Merge remote-tracking branch 'origin/rfsimu-optim' into integration_2023_w38

radio/COMMON/common_lib.h

@@ -572,17 +572,11 @@ struct openair0_device_t {
 typedef int(*oai_device_initfunc_t)(openair0_device *device, openair0_config_t *openair0_cfg);
 /* type of transport init function, implemented in shared lib */
 typedef int(*oai_transport_initfunc_t)(openair0_device *device, openair0_config_t *openair0_cfg, eth_params_t *eth_params);
-#define UE_MAGICDL 0xA5A5A5A5A5A5A5A5  // UE DL FDD record
-#define UE_MAGICUL 0x5A5A5A5A5A5A5A5A  // UE UL FDD record
-
-#define ENB_MAGICDL 0xB5B5B5B5B5B5B5B5  // eNB DL FDD record
-#define ENB_MAGICUL 0x5B5B5B5B5B5B5B5B  // eNB UL FDD record
 
 #define OPTION_LZ4  0x00000001          // LZ4 compression (option_value is set to compressed size)
 
 
 typedef struct {
-  uint64_t magic;          // Magic value (see defines above)
   uint32_t size;           // Number of samples per antenna to follow this header
   uint32_t nbAnt;          // Total number of antennas following this header
   // Samples per antenna follow this header,

radio/rfsimulator/simulator.c

@@ -54,13 +54,44 @@
 #include "rfsimulator.h"
 
 #define PORT 4043 //default TCP port for this simulator
-#define CirSize 6144000 // 100ms is enough
+//
+// CirSize defines the number of samples inquired for a read cycle
+// It is bounded by a slot read capability (which depends on bandwidth and numerology)
+// up to multiple slots read to allow I/Q buffering of the I/Q TCP stream
+//
+// As a rule of thumb:
+// -it can't be less than the number of samples for a slot
+// -it can range up to multiple slots
+//
+// The default value is chosen for 10ms buffering which makes 23040*20 = 460800 samples
+// The previous value is kept below in comment it was computed for 100ms 1x 20MHz
+// #define CirSize 6144000 // 100ms SiSo 20MHz LTE
+#define CirSize 460800 // 10ms  SiSo 40Mhz 3/4 sampling NR78 FR1
 #define sampleToByte(a,b) ((a)*(b)*sizeof(sample_t))
 #define byteToSample(a,b) ((a)/(sizeof(sample_t)*(b)))
 
 #define MAX_SIMULATION_CONNECTED_NODES 5
-#define GENERATE_CHANNEL 10 //each frame in DL
+#define GENERATE_CHANNEL 10 // each frame (or slot?) in DL
+
+// This needs to be re-architected in the future
+//
+// File Descriptors management in rfsimulator is not optimized
+// Relying on FD_SETSIZE (actually 1024) is not appropriated
+// Also the use of fd value as returned by Linux as an index for buf[] structure is not appropriated
+// especially for client (UE) side since only 1 fd per connection to a gNB is needed. On the server
+// side the value should be tuned to the maximum number of connections with UE's which corresponds
+// to the maximum number of UEs hosted by a gNB which is unlikely to be in the order of thousands
+// since all I/Q's would flow through the same TCP transport.
+// Until a convenient management is implemented, the MAX_FD_RFSIMU is used everywhere (instead of
+// FD_SETSIE) and reduced to 125. This should allow for around 20 simultaeous UEs.
+//
+// #define MAX_FD_RFSIMU FD_SETSIZE
+#define MAX_FD_RFSIMU 125
+#define SYSCTL_MEM_VALUE 134217728 // Kernel network buffer size
+#define SEND_BUFF_SIZE SYSCTL_MEM_VALUE // Socket buffer size
 
+// Simulator role
+typedef enum { SIMU_ROLE_SERVER = 1, SIMU_ROLE_CLIENT } simuRole;
 
 //
 
@@ -106,6 +137,7 @@ static telnetshell_cmddef_t *setmodel_cmddef = &(rfsimu_cmdarray[1]);
 
 static telnetshell_vardef_t rfsimu_vardef[] = {{"", 0, 0, NULL}};
 pthread_mutex_t Sockmutex;
+unsigned int nb_ue = 0;
 
 typedef c16_t sample_t; // 2*16 bits complex number
 
@@ -126,11 +158,11 @@ typedef struct {
   int listen_sock, epollfd;
   openair0_timestamp nextRxTstamp;
   openair0_timestamp lastWroteTS;
-  uint64_t typeStamp;
+  simuRole role;
   char *ip;
   uint16_t port;
   int saveIQfile;
-  buffer_t buf[FD_SETSIZE];
+  buffer_t buf[MAX_FD_RFSIMU];
   int rx_num_channels;
   int tx_num_channels;
   double sample_rate;
@@ -145,10 +177,14 @@ typedef struct {
   int wait_timeout;
 } rfsimulator_state_t;
 
-
-static void allocCirBuf(rfsimulator_state_t *bridge, int sock) {
+static int allocCirBuf(rfsimulator_state_t *bridge, int sock)
+{
   buffer_t *ptr=&bridge->buf[sock];
-  AssertFatal ( (ptr->circularBuf=(sample_t *) malloc(sampleToByte(CirSize,1))) != NULL, "");
+  ptr->circularBuf = malloc(sampleToByte(CirSize, 1));
+  if (ptr->circularBuf == NULL) {
+    LOG_E(HW, "malloc(%lu) failed\n", sampleToByte(CirSize, 1));
+    return -1;
+  }
   ptr->circularBufEnd=((char *)ptr->circularBuf)+sampleToByte(CirSize,1);
   ptr->conn_sock=sock;
   ptr->lastReceivedTS=0;
@@ -156,12 +192,18 @@ static void allocCirBuf(rfsimulator_state_t *bridge, int sock) {
   ptr->trashingPacket=false;
   ptr->transferPtr=(char *)&ptr->th;
   ptr->remainToTransfer=sizeof(samplesBlockHeader_t);
-  int sendbuff=1000*1000*100;
-  AssertFatal ( setsockopt(sock, SOL_SOCKET, SO_SNDBUF, &sendbuff, sizeof(sendbuff)) == 0, "");
+  int sendbuff = SEND_BUFF_SIZE;
+  if (setsockopt(sock, SOL_SOCKET, SO_SNDBUF, &sendbuff, sizeof(sendbuff)) != 0) {
+    LOG_E(HW, "setsockopt(SO_SNDBUF) failed\n");
+    return -1;
+  }
   struct epoll_event ev= {0};
   ev.events = EPOLLIN | EPOLLRDHUP;
   ev.data.fd = sock;
-  AssertFatal(epoll_ctl(bridge->epollfd, EPOLL_CTL_ADD,  sock, &ev) != -1, "");
+  if (epoll_ctl(bridge->epollfd, EPOLL_CTL_ADD, sock, &ev) != 0) {
+    LOG_E(HW, "epoll_ctl(EPOLL_CTL_ADD) failed\n");
+    return -1;
+  }
 
