Merge branch 'next' into epc_sigpipe

6 years ago · 3d24094829
parent ec0d7b0c7b b460ece601
commit 3d24094829
52 changed files with 1368 additions and 895 deletions
--- a/lib/include/srslte/common/block_queue.h
+++ b/lib/include/srslte/common/block_queue.h
@ -42,6 +42,8 @@
 #include <pthread.h>
 #include <stdio.h>
 #include <stdint.h>
 #include <unistd.h>
 #include <strings.h>
 namespace srslte {
@ -63,32 +65,34 @@ public:
    pthread_cond_init(&cv_full, NULL);
    this->capacity = capacity;
    mutexed_callback = NULL;
    enable = true;
    num_threads = 0;
  }
-  void set_mutexed_itf(call_mutexed_itf *itf) {
+  ~block_queue() {
-    mutexed_callback = itf;
+    // Unlock threads waiting at push or pop
  }
  void resize(int new_capacity) {
    capacity = new_capacity;
  }
  bool push_(const myobj& value, bool block) {
    pthread_mutex_lock(&mutex);
-    if (capacity > 0) {
+    enable = false;
-      if (block) {
+    pthread_cond_signal(&cv_full);
-        while(q.size() > (uint32_t) capacity) {
+    pthread_cond_signal(&cv_empty);
          pthread_cond_wait(&cv_full, &mutex);
        }
      } else {
    pthread_mutex_unlock(&mutex);
-        return false;
+
    // Wait threads blocked in push/pop to exit
    while(num_threads>0) {
      usleep(100);
    }
    // Wait them to exit and destroy cv and mutex
    pthread_mutex_lock(&mutex);
    pthread_cond_destroy(&cv_full);
    pthread_cond_destroy(&cv_empty);
    pthread_mutex_unlock(&mutex);
    pthread_mutex_destroy(&mutex);
  }
-    q.push(value);
+  void set_mutexed_itf(call_mutexed_itf *itf) {
-    if (mutexed_callback) {
+    mutexed_callback = itf;
      mutexed_callback->pushing(value);
  }
-    pthread_cond_signal(&cv_empty);
+  void resize(int new_capacity) {
-    pthread_mutex_unlock(&mutex);
+    capacity = new_capacity;
    return true;
  }
  void push(const myobj& value) {
@ -100,35 +104,13 @@ public:
  }
  bool try_pop(myobj *value) {
-    pthread_mutex_lock(&mutex);
+    return pop_(value, false);
    if (q.empty()) {
      pthread_mutex_unlock(&mutex);
      return false;
    }
    if (value) {
      *value = q.front(); 
      q.pop();
    }
    if (mutexed_callback) {
      mutexed_callback->popping(*value);
    }
    pthread_cond_signal(&cv_full);
    pthread_mutex_unlock(&mutex);
    return true;
  }
  myobj wait_pop() { // blocking pop
-    pthread_mutex_lock(&mutex);
+    myobj value;
-    while(q.empty()) {
+    bzero(&value, sizeof(myobj));
-      pthread_cond_wait(&cv_empty, &mutex);
+    pop_(&value, true);
    }
    myobj value = q.front();
    q.pop();
    if (mutexed_callback) {
      mutexed_callback->popping(value);
    }
    pthread_cond_signal(&cv_full);
    pthread_mutex_unlock(&mutex);
    return value;
  }
@ -153,12 +135,77 @@ public:
  }
 private:
  bool pop_(myobj *value, bool block) {
    if (!enable) {
      return false;
    }
    pthread_mutex_lock(&mutex);
    num_threads++;
    bool ret = false;
    if (q.empty() && !block) {
      goto exit;
    }
    while (q.empty() && enable) {
      pthread_cond_wait(&cv_empty, &mutex);
    }
    if (!enable) {
      goto exit;
    }
    if (value) {
      *value = q.front();
      q.pop();
    }
    ret = true;
    if (mutexed_callback) {
      mutexed_callback->popping(*value);
    }
    pthread_cond_signal(&cv_full);
  exit:
    num_threads--;
    pthread_mutex_unlock(&mutex);
    return ret;
  }
  bool push_(const myobj& value, bool block) {
    if (!enable) {
      return false;
    }
    pthread_mutex_lock(&mutex);
    num_threads++;
    bool ret = false;
    if (capacity > 0) {
      if (block) {
        while(q.size() >= (uint32_t) capacity && enable) {
          pthread_cond_wait(&cv_full, &mutex);
        }
        if (!enable) {
          goto exit;
        }
      } else if (q.size() >= (uint32_t) capacity) {
        goto exit;
      }
    }
    q.push(value);
    ret = true;
    if (mutexed_callback) {
      mutexed_callback->pushing(value);
    }
    pthread_cond_signal(&cv_empty);
  exit:
    num_threads--;
    pthread_mutex_unlock(&mutex);
    return ret;
  }
  std::queue<myobj> q; 
  pthread_mutex_t mutex;
  pthread_cond_t  cv_empty;
  pthread_cond_t  cv_full;
  call_mutexed_itf *mutexed_callback;
  int capacity;
  bool enable;
  uint32_t num_threads;
 };
 }
--- a/lib/include/srslte/common/logger_file.h
+++ b/lib/include/srslte/common/logger_file.h
@ -64,11 +64,9 @@ private:
  int64_t               max_length;
  int64_t               cur_length;
  FILE*                 logfile;
-  bool                  inited;
+  bool                  is_running;
  bool                  not_done;
  std::string           filename;
  pthread_cond_t        not_empty;
  pthread_cond_t        not_full;
  pthread_mutex_t       mutex;
  pthread_t             thread;
  std::deque<str_ptr> buffer;
--- a/lib/include/srslte/interfaces/enb_interfaces.h
+++ b/lib/include/srslte/interfaces/enb_interfaces.h
@ -173,7 +173,6 @@ public:
 class rlc_interface_rrc
 {
 public:
  virtual void reset(uint16_t rnti) = 0;
  virtual void clear_buffer(uint16_t rnti) = 0;
  virtual void add_user(uint16_t rnti) = 0; 
  virtual void rem_user(uint16_t rnti) = 0; 
--- a/lib/include/srslte/upper/gtpu.h
+++ b/lib/include/srslte/upper/gtpu.h
@ -29,6 +29,7 @@
 #include <stdint.h>
 #include "srslte/common/common.h"
 #include "srslte/common/log.h"
 namespace srslte {
@ -58,8 +59,8 @@ typedef struct{
 }gtpu_header_t;
-bool gtpu_read_header(srslte::byte_buffer_t *pdu, gtpu_header_t *header);
+bool gtpu_read_header(srslte::byte_buffer_t *pdu, gtpu_header_t *header, srslte::log *gtpu_log);
-bool gtpu_write_header(gtpu_header_t *header, srslte::byte_buffer_t *pdu);
+bool gtpu_write_header(gtpu_header_t *header, srslte::byte_buffer_t *pdu, srslte::log *gtpu_log);
 inline void uint8_to_uint32(uint8_t *buf, uint32_t *i)
 {
--- a/lib/include/srslte/upper/rlc.h
+++ b/lib/include/srslte/upper/rlc.h
@ -56,13 +56,15 @@ public:
            srsue::ue_interface       *ue_,
            log                       *rlc_log_,
            mac_interface_timers      *mac_timers_,
-            uint32_t                   lcid_);
+            uint32_t                   lcid_,
            int                        buffer_size = -1); // -1 to use default buffer sizes
  void stop();
  void get_metrics(rlc_metrics_t &m);
  // PDCP interface
  void write_sdu(uint32_t lcid, byte_buffer_t *sdu);
  void write_sdu_nb(uint32_t lcid, byte_buffer_t *sdu);
  void write_sdu_mch(uint32_t lcid, byte_buffer_t *sdu);
  bool rb_is_um(uint32_t lcid);
@ -99,6 +101,7 @@ private:
  srslte::rlc_entity           rlc_array[SRSLTE_N_RADIO_BEARERS];
  srslte::rlc_um               rlc_array_mrb[SRSLTE_N_MCH_LCIDS];
  uint32_t                     default_lcid;
  int                          buffer_size;
  long                ul_tput_bytes[SRSLTE_N_RADIO_BEARERS];
  long                dl_tput_bytes[SRSLTE_N_RADIO_BEARERS];
--- a/lib/include/srslte/upper/rlc_am.h
+++ b/lib/include/srslte/upper/rlc_am.h
@ -70,7 +70,7 @@ class rlc_am
    :public rlc_common
 {
 public:
-  rlc_am();
+  rlc_am(uint32_t queue_len = 16);
  ~rlc_am();
  void init(log          *rlc_entity_log_,
            uint32_t              lcid_,
@ -78,9 +78,9 @@ public:
            srsue::rrc_interface_rlc    *rrc_,
            mac_interface_timers *mac_timers);
  void configure(srslte_rlc_config_t cnfg);
  void reset();
  void reestablish();
  void stop();
  void empty_queue(); 
  rlc_mode_t    get_mode();
@ -88,6 +88,7 @@ public:
  // PDCP interface
  void write_sdu(byte_buffer_t *sdu);
  void write_sdu_nb(byte_buffer_t *sdu);
  // MAC interface
  uint32_t get_buffer_state();
@ -122,6 +123,7 @@ private:
  // Mutexes
  pthread_mutex_t     mutex;
  bool                tx_enabled;
  bool                poll_received;
  bool                do_status;
  rlc_status_pdu_t    status;
--- a/lib/include/srslte/upper/rlc_common.h
+++ b/lib/include/srslte/upper/rlc_common.h
@ -151,13 +151,17 @@ struct rlc_status_pdu_t{
 class rlc_common
 {
 public:
  // Size of the Uplink buffer in number of PDUs
  const static int RLC_BUFFER_NOF_PDU = 128;
  virtual ~rlc_common() {}
  virtual void init(srslte::log                       *rlc_entity_log_,
                    uint32_t                           lcid_,
                    srsue::pdcp_interface_rlc         *pdcp_,
                    srsue::rrc_interface_rlc          *rrc_,
                    srslte::mac_interface_timers      *mac_timers_) = 0;
  virtual void configure(srslte_rlc_config_t cnfg) = 0;
  virtual void reset() = 0;
  virtual void stop() = 0;
  virtual void empty_queue() = 0; 
@ -166,6 +170,7 @@ public:
  // PDCP interface
  virtual void write_sdu(byte_buffer_t *sdu) = 0;
  virtual void write_sdu_nb(byte_buffer_t *sdu) = 0;
  // MAC interface
  virtual uint32_t get_buffer_state() = 0;
--- a/lib/include/srslte/upper/rlc_entity.h
+++ b/lib/include/srslte/upper/rlc_entity.h
@ -52,10 +52,10 @@ public:
            uint32_t                    lcid_,
            srsue::pdcp_interface_rlc  *pdcp_,
            srsue::rrc_interface_rlc   *rrc_,
-            mac_interface_timers       *mac_timers_);
+            mac_interface_timers       *mac_timers_,
            int                         buffer_size = -1); // use -1 for default buffer sizes
  void configure(srslte_rlc_config_t cnfg);
  void reset();
  void reestablish();
  void stop();
  void empty_queue();
@ -66,6 +66,7 @@ public:
  // PDCP interface
  void write_sdu(byte_buffer_t *sdu);
  void write_sdu_nb(byte_buffer_t *sdu);
  // MAC interface
  uint32_t get_buffer_state();
@ -75,10 +76,8 @@ public:
 private:
-  rlc_tm tm;
+  rlc_mode_t mode;
-  rlc_um um;
+  uint32_t   lcid;
  rlc_am am;
  rlc_common *rlc;
 };
--- a/lib/include/srslte/upper/rlc_tm.h
+++ b/lib/include/srslte/upper/rlc_tm.h
@ -40,14 +40,14 @@ class rlc_tm
    :public rlc_common
 {
 public:
-  rlc_tm();
+  rlc_tm(uint32_t queue_len = 16);
  ~rlc_tm();
  void init(log                       *rlc_entity_log_,
            uint32_t                   lcid_,
            srsue::pdcp_interface_rlc *pdcp_,
            srsue::rrc_interface_rlc  *rrc_,
            mac_interface_timers      *mac_timers);
  void configure(srslte_rlc_config_t cnfg);
  void reset();
  void stop();
  void empty_queue(); 
@ -56,6 +56,7 @@ public:
  // PDCP interface
  void write_sdu(byte_buffer_t *sdu);
  void write_sdu_nb(byte_buffer_t *sdu);
  // MAC interface
  uint32_t get_buffer_state();
@ -71,6 +72,8 @@ private:
  srsue::pdcp_interface_rlc *pdcp;
  srsue::rrc_interface_rlc  *rrc;
  bool tx_enabled;
  // Thread-safe queues for MAC messages
  rlc_tx_queue    ul_queue;
 };
--- a/lib/include/srslte/upper/rlc_tx_queue.h
+++ b/lib/include/srslte/upper/rlc_tx_queue.h
@ -44,7 +44,7 @@ namespace srslte {
 class rlc_tx_queue : public block_queue<byte_buffer_t*>::call_mutexed_itf
 {
 public:
-  rlc_tx_queue(uint32_t capacity = 128) : queue((int) capacity) {
+  rlc_tx_queue(int capacity = 128) : queue(capacity) {
    unread_bytes = 0;
    queue.set_mutexed_itf(this);
  }
@ -64,6 +64,11 @@ public:
    queue.push(msg);
  }
  bool try_write(byte_buffer_t *msg)
  {
    return queue.try_push(msg);
  }
  void read(byte_buffer_t **msg)
  {
    byte_buffer_t *m = queue.wait_pop();
--- a/lib/include/srslte/upper/rlc_um.h
+++ b/lib/include/srslte/upper/rlc_um.h
@ -49,8 +49,7 @@ class rlc_um
    ,public rlc_common
 {
 public:
-  rlc_um();
+  rlc_um(uint32_t queue_len = 32);
  ~rlc_um();
  void init(log                       *rlc_entity_log_,
            uint32_t                   lcid_,
@ -58,7 +57,6 @@ public:
            srsue::rrc_interface_rlc  *rrc_,
            mac_interface_timers      *mac_timers_);
  void configure(srslte_rlc_config_t cnfg);
  void reset();
  void stop();
  void empty_queue(); 
  bool is_mrb();
@ -68,6 +66,7 @@ public:
  // PDCP interface
  void write_sdu(byte_buffer_t *sdu);
  void write_sdu_nb(byte_buffer_t *sdu);
  // MAC interface
  uint32_t get_buffer_state();
@ -131,6 +130,7 @@ private:
  srslte::timers::timer *reordering_timer;
  uint32_t               reordering_timer_id;
  bool     tx_enabled;
  bool     pdu_lost;
  int  build_data_pdu(uint8_t *payload, uint32_t nof_bytes);
--- a/lib/src/common/logger_file.cc
+++ b/lib/src/common/logger_file.cc
@ -34,38 +34,41 @@ using namespace std;
 namespace srslte{
 logger_file::logger_file()
-  :inited(false)
+  :logfile(NULL)
-  ,logfile(NULL)
+  ,is_running(false)
  ,not_done(true)
  ,cur_length(0)
  ,max_length(0)
 {}
 logger_file::~logger_file() {
-  not_done = false;
+  if(is_running) {
  if(inited) {
    log(new std::string("Closing log\n"));
    pthread_mutex_lock(&mutex);
    is_running = false;
    pthread_cond_signal(&not_empty);  // wakeup thread and let it terminate
    pthread_mutex_unlock(&mutex);
    wait_thread_finish();
    flush();
    if (logfile) {
      fclose(logfile);
    }
    pthread_mutex_destroy(&mutex);
    pthread_cond_destroy(&not_empty);
  }
 }
 void logger_file::init(std::string file, int max_length_) {
  pthread_mutex_init(&mutex, NULL); 
  pthread_cond_init(&not_empty, NULL);
  pthread_cond_init(&not_full, NULL);
  max_length = (int64_t)max_length_*1024;
  name_idx = 0;
  filename = file;
  logfile = fopen(filename.c_str(), "w");
-  if(logfile==NULL) {
+  if(logfile == NULL) {
    printf("Error: could not create log file, no messages will be logged!\n");
  }
  is_running = true;
  start(-2);
  inited = true;
 }
 void logger_file::log(const char *msg) {
@ -80,13 +83,13 @@ void logger_file::log(str_ptr msg) {
 }
 void logger_file::run_thread() {
-  while(not_done) {
+  while(is_running) {
    pthread_mutex_lock(&mutex);
    while(buffer.empty()) {
      pthread_cond_wait(&not_empty, &mutex);
      if(!is_running) return; // Thread done. Messages in buffer will be handled in flush.
    }
    str_ptr s = buffer.front();
    pthread_cond_signal(&not_full);
    int n = 0;
    if(logfile)
      n = fprintf(logfile, "%s", s->c_str());
--- a/lib/src/phy/rf/rf_soapy_imp.c
+++ b/lib/src/phy/rf/rf_soapy_imp.c
@ -40,6 +40,8 @@
 #include <SoapySDR/Logger.h>
 #include <Types.h>
 #define HAVE_ASYNC_THREAD 1
 #define USE_TX_MTU 0
 #define SET_RF_BW 1
@ -62,6 +64,11 @@ typedef struct {
  double tx_rate;
  size_t rx_mtu, tx_mtu;
  srslte_rf_error_handler_t soapy_error_handler;
  bool async_thread_running;
  pthread_t async_thread;
  uint32_t num_time_errors;
  uint32_t num_lates;
  uint32_t num_overflows;
@ -74,6 +81,76 @@ typedef struct {
 cf_t zero_mem[64*1024];
 static void log_overflow(rf_soapy_handler_t *h) {
  if (h->soapy_error_handler) {
    srslte_rf_error_t error;
    bzero(&error, sizeof(srslte_rf_error_t));
    error.type = SRSLTE_RF_ERROR_OVERFLOW;
    h->soapy_error_handler(error);
  } else {
    h->num_overflows++;
  }
 }
 static void log_late(rf_soapy_handler_t *h, bool is_rx) {
  if (h->soapy_error_handler) {
    srslte_rf_error_t error;
    bzero(&error, sizeof(srslte_rf_error_t));
    error.opt = is_rx?1:0;
    error.type = SRSLTE_RF_ERROR_LATE;
    h->soapy_error_handler(error);
  } else {
    h->num_lates++;
  }
 }
 static void log_underflow(rf_soapy_handler_t *h) {
  if (h->soapy_error_handler) {
    srslte_rf_error_t error;
    bzero(&error, sizeof(srslte_rf_error_t));
    error.type = SRSLTE_RF_ERROR_UNDERFLOW;
    h->soapy_error_handler(error);
  } else {
    h->num_underflows++;
  }
 }
 #if HAVE_ASYNC_THREAD
 static void* async_thread(void *h) {
  rf_soapy_handler_t *handler = (rf_soapy_handler_t*) h;
  while(handler->async_thread_running) {
    int ret = 0;
    size_t chanMask = 0;
    int flags = 0;
    const long timeoutUs = 400000; // arbitrarily chosen
    long long timeNs;
    ret = SoapySDRDevice_readStreamStatus(handler->device, handler->txStream, &chanMask, &flags, &timeNs, timeoutUs);
    if (ret == SOAPY_SDR_TIME_ERROR) {
      // this is a late
      log_late(handler, false);
    } else if (ret == SOAPY_SDR_UNDERFLOW) {
      log_underflow(handler);
    } else if (ret == SOAPY_SDR_OVERFLOW) {
      log_overflow(handler);
    } else if (ret == SOAPY_SDR_TIMEOUT) {
      // this is a timeout of the readStreamStatus call, ignoring it ..
