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OpenXG-RAN
Commit cbd92893 authored by ghaddab's avatar ghaddab
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git-svn-id: http://svn.eurecom.fr/openair4G/trunk@6397 818b1a75-f10b-46b9-bf7c-635c3b92a50f
parent 4c6bd61b
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Showing with 452 additions and 140 deletions
targets/RT/USER/rrh.c
View file @ cbd92893
......@@ -54,24 +54,42 @@
#define BUF_LEN 4096+32
#define RRH_eNB_PORT 50000
#define RRH_eNB_DEST_IP "192.168.12.196" //Haswell ip address
//#define RRH_eNB_DEST_IP "192.168.12.148" //Hecatonchire ip address
#define RRH_eNB_DEST_IP "127.0.0.1"
#define RRH_UE_PORT 22222
//#define RRH_UE_DEST_IP "192.168.12.148" //Hecatonchire ip address
#define RRH_UE_DEST_IP "192.168.12.196" //Haswell ip address
#define RRH_UE_DEST_IP "127.0.0.1"
#define FRAME_MAX_SIZE 307200
#define DEFAULT_PERIOD_NS 133333
#define START_CMD 1
#define PRINTF_PERIOD 3750
typedef struct {
int eNB_port;
char *eNB_dest_ip;
char eNB_dest_ip[20];
int UE_port;
char *UE_dest_ip;
char UE_dest_ip[20];
struct timespec time_req;
} rrh_desc_t;
typedef struct {
int32_t nsamps;
int32_t antenna_index_eNB_rx;
int32_t antenna_index_eNB_tx;
int sockid_eNB;
struct sockaddr clientaddr;
socklen_t clientaddrlen;
} rrh_eNB_desc_t;
typedef struct {
int32_t nsamps;
int32_t antenna_index_UE_rx;
int32_t antenna_index_UE_tx;
int sockid_UE;
struct sockaddr clientaddr;
socklen_t clientaddrlen;
} rrh_UE_desc_t;
int rrh_exit=0;
int32_t tx_buffer_eNB[4][(1+(sizeof(openair0_timestamp)>>2))+FRAME_MAX_SIZE],rx_buffer_eNB[4][(1+(sizeof(openair0_timestamp)>>2))+FRAME_MAX_SIZE];
......@@ -104,6 +122,17 @@ pthread_mutex_t timer_mutex;
int sync_UE_rx[4]={-1,-1,-1,-1};
int sync_eNB_rx[4]={-1,-1,-1,-1};
//functions prototype
void timer_signal_handler(int);
void *timer_proc(void *);
void *rrh_proc_eNB_thread();
void *rrh_proc_UE_thread();
void *rrh_UE_thread(void *);
void *rrh_UE_rx_thread(void *);
void *rrh_UE_tx_thread(void *);
void *rrh_eNB_thread(void *);
void *rrh_eNB_rx_thread(void *);
void *rrh_eNB_tx_thread(void *);
void timer_signal_handler(int sig){
......@@ -183,7 +212,8 @@ void *rrh_proc_eNB_thread() {
}
else
{
while (hw_counter != last_hw_counter+1)
//printf("hw_counter : %llu, last_hw_counter : %llu\n",hw_counter,last_hw_counter);
while (hw_counter < last_hw_counter+1)
nanosleep(&time_req,&time_rem);
}
}
......@@ -271,7 +301,7 @@ void *rrh_proc_UE_thread() {
}
else
{
while (hw_counter != last_hw_counter+1)
while (hw_counter < last_hw_counter+1)
nanosleep(&time_req,&time_rem);
}
}
......@@ -323,72 +353,42 @@ void *rrh_proc_UE_thread() {
return(0);
}
void *rrh_UE_thread(void *arg) {
int sockid=-1;
struct sockaddr_in serveraddr;
void *rrh_UE_rx_thread(void *arg){
struct sockaddr clientaddr;
socklen_t clientaddrlen;
rrh_desc_t *rrh_desc = (rrh_desc_t *)arg;
char str[INET_ADDRSTRLEN];
//int8_t msg_header[4+sizeof(openair0_timestamp)];
int8_t buf[BUF_LEN];
int16_t cmd,nsamps,antenna_index;
ssize_t bytes_received;
struct timespec time_rem;
ssize_t bytes_sent;
openair0_timestamp temp;
openair0_timestamp last_hw_counter=0;
