gtpu refactor - use of raii to automatic path switch and teid removal in forwarding. Clean up of gtpu_tunnel_manager methods.

2021-03-25 10:24:40 +00:00 · 2021-03-25 10:24:40 +00:00 · 44440cf562
parent ab2bd9a2d2
commit 44440cf562
3 changed files with 299 additions and 227 deletions
--- a/srsenb/hdr/stack/upper/gtpu.h
+++ b/srsenb/hdr/stack/upper/gtpu.h
@ -37,23 +37,39 @@ namespace srsenb {
 class pdcp_interface_gtpu;
 class stack_interface_gtpu_lte;
 struct gtpu_tunnel {
  bool                 fwd_teid_in_present   = false;
  bool                 prior_teid_in_present = false;
  uint16_t             rnti                  = SRSRAN_INVALID_RNTI;
  uint32_t             lcid                  = SRSENB_N_RADIO_BEARERS;
  uint32_t             teid_in               = 0;
  uint32_t             teid_out              = 0;
  uint32_t             spgw_addr             = 0;
  uint32_t             fwd_teid_in           = 0; ///< forward Rx SDUs to this TEID
  uint32_t             prior_teid_in         = 0; ///< buffer bearer SDUs until this TEID receives an End Marker
  srsran::unique_timer rx_timer;
 };
 class gtpu_tunnel_manager
 {
  using buffered_sdu_list = srsran::bounded_vector<std::pair<uint32_t, srsran::unique_byte_buffer_t>, 512>;
 public:
  const static size_t MAX_TUNNELS_PER_UE = 4;
  enum class tunnel_state { pdcp_active, buffering, forward_to, forwarded_from };
  struct tunnel {
    uint16_t rnti      = SRSRAN_INVALID_RNTI;
    uint32_t lcid      = SRSENB_N_RADIO_BEARERS;
    uint32_t teid_in   = 0;
    uint32_t teid_out  = 0;
    uint32_t spgw_addr = 0;
    tunnel_state                                    state = tunnel_state::pdcp_active;
    srsran::unique_timer                            rx_timer;
    srsran::byte_buffer_pool_ptr<buffered_sdu_list> buffer;
    tunnel*                                         fwd_tunnel = nullptr; ///< forward Rx SDUs to this TEID
    srsran::move_callback<void()>                   on_removal;
    tunnel()                  = default;
    tunnel(tunnel&&) noexcept = default;
    tunnel& operator=(tunnel&&) noexcept = default;
    ~tunnel()
    {
      if (not on_removal.is_empty()) {
        on_removal();
      }
    }
  };
  struct lcid_tunnel {
    uint32_t lcid;
    uint32_t teid;
@ -66,18 +82,23 @@ public:
  };
  using ue_lcid_tunnel_list = srsran::bounded_vector<lcid_tunnel, MAX_TUNNELS_PER_UE>;
-  gtpu_tunnel_manager();
+  explicit gtpu_tunnel_manager(srsran::task_sched_handle task_sched_);
  void init(pdcp_interface_gtpu* pdcp_);
-  gtpu_tunnel*              find_tunnel(uint32_t teid);
+  bool                      has_teid(uint32_t teid) const { return tunnels.contains(teid); }
  const tunnel*             find_tunnel(uint32_t teid);
  ue_lcid_tunnel_list*      find_rnti_tunnels(uint16_t rnti);
  srsran::span<lcid_tunnel> find_rnti_lcid_tunnels(uint16_t rnti, uint32_t lcid);
-  gtpu_tunnel* add_tunnel(uint16_t rnti, uint32_t lcid, uint32_t teidout, uint32_t spgw_addr);
+  const tunnel* add_tunnel(uint16_t rnti, uint32_t lcid, uint32_t teidout, uint32_t spgw_addr);
-  bool         update_rnti(uint16_t old_rnti, uint16_t new_rnti);
+  bool          update_rnti(uint16_t old_rnti, uint16_t new_rnti);
-  int                    set_tunnel_dl_state(uint32_t teid, bool state, pdcp_interface_gtpu* pdcp);