   if ( bridge->channelmod > 0) {
     // create channel simulation model for this mode reception
@@ -183,23 +225,31 @@ static void allocCirBuf(rfsimulator_state_t *bridge, int sock) {
       FILE *h=fopen("/dev/random","r");
 
       if ( 1 != fread(&rand,sizeof(rand),1,h) )
-        LOG_W(HW, "Simulator can't read /dev/random\n");
+        LOG_W(HW, "Can't read /dev/random\n");
 
       fclose(h);
       randominit(rand);
       tableNor(rand);
       init_done=true;
     }
-    char *modelname = (bridge->typeStamp == ENB_MAGICDL) ? "rfsimu_channel_ue0":"rfsimu_channel_enB0";
-    ptr->channel_model=find_channel_desc_fromname(modelname); // path_loss in dB
-    AssertFatal((ptr->channel_model!= NULL),"Channel model %s not found, check config file\n",modelname);
+    char *modelname = (bridge->role == SIMU_ROLE_SERVER) ? "rfsimu_channel_ue0" : "rfsimu_channel_enB0";
+    ptr->channel_model = find_channel_desc_fromname(modelname); // path_loss in dB
+    if (ptr->channel_model != NULL) {
+      LOG_E(HW, "Channel model %s not found, check config file\n", modelname);
+      return -1;
+    }
+
     set_channeldesc_owner(ptr->channel_model, RFSIMU_MODULEID);
     random_channel(ptr->channel_model,false);
+    LOG_I(HW, "Random channel %s in rfsimulator activated\n", modelname);
   }
+  return 0;
 }
 
 static void removeCirBuf(rfsimulator_state_t *bridge, int sock) {
-  AssertFatal( epoll_ctl(bridge->epollfd, EPOLL_CTL_DEL,  sock, NULL) != -1, "");
+  if (epoll_ctl(bridge->epollfd, EPOLL_CTL_DEL, sock, NULL) != 0) {
+    LOG_E(HW, "epoll_ctl(EPOLL_CTL_DEL) failed\n");
+  }
   close(sock);
   free(bridge->buf[sock].circularBuf);
   // Fixme: no free_channel_desc_scm(bridge->buf[sock].channel_model) implemented
@@ -207,14 +257,15 @@ static void removeCirBuf(rfsimulator_state_t *bridge, int sock) {
   //free(bridge->buf[sock].channel_model);
   memset(&bridge->buf[sock], 0, sizeof(buffer_t));
   bridge->buf[sock].conn_sock=-1;
+  nb_ue--;
 }
 
 static void socketError(rfsimulator_state_t *bridge, int sock) {
   if (bridge->buf[sock].conn_sock!=-1) {
-    LOG_W(HW,"Lost socket \n");
+    LOG_W(HW, "Lost socket\n");
     removeCirBuf(bridge, sock);
 
-    if (bridge->typeStamp==UE_MAGICDL)
+    if (bridge->role == SIMU_ROLE_CLIENT)
       exit(1);
   }
 }
@@ -224,9 +275,13 @@ enum  blocking_t {
   blocking
 };
 
-static void setblocking(int sock, enum blocking_t active) {
+static int setblocking(int sock, enum blocking_t active)
+{
   int opts = fcntl(sock, F_GETFL);
-  AssertFatal(opts >= 0, "fcntl(): errno %d, %s\n", errno, strerror(errno));
+  if (opts < 0) {
+    LOG_E(HW, "fcntl(F_GETFL) failed, errno(%d)\n", errno);
+    return -1;
+  }
 
   if (active==blocking)
     opts = opts & ~O_NONBLOCK;
@@ -234,7 +289,11 @@ static void setblocking(int sock, enum blocking_t active) {
     opts = opts | O_NONBLOCK;
 
   opts = fcntl(sock, F_SETFL, opts);
-  AssertFatal(opts >= 0, "fcntl(): errno %d, %s\n", errno, strerror(errno));
+  if (opts < 0) {
+    LOG_E(HW, "fcntl(F_SETFL) failed, errno(%d)\n", errno);
+    return -1;
+  }
+  return 0;
 }
 
 static bool flushInput(rfsimulator_state_t *t, int timeout, int nsamps);
@@ -242,11 +301,9 @@ static bool flushInput(rfsimulator_state_t *t, int timeout, int nsamps);
 static void fullwrite(int fd, void *_buf, ssize_t count, rfsimulator_state_t *t) {
   if (t->saveIQfile != -1) {
     if (write(t->saveIQfile, _buf, count) != count )
-      LOG_E(HW,"write in save iq file failed (%s)\n",strerror(errno));
+      LOG_E(HW, "write() in save iq file failed (%d)\n", errno);
   }
 
-  AssertFatal(fd>=0 && _buf && count >0 && t,
-              "Bug: %d/%p/%zd/%p", fd, _buf, count, t);
   char *buf = _buf;
   ssize_t l;
 
@@ -257,11 +314,9 @@ static void fullwrite(int fd, void *_buf, ssize_t count, rfsimulator_state_t *t)
       if (errno==EINTR)
         continue;
 
-      if(errno==EAGAIN) {
-        // The opposite side is saturated
-        // we read incoming sockets meawhile waiting
-        //flushInput(t, 5);
-        usleep(500);
+      if (errno == EAGAIN) {
+        LOG_E(HW, "write() failed, errno(%d)\n", errno);
+        usleep(250);
         continue;
       } else
         return;
@@ -278,7 +333,12 @@ static void rfsimulator_readconfig(rfsimulator_state_t *rfsimulator) {
   paramdef_t rfsimu_params[] = RFSIMULATOR_PARAMS_DESC;
   int p = config_paramidx_fromname(rfsimu_params,sizeof(rfsimu_params)/sizeof(paramdef_t), RFSIMU_OPTIONS_PARAMNAME) ;
   int ret = config_get( rfsimu_params,sizeof(rfsimu_params)/sizeof(paramdef_t),RFSIMU_SECTION);
-  AssertFatal(ret >= 0, "configuration couldn't be performed");
+
+  if (ret < 0) {
+    LOG_E(HW, "Configuration couldn't be performed\n");
+    exit(-1);
+  }
+
   rfsimulator->saveIQfile = -1;
 
   for(int i=0; i<rfsimu_params[p].numelt ; i++) {
@@ -286,9 +346,11 @@ static void rfsimulator_readconfig(rfsimulator_state_t *rfsimulator) {
       rfsimulator->saveIQfile=open(saveF,O_APPEND| O_CREAT|O_TRUNC | O_WRONLY, 0666);
 