rrh_UE_desc_t *rrh_UE_rx_desc = (rrh_UE_desc_t *)arg;
struct timespec time0,time1,time2;
struct timespec time_req_1us, time_rem_1us;
ssize_t bytes_sent;
int antenna_index, nsamps;
int trace_cnt=0;
int sockid;
char str[INET_ADDRSTRLEN];
unsigned long long max_rx_time=0, min_rx_time=133333, total_rx_time=0, average_rx_time=133333, s_period=0, trial=0;
openair0_timestamp temp, last_hw_counter=0;
antenna_index = rrh_UE_rx_desc->antenna_index_UE_rx;
nsamps = rrh_UE_rx_desc->nsamps;
sockid = rrh_UE_rx_desc->sockid_UE;
time_req_1us.tv_sec = 0;
time_req_1us.tv_nsec = 1000;
while (rrh_exit==0) {
sockid=socket(AF_INET,SOCK_DGRAM,IPPROTO_UDP);
if (sockid==-1) {
perror("Cannot create UE socket: ");
rrh_exit=1;
}
bzero((char *)&serveraddr,sizeof(serveraddr));
serveraddr.sin_family=AF_INET;
serveraddr.sin_port=htons(rrh_desc->UE_port);
inet_pton(AF_INET,rrh_desc->UE_dest_ip,&serveraddr.sin_addr.s_addr);
inet_ntop(AF_INET, &(serveraddr.sin_addr), str, INET_ADDRSTRLEN);
printf("Binding to UE socket for %s:%d\n",str,ntohs(serveraddr.sin_port));
if (bind(sockid,(struct sockaddr *)&serveraddr,sizeof(serveraddr))<0) {
perror("Cannot bind to UE socket: ");
rrh_exit = 1;
}
// now wait for commands from eNB
while (rrh_exit==0) {
bzero((void*)&clientaddr,sizeof(struct sockaddr));
clientaddrlen = sizeof(struct sockaddr);
//printf("Waiting for eNB ...\n");
//printf("[RRH eNB RX thread] received parameters : nsamps : %d, antenna_index : %d\n",nsamps,antenna_index);
clientaddr = rrh_UE_rx_desc->clientaddr;
clientaddrlen = rrh_UE_rx_desc->clientaddrlen;
// get header info
bzero((void*)&clientaddr,sizeof(struct sockaddr));
clientaddrlen = sizeof(struct sockaddr);
//printf("Waiting for UE ...\n");
bytes_received = recvfrom(sockid,buf,BUF_LEN,0,&clientaddr,&clientaddrlen);
cmd = buf[0];
antenna_index = cmd>>1;
timestamp_UE_tx[antenna_index] = *(openair0_timestamp*)(buf+4);
nsamps = *(int16_t *)(buf+2);
cmd = cmd&1;
inet_ntop(AF_INET, &(((struct sockaddr_in*)&clientaddr)->sin_addr), str, INET_ADDRSTRLEN);
printf("Received UE RX request for antenna %d, nsamps %d (from %s:%d)\n",antenna_index,nsamps,str,
ntohs(((struct sockaddr_in*)&clientaddr)->sin_port));
switch (cmd) {
case 0: // RX
printf("Received UE RX request for antenna %d, nsamps %d (from %s:%d)\n",antenna_index,nsamps,str,
ntohs(((struct sockaddr_in*)&clientaddr)->sin_port));
if (!UE_rx_started)
while (rrh_exit == 0)
{
if (!UE_rx_started)
{
UE_rx_started=1; //Set this flag to 1 to indicate that a UE started retrieving data
if (RT_FLAG==1)
......@@ -406,12 +406,13 @@ void *rrh_UE_thread(void *arg) {
}
else
{
while (hw_counter != last_hw_counter+1)
while (hw_counter < last_hw_counter+1)
nanosleep(&time_req_1us,&time_rem_1us);
}
}
}
clock_gettime(CLOCK_MONOTONIC,&time1);
// send return
temp=*(openair0_timestamp*)&rx_buffer_UE[antenna_index][timestamp_UE_rx[antenna_index]%(FRAME_MAX_SIZE)];
*(openair0_timestamp*)&rx_buffer_UE[antenna_index][timestamp_UE_rx[antenna_index]%(FRAME_MAX_SIZE)]=timestamp_UE_rx[antenna_index];
......@@ -463,17 +464,84 @@ void *rrh_UE_thread(void *arg) {
sizeof(struct sockaddr)))<0)
perror("RRH UE thread: sendto for RX");
}