+  void         activate_tunnel(uint32_t teid);
-  srsran::expected<bool> get_tunnel_dl_state(uint32_t teid) const;
+  void         suspend_tunnel(uint32_t teid);
-  void                   buffer_pdcp_sdu(uint32_t teid, uint32_t pdcp_sn, srsran::unique_byte_buffer_t sdu);
+  void         set_tunnel_priority(uint32_t first_teid, uint32_t second_teid);
  tunnel_state handle_rx_pdcp_sdu(uint32_t teid);
  void         buffer_pdcp_sdu(uint32_t teid, uint32_t pdcp_sn, srsran::unique_byte_buffer_t sdu);
  void         setup_forwarding(uint32_t rx_teid, uint32_t tx_teid);
  bool remove_tunnel(uint32_t teid);
  bool remove_bearer(uint16_t rnti, uint32_t lcid);
@ -85,22 +106,20 @@ public:
 private:
  const uint32_t undefined_pdcp_sn = std::numeric_limits<uint32_t>::max();
  using tunnel_list_t              = srsran::static_id_obj_pool<uint32_t, tunnel, SRSENB_MAX_UES * MAX_TUNNELS_PER_UE>;
  using tunnel_ctxt_it             = typename tunnel_list_t::iterator;
-  struct tunnel_ctxt {
+  srsran::task_sched_handle task_sched;
-    gtpu_tunnel params;
+  pdcp_interface_gtpu*      pdcp = nullptr;
-    bool        dl_enabled = true;
+  srslog::basic_logger&     logger;
    srsran::byte_buffer_pool_ptr<srsran::bounded_vector<std::pair<uint32_t, srsran::unique_byte_buffer_t>, 512> >
        buffer;
  };
  using tunnel_list_t  = srsran::static_id_obj_pool<uint32_t, tunnel_ctxt, SRSENB_MAX_UES * MAX_TUNNELS_PER_UE>;
  using tunnel_ctxt_it = typename tunnel_list_t::iterator;
  srslog::basic_logger& logger;
  tunnel_list_t                                                              tunnels;
  srsran::static_circular_map<uint16_t, ue_lcid_tunnel_list, SRSENB_MAX_UES> ue_teidin_db;
 };
 using gtpu_tunnel_state = gtpu_tunnel_manager::tunnel_state;
 using gtpu_tunnel       = gtpu_tunnel_manager::tunnel;
 class gtpu final : public gtpu_interface_rrc, public gtpu_interface_pdcp
 {
 public:
@ -190,8 +209,9 @@ private:
  bool send_end_marker(uint32_t teidin);
  void handle_end_marker(const gtpu_tunnel& rx_tunnel);
-  void
+  void handle_msg_data_pdu(const srsran::gtpu_header_t& header,
-  handle_msg_data_pdu(const srsran::gtpu_header_t& header, gtpu_tunnel& rx_tunnel, srsran::unique_byte_buffer_t pdu);
+                           const gtpu_tunnel&           rx_tunnel,
                           srsran::unique_byte_buffer_t pdu);
  int create_dl_fwd_tunnel(uint32_t rx_teid_in, uint32_t tx_teid_in);
--- a/srsenb/src/stack/upper/gtpu.cc
+++ b/srsenb/src/stack/upper/gtpu.cc
@ -21,7 +21,6 @@
 #include <errno.h>
 #include <linux/ip.h>
 #include <stdio.h>
 #include <sys/socket.h>
 #include <unistd.h>
@ -29,12 +28,19 @@ using namespace srsran;
 namespace srsenb {
-gtpu_tunnel_manager::gtpu_tunnel_manager() : logger(srslog::fetch_basic_logger("GTPU")) {}
+gtpu_tunnel_manager::gtpu_tunnel_manager(srsran::task_sched_handle task_sched_) :
  logger(srslog::fetch_basic_logger("GTPU")), task_sched(task_sched_)
 {}
-gtpu_tunnel* gtpu_tunnel_manager::find_tunnel(uint32_t teid)
+void gtpu_tunnel_manager::init(pdcp_interface_gtpu* pdcp_)
 {
  pdcp = pdcp_;
 }
 const gtpu_tunnel_manager::tunnel* gtpu_tunnel_manager::find_tunnel(uint32_t teid)
 {
  auto it = tunnels.find(teid);
-  return it != tunnels.end() ? &it->second.params : nullptr;