    } else if (ret == SOAPY_SDR_NOT_SUPPORTED) {
      // stopping async thread
      fprintf(stderr, "Receiving async metadata not supported by device. Exiting thread.\n");
      handler->async_thread_running = false;
    } else {
      fprintf(stderr, "Error while receiving aync metadata: %s (%d), flags=%d, channel=%zu, timeNs=%lld\n", SoapySDR_errToStr(ret), ret, flags, chanMask, timeNs);
      handler->async_thread_running = false;
    }
  }
  return NULL;
 }
 #endif
 int soapy_error(void *h)
 {
  return 0;
@ -104,9 +181,10 @@ void rf_soapy_suppress_stdout(void *h)
 }
-void rf_soapy_register_error_handler(void *notused, srslte_rf_error_handler_t new_handler)
+void rf_soapy_register_error_handler(void *h, srslte_rf_error_handler_t new_handler)
 {
-  // not supported
+  rf_soapy_handler_t *handler = (rf_soapy_handler_t*) h;
  handler->soapy_error_handler = new_handler;
 }
@ -359,6 +437,14 @@ int rf_soapy_open_multi(char *args, void **h, uint32_t nof_rx_antennas)
    }
  }
 #if HAVE_ASYNC_THREAD
  bool start_async_thread = true;
  if (strstr(args, "silent")) {
    REMOVE_SUBSTRING_WITHCOMAS(args, "silent");
    start_async_thread = false;
  }
 #endif
  // receive one subframe to allow for transceiver calibration
  if (strstr(devname, "lime")) {
    // set default tx gain and leave some time to calibrate tx
@ -396,6 +482,17 @@ int rf_soapy_open_multi(char *args, void **h, uint32_t nof_rx_antennas)
  ant = SoapySDRDevice_getAntenna(handler->device, SOAPY_SDR_TX, 0);
  printf("Tx antenna set to %s\n", ant);
 #if HAVE_ASYNC_THREAD
  if (start_async_thread) {
    // Start low priority thread to receive async commands
    handler->async_thread_running = true;
    if (pthread_create(&handler->async_thread, NULL, async_thread, handler)) {
      perror("pthread_create");
      return -1;
    }
  }
 #endif
  return SRSLTE_SUCCESS;
 }
@ -409,6 +506,14 @@ int rf_soapy_open(char *args, void **h)
 int rf_soapy_close(void *h)
 {
  rf_soapy_handler_t *handler = (rf_soapy_handler_t*) h;
 #if HAVE_ASYNC_THREAD
  if (handler->async_thread_running) {
    handler->async_thread_running = false;
    pthread_join(handler->async_thread, NULL);
  }
 #endif
  if (handler->tx_stream_active) {
    rf_soapy_stop_tx_stream(handler);
    SoapySDRDevice_closeStream(handler->device, handler->txStream);
@ -647,15 +752,11 @@ int  rf_soapy_recv_with_time_multi(void *h,
    ret = SoapySDRDevice_readStream(handler->device, handler->rxStream, buffs_ptr, rx_samples, &flags, &timeNs, timeoutUs);
    if (ret == SOAPY_SDR_OVERFLOW || (ret > 0 && (flags & SOAPY_SDR_END_ABRUPT) != 0)) {
-      handler->num_overflows++;
+      log_overflow(handler);
      fprintf(stderr, "O");
      fflush(stderr);
      continue;
    } else
    if (ret == SOAPY_SDR_TIMEOUT) {
-      handler->num_time_errors++;
+      log_late(handler, true);
      fprintf(stderr, "T");
      fflush(stderr);
      continue;
    } else
    if (ret < 0) {
@ -792,7 +893,7 @@ int rf_soapy_send_timed_multi(void *h,
      // An error has occured
      switch (ret) {
        case SOAPY_SDR_TIMEOUT:
-          handler->num_lates++;
+          log_late(handler, false);
          printf("L");
          break;
        case SOAPY_SDR_STREAM_ERROR:
@ -804,7 +905,7 @@ int rf_soapy_send_timed_multi(void *h,
          printf("T");
          break;
        case SOAPY_SDR_UNDERFLOW:
-          handler->num_underflows++;
+          log_underflow(handler);
          printf("U");
          break;
        default:
--- a/lib/src/radio/test/benchmark_radio.cc
+++ b/lib/src/radio/test/benchmark_radio.cc
@ -25,6 +25,7 @@
 */
 #include <unistd.h>
 #include <signal.h>
 #include "srslte/srslte.h"
 #include "srslte/radio/radio_multi.h"
@ -39,6 +40,11 @@ double duration = 0.01; /* in seconds, 10 ms by default */
 cf_t *buffers[SRSLTE_MAX_PORTS];
 bool tx_enable = false;
 uint32_t num_lates = 0;
 uint32_t num_overflows = 0;
 uint32_t num_underflows = 0;
 uint32_t num_other_error = 0;
 void usage(char *prog) {
  printf("Usage: %s [rpstvh]\n", prog);
@ -85,18 +91,54 @@ void parse_args(int argc, char **argv) {
  }
 }
 bool go_exit = false;
 void sig_int_handler(int signo)
 {
  printf("SIGINT received. Exiting...\n");
  if (signo == SIGINT) {
    go_exit = true;
  } else if (signo == SIGSEGV) {
    exit(1);
  }
 }
 void rf_msg(srslte_rf_error_t error)
 {
  if (error.type == srslte_rf_error_t::SRSLTE_RF_ERROR_OVERFLOW) {
    num_overflows++;
  } else
  if (error.type == srslte_rf_error_t::SRSLTE_RF_ERROR_UNDERFLOW) {
    num_underflows++;
  } else
  if (error.type == srslte_rf_error_t::SRSLTE_RF_ERROR_LATE) {
    num_lates++;
  } else {
    num_other_error++;
  }
 }
 void print_rf_summary(void)
 {
  printf("#lates=%d\n", num_lates);
  printf("#overflows=%d\n", num_overflows);
  printf("#underflows=%d\n", num_underflows);
  printf("#num_other_error=%d\n", num_other_error);
 }
 int main(int argc, char **argv)
 {
  int ret = SRSLTE_ERROR;
  srslte::radio_multi *radio_h = NULL;
  srslte_timestamp_t ts_rx = {}, ts_tx = {};
  signal(SIGINT, sig_int_handler);
  /* Parse args */
  parse_args(argc, argv);
  uint32_t nof_samples = (uint32_t) (duration * srate);
  uint32_t frame_size = (uint32_t) (srate / 1000.0); /* 1 ms at srate */
-  uint32_t nof_frames = (uint32_t) ceil(nof_samples / frame_size);
+  uint32_t nof_frames = duration * 1e3;
  radio_h = new radio_multi();
  if (!radio_h) {
@ -123,6 +165,8 @@ int main(int argc, char **argv)
    goto clean_exit;
  }
  radio_h->register_error_handler(rf_msg);
  radio_h->set_rx_freq(freq);
  /* Set radio */
@ -155,6 +199,8 @@ int main(int argc, char **argv)
    }
    nof_samples -= frame_size;
    if (go_exit) break;
  }
  printf("Finished streaming ...\n");
@ -178,5 +224,7 @@ clean_exit:
    printf("Ok!\n");
  }
  print_rf_summary();
  return ret;
 }
--- a/lib/src/upper/gtpu.cc
+++ b/lib/src/upper/gtpu.cc
@ -35,18 +35,18 @@ namespace srslte {
 * Ref: 3GPP TS 29.281 v10.1.0 Section 5
 ***************************************************************************/
-bool gtpu_write_header(gtpu_header_t *header, srslte::byte_buffer_t *pdu)
+bool gtpu_write_header(gtpu_header_t *header, srslte::byte_buffer_t *pdu, srslte::log *gtpu_log)
 {
  if(header->flags != 0x30) {
-    //gtpu_log->error("gtpu_write_header - Unhandled header flags: 0x%x\n", header->flags);
+    gtpu_log->error("gtpu_write_header - Unhandled header flags: 0x%x\n", header->flags);
    return false;
  }
  if(header->message_type != 0xFF) {
-    //gtpu_log->error("gtpu_write_header - Unhandled message type: 0x%x\n", header->message_type);
+    gtpu_log->error("gtpu_write_header - Unhandled message type: 0x%x\n", header->message_type);
    return false;
  }
  if(pdu->get_headroom() < GTPU_HEADER_LEN) {
-    //gtpu_log->error("gtpu_write_header - No room in PDU for header\n");
+    gtpu_log->error("gtpu_write_header - No room in PDU for header\n");
    return false;
  }
@ -66,7 +66,7 @@ bool gtpu_write_header(gtpu_header_t *header, srslte::byte_buffer_t *pdu)
  return true;
 }
-bool gtpu_read_header(srslte::byte_buffer_t *pdu, gtpu_header_t *header)
+bool gtpu_read_header(srslte::byte_buffer_t *pdu, gtpu_header_t *header, srslte::log *gtpu_log)
 {
  uint8_t *ptr  = pdu->msg;
@ -82,11 +82,11 @@ bool gtpu_read_header(srslte::byte_buffer_t *pdu, gtpu_header_t *header)
  uint8_to_uint32(ptr, &header->teid);
  if(header->flags != 0x30) {
-    //gtpu_log->error("gtpu_read_header - Unhandled header flags: 0x%x\n", header->flags);
+    gtpu_log->error("gtpu_read_header - Unhandled header flags: 0x%x\n", header->flags);
    return false;
  }
  if(header->message_type != 0xFF) {
-    //gtpu_log->error("gtpu_read_header - Unhandled message type: 0x%x\n", header->message_type);
+    gtpu_log->error("gtpu_read_header - Unhandled message type: 0x%x\n", header->message_type);
    return false;
  }
--- a/lib/src/upper/rlc.cc
+++ b/lib/src/upper/rlc.cc
@ -51,7 +51,8 @@ void rlc::init(srsue::pdcp_interface_rlc *pdcp_,
               srsue::ue_interface       *ue_,
               log                       *rlc_log_, 
               mac_interface_timers      *mac_timers_,
-               uint32_t                  lcid_)
+               uint32_t                  lcid_,
               int                       buffer_size_)
 {
  pdcp    = pdcp_;
  rrc     = rrc_;
@ -59,11 +60,12 @@ void rlc::init(srsue::pdcp_interface_rlc *pdcp_,
  rlc_log = rlc_log_;
  mac_timers = mac_timers_;
  default_lcid = lcid_;
  buffer_size  = buffer_size_;
  gettimeofday(&metrics_time[1], NULL);
  reset_metrics(); 
-  rlc_array[0].init(RLC_MODE_TM, rlc_log, default_lcid, pdcp, rrc, mac_timers); // SRB0
+  rlc_array[0].init(RLC_MODE_TM, rlc_log, default_lcid, pdcp, rrc, mac_timers, buffer_size); // SRB0
 }
 void rlc::reset_metrics() 
@ -75,9 +77,10 @@ void rlc::reset_metrics()
 void rlc::stop()
 {
  for(uint32_t i=0; i<SRSLTE_N_RADIO_BEARERS; i++) {
-    if(rlc_array[i].active())
+    if(rlc_array[i].active()) {
      rlc_array[i].stop();
    }
  }
 }
 void rlc::get_metrics(rlc_metrics_t &m)
@ -114,6 +117,7 @@ void rlc::get_metrics(rlc_metrics_t &m)
  reset_metrics();
 }
 // A call to reestablish stops all lcids but does not delete the instances. The mapping lcid to rlc mode can not change
 void rlc::reestablish() {
  for(uint32_t i=0; i<SRSLTE_N_RADIO_BEARERS; i++) {
    if(rlc_array[i].active()) {
@ -122,14 +126,16 @@ void rlc::reestablish() {
  }
 }
 // Resetting the RLC layer returns the object to the state after the call to init(): All lcids are stopped and
 // defaul lcid=0 is created
 void rlc::reset()
 {
  for(uint32_t i=0; i<SRSLTE_N_RADIO_BEARERS; i++) {
    if(rlc_array[i].active())
-      rlc_array[i].reset();
+      rlc_array[i].stop();
  }
-  rlc_array[0].init(RLC_MODE_TM, rlc_log, default_lcid, pdcp, rrc, mac_timers); // SRB0
+  rlc_array[0].init(RLC_MODE_TM, rlc_log, default_lcid, pdcp, rrc, mac_timers, buffer_size); // SRB0
 }
 void rlc::empty_queue()
@ -149,6 +155,12 @@ void rlc::write_sdu(uint32_t lcid, byte_buffer_t *sdu)
    rlc_array[lcid].write_sdu(sdu);
  }
 }
 void rlc::write_sdu_nb(uint32_t lcid, byte_buffer_t *sdu)
 {
  if(valid_lcid(lcid)) {
    rlc_array[lcid].write_sdu_nb(sdu);
  }
 }
 void rlc::write_sdu_mch(uint32_t lcid, byte_buffer_t *sdu)
 {
  if(valid_lcid_mrb(lcid)) {
@ -307,16 +319,16 @@ void rlc::add_bearer(uint32_t lcid, srslte_rlc_config_t cnfg)
    switch(cnfg.rlc_mode)
    {
    case LIBLTE_RRC_RLC_MODE_AM:
-      rlc_array[lcid].init(RLC_MODE_AM, rlc_log, lcid, pdcp, rrc, mac_timers);
+      rlc_array[lcid].init(RLC_MODE_AM, rlc_log, lcid, pdcp, rrc, mac_timers, buffer_size);
      break;
    case LIBLTE_RRC_RLC_MODE_UM_BI:
-      rlc_array[lcid].init(RLC_MODE_UM, rlc_log, lcid, pdcp, rrc, mac_timers);
+      rlc_array[lcid].init(RLC_MODE_UM, rlc_log, lcid, pdcp, rrc, mac_timers, buffer_size);
      break;
    case LIBLTE_RRC_RLC_MODE_UM_UNI_DL:
-      rlc_array[lcid].init(RLC_MODE_UM, rlc_log, lcid, pdcp, rrc, mac_timers);
+      rlc_array[lcid].init(RLC_MODE_UM, rlc_log, lcid, pdcp, rrc, mac_timers, buffer_size);
      break;
    case LIBLTE_RRC_RLC_MODE_UM_UNI_UL:
-      rlc_array[lcid].init(RLC_MODE_UM, rlc_log, lcid, pdcp, rrc, mac_timers);
+      rlc_array[lcid].init(RLC_MODE_UM, rlc_log, lcid, pdcp, rrc, mac_timers, buffer_size);
      break;
    default:
      rlc_log->error("Cannot add RLC entity - invalid mode\n");
--- a/lib/src/upper/rlc_am.cc
+++ b/lib/src/upper/rlc_am.cc
@ -36,7 +36,7 @@
 namespace srslte {
-rlc_am::rlc_am() : tx_sdu_queue(16)
+rlc_am::rlc_am(uint32_t queue_len) : tx_sdu_queue(queue_len)
 {
  log = NULL;
  pdcp = NULL;
@ -68,19 +68,13 @@ rlc_am::rlc_am() : tx_sdu_queue(16)
  do_status     = false;
 }
 // Warning: must call stop() to properly deallocate all buffers
 rlc_am::~rlc_am()
 {
-  // reset RLC and dealloc SDUs
+  pthread_mutex_destroy(&mutex);
-  stop();
+  pool = NULL;
  if(rx_sdu) {
    pool->deallocate(rx_sdu);
  }
  if(tx_sdu) {
    pool->deallocate(tx_sdu);
  }
 }
 void rlc_am::init(srslte::log                  *log_,
                  uint32_t                      lcid_,
                  srsue::pdcp_interface_rlc    *pdcp_,
@ -91,6 +85,7 @@ void rlc_am::init(srslte::log                  *log_,
  lcid = lcid_;
  pdcp = pdcp_;
  rrc  = rrc_;
  tx_enabled = true;
 }
 void rlc_am::configure(srslte_rlc_config_t cfg_)
@ -106,21 +101,16 @@ void rlc_am::configure(srslte_rlc_config_t cfg_)
 void rlc_am::empty_queue() {
  // Drop all messages in TX SDU queue
  byte_buffer_t *buf;
-  while(tx_sdu_queue.size() > 0) {
+  while(tx_sdu_queue.try_read(&buf)) {
    tx_sdu_queue.read(&buf);
    pool->deallocate(buf);
  }
 }
 void rlc_am::stop()
 {
  reset();
  pthread_mutex_destroy(&mutex);
 }
 void rlc_am::reset()
 {
  // Empty tx_sdu_queue before locking the mutex
  tx_enabled = false;
  usleep(100);
  empty_queue();
  pthread_mutex_lock(&mutex);
@ -198,8 +188,34 @@ uint32_t rlc_am::get_bearer()
 void rlc_am::write_sdu(byte_buffer_t *sdu)
 {
  if (!tx_enabled) {
    byte_buffer_pool::get_instance()->deallocate(sdu);
    return;
  }
  if (sdu) {
    tx_sdu_queue.write(sdu);
    log->info_hex(sdu->msg, sdu->N_bytes, "%s Tx SDU (%d B, tx_sdu_queue_len=%d)", rrc->get_rb_name(lcid).c_str(), sdu->N_bytes, tx_sdu_queue.size());
  } else {
    log->warning("NULL SDU pointer in write_sdu()\n");
  }
 }
 void rlc_am::write_sdu_nb(byte_buffer_t *sdu)
 {
  if (!tx_enabled) {
    byte_buffer_pool::get_instance()->deallocate(sdu);
    return;
  }
  if (sdu) {
    if (tx_sdu_queue.try_write(sdu)) {
      log->info_hex(sdu->msg, sdu->N_bytes, "%s Tx SDU (%d B, tx_sdu_queue_len=%d)", rrc->get_rb_name(lcid).c_str(), sdu->N_bytes, tx_sdu_queue.size());
    } else {
      log->info_hex(sdu->msg, sdu->N_bytes, "[Dropped SDU] %s Tx SDU (%d B, tx_sdu_queue_len=%d)", rrc->get_rb_name(lcid).c_str(), sdu->N_bytes, tx_sdu_queue.size());
      pool->deallocate(sdu);
    }
  } else {
    log->warning("NULL SDU pointer in write_sdu()\n");
  }
 }
 /****************************************************************************
@ -1111,7 +1127,7 @@ void rlc_am::handle_control_pdu(uint8_t *payload, uint32_t nof_bytes)
              // sanity check
              if (status.nacks[j].so_start >= it->second.buf->N_bytes) {
                // print error but try to send original PDU again
-                log->error("SO_start is larger than original PDU (%d >= %d)\n",
+                log->info("SO_start is larger than original PDU (%d >= %d)\n",
                           status.nacks[j].so_start,
                           it->second.buf->N_bytes);
                status.nacks[j].so_start = 0;
@ -1193,7 +1209,7 @@ void rlc_am::reassemble_rx_sdus()
      }
      if (rx_sdu->get_tailroom() >= len) {
-        if (rx_window[vr_r].buf->get_tailroom() >= len) {
+        if ((rx_window[vr_r].buf->msg - rx_window[vr_r].buf->buffer) + len < SRSLTE_MAX_BUFFER_SIZE_BYTES) {
          memcpy(&rx_sdu->msg[rx_sdu->N_bytes], rx_window[vr_r].buf->msg, len);
          rx_sdu->N_bytes += len;
          rx_window[vr_r].buf->msg += len;
@ -1213,7 +1229,7 @@ void rlc_am::reassemble_rx_sdus()
 #endif
          }
        } else {
-          log->error("Cannot read %d bytes from rx_window. vr_r=%d, tailroom=%d bytes\n", len, rx_window[vr_r].buf->get_tailroom());
+          log->error("Cannot read %d bytes from rx_window. vr_r=%d, msg-buffer=%d bytes\n", len, vr_r, (rx_window[vr_r].buf->msg - rx_window[vr_r].buf->buffer));
          pool->deallocate(rx_sdu);
          goto exit;
        }
@ -1289,7 +1305,6 @@ void rlc_am::debug_state()
             "vr_r = %d, vr_mr = %d, vr_x = %d, vr_ms = %d, vr_h = %d\n",
             rrc->get_rb_name(lcid).c_str(), vt_a, vt_ms, vt_s, poll_sn,
             vr_r, vr_mr, vr_x, vr_ms, vr_h);
 }
 void rlc_am::print_rx_segments()
--- a/lib/src/upper/rlc_entity.cc
+++ b/lib/src/upper/rlc_entity.cc
@ -33,34 +33,49 @@ rlc_entity::rlc_entity()
 {
 }
-void rlc_entity::init(rlc_mode_t                   mode,
+void rlc_entity::init(rlc_mode_t                   mode_,
                      log                         *rlc_entity_log_,
                      uint32_t                     lcid_,
                      srsue::pdcp_interface_rlc   *pdcp_,
                      srsue::rrc_interface_rlc    *rrc_,
-                      mac_interface_timers        *mac_timers_)
+                      mac_interface_timers        *mac_timers_,
                      int                          buffer_size)
 {
  tm.reset();
  um.reset();
  am.reset();
-  switch(mode)
+  if (buffer_size <= 0) {
    buffer_size = rlc_common::RLC_BUFFER_NOF_PDU;
  }
  // Create the RLC instance the first time init() is called.