       if ( rfsimulator->saveIQfile != -1 )
-        LOG_I(HW,"rfsimulator: will save written IQ samples  in %s\n", saveF);
-      else
-        LOG_E(HW, "can't open %s for IQ saving (%s)\n", saveF, strerror(errno));
+        LOG_I(HW, "Will save written IQ samples in %s\n", saveF);
+      else {
+        LOG_E(HW, "open(%s) failed for IQ saving, errno(%d)\n", saveF, errno);
+        exit(-1);
+      }
 
       break;
     } else if (strcmp(rfsimu_params[p].strlistptr[i],"chanmod") == 0) {
@@ -296,7 +358,7 @@ static void rfsimulator_readconfig(rfsimulator_state_t *rfsimulator) {
       load_channellist(rfsimulator->tx_num_channels, rfsimulator->rx_num_channels, rfsimulator->sample_rate, rfsimulator->tx_bw);
       rfsimulator->channelmod=true;
     } else {
-      fprintf(stderr,"Unknown rfsimulator option: %s\n",rfsimu_params[p].strlistptr[i]);
+      fprintf(stderr, "unknown rfsimulator option: %s\n", rfsimu_params[p].strlistptr[i]);
       exit(-1);
     }
   }
@@ -311,9 +373,9 @@ static void rfsimulator_readconfig(rfsimulator_state_t *rfsimulator) {
 
   if ( strncasecmp(rfsimulator->ip,"enb",3) == 0 ||
        strncasecmp(rfsimulator->ip,"server",3) == 0 )
-    rfsimulator->typeStamp = ENB_MAGICDL;
+    rfsimulator->role = SIMU_ROLE_SERVER;
   else
-    rfsimulator->typeStamp = UE_MAGICDL;
+    rfsimulator->role = SIMU_ROLE_CLIENT;
 }
 
 static int rfsimu_setchanmod_cmd(char *buff, int debug, telnet_printfunc_t prnt, void *arg) {
@@ -321,26 +383,26 @@ static int rfsimu_setchanmod_cmd(char *buff, int debug, telnet_printfunc_t prnt,
   char *modeltype=NULL;
   rfsimulator_state_t *t = (rfsimulator_state_t *)arg;
   if (t->channelmod == false) {
-    prnt("ERROR channel modelisation disabled...\n");
+    prnt("%s: ERROR channel modelisation disabled...\n", __func__);
     return 0;
   }
   if (buff == NULL) {
-    prnt("ERROR wrong rfsimu setchannelmod command...\n");
+    prnt("%s: ERROR wrong rfsimu setchannelmod command...\n", __func__);
     return 0;
   }
   if (debug)
-  	  prnt("rfsimu_setchanmod_cmd buffer \"%s\"\n",buff);
+    prnt("%s: rfsimu_setchanmod_cmd buffer \"%s\"\n", __func__, buff);
   int s = sscanf(buff,"%m[^ ] %ms\n",&modelname, &modeltype);
 
   if (s == 2) {
     int channelmod=modelid_fromstrtype(modeltype);
 
     if (channelmod<0)
-      prnt("ERROR: model type %s unknown\n",modeltype);
+      prnt("%s: ERROR: model type %s unknown\n", __func__, modeltype);
     else {
       rfsimulator_state_t *t = (rfsimulator_state_t *)arg;
       int found=0;
-      for (int i=0; i<FD_SETSIZE; i++) {
+      for (int i = 0; i < MAX_FD_RFSIMU; i++) {
         buffer_t *b=&t->buf[i];
         if ( b->channel_model==NULL)
           continue;
@@ -366,16 +428,16 @@ static int rfsimu_setchanmod_cmd(char *buff, int debug, telnet_printfunc_t prnt,
           channel_desc_t *oldmodel=b->channel_model;
           b->channel_model=newmodel;
           free_channel_desc_scm(oldmodel);
-          prnt("New model type %s applied to channel %s connected to sock %d\n",modeltype,modelname,i);
+          prnt("%s: New model type %s applied to channel %s connected to sock %d\n", __func__, modeltype, modelname, i);
           found=1;
           break;
         }
       } /* for */
       if (found==0)
-      	prnt("Channel %s not found or not currently used\n",modelname); 
+        prnt("%s: Channel %s not found or not currently used\n", __func__, modelname);
     }
   } else {
-    prnt("ERROR: 2 parameters required: model name and model type (%i found)\n",s);
+    prnt("%s: ERROR: 2 parameters required: model name and model type (%i found)\n", __func__, s);
   }
 
   free(modelname);
@@ -477,7 +539,7 @@ static int rfsimu_setdistance_cmd(char *buff, int debug, telnet_printfunc_t prnt
   int distance;
   int s = sscanf(buff,"%m[^ ] %d\n", &modelname, &distance);
   if (s != 2) {
-    prnt("require exact two parameters\n");
+    prnt("%s: require exact two parameters\n", __func__);
     return CMDSTATUS_VARNOTFOUND;
   }
 
@@ -488,14 +550,14 @@ static int rfsimu_setdistance_cmd(char *buff, int debug, telnet_printfunc_t prnt
   const int new_offset = (double) distance * sample_rate / c;
   const double new_distance = (double) new_offset * c / sample_rate;
 
-  prnt("\nnew_offset %d new (exact) distance %.3f m\n", new_offset, new_distance);
+  prnt("\n%s: new_offset %d new (exact) distance %.3f m\n", __func__, new_offset, new_distance);
 
   /* Set distance in rfsim and channel model, update channel and ringbuffer */
-  for (int i=0; i<FD_SETSIZE; i++) {
+  for (int i = 0; i < MAX_FD_RFSIMU; i++) {
     buffer_t *b=&t->buf[i];
     if (b->conn_sock <= 0 || b->channel_model == NULL || b->channel_model->model_name == NULL || strcmp(b->channel_model->model_name, modelname) != 0) {
       if (b->channel_model != NULL && b->channel_model->model_name != NULL)
-        prnt("  model %s unmodified\n", b->channel_model->model_name);
+        prnt("  %s: model %s unmodified\n", __func__, b->channel_model->model_name);
       continue;
     }
 
@@ -504,7 +566,7 @@ static int rfsimu_setdistance_cmd(char *buff, int debug, telnet_printfunc_t prnt
     cd->channel_offset = new_offset;
 
     const int nbTx = cd->nb_tx;
-    prnt("  Modifying model %s...\n", modelname);
+    prnt("  %s: Modifying model %s...\n", __func__, modelname);
     rfsimu_offset_change_cirBuf(b->circularBuf, t->nextRxTstamp, CirSize, old_offset, new_offset, nbTx);
   }
 