printf("bytes_sent %d(timestamp_UE_rx[%d] %d)\n",(int)bytes_sent,antenna_index,(int)timestamp_UE_rx[antenna_index]);
//printf("bytes_sent %d(timestamp_UE_rx[%d] %d)\n",(int)bytes_sent,antenna_index,(int)timestamp_UE_rx[antenna_index]);
*(openair0_timestamp*)&rx_buffer_UE[antenna_index][timestamp_UE_rx[antenna_index]%(FRAME_MAX_SIZE)]=temp;
timestamp_UE_rx[antenna_index]+=nsamps;
last_hw_counter=hw_counter;
break;
case 1: // TX
if (NRT_FLAG==1)
clock_gettime(CLOCK_MONOTONIC,&time2);
if (trace_cnt++ > 10)
{
total_rx_time = (unsigned int)(time2.tv_nsec - time0.tv_nsec);
if (total_rx_time < 0) total_rx_time=1000000000-total_rx_time;
if ((total_rx_time > 0) && (total_rx_time < 1000000000))
{
trial++;
if (total_rx_time < min_rx_time)
min_rx_time = total_rx_time;
if (total_rx_time > max_rx_time)
max_rx_time = total_rx_time;
average_rx_time = (long long unsigned int)((average_rx_time*trial)+total_rx_time)/(trial+1);
}
if (s_period++ == PRINTF_PERIOD)
{
s_period=0;
printf("Average UE RX time : %lu\tMax RX time : %lu\tMin RX time : %lu\n",average_rx_time,max_rx_time,min_rx_time);
}
//printf("RX: t1 %llu (time from last send), t2 %llu (sendto of %lu bytes) total time : %llu\n",(long long unsigned int)(time1.tv_nsec - time0.tv_nsec), (long long unsigned int)(time2.tv_nsec - time1.tv_nsec),
// (nsamps<<2)+sizeof(openair0_timestamp),(long long unsigned int)(time2.tv_nsec - time0.tv_nsec));
}
memcpy(&time0,&time2,sizeof(struct timespec));
} //while (rrh_exit==0)
return(0);
}
void *rrh_UE_tx_thread(void *arg)
{
struct sockaddr clientaddr;
socklen_t clientaddrlen;
struct timespec time0a,time0,time1,time2;
rrh_UE_desc_t *rrh_UE_tx_desc = (rrh_UE_desc_t *)arg;
// struct timespec time_rem;
struct timespec time_req_1us, time_rem_1us;
ssize_t bytes_received;
int antenna_index, nsamps;
int8_t buf[BUF_LEN];
int trace_cnt=0;
int sockid;
bzero((void*)&clientaddr,sizeof(struct sockaddr));
clientaddrlen = sizeof(struct sockaddr);
antenna_index = rrh_UE_tx_desc->antenna_index_UE_tx;
nsamps = rrh_UE_tx_desc->nsamps;
sockid = rrh_UE_tx_desc->sockid_UE;
while (rrh_exit == 0)
{
clock_gettime(CLOCK_MONOTONIC,&time0a);
bytes_received = recvfrom(sockid,buf,BUF_LEN,0,&clientaddr,&clientaddrlen);
timestamp_eNB_tx[antenna_index] = *(openair0_timestamp*)(buf+4);
clock_gettime(CLOCK_MONOTONIC,&time1);
if (NRT_FLAG==1)
{
nrt_UE_counter[antenna_index]++;
}
printf("Received UE TX request for antenna %d, nsamps %d, timestamp %d bytes_received %d\n",antenna_index,nsamps,(int)timestamp_UE_tx[antenna_index],(int)bytes_received);
//printf("Received UE TX request for antenna %d, nsamps %d, timestamp %d bytes_received %d\n",antenna_index,nsamps,(int)timestamp_UE_tx[antenna_index],(int)bytes_received);
if ((timestamp_UE_tx[antenna_index]%(FRAME_MAX_SIZE)+nsamps) > FRAME_MAX_SIZE) // Wrap around if nsamps exceeds the buffer limit
{
memcpy(&tx_buffer_UE[antenna_index][timestamp_UE_tx[antenna_index]%(FRAME_MAX_SIZE)],buf+sizeof(openair0_timestamp)+2*sizeof(int16_t),(FRAME_MAX_SIZE<<2)-((timestamp_UE_tx[antenna_index]%(FRAME_MAX_SIZE))<<2));
......@@ -485,10 +553,6 @@ void *rrh_UE_thread(void *arg) {
}
//printf("Received UE TX samples for antenna %d, nsamps %d (%d)\n",antenna_index,nsamps,(int)(bytes_received>>2));