  // If called to reestablished, the entity is stopped but not destroyed
  // Next call to init() must use same mode
  if (rlc == NULL) {
    switch(mode_)
    {
      case RLC_MODE_TM:
-    rlc = &tm;
+        rlc = new rlc_tm((uint32_t) buffer_size);
        break;
      case RLC_MODE_UM:
-    rlc = &um;
+        rlc = new rlc_um((uint32_t) buffer_size);
        break;
      case RLC_MODE_AM:
-    rlc = &am;
+        rlc = new rlc_am((uint32_t) buffer_size);
        break;
      default:
        rlc_entity_log_->error("Invalid RLC mode - defaulting to TM\n");
-    rlc = &tm;
+        rlc = new rlc_tm((uint32_t) buffer_size);
        break;
    }
-
+    lcid = lcid_;
    mode = mode_;
  } else {
    if (lcid != lcid_) {
      rlc_entity_log_->warning("Reestablishing RLC instance. LCID changed from %d to %d\n", lcid, lcid_);
      lcid = lcid_;
    }
    if (mode != mode_) {
      rlc_entity_log_->console("Error reestablishing RLC instance. Mode changed from %d to %d. \n", mode, mode_);
    }
  }
  rlc->init(rlc_entity_log_, lcid_, pdcp_, rrc_, mac_timers_);
 }
@ -70,19 +85,16 @@ void rlc_entity::configure(srslte_rlc_config_t cnfg)
    rlc->configure(cnfg);
 }
 // Reestablishment stops the entity but does not destroy it. Mode will not change
 void rlc_entity::reestablish() {
-  rlc->reset();
+  rlc->stop();
 }
 void rlc_entity::reset()
 {
  rlc->reset();
  rlc = NULL;
 }
 // A call to stop() stops the entity and clears deletes the instance. Next time this entity can be used for other mode.
 void rlc_entity::stop()
 {
  rlc->stop();
  delete rlc;
  rlc = NULL;
 }
@ -119,6 +131,12 @@ void rlc_entity::write_sdu(byte_buffer_t *sdu)
    rlc->write_sdu(sdu);
 }
 void rlc_entity::write_sdu_nb(byte_buffer_t *sdu)
 {
  if(rlc)
    rlc->write_sdu_nb(sdu);
 }
 // MAC interface
 uint32_t rlc_entity::get_buffer_state()
 {
--- a/lib/src/upper/rlc_tm.cc
+++ b/lib/src/upper/rlc_tm.cc
@ -29,7 +29,7 @@
 namespace srslte {
-rlc_tm::rlc_tm() : ul_queue(16)
+rlc_tm::rlc_tm(uint32_t queue_len) : ul_queue(queue_len)
 {
  log = NULL;
  pdcp = NULL;
@ -38,6 +38,11 @@ rlc_tm::rlc_tm() : ul_queue(16)
  pool = byte_buffer_pool::get_instance();
 }
 // Warning: must call stop() to properly deallocate all buffers
 rlc_tm::~rlc_tm() {
  pool = NULL;
 }
 void rlc_tm::init(srslte::log               *log_,
                  uint32_t                   lcid_,
                  srsue::pdcp_interface_rlc *pdcp_,
@ -48,6 +53,7 @@ void rlc_tm::init(srslte::log               *log_,
  lcid = lcid_;
  pdcp = pdcp_;
  rrc  = rrc_;
  tx_enabled = true;
 }
 void rlc_tm::configure(srslte_rlc_config_t cnfg)
@ -64,14 +70,10 @@ void rlc_tm::empty_queue()
  }
 }
 void rlc_tm::reset()
 {
  empty_queue(); 
 }
 void rlc_tm::stop()
 {
-  reset();
+  tx_enabled = false;
  empty_queue();
 }
 rlc_mode_t rlc_tm::get_mode()
@ -87,11 +89,37 @@ uint32_t rlc_tm::get_bearer()
 // PDCP interface
 void rlc_tm::write_sdu(byte_buffer_t *sdu)
 {
-  log->info_hex(sdu->msg, sdu->N_bytes, "%s Tx SDU, before: queue size=%d, bytes=%d",
+  if (!tx_enabled) {
-                rrc->get_rb_name(lcid).c_str(), ul_queue.size(), ul_queue.size_bytes());
+    byte_buffer_pool::get_instance()->deallocate(sdu);
    return;
  }
  if (sdu) {
    ul_queue.write(sdu);
-  log->info_hex(sdu->msg, sdu->N_bytes, "%s Tx SDU, after: queue size=%d, bytes=%d",
+    log->info_hex(sdu->msg, sdu->N_bytes, "%s Tx SDU, queue size=%d, bytes=%d",
                  rrc->get_rb_name(lcid).c_str(), ul_queue.size(), ul_queue.size_bytes());
  } else {
    log->warning("NULL SDU pointer in write_sdu()\n");
  }
 }
 void rlc_tm::write_sdu_nb(byte_buffer_t *sdu)
 {
  if (!tx_enabled) {
    byte_buffer_pool::get_instance()->deallocate(sdu);
    return;
  }
  if (sdu) {
    if (ul_queue.try_write(sdu)) {
      log->info_hex(sdu->msg, sdu->N_bytes, "%s Tx SDU, queue size=%d, bytes=%d",
                    rrc->get_rb_name(lcid).c_str(), ul_queue.size(), ul_queue.size_bytes());
    } else {
      log->info_hex(sdu->msg, sdu->N_bytes, "[Dropped SDU] %s Tx SDU, queue size=%d, bytes=%d",
                       rrc->get_rb_name(lcid).c_str(), ul_queue.size(), ul_queue.size_bytes());
      pool->deallocate(sdu);
    }
  } else {
    log->warning("NULL SDU pointer in write_sdu()\n");
  }
 }
 // MAC interface
--- a/lib/src/upper/rlc_um.cc
+++ b/lib/src/upper/rlc_um.cc
@ -33,7 +33,7 @@
 namespace srslte {
-rlc_um::rlc_um() : tx_sdu_queue(32)
+rlc_um::rlc_um(uint32_t queue_len) : tx_sdu_queue(queue_len)
 {
  log = NULL;
  pdcp = NULL;
@ -62,10 +62,13 @@ rlc_um::rlc_um() : tx_sdu_queue(32)
  pdu_lost = false;
 }
 // Warning: must call stop() to properly deallocate all buffers
 rlc_um::~rlc_um()
 {
-  stop();
+  pthread_mutex_destroy(&mutex);
  pool = NULL;
 }
 void rlc_um::init(srslte::log                  *log_,
                  uint32_t                      lcid_,
                  srsue::pdcp_interface_rlc    *pdcp_,
@ -79,6 +82,7 @@ void rlc_um::init(srslte::log                  *log_,
  mac_timers            = mac_timers_;
  reordering_timer_id   = mac_timers->timer_get_unique_id();
  reordering_timer      = mac_timers->timer_get(reordering_timer_id);
  tx_enabled = true;
 }
 void rlc_um::configure(srslte_rlc_config_t cnfg_)
@ -115,8 +119,7 @@ void rlc_um::configure(srslte_rlc_config_t cnfg_)
 void rlc_um::empty_queue() {
  // Drop all messages in TX SDU queue
  byte_buffer_t *buf;
-  while(tx_sdu_queue.size() > 0) {
+  while(tx_sdu_queue.try_read(&buf)) {
    tx_sdu_queue.read(&buf);
    pool->deallocate(buf);
  }
 }
@ -127,17 +130,9 @@ bool rlc_um::is_mrb()
 }
 void rlc_um::stop()
 {
  reset();
  if (mac_timers && reordering_timer) {
    mac_timers->timer_release_id(reordering_timer_id);
    reordering_timer = NULL;
  }
 }
 void rlc_um::reset()
 {
  // Empty tx_sdu_queue before locking the mutex
  tx_enabled = false;
  empty_queue();
  pthread_mutex_lock(&mutex);
@ -167,6 +162,11 @@ void rlc_um::reset()
  }
  rx_window.clear();
  pthread_mutex_unlock(&mutex);
  if (mac_timers && reordering_timer) {
    mac_timers->timer_release_id(reordering_timer_id);
    reordering_timer = NULL;
  }
 }
 rlc_mode_t rlc_um::get_mode()
@ -182,11 +182,36 @@ uint32_t rlc_um::get_bearer()
 /****************************************************************************
 * PDCP interface
 ***************************************************************************/
 void rlc_um::write_sdu(byte_buffer_t *sdu)
 {
  if (!tx_enabled) {
    byte_buffer_pool::get_instance()->deallocate(sdu);
    return;
  }
  if (sdu) {
    tx_sdu_queue.write(sdu);
    log->info_hex(sdu->msg, sdu->N_bytes, "%s Tx SDU (%d B ,tx_sdu_queue_len=%d)", rrc->get_rb_name(lcid).c_str(), sdu->N_bytes, tx_sdu_queue.size());
  } else {
    log->warning("NULL SDU pointer in write_sdu()\n");
  }
 }
 void rlc_um::write_sdu_nb(byte_buffer_t *sdu)
 {
  if (!tx_enabled) {
    byte_buffer_pool::get_instance()->deallocate(sdu);
    return;
  }
  if (sdu) {
    if (tx_sdu_queue.try_write(sdu)) {
      log->info_hex(sdu->msg, sdu->N_bytes, "%s Tx SDU (%d B ,tx_sdu_queue_len=%d)", rrc->get_rb_name(lcid).c_str(), sdu->N_bytes, tx_sdu_queue.size());
    } else {
      log->info_hex(sdu->msg, sdu->N_bytes, "[Dropped SDU] %s Tx SDU (%d B ,tx_sdu_queue_len=%d)", rrc->get_rb_name(lcid).c_str(), sdu->N_bytes, tx_sdu_queue.size());
      pool->deallocate(sdu);
    }
  } else {
    log->warning("NULL SDU pointer in write_sdu()\n");
  }
 }
 /****************************************************************************
--- a/lib/test/upper/rlc_am_test.cc
+++ b/lib/test/upper/rlc_am_test.cc
@ -1408,7 +1408,7 @@ void reset_test()
  pdu_bufs.N_bytes = len;
  // reset RLC1
-  rlc1.reset();
+  rlc1.stop();
  // read another PDU segment from RLC1
  len = rlc1.read_pdu(pdu_bufs.msg, 4);
--- a/srsenb/hdr/mac/mac.h
+++ b/srsenb/hdr/mac/mac.h
@ -124,7 +124,8 @@ private:
  static const int MAC_PDU_THREAD_PRIO  = 60;
-  
+  // We use a rwlock in MAC to allow multiple workers to access MAC simultaneously. No conflicts will happen since access for different TTIs
  pthread_rwlock_t rwlock;
  // Interaction with PHY 
  phy_interface_mac    *phy_h; 
--- a/srsenb/hdr/mac/scheduler.h
+++ b/srsenb/hdr/mac/scheduler.h
@ -38,6 +38,13 @@
 namespace srsenb {
 /* Caution: User addition (ue_cfg) and removal (ue_rem) are not thread-safe
 * Rest of operations are thread-safe
 *
 * The subclass sched_ue is thread-safe so that access to shared variables like buffer states
 * from scheduler thread and other threads is protected for each individual user.
 */
 class sched : public sched_interface
 {  
@ -217,9 +224,6 @@ private:
  bool configured;
  pthread_mutex_t mutex, mutex2;
 };
--- a/srsenb/hdr/mac/scheduler_ue.h
+++ b/srsenb/hdr/mac/scheduler_ue.h
@ -35,6 +35,12 @@
 namespace srsenb {
 /** This class is designed to be thread-safe because it is called from workers through scheduler thread and from
 * higher layers and mac threads.
 *
 * 1 mutex is created for every user and only access to same user variables are mutexed
 */
 class sched_ue {
 public: 
@ -56,6 +62,7 @@ public:
   * 
   ************************************************************/
  sched_ue();
  ~sched_ue();
  void reset();
  void phy_config_enabled(uint32_t tti, bool enabled);
  void set_cfg(uint16_t rnti, sched_interface::ue_cfg_t* cfg, sched_interface::cell_cfg_t *cell_cfg, 
@ -101,8 +108,10 @@ public:
  uint32_t   get_pending_dl_new_data(uint32_t tti);
  uint32_t   get_pending_ul_new_data(uint32_t tti);
  uint32_t   get_pending_ul_old_data();
  uint32_t   get_pending_dl_new_data_total(uint32_t tti);
  void          reset_timeout_dl_harq(uint32_t tti);
  dl_harq_proc *get_pending_dl_harq(uint32_t tti);
  dl_harq_proc *get_empty_dl_harq();   
  ul_harq_proc *get_ul_harq(uint32_t tti);   
@ -129,8 +138,6 @@ public:
  bool       get_pucch_sched(uint32_t current_tti, uint32_t prb_idx[2]);
  bool       pucch_sr_collision(uint32_t current_tti, uint32_t n_cce);
  uint32_t   get_pending_ul_old_data();
 private: 
  typedef struct {
@ -152,12 +159,22 @@ private:
  static bool bearer_is_ul(ue_bearer_t *lch);
  static bool bearer_is_dl(ue_bearer_t *lch);
  uint32_t   get_pending_dl_new_data_unlocked(uint32_t tti);
  uint32_t   get_pending_ul_old_data_unlocked();
  uint32_t   get_pending_ul_new_data_unlocked(uint32_t tti);
  bool       needs_cqi_unlocked(uint32_t tti, bool will_send = false);
  int        generate_format2a_unlocked(dl_harq_proc *h, sched_interface::dl_sched_data_t *data, uint32_t tti, uint32_t cfi);
  bool is_first_dl_tx();
  sched_interface::ue_cfg_t cfg;
  srslte_cell_t cell; 
  srslte::log* log_h;
  pthread_mutex_t mutex;
  /* Buffer states */
  bool sr; 
  int buf_mac;
--- a/srsenb/hdr/phy/phch_worker.h
+++ b/srsenb/hdr/phy/phch_worker.h
@ -71,7 +71,7 @@ public:
 private: 
  const static float PUSCH_RL_SNR_DB_TH = 1.0; 
-  const static float PUCCH_RL_CORR_TH = 0.1; 
+  const static float PUCCH_RL_CORR_TH = 0.15;
  void work_imp();
--- a/srsenb/hdr/upper/gtpu.h
+++ b/srsenb/hdr/upper/gtpu.h
@ -58,14 +58,6 @@ namespace srsenb {
 #define GTPU_HEADER_LEN 8
 typedef struct{
  uint8_t   flags;          // Only support 0x30 - v1, PT1 (GTP), no other flags
  uint8_t   message_type;   // Only support 0xFF - T-PDU type
  uint16_t  length;
  uint32_t  teid;
 }gtpu_header_t;
 class gtpu
    :public gtpu_interface_rrc
    ,public gtpu_interface_pdcp
@ -93,8 +85,6 @@ private:
  bool                         running;
  bool                         run_enable;
  bool                         enable_mbsfn;
  std::string                  gtp_bind_addr;
  std::string                  mme_addr;
@ -143,13 +133,6 @@ private:
  pthread_mutex_t mutex;
  /****************************************************************************
   * Header pack/unpack helper functions
   * Ref: 3GPP TS 29.281 v10.1.0 Section 5
   ***************************************************************************/
  bool gtpu_write_header(gtpu_header_t *header, srslte::byte_buffer_t *pdu);
  bool gtpu_read_header(srslte::byte_buffer_t *pdu, gtpu_header_t *header);
  /****************************************************************************
   * TEID to RNIT/LCID helper functions
   ***************************************************************************/
--- a/srsenb/hdr/upper/pdcp.h
+++ b/srsenb/hdr/upper/pdcp.h
@ -105,8 +105,12 @@ private:
    srslte::pdcp        *pdcp; 
  };
  void clear_user(user_interface *ue);
  std::map<uint32_t,user_interface> users;
  pthread_rwlock_t rwlock;
  rlc_interface_pdcp  *rlc;
  rrc_interface_pdcp  *rrc;
  gtpu_interface_pdcp *gtpu;
--- a/srsenb/hdr/upper/rlc.h
+++ b/srsenb/hdr/upper/rlc.h
@ -52,7 +52,6 @@ public:
  void stop(); 
  // rlc_interface_rrc
  void reset(uint16_t rnti);
  void clear_buffer(uint16_t rnti);
  void add_user(uint16_t rnti); 
  void rem_user(uint16_t rnti);
@ -93,6 +92,12 @@ private:
    srsenb::rlc                *parent; 
  };
  void clear_user(user_interface *ue);
  const static int RLC_TX_QUEUE_LEN = 512;
  pthread_rwlock_t rwlock;
  std::map<uint32_t,user_interface> users; 
  std::vector<mch_service_t> mch_services;
--- a/srsenb/hdr/upper/rrc.h
+++ b/srsenb/hdr/upper/rrc.h
@ -123,7 +123,6 @@ public:
    bzero(&cqi_sched, sizeof(cqi_sched));
    bzero(&cfg, sizeof(cfg));
    bzero(&sib2, sizeof(sib2));
    bzero(&user_mutex, sizeof(user_mutex));
    bzero(&paging_mutex, sizeof(paging_mutex));
  }
@ -350,6 +349,7 @@ private:
    srslte::byte_buffer_t*  pdu;
  }rrc_pdu;
  const static uint32_t LCID_EXIT     = 0xffff0000;
  const static uint32_t LCID_REM_USER = 0xffff0001;
  const static uint32_t LCID_REL_USER = 0xffff0002;
  const static uint32_t LCID_RLF_USER = 0xffff0003;
--- a/srsenb/rr.conf.example
+++ b/srsenb/rr.conf.example
@ -9,7 +9,7 @@ mac_cnfg =
  ulsch_cnfg = 
  {
    max_harq_tx = 4;
-    periodic_bsr_timer = 40; // in ms 
+    periodic_bsr_timer = 20; // in ms
    retx_bsr_timer = 320;   // in ms
  };
@ -26,9 +26,9 @@ phy_cnfg =
  pusch_cnfg_ded =
  {
-    beta_offset_ack_idx = 10;
+    beta_offset_ack_idx = 6;
-    beta_offset_ri_idx  = 5;
+    beta_offset_ri_idx  = 6;
-    beta_offset_cqi_idx = 10;
+    beta_offset_cqi_idx = 6;
  };
  // PUCCH-SR resources are scheduled on time-frequeny domain first, then multiplexed in the same resource. 