@@ -522,7 +584,7 @@ static int rfsimu_getdistance_cmd(char *buff, int debug, telnet_printfunc_t prnt
   const double sample_rate = t->sample_rate;
   const double c = 299792458; /* 3e8 */
 
-  for (int i=0; i<FD_SETSIZE; i++) {
+  for (int i = 0; i < MAX_FD_RFSIMU; i++) {
     buffer_t *b=&t->buf[i];
     if (b->conn_sock <= 0 || b->channel_model == NULL || b->channel_model->model_name == NULL)
       continue;
@@ -530,7 +592,7 @@ static int rfsimu_getdistance_cmd(char *buff, int debug, telnet_printfunc_t prnt
     channel_desc_t *cd = b->channel_model;
     const int offset = cd->channel_offset;
     const double distance = (double) offset * c / sample_rate;
-    prnt("\%s offset %d distance %.3f m\n", cd->model_name, offset, distance);
+    prnt("%s: \%s offset %d distance %.3f m\n", __func__, cd->model_name, offset, distance);
   }
 
   return CMDSTATUS_FOUND;
@@ -541,126 +603,180 @@ static int rfsimu_vtime_cmd(char *buff, int debug, telnet_printfunc_t prnt, void
   rfsimulator_state_t *t = (rfsimulator_state_t *)arg;
   const openair0_timestamp ts = t->nextRxTstamp;
   const double sample_rate = t->sample_rate;
-  prnt("vtime measurement: TS %llu sample_rate %.3f\n", ts, sample_rate);
+  prnt("%s: vtime measurement: TS %llu sample_rate %.3f\n", __func__, ts, sample_rate);
   return CMDSTATUS_FOUND;
 }
 
+static void customNetForPerf()
+{
+  int res = 0;
+  char sysctlmem[256];
+  memset(sysctlmem, 0, 256);
+  sprintf(sysctlmem, "/sbin/sysctl -n -e -q -w net.core.rmem_default=%d", SYSCTL_MEM_VALUE);
+  LOG_W(HW, "running command \"%s\" to increase RFsim performance\n", sysctlmem);
+  res = system(sysctlmem);
+  if (res != 0) {
+    LOG_W(HW, "Cannot set net.core.rmem_default to %d\n", SYSCTL_MEM_VALUE);
+  }
+  memset(sysctlmem, 0, 256);
+  sprintf(sysctlmem, "/sbin/sysctl -n -e -q -w net.core.rmem_max=%d", SYSCTL_MEM_VALUE);
+  LOG_W(HW, "running command \"%s\" to increase RFsim performance\n", sysctlmem);
+  res = system(sysctlmem);
+  if (res != 0) {
+    LOG_W(HW, "Cannot set net.core.rmem_max to %d\n", SYSCTL_MEM_VALUE);
+  }
+  memset(sysctlmem, 0, 256);
+  sprintf(sysctlmem, "/sbin/sysctl -n -e -q -w net.core.wmem_default=%d", SYSCTL_MEM_VALUE);
+  LOG_W(HW, "running command \"%s\" to increase RFsim performance\n", sysctlmem);
+  res = system(sysctlmem);
+  if (res != 0) {
+    LOG_W(HW, "Cannot set net.core.wmem_default to %d\n", SYSCTL_MEM_VALUE);
+  }
+  memset(sysctlmem, 0, 256);
+  sprintf(sysctlmem, "/sbin/sysctl -n -e -q -w net.core.wmem_max=%d", SYSCTL_MEM_VALUE);
+  LOG_W(HW, "running command \"%s\" to increase RFsim performance\n", sysctlmem);
+  res = system(sysctlmem);
+  if (res != 0) {
+    LOG_W(HW, "Cannot set net.core.wmem_max to %d\n", SYSCTL_MEM_VALUE);
+  }
+}
+
 static int startServer(openair0_device *device) {
   rfsimulator_state_t *t = (rfsimulator_state_t *) device->priv;
-  t->typeStamp=ENB_MAGICDL;
-  AssertFatal((t->listen_sock = socket(AF_INET, SOCK_STREAM, 0)) >= 0, "");
+  t->role = SIMU_ROLE_SERVER;
+  t->listen_sock = socket(AF_INET, SOCK_STREAM, 0);
+  if (t->listen_sock < 0) {
+    LOG_E(HW, "socket(SOCK_STREAM) failed, errno(%d)\n", errno);
+    return -1;
+  }
   int enable = 1;
-  AssertFatal(setsockopt(t->listen_sock, SOL_SOCKET, SO_REUSEADDR, &enable, sizeof(int)) == 0, "");
-  struct sockaddr_in addr = {
-.sin_family=
-    AF_INET,
-.sin_port=
-    htons(t->port),
-.sin_addr=
-    { .s_addr= INADDR_ANY }
-  };
+  if (setsockopt(t->listen_sock, SOL_SOCKET, SO_REUSEADDR, &enable, sizeof(int)) != 0) {
+    LOG_E(HW, "setsockopt(SO_REUSEADDR) failed, errno(%d)\n", errno);
+    return -1;
+  }
+  struct sockaddr_in addr = {.sin_family = AF_INET, .sin_port = htons(t->port), .sin_addr = {.s_addr = INADDR_ANY}};
+  customNetForPerf();
   int rc = bind(t->listen_sock, (struct sockaddr *)&addr, sizeof(addr));
-  AssertFatal(rc == 0, "bind failed: errno %d, %s", errno, strerror(errno));
-  AssertFatal(listen(t->listen_sock, 5) == 0, "");
+  if (rc < 0) {
+    LOG_E(HW, "bind() failed, errno(%d)\n", errno);
+    return -1;
+  }
+  if (listen(t->listen_sock, 5) != 0) {
+    LOG_E(HW, "listen() failed, errno(%d)\n", errno);
+    return -1;
+  }
   struct epoll_event ev= {0};
   ev.events = EPOLLIN;
   ev.data.fd = t->listen_sock;
-  AssertFatal(epoll_ctl(t->epollfd, EPOLL_CTL_ADD,  t->listen_sock, &ev) != -1, "");
+  if (epoll_ctl(t->epollfd, EPOLL_CTL_ADD, t->listen_sock, &ev) != 0) {
+    LOG_E(HW, "epoll_ctl(EPOLL_CTL_ADD) failed, errno(%d)\n", errno);
+    return -1;
+  }
   return 0;
 }
 
 static int startClient(openair0_device *device) {
   rfsimulator_state_t *t = device->priv;
-  t->typeStamp=UE_MAGICDL;
+  t->role = SIMU_ROLE_CLIENT;
   int sock;
-  AssertFatal((sock = socket(AF_INET, SOCK_STREAM, 0)) >= 0, "");
-  struct sockaddr_in addr = {
-.sin_family=
-    AF_INET,
-.sin_port=
-    htons(t->port),
-.sin_addr=
-    { .s_addr= INADDR_ANY }
-  };
+  if ((sock = socket(AF_INET, SOCK_STREAM, 0)) < 0) {
+    LOG_E(HW, "socket(SOCK_STREAM) failed, errno(%d)\n", errno);
+    return -1;
+  }
+  struct sockaddr_in addr = {.sin_family = AF_INET, .sin_port = htons(t->port), .sin_addr = {.s_addr = INADDR_ANY}};
   addr.sin_addr.s_addr = inet_addr(t->ip);
   bool connected=false;
 