if (rrh_desc->time_req.tv_sec !=0 || rrh_desc->time_req.tv_nsec !=0)
{
nanosleep(&rrh_desc->time_req,&time_rem);
}
while (sync_UE_rx[antenna_index]==0)
nanosleep(&time_req_1us,&time_rem_1us);
......@@ -505,26 +569,20 @@ void *rrh_UE_thread(void *arg) {
exit(-1);
}
pthread_mutex_unlock(&sync_UE_mutex[antenna_index]);
clock_gettime(CLOCK_MONOTONIC,&time2);
memcpy(&time0,&time2,sizeof(struct timespec));
break;
}
// rrh_exit = 1;
}
}
close(sockid);
}
return(0);
rrh_UE_thread_status = 0;
pthread_exit(&rrh_UE_thread_status);
return(0);
}
void *rrh_eNB_thread(void *arg) {
void *rrh_UE_thread(void *arg) {
int sockid=-1;
struct sockaddr_in serveraddr;
......@@ -534,60 +592,135 @@ void *rrh_eNB_thread(void *arg) {
char str[INET_ADDRSTRLEN];
//int8_t msg_header[4+sizeof(openair0_timestamp)];
int8_t buf[BUF_LEN];
int16_t cmd,nsamps,antenna_index;
int16_t cmd; //,nsamps,antenna_index;
ssize_t bytes_received;
ssize_t bytes_sent;
openair0_timestamp temp, last_hw_counter=0;
struct timespec time_rem;
// struct timespec time_rem;
// ssize_t bytes_sent;
// openair0_timestamp temp;
// openair0_timestamp last_hw_counter=0;
struct timespec time_req_1us, time_rem_1us;
rrh_UE_desc_t rrh_UE_desc;
pthread_t UE_rx_thread, UE_tx_thread;
pthread_attr_t attr_UE_rx, attr_UE_tx;
struct sched_param sched_param_UE_rx, sched_param_UE_tx;
int error_code_UE_rx, error_code_UE_tx;
time_req_1us.tv_sec = 0;
time_req_1us.tv_nsec = 1000;
while (rrh_exit==0) {
sockid=socket(AF_INET,SOCK_DGRAM,IPPROTO_UDP);
if (sockid==-1) {
perror("Cannot create eNB socket: ");
perror("Cannot create UE socket: ");
rrh_exit=1;
}
bzero((char *)&serveraddr,sizeof(serveraddr));
serveraddr.sin_family=AF_INET;
serveraddr.sin_port=htons(rrh_desc->eNB_port);
inet_pton(AF_INET,rrh_desc->eNB_dest_ip,&serveraddr.sin_addr.s_addr);
serveraddr.sin_port=htons(rrh_desc->UE_port);
inet_pton(AF_INET,rrh_desc->UE_dest_ip,&serveraddr.sin_addr.s_addr);
inet_ntop(AF_INET, &(serveraddr.sin_addr), str, INET_ADDRSTRLEN);
printf("Binding to eNB socket for %s:%d\n",str,ntohs(serveraddr.sin_port));
printf("Binding to UE socket for %s:%d\n",str,ntohs(serveraddr.sin_port));
if (bind(sockid,(struct sockaddr *)&serveraddr,sizeof(serveraddr))<0) {
perror("Cannot bind to eNB socket: ");
perror("Cannot bind to UE socket: ");
rrh_exit = 1;
}
// now wait for commands from eNB
while (rrh_exit==0) {
// get header info
bzero((void*)&clientaddr,sizeof(struct sockaddr));
clientaddrlen = sizeof(struct sockaddr);
//printf("Waiting for eNB ...\n");
//printf("Waiting for UE ...\n");
bytes_received = recvfrom(sockid,buf,BUF_LEN,0,&clientaddr,&clientaddrlen);
cmd = buf[0];
antenna_index = cmd>>1;
timestamp_eNB_tx[antenna_index] = *(openair0_timestamp*)(buf+4);
nsamps = *(int16_t *)(buf+2);
rrh_UE_desc.antenna_index_UE_rx = cmd>>1;
rrh_UE_desc.antenna_index_UE_tx = cmd>>1;
//rrh_eNB_desc.timestamp_eNB_tx[rrh_eNB_desc.antenna_index_eNB_tx] = *(openair0_timestamp*)(buf+4); //we don't need timestamp when receiving the first command
rrh_UE_desc.nsamps = *(int16_t *)(buf+2);
rrh_UE_desc.sockid_UE = sockid;
rrh_UE_desc.clientaddr = clientaddr;
