI_MSG_NAME (msg_p));
/* TODO process the message */ /* TODO process the message */
break; break;
default: default:
LOG_E(PHY, "[UE %d] Received unexpected message %s\n", ITTI_MSG_INSTANCE (msg_p) - NB_eNB_INST, ITTI_MSG_NAME (msg_p)); LOG_E(PHY, "[UE %d] Received unexpected message %s\n", ITTI_MSG_INSTANCE (msg_p) , ITTI_MSG_NAME (msg_p));
break; break;
} }
......
...@@ -43,10 +43,10 @@ ...@@ -43,10 +43,10 @@
/*!\brief UE layer 2 status */ /*!\brief UE layer 2 status */
typedef enum { typedef enum {
CONNECTION_OK = 0, UE_CONNECTION_OK = 0,
CONNECTION_LOST, UE_CONNECTION_LOST,
PHY_RESYNCH, UE_PHY_RESYNCH,
PHY_HO_PRACH UE_PHY_HO_PRACH
} NR_UE_L2_STATE_t; } NR_UE_L2_STATE_t;
typedef struct { typedef struct {
......
...@@ -30,8 +30,8 @@ ...@@ -30,8 +30,8 @@
* \warning * \warning
*/ */
#ifndef __LAYER2_MAC_PROTO_H__ #ifndef __LAYER2_MAC_UE_PROTO_H__
#define __LAYER2_MAC_PROTO_H__ #define __LAYER2_MAC_UE_PROTO_H__
#include "mac_defs.h" #include "mac_defs.h"
#include "mac.h" #include "mac.h"
......
...@@ -686,7 +686,7 @@ NR_UE_L2_STATE_t nr_ue_scheduler( ...@@ -686,7 +686,7 @@ NR_UE_L2_STATE_t nr_ue_scheduler(
mac->scheduled_response.dl_config = dl_config; mac->scheduled_response.dl_config = dl_config;
return CONNECTION_OK; return UE_CONNECTION_OK;
} }
////////////// //////////////
......
...@@ -102,13 +102,13 @@ int nr_ue_ul_indication(nr_uplink_indication_t *ul_info){ ...@@ -102,13 +102,13 @@ int nr_ue_ul_indication(nr_uplink_indication_t *ul_info){
0, 0); // TODO check tx/rx frame/slot is need for NR version 0, 0); // TODO check tx/rx frame/slot is need for NR version
switch(ret){ switch(ret){
case CONNECTION_OK: case UE_CONNECTION_OK:
break; break;
case CONNECTION_LOST: case UE_CONNECTION_LOST:
break; break;
case PHY_RESYNCH: case UE_PHY_RESYNCH:
break; break;
case PHY_HO_PRACH: case UE_PHY_HO_PRACH:
break; break;
default: default:
break; break;
......
...@@ -424,7 +424,7 @@ extern "C" ...@@ -424,7 +424,7 @@ extern "C"
* \returns 0 in success * \returns 0 in success
*/ */
int openair0_set_rx_frequencies(openair0_device* device, openair0_config_t *openair0_cfg); int openair0_set_rx_frequencies(openair0_device* device, openair0_config_t *openair0_cfg);
#define gettid() syscall(__NR_gettid)
/*@}*/ /*@}*/
#ifdef __cplusplus #ifdef __cplusplus
......
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