+  customNetForPerf();
   while(!connected) {
-    LOG_I(HW,"rfsimulator: trying to connect to %s:%d\n", t->ip, t->port);
+    LOG_I(HW, "Trying to connect to %s:%d\n", t->ip, t->port);
 
     if (connect(sock, (struct sockaddr *)&addr, sizeof(addr)) == 0) {
-      LOG_I(HW,"rfsimulator: connection established\n");
+      LOG_I(HW, "Connection to %s:%d established\n", t->ip, t->port);
       connected=true;
     }
 
-    perror("rfsimulator");
+    LOG_I(HW, "connect() to %s:%d failed, errno(%d)\n", t->ip, t->port, errno);
     sleep(1);
   }
 
-  setblocking(sock, notBlocking);
-  allocCirBuf(t, sock);
-  return 0;
+  if (setblocking(sock, notBlocking) == -1) {
+    return -1;
+  }
+  return allocCirBuf(t, sock);
 }
 
 static int rfsimulator_write_internal(rfsimulator_state_t *t, openair0_timestamp timestamp, void **samplesVoid, int nsamps, int nbAnt, int flags, bool alreadyLocked) {
   if (!alreadyLocked)
     pthread_mutex_lock(&Sockmutex);
 
-  LOG_D(HW,"sending %d samples at time: %ld, nbAnt %d\n", nsamps, timestamp, nbAnt);
+  LOG_D(HW, "Sending %d samples at time: %ld, nbAnt %d\n", nsamps, timestamp, nbAnt);
 
-  for (int i=0; i<FD_SETSIZE; i++) {
+  for (int i = 0; i < MAX_FD_RFSIMU; i++) {
     buffer_t *b=&t->buf[i];
 
     if (b->conn_sock >= 0 ) {
-      samplesBlockHeader_t header= {t->typeStamp, nsamps, nbAnt, timestamp};
+      samplesBlockHeader_t header = {nsamps, nbAnt, timestamp};
       fullwrite(b->conn_sock,&header, sizeof(header), t);
       sample_t tmpSamples[nsamps][nbAnt];
 
-      for(int a=0; a<nbAnt; a++) {
-        sample_t *in=(sample_t *)samplesVoid[a];
+      if (nbAnt == 1) {
+        if (b->conn_sock >= 0) {
+          fullwrite(b->conn_sock, samplesVoid[0], sampleToByte(nsamps, nbAnt), t);
+        }
+      } else {
+        for (int a = 0; a < nbAnt; a++) {
+          sample_t *in = (sample_t *)samplesVoid[a];
 
-        for(int s=0; s<nsamps; s++)
-          tmpSamples[s][a]=in[s];
-      }
+          for (int s = 0; s < nsamps; s++)
+            tmpSamples[s][a] = in[s];
+        }
 
-      if (b->conn_sock >= 0 ) {
-        fullwrite(b->conn_sock, (void *)tmpSamples, sampleToByte(nsamps,nbAnt), t);
+        if (b->conn_sock >= 0) {
+          fullwrite(b->conn_sock, (void *)tmpSamples, sampleToByte(nsamps, nbAnt), t);
+        }
       }
     }
   }
 
   if ( t->lastWroteTS != 0 && fabs((double)t->lastWroteTS-timestamp) > (double)CirSize)
-    LOG_E(HW,"Discontinuous TX gap too large Tx:%lu, %lu\n", t->lastWroteTS, timestamp);
+    LOG_E(HW, "Discontinuous TX gap too large Tx:%lu, %lu\n", t->lastWroteTS, timestamp);
 
   if (t->lastWroteTS > timestamp+nsamps)
-    LOG_E(HW,"Not supported to send Tx out of order (same in USRP) %lu, %lu\n",
-          t->lastWroteTS, timestamp);
+    LOG_E(HW, "Not supported to send Tx out of order (same in USRP) %lu, %lu\n", t->lastWroteTS, timestamp);
 
   t->lastWroteTS=timestamp+nsamps;
 
   if (!alreadyLocked)
     pthread_mutex_unlock(&Sockmutex);
 
-  LOG_D(HW,"sent %d samples at time: %ld->%ld, energy in first antenna: %d\n",
-      nsamps, timestamp, timestamp+nsamps, signal_energy(samplesVoid[0], nsamps) );
+  LOG_D(HW,
+        "Sent %d samples at time: %ld->%ld, energy in first antenna: %d\n",
+        nsamps,
+        timestamp,
+        timestamp + nsamps,
+        signal_energy(samplesVoid[0], nsamps));
   return nsamps;
 }
 
 static int rfsimulator_write(openair0_device *device, openair0_timestamp timestamp, void **samplesVoid, int nsamps, int nbAnt, int flags) {
-  return rfsimulator_write_internal(device->priv, timestamp, samplesVoid, nsamps, nbAnt, flags, false);
+  return rfsimulator_write_internal(device->priv, timestamp, samplesVoid, nsamps, nbAnt, flags, false); // false = with lock
+  // return rfsimulator_write_internal(device->priv, timestamp, samplesVoid, nsamps, nbAnt, flags, true);
 }
 
 static bool flushInput(rfsimulator_state_t *t, int timeout, int nsamps_for_initial) {
   // Process all incoming events on sockets
   // store the data in lists
-  struct epoll_event events[FD_SETSIZE]= {{0}};
-  int nfds = epoll_wait(t->epollfd, events, FD_SETSIZE, timeout);
+  struct epoll_event events[MAX_FD_RFSIMU] = {{0}};
+  int nfds = epoll_wait(t->epollfd, events, MAX_FD_RFSIMU, timeout);
 
   if ( nfds==-1 ) {
     if ( errno==EINTR || errno==EAGAIN ) {
       return false;
-    } else
-      AssertFatal(false,"error in epoll_wait\n");
+    } else {
+      LOG_W(HW, "epoll_wait() failed, errno(%d)\n", errno);
+      return false;
+    }
   }
 
   for (int nbEv = 0; nbEv < nfds; ++nbEv) {
@@ -668,19 +784,26 @@ static bool flushInput(rfsimulator_state_t *t, int timeout, int nsamps_for_initi
 