rrh_UE_desc.clientaddrlen = clientaddrlen;
cmd = cmd&1;
inet_ntop(AF_INET, &(((struct sockaddr_in*)&clientaddr)->sin_addr), str, INET_ADDRSTRLEN);
switch (cmd) {
case 0: // RX
printf("Received eNB RX request for antenna %d, nsamps %d (from %s:%d)\n",antenna_index,nsamps,str,
ntohs(((struct sockaddr_in*)&clientaddr)->sin_port));
if (cmd==START_CMD){
pthread_attr_init(&attr_UE_rx);
pthread_attr_init(&attr_UE_tx);
sched_param_UE_rx.sched_priority = sched_get_priority_max(SCHED_FIFO);
sched_param_UE_tx.sched_priority = sched_get_priority_max(SCHED_FIFO);
pthread_attr_setschedparam(&attr_UE_rx,&sched_param_UE_rx);
pthread_attr_setschedparam(&attr_UE_tx,&sched_param_UE_tx);
pthread_attr_setschedpolicy(&attr_UE_rx,SCHED_FIFO);
pthread_attr_setschedpolicy(&attr_UE_tx,SCHED_FIFO);
error_code_UE_rx = pthread_create(&UE_rx_thread, &attr_UE_rx, rrh_UE_rx_thread, (void *)&rrh_UE_desc);
error_code_UE_tx = pthread_create(&UE_tx_thread, &attr_UE_tx, rrh_UE_tx_thread, (void *)&rrh_UE_desc);
if (error_code_UE_rx) {printf("Error while creating UE RX thread\n"); exit(-1);}
if (error_code_UE_tx) {printf("Error while creating UE TX thread\n"); exit(-1);}
while (rrh_exit==0)
sleep(1);
}
}
close(sockid);
rrh_UE_thread_status = 0;
pthread_exit(&rrh_UE_thread_status);
return(0);
}
void *rrh_eNB_rx_thread(void *arg) {
struct sockaddr clientaddr;
socklen_t clientaddrlen;
rrh_eNB_desc_t *rrh_eNB_rx_desc = (rrh_eNB_desc_t *)arg;
struct timespec time0,time1,time2;
struct timespec time_req_1us, time_rem_1us;
ssize_t bytes_sent;
int antenna_index, nsamps;
int trace_cnt=0;
int sockid;
char str[INET_ADDRSTRLEN];
unsigned long long max_rx_time=0, min_rx_time=133333, total_rx_time=0, average_rx_time=133333, s_period=0, trial=0;
openair0_timestamp temp, last_hw_counter=0;
antenna_index = rrh_eNB_rx_desc->antenna_index_eNB_rx;
nsamps = rrh_eNB_rx_desc->nsamps;
sockid = rrh_eNB_rx_desc->sockid_eNB;
bzero((void*)&clientaddr,sizeof(struct sockaddr));
clientaddrlen = sizeof(struct sockaddr);
//printf("Waiting for eNB ...\n");
//printf("[RRH eNB RX thread] received parameters : nsamps : %d, antenna_index : %d\n",nsamps,antenna_index);
clientaddr = rrh_eNB_rx_desc->clientaddr;
clientaddrlen = rrh_eNB_rx_desc->clientaddrlen;
inet_ntop(AF_INET, &(((struct sockaddr_in*)&clientaddr)->sin_addr), str, INET_ADDRSTRLEN);
printf("Received eNB RX request for antenna %d, nsamps %d (from %s:%d)\n",antenna_index,nsamps,str,
ntohs(((struct sockaddr_in*)&clientaddr)->sin_port));
while (rrh_exit == 0)
{
//printf("Received eNB RX request for antenna %d, nsamps %d (from %s:%d)\n",antenna_index,nsamps,str,
// ntohs(((struct sockaddr_in*)&clientaddr)->sin_port));
if (!eNB_rx_started)
{
......@@ -607,12 +740,14 @@ void *rrh_eNB_thread(void *arg) {
}
else
{
while (hw_counter != last_hw_counter+1)
while (hw_counter < last_hw_counter+1)
nanosleep(&time_req_1us,&time_rem_1us);
}
}
}
clock_gettime(CLOCK_MONOTONIC,&time1);
// send return
temp=*(openair0_timestamp*)&rx_buffer_eNB[antenna_index][timestamp_eNB_rx[antenna_index]%(FRAME_MAX_SIZE)];
*(openair0_timestamp*)&rx_buffer_eNB[antenna_index][timestamp_eNB_rx[antenna_index]%(FRAME_MAX_SIZE)]=timestamp_eNB_rx[antenna_index];