--- a/srsenb/sib.conf.example
+++ b/srsenb/sib.conf.example
@ -47,13 +47,13 @@ sib2 =
                high_speed_flag = false;
                prach_config_index = 3;
                prach_freq_offset = 2;
-                zero_correlation_zone_config = 11;
+                zero_correlation_zone_config = 5;
            };
        };
        pdsch_cnfg = 
        {
            p_b = 0; 
-            rs_power = -10;
+            rs_power = 0;
        };
        pusch_cnfg = 
        {
--- a/srsenb/src/mac/mac.cc
+++ b/srsenb/src/mac/mac.cc
@ -96,6 +96,8 @@ bool mac::init(mac_args_t *args_, srslte_cell_t *cell_, phy_interface_mac *phy,
    reset();
    pthread_rwlock_init(&rwlock, NULL);
    started = true;
  }
@ -104,6 +106,8 @@ bool mac::init(mac_args_t *args_, srslte_cell_t *cell_, phy_interface_mac *phy,
 void mac::stop()
 {
  pthread_rwlock_wrlock(&rwlock);
  for (uint32_t i=0;i<ue_db.size();i++) {
    delete ue_db[i];
  }
@ -115,6 +119,9 @@ void mac::stop()
  started = false;
  timers_thread.stop();
  pdu_process_thread.stop();
  pthread_rwlock_unlock(&rwlock);
  pthread_rwlock_destroy(&rwlock);
 }
 // Implement Section 5.9
@ -149,43 +156,52 @@ void mac::start_pcap(srslte::mac_pcap* pcap_)
 *******************************************************/
 int mac::rlc_buffer_state(uint16_t rnti, uint32_t lc_id, uint32_t tx_queue, uint32_t retx_queue)
 {
  pthread_rwlock_rdlock(&rwlock);
  int ret = -1;
  if (ue_db.count(rnti)) {
    if(rnti != SRSLTE_MRNTI){
-      return scheduler.dl_rlc_buffer_state(rnti, lc_id, tx_queue, retx_queue);
+      ret = scheduler.dl_rlc_buffer_state(rnti, lc_id, tx_queue, retx_queue);
    } else {
      for(uint32_t i = 0; i < mch.num_mtch_sched; i++){
        if(lc_id == mch.mtch_sched[i].lcid){
          mch.mtch_sched[i].lcid_buffer_size = tx_queue;
        }
      }
-      return 0;
+      ret = 0;
    }
  } else {
    Error("User rnti=0x%x not found\n", rnti);
    return -1;
  }
  pthread_rwlock_unlock(&rwlock);
  return ret;
 }
 int mac::bearer_ue_cfg(uint16_t rnti, uint32_t lc_id, sched_interface::ue_bearer_cfg_t* cfg)
 {
  int ret = -1;
  pthread_rwlock_rdlock(&rwlock);
  if (ue_db.count(rnti)) {
    // configure BSR group in UE
    ue_db[rnti]->set_lcg(lc_id, (uint32_t) cfg->group);
-    return scheduler.bearer_ue_cfg(rnti, lc_id, cfg);      
+    ret = scheduler.bearer_ue_cfg(rnti, lc_id, cfg);
  } else {
    Error("User rnti=0x%x not found\n", rnti);
    return -1;
  }
  pthread_rwlock_unlock(&rwlock);
  return ret;
 }
 int mac::bearer_ue_rem(uint16_t rnti, uint32_t lc_id)
 {
  pthread_rwlock_rdlock(&rwlock);
  int ret = -1;
  if (ue_db.count(rnti)) {
-    return scheduler.bearer_ue_rem(rnti, lc_id);
+    ret = scheduler.bearer_ue_rem(rnti, lc_id);
  } else {
    Error("User rnti=0x%x not found\n", rnti);
    return -1;
  }
  pthread_rwlock_unlock(&rwlock);
  return ret;
 }
 void mac::phy_config_enabled(uint16_t rnti, bool enabled)
@ -196,6 +212,8 @@ void mac::phy_config_enabled(uint16_t rnti, bool enabled)
 // Update UE configuration
 int mac::ue_cfg(uint16_t rnti, sched_interface::ue_cfg_t* cfg)
 {
  int ret = -1;
  pthread_rwlock_rdlock(&rwlock);
  if (ue_db.count(rnti)) {
    // Add RNTI to the PHY (pregerate signals) now instead of after PRACH
@ -212,29 +230,42 @@ int mac::ue_cfg(uint16_t rnti, sched_interface::ue_cfg_t* cfg)
    // Update Scheduler configuration
    if (scheduler.ue_cfg(rnti, cfg)) {
      Error("Registering new UE rnti=0x%x to SCHED\n", rnti);
-      return -1;
+    } else {
      ret = 0;
    }
    return 0;
  } else {
    Error("User rnti=0x%x not found\n", rnti);
    return -1;
  }
  pthread_rwlock_unlock(&rwlock);
  return ret;
 }
 // Removes UE from DB
 int mac::ue_rem(uint16_t rnti)
 {
  int ret = -1;
  pthread_rwlock_rdlock(&rwlock);
  if (ue_db.count(rnti)) {
    scheduler.ue_rem(rnti);
    phy_h->rem_rnti(rnti);
    ret = 0;
  } else {
    Error("User rnti=0x%x not found\n", rnti);
  }
  pthread_rwlock_unlock(&rwlock);
  if (ret) {
    return ret;
  }
  pthread_rwlock_wrlock(&rwlock);
  if (ue_db.count(rnti)) {
    delete ue_db[rnti];
    ue_db.erase(rnti);
    Info("User rnti=0x%x removed from MAC/PHY\n", rnti);
    return 0; 
  } else {
-    Error("User rnti=0x%x not found\n", rnti);
+    Error("User rnti=0x%x already removed\n", rnti);
    return -1;
  }
  pthread_rwlock_unlock(&rwlock);
  return 0;
 }
 int mac::cell_cfg(sched_interface::cell_cfg_t* cell_cfg)
@ -245,6 +276,7 @@ int mac::cell_cfg(sched_interface::cell_cfg_t* cell_cfg)
 void mac::get_metrics(mac_metrics_t metrics[ENB_METRICS_MAX_USERS])
 {
  pthread_rwlock_rdlock(&rwlock);
  int cnt=0;
  for(std::map<uint16_t, ue*>::iterator iter=ue_db.begin(); iter!=ue_db.end(); ++iter) {
    ue *u = iter->second;
@ -253,6 +285,7 @@ void mac::get_metrics(mac_metrics_t metrics[ENB_METRICS_MAX_USERS])
      cnt++;
    }
  }
  pthread_rwlock_unlock(&rwlock);
 }
@ -264,6 +297,7 @@ void mac::get_metrics(mac_metrics_t metrics[ENB_METRICS_MAX_USERS])
 void mac::rl_failure(uint16_t rnti)
 {
  pthread_rwlock_rdlock(&rwlock);
  if (ue_db.count(rnti)) {
    uint32_t nof_fails = ue_db[rnti]->rl_failure();
    if (nof_fails >= (uint32_t) args.link_failure_nof_err && args.link_failure_nof_err > 0) {
@ -274,19 +308,23 @@ void mac::rl_failure(uint16_t rnti)
  } else {
    Error("User rnti=0x%x not found\n", rnti);
  }
  pthread_rwlock_unlock(&rwlock);
 }
 void mac::rl_ok(uint16_t rnti)
 {
  pthread_rwlock_rdlock(&rwlock);
  if (ue_db.count(rnti)) {
    ue_db[rnti]->rl_failure_reset();
  } else {
    Error("User rnti=0x%x not found\n", rnti);
  }
  pthread_rwlock_unlock(&rwlock);
 }
 int mac::ack_info(uint32_t tti, uint16_t rnti, uint32_t tb_idx, bool ack)
 {
  pthread_rwlock_rdlock(&rwlock);
  log_h->step(tti);
  uint32_t nof_bytes = scheduler.dl_ack_info(tti, rnti, tb_idx, ack);
  ue_db[rnti]->metrics_tx(ack, nof_bytes);
@ -294,16 +332,18 @@ int mac::ack_info(uint32_t tti, uint16_t rnti, uint32_t tb_idx, bool ack)
  if (ack) {
    if (nof_bytes > 64) { // do not count RLC status messages only
      rrc_h->set_activity_user(rnti);
-      log_h->info("DL activity rnti=0x%x, n_bytes=%d\n", rnti, nof_bytes);
+      log_h->debug("DL activity rnti=0x%x, n_bytes=%d\n", rnti, nof_bytes);
    }
  }
  pthread_rwlock_unlock(&rwlock);
  return 0;
 }
 int mac::crc_info(uint32_t tti, uint16_t rnti, uint32_t nof_bytes, bool crc)
 {
  log_h->step(tti);
-
+  int ret = -1;
  pthread_rwlock_rdlock(&rwlock);
  if (ue_db.count(rnti)) {
    ue_db[rnti]->set_tti(tti);
@ -317,98 +357,117 @@ int mac::crc_info(uint32_t tti, uint16_t rnti, uint32_t nof_bytes, bool crc)
      ue_db[rnti]->deallocate_pdu(tti);
    }
-    return scheduler.ul_crc_info(tti, rnti, crc);  
+    ret = scheduler.ul_crc_info(tti, rnti, crc);
  } else {
    Error("User rnti=0x%x not found\n", rnti);
    return -1;
  }
  pthread_rwlock_unlock(&rwlock);
  return ret;
 }
 int mac::set_dl_ant_info(uint16_t rnti, LIBLTE_RRC_ANTENNA_INFO_DEDICATED_STRUCT *dl_ant_info) {
  log_h->step(tti);
  int ret = -1;
  pthread_rwlock_rdlock(&rwlock);
  if (ue_db.count(rnti)) {
    scheduler.dl_ant_info(rnti, dl_ant_info);
    ret = 0;
  } else {
    Error("User rnti=0x%x not found\n", rnti);
    return -1;
  }
-  return 0;
+  pthread_rwlock_unlock(&rwlock);
  return ret;
 }
 int mac::ri_info(uint32_t tti, uint16_t rnti, uint32_t ri_value)
 {
  log_h->step(tti);
-
+  int ret = -1;
  pthread_rwlock_rdlock(&rwlock);
  if (ue_db.count(rnti)) {
    scheduler.dl_ri_info(tti, rnti, ri_value);
    ue_db[rnti]->metrics_dl_ri(ri_value);
    ret = 0;
  } else {
    Error("User rnti=0x%x not found\n", rnti);
    return -1;
  }
-  return 0; 
+  pthread_rwlock_unlock(&rwlock);
  return ret;
 }
 int mac::pmi_info(uint32_t tti, uint16_t rnti, uint32_t pmi_value)
 {
  log_h->step(tti);
-
+  pthread_rwlock_rdlock(&rwlock);
  int ret = -1;
  if (ue_db.count(rnti)) {
    scheduler.dl_pmi_info(tti, rnti, pmi_value);
    ue_db[rnti]->metrics_dl_pmi(pmi_value);
    ret = 0;
  } else {
    Error("User rnti=0x%x not found\n", rnti);
    return -1;
  }
-  return 0;
+  pthread_rwlock_unlock(&rwlock);
  return ret;
 }
 int mac::cqi_info(uint32_t tti, uint16_t rnti, uint32_t cqi_value)
 {
  log_h->step(tti);
  int ret = -1;
  pthread_rwlock_rdlock(&rwlock);
  if (ue_db.count(rnti)) {
    scheduler.dl_cqi_info(tti, rnti, cqi_value);
    ue_db[rnti]->metrics_dl_cqi(cqi_value);
    ret = 0;
  } else {
    Error("User rnti=0x%x not found\n", rnti);
    return -1;
  }
-  return 0; 
+  pthread_rwlock_unlock(&rwlock);
  return ret;
 }
 int mac::snr_info(uint32_t tti, uint16_t rnti, float snr)
 {
  log_h->step(tti);
-
+  int ret = -1;
  pthread_rwlock_rdlock(&rwlock);
  if (ue_db.count(rnti)) {
    uint32_t cqi = srslte_cqi_from_snr(snr);
    scheduler.ul_cqi_info(tti, rnti, cqi, 0);
    ret = 0;
  } else {
    Error("User rnti=0x%x not found\n", rnti);
    return -1;
  }
-  return 0; 
+  pthread_rwlock_unlock(&rwlock);
  return ret;
 }
 int mac::sr_detected(uint32_t tti, uint16_t rnti)
 {
  log_h->step(tti);
-
+  int ret = -1;
  pthread_rwlock_rdlock(&rwlock);
  if (ue_db.count(rnti)) {
    scheduler.ul_sr_info(tti, rnti);
    ret = 0;
  } else {
    Error("User rnti=0x%x not found\n", rnti);
    return -1;
  }
-  return 0; 
+  pthread_rwlock_unlock(&rwlock);
  return ret;
 }
 int mac::rach_detected(uint32_t tti, uint32_t preamble_idx, uint32_t time_adv)
 {
  log_h->step(tti);
  int ret = -1;
  pthread_rwlock_rdlock(&rwlock);
  // Find empty slot for pending rars
  uint32_t ra_id=0;
  while(pending_rars[ra_id].temp_crnti && ra_id<MAX_PENDING_RARS-1) {
@ -416,7 +475,7 @@ int mac::rach_detected(uint32_t tti, uint32_t preamble_idx, uint32_t time_adv)
  }
  if (ra_id == MAX_PENDING_RARS) {
    Error("Maximum number of pending RARs exceeded (%d)\n", MAX_PENDING_RARS);
-    return -1; 
+    goto unlock;
  }
  // Create new UE
@ -440,7 +499,7 @@ int mac::rach_detected(uint32_t tti, uint32_t preamble_idx, uint32_t time_adv)
    // Release pending RAR
    bzero(&pending_rars[ra_id], sizeof(pending_rar_t));
    Error("Registering new user rnti=0x%x to SCHED\n", last_rnti);
-    return -1;
+    goto unlock;
  }
  // Register new user in RRC
@ -458,7 +517,11 @@ int mac::rach_detected(uint32_t tti, uint32_t preamble_idx, uint32_t time_adv)
  if (last_rnti >= 60000) {
    last_rnti = 70;
  }
-  return 0; 
+  ret = 0;
 unlock:
  pthread_rwlock_unlock(&rwlock);
  return ret;
 }
 int mac::get_dl_sched(uint32_t tti, dl_sched_t *dl_sched_res)
@ -483,12 +546,15 @@ int mac::get_dl_sched(uint32_t tti, dl_sched_t *dl_sched_res)
  int n = 0;
  pthread_rwlock_rdlock(&rwlock);
  // Copy data grants
  for (uint32_t i=0;i<sched_result.nof_data_elems;i++) {
    // Get UE
    uint16_t rnti = sched_result.data[i].rnti;
    if (ue_db.count(rnti)) {
      // Copy grant info
      dl_sched_res->sched_grants[n].rnti = rnti;
      dl_sched_res->sched_grants[n].dci_format = sched_result.data[i].dci_format;
@ -521,8 +587,14 @@ int mac::get_dl_sched(uint32_t tti, dl_sched_t *dl_sched_res)
        }
      }
      n++;
    } else {
      Warning("Invalid DL scheduling result. User 0x%x does not exist\n", rnti);
    }
  }
  // No more uses of shared ue_db beyond here
  pthread_rwlock_unlock(&rwlock);
  // Copy RAR grants
  for (uint32_t i=0;i<sched_result.nof_rar_elems;i++) {
    // Copy grant info
@ -726,6 +798,8 @@ int mac::get_ul_sched(uint32_t tti, ul_sched_t *ul_sched_res)
    return SRSLTE_ERROR;
  }
  pthread_rwlock_rdlock(&rwlock);
  // Copy DCI grants
  ul_sched_res->nof_grants = 0;
  int n = 0;
@ -735,6 +809,7 @@ int mac::get_ul_sched(uint32_t tti, ul_sched_t *ul_sched_res)
      // Get UE
      uint16_t rnti = sched_result.pusch[i].rnti;
      if (ue_db.count(rnti)) {
        // Copy grant info
        ul_sched_res->sched_grants[n].rnti             = rnti;
        ul_sched_res->sched_grants[n].current_tx_nb    = sched_result.pusch[i].current_tx_nb;
@ -750,12 +825,18 @@ int mac::get_ul_sched(uint32_t tti, ul_sched_t *ul_sched_res)
        ul_sched_res->sched_grants[n].data = ue_db[rnti]->request_buffer(tti, sched_result.pusch[i].tbs);
        ul_sched_res->nof_grants++;
        n++;
      } else {
        Warning("Invalid DL scheduling result. User 0x%x does not exist\n", rnti);
      }
    } else {
      Warning("Grant %d for rnti=0x%x has zero TBS\n", i, sched_result.pusch[i].rnti);
    }
  }
  // No more uses of ue_db beyond here
  pthread_rwlock_unlock(&rwlock);
  // Copy PHICH actions
  for (uint32_t i=0;i<sched_result.nof_phich_elems;i++) {
    ul_sched_res->phich[i].ack  = sched_result.phich[i].phich == sched_interface::ul_sched_phich_t::ACK;
@ -871,12 +952,14 @@ void mac::pdu_process::run_thread()
 bool mac::process_pdus()
 {
  pthread_rwlock_rdlock(&rwlock);
  bool ret = false;
  for(std::map<uint16_t, ue*>::iterator iter=ue_db.begin(); iter!=ue_db.end(); ++iter) {
    ue *u         = iter->second;
    uint16_t rnti = iter->first;
    ret = ret | u->process_pdus();
  }
  pthread_rwlock_unlock(&rwlock);
  return ret;
 }
--- a/srsenb/src/mac/scheduler.cc
+++ b/srsenb/src/mac/scheduler.cc
@ -57,22 +57,16 @@ sched::sched() : bc_aggr_level(0), rar_aggr_level(0), avail_rbg(0), P(0), start_
  bzero(&sched_cfg, sizeof(sched_cfg));
  bzero(&common_locations, sizeof(common_locations));
  bzero(&pdsch_re, sizeof(pdsch_re));
  bzero(&mutex, sizeof(mutex));
  for (int i = 0; i < 3; i++) {
    bzero(rar_locations[i], sizeof(sched_ue::sched_dci_cce_t) * 10);
  }
  pthread_mutex_init(&mutex, NULL);
  pthread_mutex_init(&mutex2, NULL);
  reset();
 }
 sched::~sched()
 {
  srslte_regs_free(&regs);
  pthread_mutex_destroy(&mutex);
  pthread_mutex_destroy(&mutex2);
 }
 void sched::init(rrc_interface_mac *rrc_, srslte::log* log)
@ -118,8 +112,6 @@ int sched::cell_cfg(sched_interface::cell_cfg_t* cell_cfg)
    return -1;
  }
  pthread_mutex_lock(&mutex);
  memcpy(&cfg, cell_cfg, sizeof(sched_interface::cell_cfg_t));
  // Get DCI locations 
@ -147,8 +139,6 @@ int sched::cell_cfg(sched_interface::cell_cfg_t* cell_cfg)
  }  
  configured = true;
  pthread_mutex_unlock(&mutex);
  return 0;
 }
@ -161,21 +151,16 @@ int sched::cell_cfg(sched_interface::cell_cfg_t* cell_cfg)
 int sched::ue_cfg(uint16_t rnti, sched_interface::ue_cfg_t *ue_cfg)
 {
  pthread_mutex_lock(&mutex);
   // Add or config user
  ue_db[rnti].set_cfg(rnti, ue_cfg, &cfg, &regs, log_h);   
  ue_db[rnti].set_max_mcs(sched_cfg.pusch_max_mcs, sched_cfg.pdsch_max_mcs);
  ue_db[rnti].set_fixed_mcs(sched_cfg.pusch_mcs, sched_cfg.pdsch_mcs);
  pthread_mutex_unlock(&mutex);
  return 0;
 }
 int sched::ue_rem(uint16_t rnti)
 {
  pthread_mutex_lock(&mutex);
  pthread_mutex_lock(&mutex2);
  int ret = 0;
  if (ue_db.count(rnti)) {
    ue_db.erase(rnti);
@ -183,8 +168,6 @@ int sched::ue_rem(uint16_t rnti)
    Error("User rnti=0x%x not found\n", rnti);
    ret = -1;
  }
  pthread_mutex_unlock(&mutex2);
  pthread_mutex_unlock(&mutex);
  return ret;
 }
@ -195,18 +178,15 @@ bool sched::ue_exists(uint16_t rnti)
 void sched::phy_config_enabled(uint16_t rnti, bool enabled)
 {
  pthread_mutex_lock(&mutex);
  if (ue_db.count(rnti)) {
    ue_db[rnti].phy_config_enabled(current_tti, enabled);
  } else {
    Error("User rnti=0x%x not found\n", rnti);
  }
  pthread_mutex_unlock(&mutex);
 }
 int sched::bearer_ue_cfg(uint16_t rnti, uint32_t lc_id, sched_interface::ue_bearer_cfg_t *cfg)
 {
  pthread_mutex_lock(&mutex);
  int ret = 0;
  if (ue_db.count(rnti)) {         
    ue_db[rnti].set_bearer_cfg(lc_id, cfg);
@ -214,14 +194,11 @@ int sched::bearer_ue_cfg(uint16_t rnti, uint32_t lc_id, sched_interface::ue_bear
    Error("User rnti=0x%x not found\n", rnti);
    ret = -1;
  }
  pthread_mutex_unlock(&mutex);
  return ret;
 }
 int sched::bearer_ue_rem(uint16_t rnti, uint32_t lc_id)
 {
  pthread_mutex_lock(&mutex);
  pthread_mutex_lock(&mutex2);
  int ret = 0;
  if (ue_db.count(rnti)) {         
    ue_db[rnti].rem_bearer(lc_id);
@ -229,49 +206,33 @@ int sched::bearer_ue_rem(uint16_t rnti, uint32_t lc_id)
    Error("User rnti=0x%x not found\n", rnti);
    ret = -1;
  }
  pthread_mutex_unlock(&mutex2);
  pthread_mutex_unlock(&mutex);
  return ret;
 }
 uint32_t sched::get_dl_buffer(uint16_t rnti)
 {
  pthread_mutex_lock(&mutex);
  uint32_t ret = 0;
  if (ue_db.count(rnti)) {         
    ret = ue_db[rnti].get_pending_dl_new_data(current_tti);
  } else {
    Error("User rnti=0x%x not found\n", rnti);
  }
  pthread_mutex_unlock(&mutex);
  return ret;
 }
 uint32_t sched::get_ul_buffer(uint16_t rnti)
 {
  pthread_mutex_lock(&mutex);
  uint32_t ret = 0;
  if (ue_db.count(rnti)) {         
    ret = ue_db[rnti].get_pending_ul_new_data(current_tti);
  } else {
    Error("User rnti=0x%x not found\n", rnti);
  }
  pthread_mutex_unlock(&mutex);
  return ret;
 }
 /* \Warning: This function is not mutexed because it can produce late changes on the buffer state while
 * the scheduler is already allocating data, resulting in empty grants.
 * Ideally we would like the scheduler to query the RLC for buffer states in order to get the most updated
 * buffer state with the minimum overhead. However, the current architecture is designed to be compliant
 * with the FAPI interface
 *
 * We add a new mutex used only in ue_rem to avoid the UE being removed in between the access to
 * ue_db.count() and the access to the std::map.