     if (events[nbEv].events & EPOLLIN && fd == t->listen_sock) {
       int conn_sock;
-      AssertFatal( (conn_sock = accept(t->listen_sock,NULL,NULL)) != -1, "");
-      setblocking(conn_sock, notBlocking);
-      allocCirBuf(t, conn_sock);
-      LOG_I(HW,"A client connected, sending the current time\n");
+      conn_sock = accept(t->listen_sock, NULL, NULL);
+      if (conn_sock == -1) {
+        LOG_E(HW, "accept() failed, errno(%d)\n", errno);
+        return false;
+      }
+      if (setblocking(conn_sock, notBlocking)) {
+        return false;
+      }
+      if (allocCirBuf(t, conn_sock) == -1) {
+        return false;
+      }
+      LOG_I(HW, "A client connects, sending the current time\n");
       c16_t v= {0};
+      nb_ue++;
       void *samplesVoid[t->tx_num_channels];
 
       for ( int i=0; i < t->tx_num_channels; i++)
         samplesVoid[i]=(void *)&v;
 
-      rfsimulator_write_internal(t, t->lastWroteTS > 1 ? t->lastWroteTS-1 : 0,
-                                 samplesVoid, 1,
-                                 t->tx_num_channels, 1, false);
+      rfsimulator_write_internal(t, t->lastWroteTS > 1 ? t->lastWroteTS - 1 : 0, samplesVoid, 1, t->tx_num_channels, 1, true);
     } else {
       if ( events[nbEv].events & (EPOLLHUP | EPOLLERR | EPOLLRDHUP) ) {
         socketError(t,fd);
@@ -690,7 +813,7 @@ static bool flushInput(rfsimulator_state_t *t, int timeout, int nsamps_for_initi
       buffer_t *b=&t->buf[fd];
 
       if ( b->circularBuf == NULL ) {
-        LOG_E(HW, "received data on not connected socket %d\n", events[nbEv].data.fd);
+        LOG_E(HW, "Received data on not connected socket %d\n", events[nbEv].data.fd);
         continue;
       }
 
@@ -707,14 +830,14 @@ static bool flushInput(rfsimulator_state_t *t, int timeout, int nsamps_for_initi
 
       if ( sz < 0 ) {
         if ( errno != EAGAIN ) {
-          LOG_E(HW,"socket failed %s\n", strerror(errno));
+          LOG_E(HW, "recv() failed, errno(%d)\n", errno);
           //abort();
         }
       } else if ( sz == 0 )
         continue;
 
       LOG_D(HW, "Socket rcv %zd bytes\n", sz);
-      AssertFatal((b->remainToTransfer-=sz) >= 0, "");
+      b->remainToTransfer -= sz;
       b->transferPtr+=sz;
 
       if (b->transferPtr==b->circularBufEnd )
@@ -722,20 +845,18 @@ static bool flushInput(rfsimulator_state_t *t, int timeout, int nsamps_for_initi
 
       // check the header and start block transfer
       if ( b->headerMode==true && b->remainToTransfer==0) {
-        AssertFatal( (t->typeStamp == UE_MAGICDL  && b->th.magic==ENB_MAGICDL) ||
-                     (t->typeStamp == ENB_MAGICDL && b->th.magic==UE_MAGICDL), "Socket Error in protocol");
-        b->headerMode=false;
+        b->headerMode = false;
 
-        if ( t->nextRxTstamp == 0 ) { // First block in UE, resync with the eNB current TS
+        if (t->nextRxTstamp == 0) { // First block in UE, resync with the gNB current TS
           t->nextRxTstamp=b->th.timestamp> nsamps_for_initial ?
                            b->th.timestamp -  nsamps_for_initial :
                            0;
           b->lastReceivedTS=b->th.timestamp> nsamps_for_initial ?
                             b->th.timestamp :
                             nsamps_for_initial;
-          LOG_W(HW,"UE got first timestamp: starting at %lu\n",  t->nextRxTstamp);
+          LOG_D(HW, "UE got first timestamp: starting at %lu\n", t->nextRxTstamp);
           b->trashingPacket=true;
-        } else if ( b->lastReceivedTS < b->th.timestamp) {
+        } else if (b->lastReceivedTS < b->th.timestamp) {
           int nbAnt= b->th.nbAnt;
 
           if ( b->th.timestamp-b->lastReceivedTS < CirSize ) {
@@ -749,24 +870,21 @@ static bool flushInput(rfsimulator_state_t *t, int timeout, int nsamps_for_initi
             memset(b->circularBuf, 0, sampleToByte(CirSize,1));
           }
 
-          if (b->lastReceivedTS != 0 && b->th.timestamp-b->lastReceivedTS < 1000)
-            LOG_W(HW,"UEsock: %d gap of: %ld in reception\n", fd, b->th.timestamp-b->lastReceivedTS );
-
           b->lastReceivedTS=b->th.timestamp;
-        } else if ( b->lastReceivedTS > b->th.timestamp && b->th.size == 1 ) {
-          LOG_W(HW,"Received Rx/Tx synchro out of order\n");
+        } else if (b->lastReceivedTS > b->th.timestamp && b->th.size == 1) {
+          LOG_W(HW, "Received Rx/Tx synchro out of order\n");
           b->trashingPacket=true;
-        } else if ( b->lastReceivedTS == b->th.timestamp ) {
+        } else if (b->lastReceivedTS == b->th.timestamp) {
           // normal case
         } else {
-          LOG_E(HW, "received data in past: current is %lu, new reception: %lu!\n", b->lastReceivedTS, b->th.timestamp);
+          LOG_E(HW, "Received data in past: current is %lu, new reception: %lu!\n", b->lastReceivedTS, b->th.timestamp);
           b->trashingPacket=true;
         }
 
         pthread_mutex_lock(&Sockmutex);
 
         if (t->lastWroteTS != 0 && (fabs((double)t->lastWroteTS-b->lastReceivedTS) > (double)CirSize))
-          LOG_E(HW,"UEsock: %d Tx/Rx shift too large Tx:%lu, Rx:%lu\n", fd, t->lastWroteTS, b->lastReceivedTS);
+          LOG_E(HW, "UEsock(%d) Tx/Rx shift too large Tx:%lu, Rx:%lu\n", fd, t->lastWroteTS, b->lastReceivedTS);
 