......@@ -665,19 +800,87 @@ void *rrh_eNB_thread(void *arg) {
perror("RRH eNB : sendto for RX");
}
printf("bytes_sent %d(timestamp_eNB_rx[%d] %d)\n",(int)bytes_sent,antenna_index,(int)timestamp_eNB_rx[antenna_index]);
//printf("bytes_sent %d(timestamp_eNB_rx[%d] %d)\n",(int)bytes_sent,antenna_index,(int)timestamp_eNB_rx[antenna_index]);
*(openair0_timestamp*)&rx_buffer_eNB[antenna_index][timestamp_eNB_rx[antenna_index]%(FRAME_MAX_SIZE)]=temp;
timestamp_eNB_rx[antenna_index]+=nsamps;
last_hw_counter=hw_counter;
break;
case 1: // TX
clock_gettime(CLOCK_MONOTONIC,&time2);
if (trace_cnt++ > 10)
{
total_rx_time = (unsigned int)(time2.tv_nsec - time0.tv_nsec);
if (total_rx_time < 0) total_rx_time=1000000000-total_rx_time;
if ((total_rx_time > 0) && (total_rx_time < 1000000000))
{
trial++;
if (total_rx_time < min_rx_time)
min_rx_time = total_rx_time;
if (total_rx_time > max_rx_time)
max_rx_time = total_rx_time;
average_rx_time = (long long unsigned int)((average_rx_time*trial)+total_rx_time)/(trial+1);
}
if (s_period++ == PRINTF_PERIOD)
{
s_period=0;
printf("Average eNB RX time : %lu\tMax RX time : %lu\tMin RX time : %lu\n",average_rx_time,max_rx_time,min_rx_time);
}
//printf("RX: t1 %llu (time from last send), t2 %llu (sendto of %lu bytes) total time : %llu\n",(long long unsigned int)(time1.tv_nsec - time0.tv_nsec), (long long unsigned int)(time2.tv_nsec - time1.tv_nsec),
// (nsamps<<2)+sizeof(openair0_timestamp),(long long unsigned int)(time2.tv_nsec - time0.tv_nsec));
}
memcpy(&time0,&time2,sizeof(struct timespec));
} //while (rrh_exit==0)
return(0);
}
void *rrh_eNB_tx_thread(void *arg) {
struct sockaddr clientaddr;
socklen_t clientaddrlen;
struct timespec time0a,time0,time1,time2;
rrh_eNB_desc_t *rrh_eNB_tx_desc = (rrh_eNB_desc_t *)arg;
// struct timespec time_rem;
struct timespec time_req_1us, time_rem_1us;
ssize_t bytes_received;
int antenna_index, nsamps;
int8_t buf[BUF_LEN];
int trace_cnt=0;
int sockid;
bzero((void*)&clientaddr,sizeof(struct sockaddr));
clientaddrlen = sizeof(struct sockaddr);
//printf("Waiting for eNB ...\n");
antenna_index = rrh_eNB_tx_desc->antenna_index_eNB_tx;
nsamps = rrh_eNB_tx_desc->nsamps;
sockid = rrh_eNB_tx_desc->sockid_eNB;
while (rrh_exit == 0)
{
clock_gettime(CLOCK_MONOTONIC,&time0a);
bytes_received = recvfrom(sockid,buf,BUF_LEN,0,&clientaddr,&clientaddrlen);
timestamp_eNB_tx[antenna_index] = *(openair0_timestamp*)(buf+4);
clock_gettime(CLOCK_MONOTONIC,&time1);
if (NRT_FLAG==1)
{
nrt_eNB_counter[antenna_index]++;
}
printf("Received eNB TX request for antenna %d, nsamps %d, timestamp %d bytes_received %d\n",antenna_index,nsamps,(int)timestamp_eNB_tx[antenna_index],(int)bytes_received);
//printf("Received eNB TX request for antenna %d, nsamps %d, timestamp %d bytes_received %d\n",antenna_index,nsamps,(int)timestamp_eNB_tx[antenna_index],(int)bytes_received);
if ((timestamp_eNB_tx[antenna_index]%(FRAME_MAX_SIZE)+nsamps) > FRAME_MAX_SIZE) // Wrap around if nsamps exceeds the buffer limit
{
......@@ -689,13 +892,10 @@ void *rrh_eNB_thread(void *arg) {
else {
memcpy(&tx_buffer_eNB[antenna_index][timestamp_eNB_tx[antenna_index]%(FRAME_MAX_SIZE)],buf+sizeof(openair0_timestamp)+2*sizeof(int16_t),nsamps<<2);