 */
 int sched::dl_rlc_buffer_state(uint16_t rnti, uint32_t lc_id, uint32_t tx_queue, uint32_t retx_queue)
 {
  pthread_mutex_lock(&mutex2);
  int ret = 0;
  if (ue_db.count(rnti)) {
    ue_db[rnti].dl_buffer_state(lc_id, tx_queue, retx_queue);
@ -279,14 +240,11 @@ int sched::dl_rlc_buffer_state(uint16_t rnti, uint32_t lc_id, uint32_t tx_queue,
    Error("User rnti=0x%x not found\n", rnti);
    ret = -1;
  }
  pthread_mutex_unlock(&mutex2);
  return ret;
 }
 /* \Warning Read comment in dl_rlc_buffer_state() */
 int sched::dl_mac_buffer_state(uint16_t rnti, uint32_t ce_code)
 {
  pthread_mutex_lock(&mutex2);
  int ret = 0;
  if (ue_db.count(rnti)) {         
    ue_db[rnti].mac_buffer_state(ce_code);
@ -294,12 +252,10 @@ int sched::dl_mac_buffer_state(uint16_t rnti, uint32_t ce_code)
    Error("User rnti=0x%x not found\n", rnti);
    ret = -1;
  }
  pthread_mutex_unlock(&mutex2);
  return ret;
 }
 int sched::dl_ant_info(uint16_t rnti, LIBLTE_RRC_ANTENNA_INFO_DEDICATED_STRUCT *dl_ant_info) {
  pthread_mutex_lock(&mutex);
  int ret = 0;
  if (ue_db.count(rnti)) {
    ue_db[rnti].set_dl_ant_info(dl_ant_info);
@ -307,13 +263,11 @@ int sched::dl_ant_info(uint16_t rnti, LIBLTE_RRC_ANTENNA_INFO_DEDICATED_STRUCT *
    Error("User rnti=0x%x not found\n", rnti);
    ret = -1;
  }
  pthread_mutex_unlock(&mutex);
  return ret;
 }
 int sched::dl_ack_info(uint32_t tti, uint16_t rnti, uint32_t tb_idx, bool ack)
 {
  pthread_mutex_lock(&mutex);
  int ret = 0;
  if (ue_db.count(rnti)) {         
    ret = ue_db[rnti].set_ack_info(tti, tb_idx, ack);
@ -321,13 +275,11 @@ int sched::dl_ack_info(uint32_t tti, uint16_t rnti, uint32_t tb_idx, bool ack)
    Error("User rnti=0x%x not found\n", rnti);
    ret = -1;
  }
  pthread_mutex_unlock(&mutex);
  return ret;
 }
 int sched::ul_crc_info(uint32_t tti, uint16_t rnti, bool crc)
 {
  pthread_mutex_lock(&mutex);
  int ret = 0;
  if (ue_db.count(rnti)) {         
    ue_db[rnti].set_ul_crc(tti, crc);
@ -335,13 +287,11 @@ int sched::ul_crc_info(uint32_t tti, uint16_t rnti, bool crc)
    Error("User rnti=0x%x not found\n", rnti);
    ret = -1;
  }
  pthread_mutex_unlock(&mutex);
  return ret;
 }
 int sched::dl_ri_info(uint32_t tti, uint16_t rnti, uint32_t cqi_value)
 {
  pthread_mutex_lock(&mutex);
  int ret = 0;
  if (ue_db.count(rnti)) {         
    ue_db[rnti].set_dl_ri(tti, cqi_value);
@ -349,13 +299,11 @@ int sched::dl_ri_info(uint32_t tti, uint16_t rnti, uint32_t cqi_value)
    Error("User rnti=0x%x not found\n", rnti);
    ret = -1;
  }
  pthread_mutex_unlock(&mutex);
  return ret;
 }
 int sched::dl_pmi_info(uint32_t tti, uint16_t rnti, uint32_t pmi_value)
 {
  pthread_mutex_lock(&mutex);
  int ret = 0;
  if (ue_db.count(rnti)) {
    ue_db[rnti].set_dl_pmi(tti, pmi_value);
@ -363,13 +311,11 @@ int sched::dl_pmi_info(uint32_t tti, uint16_t rnti, uint32_t pmi_value)
    Error("User rnti=0x%x not found\n", rnti);
    ret = -1;
  }
  pthread_mutex_unlock(&mutex);
  return ret;
 }
 int sched::dl_cqi_info(uint32_t tti, uint16_t rnti, uint32_t cqi_value)
 {
  pthread_mutex_lock(&mutex);
  int ret = 0;
  if (ue_db.count(rnti)) {
    ue_db[rnti].set_dl_cqi(tti, cqi_value);
@ -377,7 +323,6 @@ int sched::dl_cqi_info(uint32_t tti, uint16_t rnti, uint32_t cqi_value)
    Error("User rnti=0x%x not found\n", rnti);
    ret = -1;
  }
  pthread_mutex_unlock(&mutex);
  return ret;
 }
@ -399,7 +344,6 @@ int sched::dl_rach_info(uint32_t tti, uint32_t ra_id, uint16_t rnti, uint32_t es
 int sched::ul_cqi_info(uint32_t tti, uint16_t rnti, uint32_t cqi, uint32_t ul_ch_code)
 {
  pthread_mutex_lock(&mutex);
  int ret = 0;
  if (ue_db.count(rnti)) {         
    ue_db[rnti].set_ul_cqi(tti, cqi, ul_ch_code);
@ -407,13 +351,11 @@ int sched::ul_cqi_info(uint32_t tti, uint16_t rnti, uint32_t cqi, uint32_t ul_ch
    Error("User rnti=0x%x not found\n", rnti);
    ret = -1;
  }
  pthread_mutex_unlock(&mutex);
  return ret;
 }
 int sched::ul_bsr(uint16_t rnti, uint32_t lcid, uint32_t bsr, bool set_value)
 {
  pthread_mutex_lock(&mutex);
  int ret = 0;
  if (ue_db.count(rnti)) {         
    ue_db[rnti].ul_buffer_state(lcid, bsr, set_value);
@ -421,13 +363,11 @@ int sched::ul_bsr(uint16_t rnti, uint32_t lcid, uint32_t bsr, bool set_value)
    Error("User rnti=0x%x not found\n", rnti);
    ret = -1;
  }
  pthread_mutex_unlock(&mutex);
  return ret;
 }
 int sched::ul_recv_len(uint16_t rnti, uint32_t lcid, uint32_t len)
 {
  pthread_mutex_lock(&mutex);
  int ret = 0;
  if (ue_db.count(rnti)) {         
    ue_db[rnti].ul_recv_len(lcid, len);
@ -435,13 +375,11 @@ int sched::ul_recv_len(uint16_t rnti, uint32_t lcid, uint32_t len)
    Error("User rnti=0x%x not found\n", rnti);
    ret = -1;
  }
  pthread_mutex_unlock(&mutex);
  return ret;
 }
 int sched::ul_phr(uint16_t rnti, int phr)
 {
  pthread_mutex_lock(&mutex);
  int ret = 0;
  if (ue_db.count(rnti)) {         
    ue_db[rnti].ul_phr(phr);
@ -449,13 +387,11 @@ int sched::ul_phr(uint16_t rnti, int phr)
    Error("User rnti=0x%x not found\n", rnti);
    ret = -1;
  }
  pthread_mutex_unlock(&mutex);
  return ret;
 }
 int sched::ul_sr_info(uint32_t tti, uint16_t rnti)
 {
  pthread_mutex_lock(&mutex);
  int ret = 0;
  if (ue_db.count(rnti)) {         
    ue_db[rnti].set_sr();;
@ -463,7 +399,6 @@ int sched::ul_sr_info(uint32_t tti, uint16_t rnti)
    Error("User rnti=0x%x not found\n", rnti);
    ret = -1;
  }
  pthread_mutex_unlock(&mutex);
  return ret;
 }
@ -745,8 +680,14 @@ int sched::dl_sched_data(dl_sched_data_t data[MAX_DATA_LIST])
        Warning("SCHED: Could not schedule DL DCI for rnti=0x%x, pid=%d, cfi=%d\n", rnti, h->get_id(), current_cfi);
      }      
    }
    // Reset blocked PIDs
    user->reset_timeout_dl_harq(current_tti);
  }
  return nof_data_elems; 
 } 
@ -756,7 +697,6 @@ int sched::dl_sched(uint32_t tti, sched_interface::dl_sched_res_t* sched_result)
  if (!configured) {
    return 0; 
  }
  pthread_mutex_lock(&mutex);
  /* If ul_sched() not yet called this tti, reset CCE state */
  if (current_tti != tti) {
@ -786,7 +726,6 @@ int sched::dl_sched(uint32_t tti, sched_interface::dl_sched_res_t* sched_result)
  /* Set CFI */
  sched_result->cfi = current_cfi; 
  pthread_mutex_unlock(&mutex);
  return 0;
 }
@ -798,8 +737,6 @@ int sched::ul_sched(uint32_t tti, srsenb::sched_interface::ul_sched_res_t* sched
    return 0; 
  }
  pthread_mutex_lock(&mutex);
  /* If dl_sched() not yet called this tti (this tti is +4ms advanced), reset CCE state */
  if (TTI_TX(current_tti) != tti) {
    bzero(used_cce, MAX_CCE*sizeof(bool));    
@ -858,14 +795,8 @@ int sched::ul_sched(uint32_t tti, srsenb::sched_interface::ul_sched_res_t* sched
    pucch.L        = (uint32_t) cfg.nrb_pucch;
    if(!ul_metric->update_allocation(pucch)) {
      log_h->warning("SCHED: Failed to allocate PUCCH\n");
-    }
+    } else {
-    for(it_t iter=ue_db.begin(); iter!=ue_db.end(); ++iter) {
+      log_h->debug("Allocating PUCCH (%d,%d)\n", pucch.RB_start, pucch.RB_start+pucch.L);
      sched_ue *user = (sched_ue *) &iter->second;
      uint16_t rnti = (uint16_t) iter->first;
      uint32_t prb_idx[2] = {0, 0};
      if(user->get_pucch_sched(current_tti, prb_idx)) {
        user->has_pucch = true;
      }
    }
  } else {
    for(it_t iter=ue_db.begin(); iter!=ue_db.end(); ++iter) {
@ -888,6 +819,10 @@ int sched::ul_sched(uint32_t tti, srsenb::sched_interface::ul_sched_res_t* sched
    ul_harq_proc::ul_alloc_t prach = {cfg.prach_freq_offset, 6};
    if(!ul_metric->update_allocation(prach)) {
      log_h->warning("SCHED: Failed to allocate PRACH RBs within (%d,%d)\n", prach.RB_start, prach.RB_start + prach.L);
      if (prach.RB_start + prach.L > cfg.cell.nof_prb) {
        fprintf(stderr, "Invalid PRACH configuration: frequency offset=%d outside bandwidth limits\n", cfg.prach_freq_offset);
        return -1;
      }
    }
    else {
      log_h->debug("SCHED: Allocated PRACH RBs within (%d,%d)\n", prach.RB_start, prach.RB_start + prach.L);
@ -999,8 +934,6 @@ int sched::ul_sched(uint32_t tti, srsenb::sched_interface::ul_sched_res_t* sched
  sched_result->nof_dci_elems   = nof_dci_elems;
  sched_result->nof_phich_elems = nof_phich_elems;
  pthread_mutex_unlock(&mutex);
  return SRSLTE_SUCCESS;
 }
--- a/srsenb/src/mac/scheduler_ue.cc
+++ b/srsenb/src/mac/scheduler_ue.cc
@ -60,14 +60,23 @@ sched_ue::sched_ue() : dl_next_alloc(NULL), ul_next_alloc(NULL), has_pucch(false
  bzero(&dl_harq, sizeof(dl_harq));
  bzero(&ul_harq, sizeof(ul_harq));
  bzero(&dl_ant_info, sizeof(dl_ant_info));
  pthread_mutex_init(&mutex, NULL);
  reset();
 }
 sched_ue::~sched_ue() {
  pthread_mutex_lock(&mutex);
  pthread_mutex_unlock(&mutex);
  pthread_mutex_destroy(&mutex);
 }
 void sched_ue::set_cfg(uint16_t rnti_, sched_interface::ue_cfg_t *cfg_, sched_interface::cell_cfg_t *cell_cfg, 
                            srslte_regs_t *regs, srslte::log *log_h_) 
 {
  reset();
  pthread_mutex_lock(&mutex);
  rnti  = rnti_;
  log_h = log_h_; 
  memcpy(&cell, &cell_cfg->cell, sizeof(srslte_cell_t));
@ -81,10 +90,6 @@ void sched_ue::set_cfg(uint16_t rnti_, sched_interface::ue_cfg_t *cfg_, sched_in
  }  
  Info("SCHED: Added user rnti=0x%x\n", rnti);
  for (int i=0;i<sched_interface::MAX_LC;i++) {
    set_bearer_cfg(i, &cfg.ue_bearers[i]);    
  }
  // Config HARQ processes
  for (int i=0;i<SCHED_MAX_HARQ_PROC;i++) {
    dl_harq[i].config(i, cfg.maxharq_tx, log_h); 
@ -97,10 +102,17 @@ void sched_ue::set_cfg(uint16_t rnti_, sched_interface::ue_cfg_t *cfg_, sched_in
      sched::generate_cce_location(regs, &dci_locations[cfi][sf_idx], cfi+1, sf_idx, rnti);
    }
  }
  pthread_mutex_unlock(&mutex);
  for (int i=0;i<sched_interface::MAX_LC;i++) {
    set_bearer_cfg(i, &cfg.ue_bearers[i]);
  }
 }
 void sched_ue::reset()
 {
  pthread_mutex_lock(&mutex);
  bzero(&cfg, sizeof(sched_interface::ue_cfg_t));
  sr = false;
  next_tpc_pusch = 1;
@ -123,17 +135,22 @@ void sched_ue::reset()
      ul_harq[i].reset(tb);
    }
  }
  pthread_mutex_unlock(&mutex);
  for (int i=0;i<sched_interface::MAX_LC; i++) {
    rem_bearer(i);
  }
 }
 void sched_ue::set_fixed_mcs(int mcs_ul, int mcs_dl) {
  pthread_mutex_lock(&mutex);
  fixed_mcs_ul = mcs_ul;
  fixed_mcs_dl = mcs_dl;
  pthread_mutex_unlock(&mutex);
 }
 void sched_ue::set_max_mcs(int mcs_ul, int mcs_dl) {
  pthread_mutex_lock(&mutex);
  if (mcs_ul < 0) {
    max_mcs_ul = 28;     
  } else {
@ -144,6 +161,7 @@ void sched_ue::set_max_mcs(int mcs_ul, int mcs_dl) {
  } else {
    max_mcs_dl = mcs_dl;     
  }
  pthread_mutex_unlock(&mutex);
 }
@ -155,6 +173,7 @@ void sched_ue::set_max_mcs(int mcs_ul, int mcs_dl) {
 void sched_ue::set_bearer_cfg(uint32_t lc_id, sched_interface::ue_bearer_cfg_t* cfg)
 {
  pthread_mutex_lock(&mutex);
  if (lc_id < sched_interface::MAX_LC) {
    memcpy(&lch[lc_id].cfg, cfg, sizeof(sched_interface::ue_bearer_cfg_t));
    lch[lc_id].buf_tx = 0; 
@ -163,13 +182,16 @@ void sched_ue::set_bearer_cfg(uint32_t lc_id, sched_interface::ue_bearer_cfg_t*
      Info("SCHED: Set bearer config lc_id=%d, direction=%d\n", lc_id, (int) lch[lc_id].cfg.direction);
    }
  }
  pthread_mutex_unlock(&mutex);
 }
 void sched_ue::rem_bearer(uint32_t lc_id)
 {
  pthread_mutex_lock(&mutex);
  if (lc_id < sched_interface::MAX_LC) {
    bzero(&lch[lc_id], sizeof(ue_bearer_t));
  }
  pthread_mutex_unlock(&mutex);
 }
 void sched_ue::phy_config_enabled(uint32_t tti, bool enabled)
@ -180,6 +202,7 @@ void sched_ue::phy_config_enabled(uint32_t tti, bool enabled)
 void sched_ue::ul_buffer_state(uint8_t lc_id, uint32_t bsr, bool set_value)
 {
  pthread_mutex_lock(&mutex);
  if (lc_id < sched_interface::MAX_LC) {
    if (set_value) {
      lch[lc_id].bsr = bsr;
@ -189,25 +212,30 @@ void sched_ue::ul_buffer_state(uint8_t lc_id, uint32_t bsr, bool set_value)
  }
  Debug("SCHED: bsr=%d, lcid=%d, bsr={%d,%d,%d,%d}\n", bsr, lc_id,
       lch[0].bsr, lch[1].bsr, lch[2].bsr, lch[3].bsr);
  pthread_mutex_unlock(&mutex);
 }
 void sched_ue::ul_phr(int phr)
 { 
-  power_headroom= phr; 
+  power_headroom = phr;
 }
 void sched_ue::dl_buffer_state(uint8_t lc_id, uint32_t tx_queue, uint32_t retx_queue)
 {
  pthread_mutex_lock(&mutex);
  if (lc_id < sched_interface::MAX_LC) {
    lch[lc_id].buf_retx = retx_queue;
    lch[lc_id].buf_tx   = tx_queue;
    Debug("SCHED: DL lcid=%d buffer_state=%d,%d\n", lc_id, tx_queue, retx_queue);
  }
  pthread_mutex_unlock(&mutex);
 }
 void sched_ue::mac_buffer_state(uint32_t ce_code)
 {
  pthread_mutex_lock(&mutex);
  buf_mac++;
  pthread_mutex_unlock(&mutex);
 }
 void sched_ue::set_sr()
@ -222,42 +250,59 @@ void sched_ue::unset_sr()
 bool sched_ue::pucch_sr_collision(uint32_t current_tti, uint32_t n_cce)
 {
  bool ret = false;
  pthread_mutex_lock(&mutex);
  uint32_t n_pucch_sr, n_pucch_nosr;
  srslte_pucch_sched_t pucch_sched;
  bool has_sr;
  if (!phy_config_dedicated_enabled) {
-    return false; 
+    goto unlock;
  }
  srslte_pucch_sched_t pucch_sched; 
  pucch_sched.sps_enabled = false;
  pucch_sched.n_pucch_sr = cfg.sr_N_pucch;
  pucch_sched.n_pucch_2  = cfg.n_pucch_cqi;
  pucch_sched.N_pucch_1  = cfg.pucch_cfg.n1_pucch_an; 
-  bool has_sr = cfg.sr_enabled && srslte_ue_ul_sr_send_tti(cfg.sr_I, current_tti);    
+  has_sr = cfg.sr_enabled && srslte_ue_ul_sr_send_tti(cfg.sr_I, current_tti);
  if (!has_sr) {
-    return false; 
+    goto unlock;
  }
-  uint32_t n_pucch_sr = srslte_pucch_get_npucch(n_cce, SRSLTE_PUCCH_FORMAT_1A, true, &pucch_sched);
+  n_pucch_sr = srslte_pucch_get_npucch(n_cce, SRSLTE_PUCCH_FORMAT_1A, true, &pucch_sched);
-  uint32_t n_pucch_nosr = srslte_pucch_get_npucch(n_cce, SRSLTE_PUCCH_FORMAT_1A, false, &pucch_sched);
+  n_pucch_nosr = srslte_pucch_get_npucch(n_cce, SRSLTE_PUCCH_FORMAT_1A, false, &pucch_sched);
  if (srslte_pucch_n_prb(&cfg.pucch_cfg, SRSLTE_PUCCH_FORMAT_1A, n_pucch_sr, cell.nof_prb, cell.cp, 0) == 
      srslte_pucch_n_prb(&cfg.pucch_cfg, SRSLTE_PUCCH_FORMAT_1A, n_pucch_nosr, cell.nof_prb, cell.cp, 0)) 
  {
-    return true;       
+    ret = true;
  } else {
-    return false; 
+    ret = false;
  }
 unlock:
  pthread_mutex_unlock(&mutex);
  return ret;
 }
 bool sched_ue::get_pucch_sched(uint32_t current_tti, uint32_t prb_idx[2])
 {
  bool ret = false;
  bool has_sr;
  pthread_mutex_lock(&mutex);
  if (!phy_config_dedicated_enabled) {
-    return false; 
+    goto unlock;
  }
  srslte_pucch_sched_t pucch_sched;
  pucch_sched.sps_enabled = false;
  pucch_sched.n_pucch_sr = cfg.sr_N_pucch;
  pucch_sched.n_pucch_2  = cfg.n_pucch_cqi;
  pucch_sched.N_pucch_1  = cfg.pucch_cfg.n1_pucch_an;
-  bool has_sr = cfg.sr_enabled && srslte_ue_ul_sr_send_tti(cfg.sr_I, current_tti);    
+  has_sr = cfg.sr_enabled && srslte_ue_ul_sr_send_tti(cfg.sr_I, current_tti);
  // First check if it has pending ACKs 
  for (int i=0;i<SCHED_MAX_HARQ_PROC;i++) {
@ -270,7 +315,8 @@ bool sched_ue::get_pucch_sched(uint32_t current_tti, uint32_t prb_idx[2])
        Debug("SCHED: Reserved Format1A PUCCH for rnti=0x%x, n_prb=%d,%d, n_pucch=%d, ncce=%d, has_sr=%d, n_pucch_1=%d\n",
              rnti, prb_idx[0], prb_idx[1], n_pucch, dl_harq[i].get_n_cce(), has_sr, pucch_sched.N_pucch_1);
      }
-      return true;
+      ret = true;
      goto unlock;
    }
  }
  // If there is no Format1A/B, then check if it's expecting Format1
@ -281,7 +327,8 @@ bool sched_ue::get_pucch_sched(uint32_t current_tti, uint32_t prb_idx[2])
      }
    }
    Debug("SCHED: Reserved Format1 PUCCH for rnti=0x%x, n_prb=%d,%d, n_pucch=%d\n", rnti, prb_idx[0], prb_idx[1], cfg.sr_N_pucch);
-    return true; 
+    ret = true;
    goto unlock;
  }
  // Finally check Format2 (periodic CQI)
  if (cfg.cqi_enabled && srslte_cqi_send(cfg.cqi_idx, current_tti)) {
@ -292,27 +339,41 @@ bool sched_ue::get_pucch_sched(uint32_t current_tti, uint32_t prb_idx[2])
      Debug("SCHED: Reserved Format2 PUCCH for rnti=0x%x, n_prb=%d,%d, n_pucch=%d, pmi_idx=%d\n",
            rnti, prb_idx[0], prb_idx[1], cfg.cqi_pucch, cfg.cqi_idx);
    }
-    return true;
+    ret = true;
    goto unlock;
  }
-  return false; 
+  ret = false;
 unlock:
  pthread_mutex_unlock(&mutex);
  return ret;
 }
 int sched_ue::set_ack_info(uint32_t tti, uint32_t tb_idx, bool ack)
 {
  pthread_mutex_lock(&mutex);
  int ret = -1;
  for (int i=0;i<SCHED_MAX_HARQ_PROC;i++) {
    if (TTI_TX(dl_harq[i].get_tti()) == tti) {
      Debug("SCHED: Set ACK=%d for rnti=0x%x, pid=%d.%d, tti=%d\n", ack, rnti, i, tb_idx, tti);
      dl_harq[i].set_ack(tb_idx, ack);
-      return dl_harq[i].get_tbs(tb_idx);
+      ret = dl_harq[i].get_tbs(tb_idx);
      goto unlock;
    }
  }
  Warning("SCHED: Received ACK info for unknown TTI=%d\n", tti);
-  return -1;
+  ret = -1;
 unlock:
  pthread_mutex_unlock(&mutex);
  return ret;
 }
 void sched_ue::ul_recv_len(uint32_t lcid, uint32_t len)
 {
  pthread_mutex_lock(&mutex);
  // Remove PDCP header??