         pthread_mutex_unlock(&Sockmutex);
         b->transferPtr=(char *)&b->circularBuf[(b->lastReceivedTS*b->th.nbAnt)%CirSize];
@@ -776,15 +894,14 @@ static bool flushInput(rfsimulator_state_t *t, int timeout, int nsamps_for_initi
       if ( b->headerMode==false ) {
         if ( ! b->trashingPacket ) {
           b->lastReceivedTS=b->th.timestamp+b->th.size-byteToSample(b->remainToTransfer,b->th.nbAnt);
-          LOG_D(HW,"UEsock: %d Set b->lastReceivedTS %ld\n", fd, b->lastReceivedTS);
+          LOG_D(HW, "UEsock: %d Set b->lastReceivedTS %ld\n", fd, b->lastReceivedTS);
         }
 
         if ( b->remainToTransfer==0) {
-          LOG_D(HW,"UEsock: %d Completed block reception: %ld\n", fd, b->lastReceivedTS);
+          LOG_D(HW, "UEsock: %d Completed block reception: %ld\n", fd, b->lastReceivedTS);
           b->headerMode=true;
           b->transferPtr=(char *)&b->th;
-          b->remainToTransfer=sizeof(samplesBlockHeader_t);
-          b->th.magic=-1;
+          b->remainToTransfer = sizeof(samplesBlockHeader_t);
           b->trashingPacket=false;
         }
       }
@@ -794,25 +911,23 @@ static bool flushInput(rfsimulator_state_t *t, int timeout, int nsamps_for_initi
   return nfds>0;
 }
 
-static int rfsimulator_read(openair0_device *device, openair0_timestamp *ptimestamp, void **samplesVoid, int nsamps, int nbAnt) {
-  if (nbAnt > 4) {
-    LOG_W(HW, "rfsimulator: only 4 antenna tested\n");
-  }
-
+static int rfsimulator_read(openair0_device *device, openair0_timestamp *ptimestamp, void **samplesVoid, int nsamps, int nbAnt)
+{
   rfsimulator_state_t *t = device->priv;
   LOG_D(HW, "Enter rfsimulator_read, expect %d samples, will release at TS: %ld, nbAnt %d\n", nsamps, t->nextRxTstamp+nsamps, nbAnt);
+
   // deliver data from received data
   // check if a UE is connected
   int first_sock;
 
-  for (first_sock=0; first_sock<FD_SETSIZE; first_sock++)
+  for (first_sock = 0; first_sock < MAX_FD_RFSIMU; first_sock++)
     if (t->buf[first_sock].circularBuf != NULL )
       break;
 
-  if ( first_sock ==  FD_SETSIZE ) {
+  if (first_sock == MAX_FD_RFSIMU) {
     // no connected device (we are eNB, no UE is connected)
     if ( t->nextRxTstamp == 0)
-      LOG_W(HW,"No connected device, generating void samples...\n");
+      LOG_W(HW, "No connected device, generating void samples...\n");
 
     if (!flushInput(t, t->wait_timeout,  nsamps)) {
       for (int x=0; x < nbAnt; x++)
@@ -821,20 +936,20 @@ static int rfsimulator_read(openair0_device *device, openair0_timestamp *ptimest
       t->nextRxTstamp+=nsamps;
 
       if ( ((t->nextRxTstamp/nsamps)%100) == 0)
-        LOG_D(HW,"No UE, Generated void samples for Rx: %ld\n", t->nextRxTstamp);
+        LOG_D(HW, "No UE, Generating void samples for Rx: %ld\n", t->nextRxTstamp);
 
       *ptimestamp = t->nextRxTstamp-nsamps;
       return nsamps;
     }
   } else {
-
     bool have_to_wait;
 
     do {
       have_to_wait=false;
 
-      for ( int sock=0; sock<FD_SETSIZE; sock++) {
-        buffer_t *b=&t->buf[sock];
+      buffer_t *b = NULL;
+      for (int sock = 0; sock < MAX_FD_RFSIMU; sock++) {
+        b = &t->buf[sock];
 
         if ( b->circularBuf )
           if ( t->nextRxTstamp+nsamps > b->lastReceivedTS ) {
@@ -843,12 +958,13 @@ static int rfsimulator_read(openair0_device *device, openair0_timestamp *ptimest
           }
       }
 
-      if (have_to_wait)
-        /*printf("Waiting on socket, current last ts: %ld, expected at least : %ld\n",
-          ptr->lastReceivedTS,
-          t->nextRxTstamp+nsamps);
-        */
-        flushInput(t, 3, nsamps);
+      if (have_to_wait) {
+        LOG_D(HW,
+              "Waiting on socket, current last ts: %ld, expected at least : %ld\n",
+              b->lastReceivedTS,
+              t->nextRxTstamp + nsamps);
+        flushInput(t, 1000, nsamps); // was 3
+      }
     } while (have_to_wait);
   }
 
@@ -857,7 +973,7 @@ static int rfsimulator_read(openair0_device *device, openair0_timestamp *ptimest
     memset(samplesVoid[a],0,sampleToByte(nsamps,1));
 
   // Add all input nodes signal in the output buffer
-  for (int sock=0; sock<FD_SETSIZE; sock++) {
+  for (int sock = 0; sock < MAX_FD_RFSIMU; sock++) {
     buffer_t *ptr=&t->buf[sock];
 