}
if (rrh_desc->time_req.tv_sec !=0 || rrh_desc->time_req.tv_nsec !=0)
{
nanosleep(&rrh_desc->time_req,&time_rem);
}
while (sync_eNB_rx[antenna_index]==0)
nanosleep(&time_req_1us,&time_rem_1us);
//printf("launching eNB proc\n");
pthread_mutex_lock(&sync_eNB_mutex[antenna_index]);
sync_eNB_rx[antenna_index]++;
if (!sync_eNB_rx[antenna_index])
......@@ -710,10 +910,119 @@ void *rrh_eNB_thread(void *arg) {
}
pthread_mutex_unlock(&sync_eNB_mutex[antenna_index]);
break;
} //switch(cmd)
clock_gettime(CLOCK_MONOTONIC,&time2);
//if (trace_cnt++ < 10)
// printf("TX: t0 %llu (time from previous run) t1 %llu (time of memcpy TX samples), t2 %llu (total time)\n",(long long unsigned int)(time1.tv_nsec - time0.tv_nsec),
// (long long unsigned int)(time2.tv_nsec - time1.tv_nsec),
// (long long unsigned int)(time2.tv_nsec - time0.tv_nsec));
memcpy(&time0,&time2,sizeof(struct timespec));
}
return(0);
}
void *rrh_eNB_thread(void *arg) {
int sockid=-1;
struct sockaddr_in serveraddr;
struct sockaddr clientaddr;
socklen_t clientaddrlen;
rrh_desc_t *rrh_desc = (rrh_desc_t *)arg;
char str[INET_ADDRSTRLEN];
//int8_t msg_header[4+sizeof(openair0_timestamp)];
int8_t buf[BUF_LEN];
int16_t cmd; //,nsamps,antenna_index;
ssize_t bytes_received;
//ssize_t bytes_sent;
//openair0_timestamp temp, last_hw_counter=0;
//struct timespec time_rem;
struct timespec time_req_1us, time_rem_1us;
//struct timespec time0a,time0,time1,time2;
//int trace_cnt=0;
rrh_eNB_desc_t rrh_eNB_desc;
pthread_t eNB_rx_thread, eNB_tx_thread;
pthread_attr_t attr_eNB_rx, attr_eNB_tx;
struct sched_param sched_param_eNB_rx, sched_param_eNB_tx;
int error_code_eNB_rx, error_code_eNB_tx;
time_req_1us.tv_sec = 0;
time_req_1us.tv_nsec = 1000;
while (rrh_exit==0) {
sockid=socket(AF_INET,SOCK_DGRAM,IPPROTO_UDP);
if (sockid==-1) {
perror("Cannot create eNB socket: ");
rrh_exit=1;
}
bzero((char *)&serveraddr,sizeof(serveraddr));
serveraddr.sin_family=AF_INET;
serveraddr.sin_port=htons(rrh_desc->eNB_port);
inet_pton(AF_INET,rrh_desc->eNB_dest_ip,&serveraddr.sin_addr.s_addr);
inet_ntop(AF_INET, &(serveraddr.sin_addr), str, INET_ADDRSTRLEN);
printf("Binding to eNB socket for %s:%d\n",str,ntohs(serveraddr.sin_port));
if (bind(sockid,(struct sockaddr *)&serveraddr,sizeof(serveraddr))<0) {
perror("Cannot bind to eNB socket: ");
rrh_exit = 1;
}
// now wait for commands from eNB
// get header info
bzero((void*)&clientaddr,sizeof(struct sockaddr));
clientaddrlen = sizeof(struct sockaddr);
//printf("Waiting for eNB ...\n");
bytes_received = recvfrom(sockid,buf,BUF_LEN,0,&clientaddr,&clientaddrlen);
cmd = buf[0];
rrh_eNB_desc.antenna_index_eNB_rx = cmd>>1;
rrh_eNB_desc.antenna_index_eNB_tx = cmd>>1;
//rrh_eNB_desc.timestamp_eNB_tx[rrh_eNB_desc.antenna_index_eNB_tx] = *(openair0_timestamp*)(buf+4); //we don't need timestamp when receiving the first command
rrh_eNB_desc.nsamps = *(int16_t *)(buf+2);
rrh_eNB_desc.sockid_eNB = sockid;
rrh_eNB_desc.clientaddr = clientaddr;
rrh_eNB_desc.clientaddrlen = clientaddrlen;
cmd = cmd&1;
inet_ntop(AF_INET, &(((struct sockaddr_in*)&clientaddr)->sin_addr), str, INET_ADDRSTRLEN);