  if (len > 4) {
    len -= 4; 
@ -328,54 +389,72 @@ void sched_ue::ul_recv_len(uint32_t lcid, uint32_t len)
  }
  Debug("SCHED: recv_len=%d, lcid=%d, bsr={%d,%d,%d,%d}\n", len, lcid,
       lch[0].bsr, lch[1].bsr, lch[2].bsr, lch[3].bsr);
  pthread_mutex_unlock(&mutex);
 }
 void sched_ue::set_ul_crc(uint32_t tti, bool crc_res)
 {
  pthread_mutex_lock(&mutex);
  get_ul_harq(tti)->set_ack(0, crc_res);
  pthread_mutex_unlock(&mutex);
 }
 void sched_ue::set_dl_ri(uint32_t tti, uint32_t ri)
 {
  pthread_mutex_lock(&mutex);
  dl_ri     = ri;
  dl_ri_tti = tti;
  pthread_mutex_unlock(&mutex);
 }
 void sched_ue::set_dl_pmi(uint32_t tti, uint32_t pmi)
 {
  pthread_mutex_lock(&mutex);
  dl_pmi     = pmi;
  dl_pmi_tti = tti;
  pthread_mutex_unlock(&mutex);
 }
 void sched_ue::set_dl_cqi(uint32_t tti, uint32_t cqi)
 {
  pthread_mutex_lock(&mutex);
  dl_cqi     = cqi;
  dl_cqi_tti = tti;
  pthread_mutex_unlock(&mutex);
 }
 void sched_ue::set_dl_ant_info(LIBLTE_RRC_ANTENNA_INFO_DEDICATED_STRUCT *d)
 {
  pthread_mutex_lock(&mutex);
  memcpy(&dl_ant_info, d, sizeof(LIBLTE_RRC_ANTENNA_INFO_DEDICATED_STRUCT));
  pthread_mutex_unlock(&mutex);
 }
 void sched_ue::set_ul_cqi(uint32_t tti, uint32_t cqi, uint32_t ul_ch_code)
 {
  pthread_mutex_lock(&mutex);
  ul_cqi     = cqi;
  ul_cqi_tti = tti;
  pthread_mutex_unlock(&mutex);
 }
 void sched_ue::tpc_inc() {
  pthread_mutex_lock(&mutex);
  if (power_headroom > 0) {
    next_tpc_pusch = 3;
    next_tpc_pucch = 3;    
  }
  log_h->info("SCHED: Set TCP=%d for rnti=0x%x\n", next_tpc_pucch, rnti);
  pthread_mutex_unlock(&mutex);
 }
 void sched_ue::tpc_dec() {
  pthread_mutex_lock(&mutex);
  next_tpc_pusch = 0;
  next_tpc_pucch = 0;
  log_h->info("SCHED: Set TCP=%d for rnti=0x%x\n", next_tpc_pucch, rnti);
  pthread_mutex_unlock(&mutex);
 }
 /*******************************************************
@ -391,6 +470,8 @@ int sched_ue::generate_format1(dl_harq_proc *h,
                         uint32_t tti,
                         uint32_t cfi)
 {
  pthread_mutex_lock(&mutex);
  srslte_ra_dl_dci_t *dci = &data->dci;
  bzero(dci, sizeof(srslte_ra_dl_dci_t));
@ -410,7 +491,7 @@ int sched_ue::generate_format1(dl_harq_proc *h,
  }
  if (h->is_empty(0)) {
-    uint32_t req_bytes = get_pending_dl_new_data(tti); 
+    uint32_t req_bytes = get_pending_dl_new_data_unlocked(tti);
    uint32_t nof_prb = format1_count_prb(h->get_rbgmask(), cell.nof_prb);  
    srslte_ra_dl_grant_t grant; 
@ -463,6 +544,7 @@ int sched_ue::generate_format1(dl_harq_proc *h,
    dci->tb_en[0]     = true;
    dci->tb_en[1]     = false; 
  }
  pthread_mutex_unlock(&mutex);
  return tbs;
 }
@ -471,8 +553,21 @@ int sched_ue::generate_format2a(dl_harq_proc *h,
                         sched_interface::dl_sched_data_t *data,
                         uint32_t tti,
                         uint32_t cfi)
 {
  pthread_mutex_lock(&mutex);
  int ret = generate_format2a_unlocked(h, data, tti, cfi);
  pthread_mutex_unlock(&mutex);
  return ret;
 }
 // Generates a Format2a grant
 int sched_ue::generate_format2a_unlocked(dl_harq_proc *h,
                                       sched_interface::dl_sched_data_t *data,
                                       uint32_t tti,
                                       uint32_t cfi)
 {
  bool tb_en[SRSLTE_MAX_TB] = {false};
  srslte_ra_dl_dci_t *dci = &data->dci;
  bzero(dci, sizeof(srslte_ra_dl_dci_t));
@ -512,7 +607,7 @@ int sched_ue::generate_format2a(dl_harq_proc *h,
  }
  for (uint32_t tb = 0; tb < SRSLTE_MAX_TB; tb++) {
-    uint32_t req_bytes = get_pending_dl_new_data(tti);
+    uint32_t req_bytes = get_pending_dl_new_data_unlocked(tti);
    int mcs = 0;
    int tbs = 0;
@ -566,17 +661,22 @@ int sched_ue::generate_format2a(dl_harq_proc *h,
  dci->tpc_pucch = (uint8_t) next_tpc_pucch;
  next_tpc_pucch = 1;
-  return data->tbs[0] + data->tbs[1];
+  int ret = data->tbs[0] + data->tbs[1];
  return ret;
 }
 // Generates a Format2 grant
 int sched_ue::generate_format2(dl_harq_proc *h,
                         sched_interface::dl_sched_data_t *data,
                         uint32_t tti,
                         uint32_t cfi)
 {
  pthread_mutex_lock(&mutex);
  /* Call Format 2a (common) */
-  int ret = generate_format2a(h, data, tti, cfi);
+  int ret = generate_format2a_unlocked(h, data, tti, cfi);
  /* Compute precoding information */
  if (SRSLTE_RA_DL_GRANT_NOF_TB(&data->dci) == 1) {
@ -585,6 +685,8 @@ int sched_ue::generate_format2(dl_harq_proc *h,
    data->dci.pinfo = (uint8_t) (dl_pmi & 1);
  }
  pthread_mutex_unlock(&mutex);
  return ret;
 }
@ -594,6 +696,8 @@ int sched_ue::generate_format0(ul_harq_proc *h,
                         uint32_t tti,
                         bool cqi_request) 
 {
  pthread_mutex_lock(&mutex);
  srslte_ra_ul_dci_t *dci = &data->dci;
  bzero(dci, sizeof(srslte_ra_ul_dci_t));
@ -608,7 +712,7 @@ int sched_ue::generate_format0(ul_harq_proc *h,
    h->new_tx(tti, mcs, tbs); 
  } else if (h->is_empty(0)) {
-    uint32_t req_bytes = get_pending_ul_new_data(tti); 
+    uint32_t req_bytes = get_pending_ul_new_data_unlocked(tti);
    uint32_t N_srs = 0; 
    uint32_t nof_re = (2*(SRSLTE_CP_NSYMB(cell.cp)-1) - N_srs)*allocation.L*SRSLTE_NRE;
@ -646,6 +750,8 @@ int sched_ue::generate_format0(ul_harq_proc *h,
    next_tpc_pusch   = 1; 
  }
  pthread_mutex_unlock(&mutex);
  return tbs;
 }
@ -678,11 +784,20 @@ bool sched_ue::is_first_dl_tx()
 }
 bool sched_ue::needs_cqi(uint32_t tti, bool will_be_sent)
 {
  pthread_mutex_lock(&mutex);
  bool ret = needs_cqi_unlocked(tti, will_be_sent);
  pthread_mutex_unlock(&mutex);
  return ret;
 }
 // Private lock-free implemenentation
 bool sched_ue::needs_cqi_unlocked(uint32_t tti, bool will_be_sent)
 {
  bool ret = false;
  if (phy_config_dedicated_enabled &&
      cfg.aperiodic_cqi_period     &&
-      get_pending_dl_new_data(tti) > 0) 
+      get_pending_dl_new_data_unlocked(tti) > 0)
  {
    uint32_t interval = srslte_tti_interval(tti, dl_cqi_tti);
    bool needscqi = interval >= cfg.aperiodic_cqi_period;
@ -702,12 +817,9 @@ bool sched_ue::needs_cqi(uint32_t tti, bool will_be_sent)
 uint32_t sched_ue::get_pending_dl_new_data(uint32_t tti)
 {
-  uint32_t pending_data = 0; 
+  pthread_mutex_lock(&mutex);
-  for (int i=0;i<sched_interface::MAX_LC;i++) {
+  uint32_t pending_data = get_pending_dl_new_data_unlocked(tti);
-    if (bearer_is_dl(&lch[i])) {
+  pthread_mutex_unlock(&mutex);
      pending_data += lch[i].buf_retx + lch[i].buf_tx;
    }
  }
  return pending_data;
 }
@ -717,17 +829,48 @@ uint32_t sched_ue::get_pending_dl_new_data(uint32_t tti)
 /// \return number of bytes to be allocated
 uint32_t sched_ue::get_pending_dl_new_data_total(uint32_t tti)
 {
-  uint32_t req_bytes = get_pending_dl_new_data(tti);
+  pthread_mutex_lock(&mutex);
  uint32_t req_bytes = get_pending_dl_new_data_unlocked(tti);
  if(req_bytes>0) {
    req_bytes += (req_bytes < 128) ? 2 : 3; // consider the header
    if(is_first_dl_tx()) {
      req_bytes += 6; // count for RAR
    }
  }
  pthread_mutex_unlock(&mutex);
  return req_bytes;
 }
 // Private lock-free implementation
 uint32_t sched_ue::get_pending_dl_new_data_unlocked(uint32_t tti)
 {
  uint32_t pending_data = 0;
  for (int i=0;i<sched_interface::MAX_LC;i++) {
    if (bearer_is_dl(&lch[i])) {
      pending_data += lch[i].buf_retx + lch[i].buf_tx;
    }
  }
  return pending_data;
 }
 uint32_t sched_ue::get_pending_ul_new_data(uint32_t tti)
 {
  pthread_mutex_lock(&mutex);
  uint32_t pending_data = get_pending_ul_new_data_unlocked(tti);
  pthread_mutex_unlock(&mutex);
  return pending_data;
 }
 uint32_t sched_ue::get_pending_ul_old_data()
 {
  pthread_mutex_lock(&mutex);
  uint32_t pending_data = get_pending_ul_old_data_unlocked();
  pthread_mutex_unlock(&mutex);
  return pending_data;
 }
 // Private lock-free implementation
 uint32_t sched_ue::get_pending_ul_new_data_unlocked(uint32_t tti)
 {
  uint32_t pending_data = 0;
  for (int i=0;i<sched_interface::MAX_LC;i++) {
@ -738,10 +881,10 @@ uint32_t sched_ue::get_pending_ul_new_data(uint32_t tti)
  if (!pending_data && is_sr_triggered()) {
    return 512;
  }
-  if (!pending_data && needs_cqi(tti)) {
+  if (!pending_data && needs_cqi_unlocked(tti)) {
    return 128;
  }
-  uint32_t pending_ul_data = get_pending_ul_old_data(); 
+  uint32_t pending_ul_data = get_pending_ul_old_data_unlocked();
  if (pending_data > pending_ul_data) {
    pending_data -= pending_ul_data;
  } else {
@ -754,7 +897,8 @@ uint32_t sched_ue::get_pending_ul_new_data(uint32_t tti)
  return pending_data;
 }
-uint32_t sched_ue::get_pending_ul_old_data()
+// Private lock-free implementation
 uint32_t sched_ue::get_pending_ul_old_data_unlocked()
 {
  uint32_t pending_data = 0;
  for (int i=0;i<SCHED_MAX_HARQ_PROC;i++) {
@ -775,6 +919,8 @@ uint32_t sched_ue::rgb_to_prb(uint32_t nof_rbg)
 uint32_t sched_ue::get_required_prb_dl(uint32_t req_bytes, uint32_t nof_ctrl_symbols)
 {
  pthread_mutex_lock(&mutex);
  int mcs = 0;
  uint32_t nof_re = 0;
  int tbs = 0;
@ -791,10 +937,12 @@ uint32_t sched_ue::get_required_prb_dl(uint32_t req_bytes, uint32_t nof_ctrl_sym
    if (tbs > 0) {
      nbytes = tbs;
    } else if (tbs < 0) {
      pthread_mutex_unlock(&mutex);
      return 0;
    }
  }
  pthread_mutex_unlock(&mutex);
  return n;
 }
@ -810,6 +958,8 @@ uint32_t sched_ue::get_required_prb_ul(uint32_t req_bytes)
    return 0; 
  }
  pthread_mutex_lock(&mutex);
  for (n=1;n<cell.nof_prb && nbytes < req_bytes + 4;n++) {
    uint32_t nof_re = (2*(SRSLTE_CP_NSYMB(cell.cp)-1) - N_srs)*n*SRSLTE_NRE;
    int tbs = 0; 
@ -827,6 +977,8 @@ uint32_t sched_ue::get_required_prb_ul(uint32_t req_bytes)
    n++;
  }
  pthread_mutex_unlock(&mutex);
  return n; 
 }
@ -835,10 +987,26 @@ bool sched_ue::is_sr_triggered()
  return sr; 
 }
 void sched_ue::reset_timeout_dl_harq(uint32_t tti) {
  for (int i=0;i<SCHED_MAX_HARQ_PROC;i++) {
    if (!(dl_harq[i].is_empty(0) && dl_harq[i].is_empty(1))) {
      log_h->info("SCHED: pid=%d is empty\n", i);
      if (srslte_tti_interval(tti, dl_harq[i].get_tti()) > 50) {
        log_h->info("SCHED: pid=%d is old. tti_pid=%d, now is %d, resetting\n", i, dl_harq[i].get_tti(), tti);
        dl_harq[i].reset(0);
        dl_harq[i].reset(1);
      }
    }
  }
 }
 /* Gets HARQ process with oldest pending retx */
 dl_harq_proc* sched_ue::get_pending_dl_harq(uint32_t tti)
 {
 #if ASYNC_DL_SCHED
  pthread_mutex_lock(&mutex);
  int oldest_idx=-1;
  uint32_t oldest_tti = 0; 
  for (int i=0;i<SCHED_MAX_HARQ_PROC;i++) {
@ -850,11 +1018,15 @@ dl_harq_proc* sched_ue::get_pending_dl_harq(uint32_t tti)
      }
    }
  }
  dl_harq_proc *h = NULL;
  if (oldest_idx >= 0) {
-    return &dl_harq[oldest_idx]; 
+    h = &dl_harq[oldest_idx];
  } else {
    return NULL; 
  }
  pthread_mutex_unlock(&mutex);
  return h;
 #else
  return &dl_harq[tti%SCHED_MAX_HARQ_PROC];
 #endif
@ -862,12 +1034,16 @@ dl_harq_proc* sched_ue::get_pending_dl_harq(uint32_t tti)
 dl_harq_proc* sched_ue::get_empty_dl_harq()
 {
-  for (int i=0;i<SCHED_MAX_HARQ_PROC;i++) {
+  pthread_mutex_lock(&mutex);
  dl_harq_proc *h = NULL;
  for (int i=0;i<SCHED_MAX_HARQ_PROC && !h;i++) {
    if (dl_harq[i].is_empty(0) && dl_harq[i].is_empty(1)) {
-      return &dl_harq[i]; 
+      h = &dl_harq[i];
    }
  }
-  return NULL;
+  pthread_mutex_unlock(&mutex);
  return h;
 }
 ul_harq_proc* sched_ue::get_ul_harq(uint32_t tti)
@ -908,6 +1084,7 @@ srslte_dci_format_t sched_ue::get_dci_format() {
 /* Find lowest DCI aggregation level supported by the UE spectral efficiency */
 uint32_t sched_ue::get_aggr_level(uint32_t nof_bits)
 {
  pthread_mutex_lock(&mutex);
  uint32_t l=0;
  float max_coderate = srslte_cqi_to_coderate(dl_cqi);
  float coderate = 99;
@ -922,6 +1099,7 @@ uint32_t sched_ue::get_aggr_level(uint32_t nof_bits)
    l++;
  } while(l<l_max && factor*coderate > max_coderate);
  Debug("SCHED: CQI=%d, l=%d, nof_bits=%d, coderate=%.2f, max_coderate=%.2f\n", dl_cqi, l, nof_bits, coderate, max_coderate);
  pthread_mutex_unlock(&mutex);
  return l;
 }
@ -1029,9 +1207,6 @@ int sched_ue::alloc_tbs(uint32_t nof_prb,
  uint32_t max_Qm  = is_ul?4:6; // Allow 16-QAM in PUSCH Only
  // TODO: Compute real spectral efficiency based on PUSCH-UCI configuration
  if (has_pucch && is_ul) {
    cqi-=3;
  }
  int tbs = cqi_to_tbs(cqi, nof_prb, nof_re, max_mcs, max_Qm, &sel_mcs)/8;
--- a/srsenb/src/mac/ue.cc
+++ b/srsenb/src/mac/ue.cc
@ -115,7 +115,6 @@ srslte_softbuffer_tx_t* ue::get_tx_softbuffer(uint32_t harq_process, uint32_t tb
 uint8_t* ue::request_buffer(uint32_t tti, uint32_t len)
 {
  uint8_t *ret = NULL; 
  pthread_mutex_lock(&mutex);
  if (len > 0) {
    if (!pending_buffers[tti%NOF_HARQ_PROCESSES]) {
      ret = pdus.request(len);   
@ -127,7 +126,6 @@ uint8_t* ue::request_buffer(uint32_t tti, uint32_t len)
  } else {
    log_h->warning("Requesting buffer for zero bytes\n");
  }
  pthread_mutex_unlock(&mutex);
  return ret;
 }
@ -190,12 +188,12 @@ void ue::process_pdu(uint8_t* pdu, uint32_t nof_bytes, srslte::pdu_queue::channe
      }
      // Indicate scheduler to update BSR counters 
-      sched->ul_recv_len(rnti, mac_msg_ul.get()->get_sdu_lcid(), mac_msg_ul.get()->get_payload_size());
+      //sched->ul_recv_len(rnti, mac_msg_ul.get()->get_sdu_lcid(), mac_msg_ul.get()->get_payload_size());
      // Indicate RRC about successful activity if valid RLC message is received
      if (mac_msg_ul.get()->get_payload_size() > 64) { // do not count RLC status messages only
        rrc->set_activity_user(rnti);
-        log_h->info("UL activity rnti=0x%x, n_bytes=%d\n", rnti, nof_bytes);
+        log_h->debug("UL activity rnti=0x%x, n_bytes=%d\n", rnti, nof_bytes);
      }
      if ((int) mac_msg_ul.get()->get_payload_size() > most_data) {
--- a/srsenb/src/main.cc
+++ b/srsenb/src/main.cc
@ -167,7 +167,7 @@ void parse_args(all_args_t *args, int argc, char* argv[]) {
        "Number of PHY threads")
    ("expert.link_failure_nof_err",
-        bpo::value<int>(&args->expert.mac.link_failure_nof_err)->default_value(50),
+        bpo::value<int>(&args->expert.mac.link_failure_nof_err)->default_value(100),
        "Number of PUSCH failures after which a radio-link failure is triggered")
    ("expert.max_prach_offset_us",
--- a/srsenb/src/metrics_stdout.cc
+++ b/srsenb/src/metrics_stdout.cc
@ -41,6 +41,8 @@ using namespace std;
 namespace srsenb{
 #define MAX(a,b) (a>b?a:b)
 char const * const prefixes[2][9] =
 {
  {   "",   "m",   "u",   "n",    "p",    "f",    "a",    "z",    "y", },
@ -125,25 +127,41 @@ void metrics_stdout::print_metrics()
      }
      cout << std::hex << metrics.mac[i].rnti << " ";
-      cout << float_to_string(metrics.mac[i].dl_cqi, 2);