     if ( ptr->circularBuf ) {
@@ -881,22 +997,35 @@ static int rfsimulator_read(openair0_device *device, openair0_timestamp *ptimest
                      CirSize);
         }
         else { // no channel modeling
-          
-          double H_awgn_mimo[4][4] ={{1.0, 0.2, 0.1, 0.05}, //rx 0
-                                      {0.2, 1.0, 0.2, 0.1}, //rx 1
-                                     {0.1, 0.2, 1.0, 0.2}, //rx 2
-                                     {0.05, 0.1, 0.2, 1.0}};//rx 3
-
-          sample_t *out=(sample_t *)samplesVoid[a];
-          int nbAnt_tx = ptr->th.nbAnt;//number of Tx antennas
-
-          //LOG_I(HW, "nbAnt_tx %d\n",nbAnt_tx);
-          for (int i=0; i < nsamps; i++) {//loop over nsamps
-            for (int a_tx=0; a_tx<nbAnt_tx; a_tx++) { //sum up signals from nbAnt_tx antennas
-              out[i].r += (short)(ptr->circularBuf[((t->nextRxTstamp+i)*nbAnt_tx+a_tx)%CirSize].r*H_awgn_mimo[a][a_tx]);
-              out[i].i += (short)(ptr->circularBuf[((t->nextRxTstamp+i)*nbAnt_tx+a_tx)%CirSize].i*H_awgn_mimo[a][a_tx]);
-            } // end for a_tx
-          } // end for i (number of samps)
+          int nbAnt_tx = ptr->th.nbAnt; // number of Tx antennas
+          if ((nbAnt_tx == 1) && ((nb_ue == 1) || (t->role == SIMU_ROLE_CLIENT))) { // optimized for 1 Tx and 1 UE
+            sample_t *out = (sample_t *)samplesVoid[a];
+            int firstIndex = t->nextRxTstamp % CirSize;
+            sample_t *firstSample = (sample_t *)&(ptr->circularBuf[firstIndex]);
+            if (firstIndex + nsamps > CirSize) {
+              int tailSz = CirSize - firstIndex;
+              memcpy(out, firstSample, sampleToByte(tailSz, nbAnt_tx));
+              memcpy(out + tailSz, &ptr->circularBuf[0], sampleToByte(nsamps - tailSz, nbAnt_tx));
+            } else {
+              memcpy(out, firstSample, nsamps * 4);
+            }
+          } else {
+            // SIMD (with simde) optimization might be added here later
+            double H_awgn_mimo[4][4] = {{1.0, 0.2, 0.1, 0.05}, // rx 0
+                                        {0.2, 1.0, 0.2, 0.1}, // rx 1
+                                        {0.1, 0.2, 1.0, 0.2}, // rx 2
+                                        {0.05, 0.1, 0.2, 1.0}}; // rx 3
+
+            sample_t *out = (sample_t *)samplesVoid[a];
+
+            LOG_D(HW, "nbAnt_tx %d\n", nbAnt_tx);
+            for (int i = 0; i < nsamps; i++) { // loop over nsamps
+              for (int a_tx = 0; a_tx < nbAnt_tx; a_tx++) { // sum up signals from nbAnt_tx antennas
+                out[i].r += (short)(ptr->circularBuf[((t->nextRxTstamp + i) * nbAnt_tx + a_tx) % CirSize].r * H_awgn_mimo[a][a_tx]);
+                out[i].i += (short)(ptr->circularBuf[((t->nextRxTstamp + i) * nbAnt_tx + a_tx) % CirSize].i * H_awgn_mimo[a][a_tx]);
+              } // end for a_tx
+            } // end for i (number of samps)
+          } // end of 1 tx antenna optimization
         } // end of no channel modeling
       } // end for a (number of rx antennas)
     }
@@ -904,9 +1033,11 @@ static int rfsimulator_read(openair0_device *device, openair0_timestamp *ptimest
 
   *ptimestamp = t->nextRxTstamp; // return the time of the first sample
   t->nextRxTstamp+=nsamps;
-  LOG_D(HW,"Rx to upper layer: %d from %ld to %ld, energy in first antenna %d\n",
+  LOG_D(HW,
+        "Rx to upper layer: %d from %ld to %ld, energy in first antenna %d\n",
         nsamps,
-        *ptimestamp, t->nextRxTstamp,
+        *ptimestamp,
+        t->nextRxTstamp,
         signal_energy(samplesVoid[0], nsamps));
   return nsamps;
 }
@@ -919,7 +1050,7 @@ static int rfsimulator_reset_stats(openair0_device *device) {
 }
 static void rfsimulator_end(openair0_device *device) {
   rfsimulator_state_t* s = device->priv;
-  for (int i = 0; i < FD_SETSIZE; i++) {
+  for (int i = 0; i < MAX_FD_RFSIMU; i++) {
     buffer_t *b = &s->buf[i];
     if (b->conn_sock >= 0 )
       close(b->conn_sock);
@@ -942,19 +1073,20 @@ __attribute__((__visibility__("default")))
 int device_init(openair0_device *device, openair0_config_t *openair0_cfg) {
   // to change the log level, use this on command line
   // --log_config.hw_log_level debug
-  rfsimulator_state_t *rfsimulator = (rfsimulator_state_t *)calloc(sizeof(rfsimulator_state_t),1);
+  rfsimulator_state_t *rfsimulator = calloc(sizeof(rfsimulator_state_t), 1);
   // initialize channel simulation
   rfsimulator->tx_num_channels=openair0_cfg->tx_num_channels;
   rfsimulator->rx_num_channels=openair0_cfg->rx_num_channels;
   rfsimulator->sample_rate=openair0_cfg->sample_rate;
   rfsimulator->tx_bw=openair0_cfg->tx_bw;  
   rfsimulator_readconfig(rfsimulator);
-  LOG_W(HW, "rfsim: sample_rate %f\n", rfsimulator->sample_rate);
+  LOG_W(HW, "sample_rate %f\n", rfsimulator->sample_rate);
   pthread_mutex_init(&Sockmutex, NULL);
-  LOG_I(HW,"rfsimulator: running as %s\n", rfsimulator-> typeStamp == ENB_MAGICDL ? "server waiting opposite rfsimulators to connect" : "client: will connect to a rfsimulator server side");
-  device->trx_start_func       = rfsimulator->typeStamp == ENB_MAGICDL ?
-                                 startServer :
-                                 startClient;
+  LOG_I(HW,
+        "Running as %s\n",
+        rfsimulator->role == SIMU_ROLE_SERVER ? "server waiting opposite rfsimulators to connect"
+                                              : "client: will connect to a rfsimulator server side");
+  device->trx_start_func = rfsimulator->role == SIMU_ROLE_SERVER ? startServer : startClient;
   device->trx_get_stats_func   = rfsimulator_get_stats;
   device->trx_reset_stats_func = rfsimulator_reset_stats;
   device->trx_end_func         = rfsimulator_end;
@@ -970,11 +1102,10 @@ int device_init(openair0_device *device, openair0_config_t *openair0_cfg) {
   device->priv = rfsimulator;
   device->trx_write_init = rfsimulator_write_init;
 
-  for (int i=0; i<FD_SETSIZE; i++)
+  for (int i = 0; i < MAX_FD_RFSIMU; i++)
     rfsimulator->buf[i].conn_sock=-1;
 
-  AssertFatal((rfsimulator->epollfd = epoll_create1(0)) != -1,"");
-
+  AssertFatal((rfsimulator->epollfd = epoll_create1(0)) != -1, "epoll_create1() failed, errno(%d)", errno);
   // we need to call randominit() for telnet server (use gaussdouble=>uniformrand)
   randominit(0);
   set_taus_seed(0);

radio/rfsimulator/stored_node.c

@@ -184,14 +184,10 @@ int main(int argc, char *argv[]) {
     serviceSock=client_start(argv[2],atoi(argv[3]));
   }
 
-  uint64_t typeStamp=ENB_MAGICDL;
   bool raw = false;
 
   if ( argc == 5 ) {
     raw=true;
-
-    if (strcmp(argv[4],"UL") == 0 )
-      typeStamp=UE_MAGICDL;
   }
 
   samplesBlockHeader_t header;
@@ -211,7 +207,6 @@ int main(int argc, char *argv[]) {
     setblocking(serviceSock, blocking);
 
     if ( raw ) {
-      header.magic=typeStamp;
       header.size=blockSize;
       header.nbAnt=1;
       header.timestamp=timestamp;