if (cmd==START_CMD){
pthread_attr_init(&attr_eNB_rx);
pthread_attr_init(&attr_eNB_tx);
sched_param_eNB_rx.sched_priority = sched_get_priority_max(SCHED_FIFO);
sched_param_eNB_tx.sched_priority = sched_get_priority_max(SCHED_FIFO);
pthread_attr_setschedparam(&attr_eNB_rx,&sched_param_eNB_rx);
pthread_attr_setschedparam(&attr_eNB_tx,&sched_param_eNB_tx);
pthread_attr_setschedpolicy(&attr_eNB_rx,SCHED_FIFO);
pthread_attr_setschedpolicy(&attr_eNB_tx,SCHED_FIFO);
error_code_eNB_rx = pthread_create(&eNB_rx_thread, &attr_eNB_rx, rrh_eNB_rx_thread, (void *)&rrh_eNB_desc);
error_code_eNB_tx = pthread_create(&eNB_tx_thread, &attr_eNB_tx, rrh_eNB_tx_thread, (void *)&rrh_eNB_desc);
if (error_code_eNB_rx) {printf("Error while creating eNB RX thread\n"); exit(-1);}
if (error_code_eNB_tx) {printf("Error while creating eNB TX thread\n"); exit(-1);}
while (rrh_exit==0)
sleep(1);
}
} //while (rrh_exit==0)
} //while (rrh_exit==0)
close(sockid);
......@@ -754,15 +1063,22 @@ int main(int argc, char **argv) {
int i;
int opt;
int nsecs=0, rt_period=0;
rrh_desc_t rrh;
struct itimerspec timer;
rrh.time_req.tv_sec = 0;
rrh.time_req.tv_nsec = 0;
rrh.eNB_port = RRH_eNB_PORT;
strcpy(rrh.eNB_dest_ip,RRH_eNB_DEST_IP);
rrh.UE_port = RRH_UE_PORT;
strcpy(rrh.UE_dest_ip ,RRH_UE_DEST_IP);
nsecs = 0;
while ((opt = getopt(argc, argv, "d:t:r")) != -1) {
while ((opt = getopt(argc, argv, "t:rE:U:")) != -1) {
switch (opt) {
case 'd':
nsecs = atoi(optarg);
NRT_FLAG=1;
break;
case 't':
rt_period = atoi(optarg);
RT_FLAG=1;
......@@ -773,6 +1089,12 @@ int main(int argc, char **argv) {
RT_FLAG=1;
NRT_FLAG=0;
break;
case 'E':
strcpy(rrh.eNB_dest_ip,optarg);
break;
case 'U':
strcpy(rrh.UE_dest_ip,optarg);
break;
default: /* '?' */
fprintf(stderr, "Usage: %s [-d nsecs]\n", argv[0]);
......@@ -785,22 +1107,12 @@ int main(int argc, char **argv) {
// exit(EXIT_FAILURE);
// }
struct itimerspec timer;
// setup the timer (1s delay, 1s reload)
timer.it_value.tv_sec = rt_period/1000000000;
timer.it_value.tv_nsec = rt_period%1000000000;
timer.it_interval.tv_sec = rt_period/1000000000;
timer.it_interval.tv_nsec = rt_period%1000000000;
rrh_desc_t rrh;
rrh.time_req.tv_sec = nsecs/1000000000;
rrh.time_req.tv_nsec = nsecs%1000000000;
rrh.eNB_port = RRH_eNB_PORT;
rrh.eNB_dest_ip = RRH_eNB_DEST_IP;
rrh.UE_port = RRH_UE_PORT;
rrh.UE_dest_ip = RRH_UE_DEST_IP;
// to make a graceful exit when ctrl-c is pressed
signal(SIGSEGV, signal_handler);
......@@ -831,7 +1143,7 @@ int main(int argc, char **argv) {
error_code_eNB = pthread_create(&main_rrh_eNB_thread, &attr, rrh_eNB_thread, (void *)&rrh);
error_code_UE = pthread_create(&main_rrh_UE_thread, &attr, rrh_UE_thread, (void *)&rrh);
error_code_proc_UE = pthread_create(&main_rrh_proc_UE_thread, &attr_proc, rrh_proc_UE_thread,NULL);
error_code_proc_UE = pthread_create(&main_rrh_proc_UE_thread, &attr_proc, rrh_proc_UE_thread, NULL);
error_code_proc_eNB = pthread_create(&main_rrh_proc_eNB_thread, &attr_proc, rrh_proc_eNB_thread, NULL);
error_code_timer = pthread_create(&main_timer_proc_thread, &attr_timer, timer_proc, (void *)&timer);
......
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