+      cout << float_to_string(MAX(0.1,metrics.mac[i].dl_cqi), 2);
      cout << float_to_string(metrics.mac[i].dl_ri, 1);
-      cout << float_to_string(metrics.phy[i].dl.mcs, 2);
+      if(not isnan(metrics.phy[i].dl.mcs)) {
-      cout << float_to_eng_string((float) metrics.mac[i].tx_brate/metrics_report_period, 2);
+        cout << float_to_string(MAX(0.1,metrics.phy[i].dl.mcs), 2);
      } else {
        cout << float_to_string(0,2);
      }
      if (metrics.mac[i].tx_brate > 0 && metrics_report_period) {
        cout << float_to_eng_string(MAX(0.1,(float) metrics.mac[i].tx_brate/metrics_report_period), 2);
      } else {
        cout << float_to_string(0, 2) << "";
      }
      if (metrics.mac[i].tx_pkts > 0 && metrics.mac[i].tx_errors) {
-        cout << float_to_string((float) 100*metrics.mac[i].tx_errors/metrics.mac[i].tx_pkts, 1) << "%";
+        cout << float_to_string(MAX(0.1,(float) 100*metrics.mac[i].tx_errors/metrics.mac[i].tx_pkts), 1) << "%";
      } else {
        cout << float_to_string(0, 1) << "%";
      }
-      cout << float_to_string(metrics.phy[i].ul.sinr, 2);
+      if(not isnan(metrics.phy[i].ul.sinr)) {
        cout << float_to_string(MAX(0.1,metrics.phy[i].ul.sinr), 2);
      } else {
        cout << float_to_string(0,2);
      }
      cout << float_to_string(metrics.mac[i].phr, 2);
-      cout << float_to_string(metrics.phy[i].ul.mcs, 2);
+      if(not isnan(metrics.phy[i].ul.mcs)) {
        cout << float_to_string(MAX(0.1,metrics.phy[i].ul.mcs), 2);
      } else {
        cout << float_to_string(0,2);
      }
      if (metrics.mac[i].rx_brate > 0 && metrics_report_period) {
-        cout << float_to_eng_string((float) metrics.mac[i].rx_brate/metrics_report_period, 2);
+        cout << float_to_eng_string(MAX(0.1,(float) metrics.mac[i].rx_brate/metrics_report_period), 2);
      } else {        
-        cout << " " << float_to_string(0, 2);
+        cout << float_to_string(0, 2) << "";
      }
      if (metrics.mac[i].rx_pkts > 0 && metrics.mac[i].rx_errors > 0) {
-        cout << float_to_string((float) 100*metrics.mac[i].rx_errors/metrics.mac[i].rx_pkts, 1) << "%";
+        cout << float_to_string(MAX(0.1,(float) 100*metrics.mac[i].rx_errors/metrics.mac[i].rx_pkts), 1) << "%";
      } else {
        cout << float_to_string(0, 1) << "%";
      }
--- a/srsenb/src/phy/phch_worker.cc
+++ b/srsenb/src/phy/phch_worker.cc
@ -39,10 +39,10 @@
 using namespace std; 
 // Enable this to log SI
-#define LOG_THIS(a) 1
+//#define LOG_THIS(a) 1
 // Enable this one to skip SI-RNTI
-//#define LOG_THIS(rnti) (rnti != 0xFFFF)
+#define LOG_THIS(rnti) (rnti != 0xFFFF)
 /* Define GUI-related things */
@ -185,11 +185,11 @@ void phch_worker::stop()
        free(signal_buffer_tx[p]);
      }
    }
    pthread_mutex_unlock(&mutex);
    pthread_mutex_destroy(&mutex);
  } else {
    printf("Warning could not stop properly PHY\n");
  }
  pthread_mutex_unlock(&mutex);
  pthread_mutex_destroy(&mutex);
 }
 void phch_worker::reset() 
 {
@ -372,6 +372,7 @@ void phch_worker::work_imp()
  subframe_cfg_t sf_cfg;
  phy->get_sf_config(&sf_cfg, tti_tx_dl);// TODO difference between  tti_tx_dl and t_tx_dl
  pthread_mutex_lock(&mutex);
  is_worker_running = true;
--- a/srsenb/src/upper/gtpu.cc
+++ b/srsenb/src/upper/gtpu.cc
@ -23,7 +23,7 @@
 * and at http://www.gnu.org/licenses/.
 *
 */
-
+#include "srslte/upper/gtpu.h"
 #include "srsenb/hdr/upper/gtpu.h"
 #include <unistd.h>
 #include <sys/socket.h>
@ -31,12 +31,11 @@
 #include <errno.h>
 using namespace srslte;
 namespace srsenb {
-  gtpu::gtpu():mchthread()
+gtpu::gtpu():mchthread()
-  {
+{
-  }
+}
 bool gtpu::init(std::string gtp_bind_addr_, std::string mme_addr_, srsenb::pdcp_interface_gtpu* pdcp_, srslte::log* gtpu_log_, bool enable_mbsfn)
 {
@ -148,7 +147,7 @@ void gtpu::write_pdu(uint16_t rnti, uint32_t lcid, srslte::byte_buffer_t* pdu)
  servaddr.sin_addr.s_addr = htonl(rnti_bearers[rnti].spgw_addrs[lcid]);
  servaddr.sin_port        = htons(GTPU_PORT);
-  gtpu_write_header(&header, pdu);
+  gtpu_write_header(&header, pdu, gtpu_log);
  if (sendto(snk_fd, pdu->msg, pdu->N_bytes, MSG_EOR, (struct sockaddr*)&servaddr, sizeof(struct sockaddr_in))<0) {
    perror("sendto");
  }
@ -230,7 +229,7 @@ void gtpu::run_thread()
    pdu->N_bytes = (uint32_t) n;
    gtpu_header_t header;
-    gtpu_read_header(pdu, &header);
+    gtpu_read_header(pdu, &header,gtpu_log);
    uint16_t rnti = 0;
    uint16_t lcid = 0;
@ -265,69 +264,6 @@ void gtpu::run_thread()
  running = false;
 }
 /****************************************************************************
 * Header pack/unpack helper functions
 * Ref: 3GPP TS 29.281 v10.1.0 Section 5
 ***************************************************************************/
 bool gtpu::gtpu_write_header(gtpu_header_t *header, srslte::byte_buffer_t *pdu)
 {
  if(header->flags != 0x30) {
    gtpu_log->error("gtpu_write_header - Unhandled header flags: 0x%x\n", header->flags);
    return false;
  }
  if(header->message_type != 0xFF) {
    gtpu_log->error("gtpu_write_header - Unhandled message type: 0x%x\n", header->message_type);
    return false;
  }
  if(pdu->get_headroom() < GTPU_HEADER_LEN) {
    gtpu_log->error("gtpu_write_header - No room in PDU for header\n");
    return false;
  }
  pdu->msg      -= GTPU_HEADER_LEN;
  pdu->N_bytes  += GTPU_HEADER_LEN;
  uint8_t *ptr = pdu->msg;
  *ptr = header->flags;
  ptr++;
  *ptr = header->message_type;
  ptr++;
  uint16_to_uint8(header->length, ptr);
  ptr += 2;
  uint32_to_uint8(header->teid, ptr);
  return true;
 }
 bool gtpu::gtpu_read_header(srslte::byte_buffer_t *pdu, gtpu_header_t *header)
 {
  uint8_t *ptr  = pdu->msg;
  pdu->msg      += GTPU_HEADER_LEN;
  pdu->N_bytes  -= GTPU_HEADER_LEN;
  header->flags         = *ptr;
  ptr++;
  header->message_type  = *ptr;
  ptr++;
  uint8_to_uint16(ptr, &header->length);
  ptr += 2;
  uint8_to_uint32(ptr, &header->teid);
  if(header->flags != 0x30) {
    gtpu_log->error("gtpu_read_header - Unhandled header flags: 0x%x\n", header->flags);
    return false;
  }
  if(header->message_type != 0xFF) {
    gtpu_log->error("gtpu_read_header - Unhandled message type: 0x%x\n", header->message_type);
    return false;
  }
  return true;
 }
 /****************************************************************************
 * TEID to RNIT/LCID helper functions
 ***************************************************************************/
@ -428,6 +364,9 @@ void gtpu::mch_thread::run_thread()
    pdu->N_bytes = (uint32_t) n;
    gtpu_header_t header;
    gtpu_read_header(pdu, &header, gtpu_log);
    pdcp->write_sdu(SRSLTE_MRNTI, lcid, pdu);
    do {
      pdu = pool_allocate;
--- a/srsenb/src/upper/pdcp.cc
+++ b/srsenb/src/upper/pdcp.cc
@ -37,18 +37,24 @@ void pdcp::init(rlc_interface_pdcp* rlc_, rrc_interface_pdcp* rrc_, gtpu_interfa
  log_h = pdcp_log_;
  pool = srslte::byte_buffer_pool::get_instance();
  pthread_rwlock_init(&rwlock, NULL);
 }
 void pdcp::stop()
 {
  pthread_rwlock_wrlock(&rwlock);
  for(std::map<uint32_t, user_interface>::iterator iter=users.begin(); iter!=users.end(); ++iter) {
-    rem_user((uint32_t) iter->first);
+    clear_user(&iter->second);
  }
  users.clear();
  pthread_rwlock_unlock(&rwlock);
  pthread_rwlock_destroy(&rwlock);
 }
 void pdcp::add_user(uint16_t rnti)
 {
  pthread_rwlock_rdlock(&rwlock);
  if (users.count(rnti) == 0) {
    srslte::pdcp *obj = new srslte::pdcp;     
    obj->init(&users[rnti].rlc_itf, &users[rnti].rrc_itf, &users[rnti].gtpu_itf, log_h, RB_ID_SRB0, SECURITY_DIRECTION_DOWNLINK);
@ -61,20 +67,30 @@ void pdcp::add_user(uint16_t rnti)
    users[rnti].gtpu_itf.gtpu = gtpu;
    users[rnti].pdcp = obj;
  }
  pthread_rwlock_unlock(&rwlock);
 }
 // Private unlocked deallocation of user
 void pdcp::clear_user(user_interface *ue)
 {
  ue->pdcp->stop();
  delete ue->pdcp;
  ue->pdcp = NULL;
 }
 void pdcp::rem_user(uint16_t rnti)
 {
  pthread_rwlock_wrlock(&rwlock);
  if (users.count(rnti)) {
-    users[rnti].pdcp->stop();
+    clear_user(&users[rnti]);
    delete users[rnti].pdcp; 
    users[rnti].pdcp = NULL;
    users.erase(rnti);
  }
  pthread_rwlock_unlock(&rwlock);
 }
 void pdcp::add_bearer(uint16_t rnti, uint32_t lcid, srslte::srslte_pdcp_config_t cfg)
 {
  pthread_rwlock_rdlock(&rwlock);
  if (users.count(rnti)) {
    if(rnti != SRSLTE_MRNTI){
      users[rnti].pdcp->add_bearer(lcid, cfg);
@ -82,37 +98,45 @@ void pdcp::add_bearer(uint16_t rnti, uint32_t lcid, srslte::srslte_pdcp_config_t
      users[rnti].pdcp->add_bearer_mrb(lcid, cfg);
    }
  }
  pthread_rwlock_unlock(&rwlock);
 }
 void pdcp::reset(uint16_t rnti)
 {
  pthread_rwlock_rdlock(&rwlock);
  if (users.count(rnti)) {
    users[rnti].pdcp->reset();
  }
  pthread_rwlock_unlock(&rwlock);
 }
 void pdcp::config_security(uint16_t rnti, uint32_t lcid, uint8_t* k_rrc_enc_, uint8_t* k_rrc_int_, 
                           srslte::CIPHERING_ALGORITHM_ID_ENUM cipher_algo_, 
                           srslte::INTEGRITY_ALGORITHM_ID_ENUM integ_algo_)
 {
  pthread_rwlock_rdlock(&rwlock);
  if (users.count(rnti)) {
    users[rnti].pdcp->config_security(lcid, k_rrc_enc_, k_rrc_int_, cipher_algo_, integ_algo_);
    users[rnti].pdcp->enable_integrity(lcid);
    users[rnti].pdcp->enable_encryption(lcid);
  }
  pthread_rwlock_unlock(&rwlock);
 }
 void pdcp::write_pdu(uint16_t rnti, uint32_t lcid, srslte::byte_buffer_t* sdu)
 {
  pthread_rwlock_rdlock(&rwlock);
  if (users.count(rnti)) {
    users[rnti].pdcp->write_pdu(lcid, sdu);
  } else {
    pool->deallocate(sdu);
  }
  pthread_rwlock_unlock(&rwlock);
 }
 void pdcp::write_sdu(uint16_t rnti, uint32_t lcid, srslte::byte_buffer_t* sdu)
 {
  pthread_rwlock_rdlock(&rwlock);
  if (users.count(rnti)) {
    if(rnti != SRSLTE_MRNTI){
      users[rnti].pdcp->write_sdu(lcid, sdu);
@ -122,6 +146,7 @@ void pdcp::write_sdu(uint16_t rnti, uint32_t lcid, srslte::byte_buffer_t* sdu)
  } else {
    pool->deallocate(sdu);
  }
  pthread_rwlock_unlock(&rwlock);
 }
 void pdcp::user_interface_gtpu::write_pdu(uint32_t lcid, srslte::byte_buffer_t *pdu)
--- a/srsenb/src/upper/rlc.cc
+++ b/srsenb/src/upper/rlc.cc
@ -40,48 +40,57 @@ void rlc::init(pdcp_interface_rlc* pdcp_, rrc_interface_rlc* rrc_, mac_interface
  pool       = srslte::byte_buffer_pool::get_instance();
  pthread_rwlock_init(&rwlock, NULL);
 }
 void rlc::stop()
 {
  pthread_rwlock_wrlock(&rwlock);
  for(std::map<uint32_t, user_interface>::iterator iter=users.begin(); iter!=users.end(); ++iter) {
-    rem_user((uint32_t) iter->first);
+    clear_user(&iter->second);
  }
  users.clear();
  pthread_rwlock_unlock(&rwlock);
  pthread_rwlock_destroy(&rwlock);
 }
 void rlc::add_user(uint16_t rnti)
 {
  pthread_rwlock_rdlock(&rwlock);
  if (users.count(rnti) == 0) {    
    srslte::rlc *obj = new srslte::rlc;     
-    obj->init(&users[rnti], &users[rnti], &users[rnti], log_h, mac_timers, RB_ID_SRB0);
+    obj->init(&users[rnti], &users[rnti], &users[rnti], log_h, mac_timers, RB_ID_SRB0, RLC_TX_QUEUE_LEN);
    users[rnti].rnti   = rnti; 
    users[rnti].pdcp   = pdcp; 
    users[rnti].rrc    = rrc; 
    users[rnti].rlc    = obj;
    users[rnti].parent = this; 
  }
  pthread_rwlock_unlock(&rwlock);
 }
-void rlc::rem_user(uint16_t rnti)
+// Private unlocked deallocation of user
 void rlc::clear_user(user_interface *ue)
 {
-  if (users.count(rnti)) {
+  ue->rlc->stop();
-    users[rnti].rlc->stop();
+  delete ue->rlc;
-    delete users[rnti].rlc; 
+  ue->rlc = NULL;
    users[rnti].rlc = NULL;
    users.erase(rnti);
  }
 }
-
+void rlc::rem_user(uint16_t rnti)
 void rlc::reset(uint16_t rnti)
 {
  pthread_rwlock_wrlock(&rwlock);
  if (users.count(rnti)) {
-    users[rnti].rlc->reset();
+    clear_user(&users[rnti]);
    users.erase(rnti);
  } else {
    log_h->error("Removing rnti=0x%x. Already removed\n", rnti);
  }
  pthread_rwlock_unlock(&rwlock);
 }
 void rlc::clear_buffer(uint16_t rnti)
 {
  pthread_rwlock_rdlock(&rwlock);
  if (users.count(rnti)) {
    users[rnti].rlc->empty_queue();
    for (int i=0;i<SRSLTE_N_RADIO_BEARERS;i++) {
@ -89,27 +98,34 @@ void rlc::clear_buffer(uint16_t rnti)
    }
    log_h->info("Cleared buffer rnti=0x%x\n", rnti);
  }
  pthread_rwlock_unlock(&rwlock);
 }
 void rlc::add_bearer(uint16_t rnti, uint32_t lcid)
 {
  pthread_rwlock_rdlock(&rwlock);
  if (users.count(rnti)) {
    users[rnti].rlc->add_bearer(lcid);
  }
  pthread_rwlock_unlock(&rwlock);
 }
 void rlc::add_bearer(uint16_t rnti, uint32_t lcid, srslte::srslte_rlc_config_t cnfg)
 {
  pthread_rwlock_rdlock(&rwlock);
  if (users.count(rnti)) {
    users[rnti].rlc->add_bearer(lcid, cnfg);
  }
  pthread_rwlock_unlock(&rwlock);
 }
 void rlc::add_bearer_mrb(uint16_t rnti, uint32_t lcid)
 {
  pthread_rwlock_rdlock(&rwlock);
  if (users.count(rnti)) {
    users[rnti].rlc->add_bearer_mrb_enb(lcid);
  }
  pthread_rwlock_unlock(&rwlock);
 }
 void rlc::read_pdu_pcch(uint8_t* payload, uint32_t buffer_size)
@ -121,11 +137,13 @@ int rlc::read_pdu(uint16_t rnti, uint32_t lcid, uint8_t* payload, uint32_t nof_b
 {
  int ret;
  uint32_t tx_queue;
-  if(users.count(rnti)){
+
-    if(rnti != SRSLTE_MRNTI){
+  pthread_rwlock_rdlock(&rwlock);
  if(users.count(rnti)) {
    if(rnti != SRSLTE_MRNTI) {
      ret = users[rnti].rlc->read_pdu(lcid, payload, nof_bytes);
      tx_queue = users[rnti].rlc->get_total_buffer_state(lcid);
-    }else{
+    } else {
      ret = users[rnti].rlc->read_pdu_mch(lcid, payload, nof_bytes);
      tx_queue = users[rnti].rlc->get_total_mch_buffer_state(lcid);
    }
@ -135,15 +153,16 @@ int rlc::read_pdu(uint16_t rnti, uint32_t lcid, uint8_t* payload, uint32_t nof_b
    uint32_t retx_queue = 0;
    log_h->debug("Buffer state PDCP: rnti=0x%x, lcid=%d, tx_queue=%d\n", rnti, lcid, tx_queue);
    mac->rlc_buffer_state(rnti, lcid, tx_queue, retx_queue);
    return ret;
  }else{
-    return SRSLTE_ERROR;
+    ret = SRSLTE_ERROR;
  }
  pthread_rwlock_unlock(&rwlock);
  return ret;
 }
 void rlc::write_pdu(uint16_t rnti, uint32_t lcid, uint8_t* payload, uint32_t nof_bytes)
 {
  pthread_rwlock_rdlock(&rwlock);
  if (users.count(rnti)) {
    users[rnti].rlc->write_pdu(lcid, payload, nof_bytes);
@ -154,6 +173,7 @@ void rlc::write_pdu(uint16_t rnti, uint32_t lcid, uint8_t* payload, uint32_t nof
    log_h->debug("Buffer state PDCP: rnti=0x%x, lcid=%d, tx_queue=%d\n", rnti, lcid, tx_queue);
    mac->rlc_buffer_state(rnti, lcid, tx_queue, retx_queue);
  }
  pthread_rwlock_unlock(&rwlock);
 }
 void rlc::read_pdu_bcch_dlsch(uint32_t sib_index, uint8_t *payload)
@ -166,9 +186,11 @@ void rlc::write_sdu(uint16_t rnti, uint32_t lcid, srslte::byte_buffer_t* sdu)
 {
  uint32_t tx_queue;
  pthread_rwlock_rdlock(&rwlock);
  if (users.count(rnti)) {
    if(rnti != SRSLTE_MRNTI){
-      users[rnti].rlc->write_sdu(lcid, sdu);
+      users[rnti].rlc->write_sdu_nb(lcid, sdu);
      tx_queue   = users[rnti].rlc->get_total_buffer_state(lcid);
    }else {
      users[rnti].rlc->write_sdu_mch(lcid, sdu);
@ -183,14 +205,17 @@ void rlc::write_sdu(uint16_t rnti, uint32_t lcid, srslte::byte_buffer_t* sdu)
  } else {
    pool->deallocate(sdu);
  }
  pthread_rwlock_unlock(&rwlock);
 }
 bool rlc::rb_is_um(uint16_t rnti, uint32_t lcid) {
  bool ret = false;
  pthread_rwlock_rdlock(&rwlock);
  if (users.count(rnti)) {
-    return users[rnti].rlc->rb_is_um(lcid);
+    ret = users[rnti].rlc->rb_is_um(lcid);
  } else {
    return false;
  }
  pthread_rwlock_unlock(&rwlock);
  return ret;
 }
 void rlc::user_interface::max_retx_attempted()
--- a/srsenb/src/upper/rrc.cc
+++ b/srsenb/src/upper/rrc.cc
@ -84,7 +84,8 @@ void rrc::stop()
 {
  if(running) {
    running = false;
-    thread_cancel();
+    rrc_pdu p = {0, LCID_EXIT, NULL};
    rx_pdu_queue.push(p);
    wait_thread_finish();
  }
  act_monitor.stop();
@ -556,7 +557,7 @@ void rrc::parse_ul_dcch(uint16_t rnti, uint32_t lcid, byte_buffer_t *pdu)
 void rrc::process_rl_failure(uint16_t rnti)
 {
-  if (users.count(rnti) == 0) {
+  if (users.count(rnti) == 1) {
    uint32_t n_rfl = users[rnti].rl_failure();
    if (n_rfl == 1) {
      rrc_log->info("Radio-Link failure detected rnti=0x%x\n", rnti);
@ -572,6 +573,8 @@ void rrc::process_rl_failure(uint16_t rnti)
    } else {
      rrc_log->info("%d Radio-Link failure detected rnti=0x%x\n", n_rfl, rnti);
    }
  } else {
    rrc_log->error("Radio-Link failure detected for uknown rnti=0x%x\n", rnti);
  }
 }
@ -585,8 +588,7 @@ void rrc::process_release_complete(uint16_t rnti)
      // There is no RRCReleaseComplete message from UE thus wait ~50 subframes for tx
      usleep(50000);
    }
-    // Save to call rem_user() directly without thread, because calling from private function
+    rem_user_thread(rnti);
    rem_user(rnti);
  } else {
    rrc_log->error("Received ReleaseComplete for unknown rnti=0x%x\n", rnti);
  }
@ -594,6 +596,7 @@ void rrc::process_release_complete(uint16_t rnti)
 void rrc::rem_user(uint16_t rnti)
 {
  pthread_mutex_lock(&user_mutex);
  if (users.count(rnti) == 1) {
    rrc_log->console("Disconnecting rnti=0x%x.\n", rnti);
    rrc_log->info("Disconnecting rnti=0x%x.\n", rnti);
@ -603,11 +606,6 @@ void rrc::rem_user(uint16_t rnti)
    mac->ue_rem(rnti);  // MAC handles PHY
    gtpu->rem_user(rnti);
    // Wait enough time
    pthread_mutex_unlock(&user_mutex);
    usleep(50000);
    pthread_mutex_lock(&user_mutex);
    // Now remove RLC and PDCP
    rlc->rem_user(rnti);
    pdcp->rem_user(rnti);
@ -615,11 +613,13 @@ void rrc::rem_user(uint16_t rnti)
    // And deallocate resources from RRC
    users[rnti].sr_free();
    users[rnti].cqi_free();
    users.erase(rnti);
    rrc_log->info("Removed user rnti=0x%x\n", rnti);
  } else {
    rrc_log->error("Removing user rnti=0x%x (does not exist)\n", rnti);
  }
  pthread_mutex_unlock(&user_mutex);
 }
 void rrc::config_mac()
@ -778,7 +778,6 @@ void rrc::run_thread()
    }
    // Mutex these calls even though it's a private function
    pthread_mutex_lock(&user_mutex);
    if (users.count(p.rnti) == 1) {
      switch(p.lcid)
      {
@ -803,6 +802,9 @@ void rrc::run_thread()
            users[p.rnti].set_activity();
          }
          break;
        case LCID_EXIT:
          rrc_log->info("Exiting thread\n");
          break;
        default:
          rrc_log->error("Rx PDU with invalid bearer id: %d", p.lcid);
          break;
@ -810,7 +812,6 @@ void rrc::run_thread()
    } else {
      rrc_log->warning("Discarding PDU for removed rnti=0x%x\n", p.rnti);
    }
    pthread_mutex_unlock(&user_mutex);
  }
 }
@ -863,7 +864,7 @@ void rrc::activity_monitor::run_thread()
        parent->s1ap->user_release(rem_rnti, LIBLTE_S1AP_CAUSERADIONETWORK_USER_INACTIVITY);
      } else {
        if(rem_rnti != SRSLTE_MRNTI)
-          parent->rem_user(rem_rnti);
+          parent->rem_user_thread(rem_rnti);
      }
    }
    pthread_mutex_unlock(&parent->user_mutex);
--- a/srsepc/hdr/mbms-gw/mbms-gw.h
+++ b/srsepc/hdr/mbms-gw/mbms-gw.h
@ -49,6 +49,7 @@ const uint16_t GTPU_RX_PORT = 2152;
 typedef struct {
  std::string name;
  std::string sgi_mb_if_addr;
  std::string sgi_mb_if_mask;
  std::string m1u_multi_addr;
 } mbms_gw_args_t;
--- a/srsepc/mbms.conf.example
+++ b/srsepc/mbms.conf.example
@ -12,7 +12,8 @@
 #####################################################################
 [mbms_gw]
 name = srsmbmsgw01
-sgi_mb_if_addr = 172.16.1.1
+sgi_mb_if_addr = 172.16.0.254
 sgi_mb_if_mask = 255.255.255.255
 m1u_multi_addr = 239.255.0.1
 ####################################################################
--- a/srsepc/src/mbms-gw/main.cc
+++ b/srsepc/src/mbms-gw/main.cc
@ -83,6 +83,7 @@ parse_args(all_args_t *args, int argc, char* argv[]) {
  string mbms_gw_name;
  string mbms_gw_sgi_mb_if_addr;
  string mbms_gw_sgi_mb_if_mask;
  string mbms_gw_m1u_multi_addr;
  string log_filename;
@ -99,8 +100,9 @@ parse_args(all_args_t *args, int argc, char* argv[]) {
  common.add_options()
    ("mbms_gw.name",      bpo::value<string>(&mbms_gw_name)->default_value("srsmbmsgw01"), "MBMS-GW Name")
-    ("mbms_gw.sgi_mb_if_addr",      bpo::value<string>(&mbms_gw_sgi_mb_if_addr)->default_value("172.16.1.1"), "SGi-mb TUN interface Address")
+    ("mbms_gw.sgi_mb_if_addr",      bpo::value<string>(&mbms_gw_sgi_mb_if_addr)->default_value("172.16.1.1"), "SGi-mb TUN interface Address.")
-    ("mbms_gw.m1u_multi_addr",      bpo::value<string>(&mbms_gw_m1u_multi_addr)->default_value("239.255.0.1"), "M1-u GTPu destination multicast address")
+    ("mbms_gw.sgi_mb_if_mask",      bpo::value<string>(&mbms_gw_sgi_mb_if_mask)->default_value("255.255.255.255"), "SGi-mb TUN interface mask.")
    ("mbms_gw.m1u_multi_addr",      bpo::value<string>(&mbms_gw_m1u_multi_addr)->default_value("239.255.0.1"), "M1-u GTPu destination multicast address.")
    ("log.all_level",     bpo::value<string>(&args->log_args.all_level)->default_value("info"),   "ALL log level")
    ("log.all_hex_limit", bpo::value<int>(&args->log_args.all_hex_limit)->default_value(32),  "ALL log hex dump limit")
@ -152,7 +154,9 @@ parse_args(all_args_t *args, int argc, char* argv[]) {
  args->mbms_gw_args.name = mbms_gw_name;
  args->mbms_gw_args.sgi_mb_if_addr = mbms_gw_sgi_mb_if_addr;
  args->mbms_gw_args.sgi_mb_if_mask = mbms_gw_sgi_mb_if_mask;
  args->mbms_gw_args.m1u_multi_addr = mbms_gw_m1u_multi_addr;
  // Apply all_level to any unset layers
  if (vm.count("log.all_level")) {
    if(!vm.count("log.mbms_gw_level")) {
--- a/srsepc/src/mbms-gw/mbms-gw.cc
+++ b/srsepc/src/mbms-gw/mbms-gw.cc
@ -196,7 +196,7 @@ mbms_gw::init_sgi_mb_if(mbms_gw_args_t *args)
  }
  ifr.ifr_netmask.sa_family                                 = AF_INET;
-  ((struct sockaddr_in *)&ifr.ifr_netmask)->sin_addr.s_addr = inet_addr("255.255.255.0");
+  ((struct sockaddr_in *)&ifr.ifr_netmask)->sin_addr.s_addr = inet_addr(args->sgi_mb_if_mask.c_str());
  if (ioctl(sgi_mb_sock, SIOCSIFNETMASK, &ifr) < 0) {
    m_mbms_gw_log->error("Failed to set TUN interface Netmask. Error: %s\n", strerror(errno));
    close(m_sgi_mb_if);
@ -285,8 +285,6 @@ mbms_gw::handle_sgi_md_pdu(srslte::byte_buffer_t *msg)
 {
  uint8_t version;
  srslte::gtpu_header_t header;
  in_addr_t baddr = inet_addr("172.16.0.255");
  in_addr_t saddr = inet_addr("172.16.0.254");
  //Setup GTP-U header
  header.flags        = 0x30;
@ -301,46 +299,16 @@ mbms_gw::handle_sgi_md_pdu(srslte::byte_buffer_t *msg)
    return;
  }
-  //IP+UDP Headers
+  //IP Headers
  struct iphdr *iph = (struct iphdr *) msg->msg;
  struct udphdr *udph = (struct udphdr *) (msg->msg + iph->ihl*4);
  if(iph->version != 4)
  {
    m_mbms_gw_log->warning("IPv6 not supported yet.\n");
    return;
  }
  //Replace Destination IP with broadcast address
  iph->daddr = baddr;
  //Replace Source IP with address in same subnet
  iph->saddr = saddr;
  //Replace IP cheksum
  iph->check = 0;
  iph->check = in_cksum((uint16_t*)msg->msg,4*(msg->msg[0] & 0x0F));
  //Set Pseudo Header
  struct pseudo_hdr phdr;
  phdr.src_addr    = iph->saddr;
  phdr.dst_addr    = iph->daddr;
  phdr.protocol    = IPPROTO_UDP;
  phdr.placeholder = 0;
  phdr.udp_len     = udph->len;
  //Set Pseudo Datagram
  udph->check = 0;
  int psize = sizeof(struct pseudo_hdr) + ntohs(udph->len);
  uint8_t * pseudo_dgram = (uint8_t*) malloc(psize);
  memcpy(pseudo_dgram, &phdr,sizeof(struct pseudo_hdr));
  memcpy(pseudo_dgram+sizeof(pseudo_hdr),udph,ntohs(udph->len));
  //Recompute UDP checksum
  udph->check = in_cksum((uint16_t*) pseudo_dgram, psize);
  free(pseudo_dgram);
  //Write GTP-U header into packet
-  if(!srslte::gtpu_write_header(&header, msg))
+  if(!srslte::gtpu_write_header(&header, msg, m_mbms_gw_log))
  {
    m_mbms_gw_log->console("Error writing GTP-U header on PDU\n");
  }
@ -355,31 +323,4 @@ mbms_gw::handle_sgi_md_pdu(srslte::byte_buffer_t *msg)
  }
 }
 uint16_t
 mbms_gw::in_cksum(uint16_t *iphdr, int count)
 {
  //RFC 1071
  uint32_t sum = 0;
  uint16_t padd = 0;
  uint16_t result;
  while(count > 1)
  {
    sum+= *iphdr++;
    count -= 2;
  }
  if( count > 0 )
  {
    padd = * (uint8_t *) iphdr;
    sum += padd;
  }
  /*Fold 32-bit sum to 16-bit*/
  //  while(sum>>16)
  //  sum = (sum & 0xffff) + (sum >> 16);
  sum = (sum>>16)+(sum & 0xFFFF);
  sum = sum + (sum >> 16);
  result = (uint16_t) ~sum;
  return result;
 }
 } //namespace srsepc
--- a/srsepc/src/spgw/spgw.cc
+++ b/srsepc/src/spgw/spgw.cc
@ -369,7 +369,7 @@ spgw::handle_sgi_pdu(srslte::byte_buffer_t *msg)
  header.teid         = enb_fteid.teid;
  //Write header into packet
-  if(!srslte::gtpu_write_header(&header, msg))
+  if(!srslte::gtpu_write_header(&header, msg, m_spgw_log))
  {
    m_spgw_log->console("Error writing GTP-U header on PDU\n");
  }
@ -395,7 +395,7 @@ spgw::handle_s1u_pdu(srslte::byte_buffer_t *msg)
 {
  //m_spgw_log->console("Received PDU from S1-U. Bytes=%d\n",msg->N_bytes);
  srslte::gtpu_header_t header;
-  srslte::gtpu_read_header(msg, &header);
+  srslte::gtpu_read_header(msg, &header, m_spgw_log);
  //m_spgw_log->console("TEID 0x%x. Bytes=%d\n", header.teid, msg->N_bytes);
  int n = write(m_sgi_if, msg->msg, msg->N_bytes);
--- a/srsue/hdr/upper/rrc.h
+++ b/srsue/hdr/upper/rrc.h
@ -447,8 +447,6 @@ private:
  uint32_t           sib_start_tti(uint32_t tti, uint32_t period, uint32_t offset, uint32_t sf);
  const static int SIB_SEARCH_TIMEOUT_MS = 1000;
  const static uint32_t NOF_REQUIRED_SIBS = 13; // SIB1, SIB2 and SIB3
  bool initiated;
  bool ho_start;
  bool go_idle;
--- a/srsue/src/mac/proc_bsr.cc
+++ b/srsue/src/mac/proc_bsr.cc
@ -210,6 +210,10 @@ bool bsr_proc::generate_bsr(bsr_t *bsr, uint32_t nof_padding_bytes) {
      bsr->format = LONG_BSR;
    }  
  }
  Info("BSR:   Type %s, Format %s, Value=%d,%d,%d,%d\n",
       bsr_type_tostring(triggered_bsr_type), bsr_format_tostring(bsr->format),
       bsr->buff_size[0], bsr->buff_size[1], bsr->buff_size[2], bsr->buff_size[3]);
  return ret; 
 }
@ -337,9 +341,6 @@ bool bsr_proc::generate_padding_bsr(uint32_t nof_padding_bytes, bsr_t *bsr)
    }
    generate_bsr(bsr, nof_padding_bytes);
    ret = true; 
    Info("BSR:   Type %s, Format %s, Value=%d,%d,%d,%d\n", 
         bsr_type_tostring(triggered_bsr_type), bsr_format_tostring(bsr->format), 
         bsr->buff_size[0], bsr->buff_size[1], bsr->buff_size[2], bsr->buff_size[3]);
    if (timers_db->get(timer_periodic_id)->get_timeout() && bsr->format != TRUNC_BSR) {
      timers_db->get(timer_periodic_id)->reset();
--- a/srsue/src/phy/phy.cc
+++ b/srsue/src/phy/phy.cc
@ -52,7 +52,7 @@ namespace srsue {
 phy::phy() : workers_pool(MAX_WORKERS), 
             workers(MAX_WORKERS), 
-             workers_common(phch_recv::MUTEX_X_WORKER*MAX_WORKERS)
+             workers_common(phch_recv::MUTEX_X_WORKER*MAX_WORKERS),nof_coworkers(0)
 {
 }
--- a/srsue/src/ue.cc
+++ b/srsue/src/ue.cc
@ -318,11 +318,11 @@ void ue::print_pool() {
 bool ue::get_metrics(ue_metrics_t &m)
 {
  bzero(&m, sizeof(ue_metrics_t));
  m.rf = rf_metrics;
  bzero(&rf_metrics, sizeof(rf_metrics_t));
  rf_metrics.rf_error = false; // Reset error flag
  bzero(&m, sizeof(ue_metrics_t));
  if(EMM_STATE_REGISTERED == nas.get_state()) {
    if(RRC_STATE_CONNECTED == rrc.get_state()) {
      phy.get_metrics(m.phy);
--- a/srsue/src/upper/rrc.cc
+++ b/srsue/src/upper/rrc.cc
@ -41,6 +41,8 @@ using namespace srslte;
 namespace srsue {
 const static uint32_t NOF_REQUIRED_SIBS = 4;
 const static uint32_t required_sibs[NOF_REQUIRED_SIBS] = {0,1,2,12}; // SIB1, SIB2, SIB3 and SIB13 (eMBMS)
 /*******************************************************************************
  Base functions 
@ -543,24 +545,25 @@ bool rrc::configure_serving_cell() {
    return false;
  }
  serving_cell->has_mcch = false;
-  // Apply configurations if already retrieved SIB2
+  // Obtain the SIBs if not available or apply the configuration if available
  if (serving_cell->has_sib2()) {
    apply_sib2_configs(serving_cell->sib2ptr());
  }
  // Obtain the rest of required SIBs (configuration is applied when received)
  for (uint32_t i = 0; i < NOF_REQUIRED_SIBS; i++) {
-    if (!serving_cell->has_sib(i)) {
+    if (!serving_cell->has_sib(required_sibs[i])) {
-      rrc_log->info("Cell has no SIB%d. Obtaining SIB%d\n", i+1, i+1);
+      rrc_log->info("Cell has no SIB%d. Obtaining SIB%d\n", required_sibs[i]+1, required_sibs[i]+1);
-      if (!si_acquire(i)) {
+      if (!si_acquire(required_sibs[i])) {
-        rrc_log->info("Timeout while acquiring SIB%d\n", i+1);
+        rrc_log->info("Timeout while acquiring SIB%d\n", required_sibs[i]+1);
-        if (i < 2) {
+        if (required_sibs[i] < 2) {
          return false;
        }
      }
    } else {
-      rrc_log->info("Cell has SIB%d\n", i+1);
+      rrc_log->info("Cell has SIB%d\n", required_sibs[i]+1);
-      if(i+1 == 13){
+      switch(required_sibs[i]) {
        case 1:
          apply_sib2_configs(serving_cell->sib2ptr());
          break;
        case 12:
          apply_sib13_configs(serving_cell->sib13ptr());
          break;
      }
    }
  }
@ -768,7 +771,7 @@ bool rrc::si_acquire(uint32_t sib_index)
              }
            }
            if (!found) {
-              rrc_log->error("Could not find SIB%d scheduling in SIB1\n", sib_index+1);
+              rrc_log->info("Could not find SIB%d scheduling in SIB1\n", sib_index+1);
              return false;
            }
          }