+  return it != tunnels.end() ? &it->second : nullptr;
 }
 gtpu_tunnel_manager::ue_lcid_tunnel_list* gtpu_tunnel_manager::find_rnti_tunnels(uint16_t rnti)
@ -61,23 +67,23 @@ srsran::span<gtpu_tunnel_manager::lcid_tunnel> gtpu_tunnel_manager::find_rnti_lc
  return srsran::span<lcid_tunnel>(&(*lcid_it_begin), &(*lcid_it_end));
 }
-gtpu_tunnel* gtpu_tunnel_manager::add_tunnel(uint16_t rnti, uint32_t lcid, uint32_t teidout, uint32_t spgw_addr)
+const gtpu_tunnel* gtpu_tunnel_manager::add_tunnel(uint16_t rnti, uint32_t lcid, uint32_t teidout, uint32_t spgw_addr)
 {
  if (lcid < SRSENB_N_SRB or lcid >= SRSENB_N_RADIO_BEARERS) {
-    logger.warning("Adding TEID with invalid parmaters");
+    logger.warning("Adding TEID with invalid lcid=%d", lcid);
    return nullptr;
  }
-  auto ret_pair = tunnels.insert(tunnel_ctxt());
+  auto ret_pair = tunnels.insert(tunnel());
  if (not ret_pair) {
-    logger.warning("Adding new GTPU TEID In");
+    logger.warning("Unable to create new GTPU TEID In");
    return nullptr;
  }
-  tunnel_ctxt* tun      = &tunnels[ret_pair.value()];
+  tunnel* tun    = &tunnels[ret_pair.value()];
-  tun->params.teid_in   = ret_pair.value();
+  tun->teid_in   = ret_pair.value();
-  tun->params.rnti      = rnti;
+  tun->rnti      = rnti;
-  tun->params.lcid      = lcid;
+  tun->lcid      = lcid;
-  tun->params.teid_out  = teidout;
+  tun->teid_out  = teidout;
-  tun->params.spgw_addr = spgw_addr;
+  tun->spgw_addr = spgw_addr;
  if (not ue_teidin_db.contains(rnti)) {
    ue_teidin_db.insert(rnti, ue_lcid_tunnel_list());
@ -86,31 +92,29 @@ gtpu_tunnel* gtpu_tunnel_manager::add_tunnel(uint16_t rnti, uint32_t lcid, uint3
  if (ue_tunnels.full()) {
    logger.error("The number of TEIDs per UE exceeded for rnti=0x%x", rnti);
-    tunnels.erase(tun->params.teid_in);
+    tunnels.erase(tun->teid_in);
    return nullptr;
  }
-  ue_tunnels.push_back(lcid_tunnel{lcid, tun->params.teid_in});
+  ue_tunnels.push_back(lcid_tunnel{lcid, tun->teid_in});
  std::sort(ue_tunnels.begin(), ue_tunnels.end());
  fmt::memory_buffer str_buffer;
  srsran::gtpu_ntoa(str_buffer, htonl(spgw_addr));
  logger.info("New tunnel teid_in=0x%x, teid_out=0x%x, rnti=0x%x, lcid=%d, addr=%s",
-              tun->params.teid_in,
+              tun->teid_in,
              teidout,
              rnti,
              lcid,
              srsran::to_c_str(str_buffer));
-  return &tun->params;
+  return tun;
 }
 bool gtpu_tunnel_manager::update_rnti(uint16_t old_rnti, uint16_t new_rnti)
 {
  srsran_assert(find_rnti_tunnels(new_rnti) == nullptr, "New rnti=0x%x already exists", new_rnti);
  auto* old_rnti_ptr = find_rnti_tunnels(old_rnti);
  if (old_rnti_ptr == nullptr or find_rnti_tunnels(new_rnti) != nullptr) {
    logger.error("Modifying bearer rnti. Old rnti=0x%x, new rnti=0x%x", old_rnti, new_rnti);
    return false;
  }
  logger.info("Modifying bearer rnti. Old rnti: 0x%x, new rnti: 0x%x", old_rnti, new_rnti);
  // Change RNTI bearers map
@ -120,7 +124,7 @@ bool gtpu_tunnel_manager::update_rnti(uint16_t old_rnti, uint16_t new_rnti)
  // Change TEID in existing tunnels
  auto* new_rnti_ptr = find_rnti_tunnels(new_rnti);
  for (lcid_tunnel& bearer : *new_rnti_ptr) {
-    tunnels[bearer.teid].params.rnti = new_rnti;
+    tunnels[bearer.teid].rnti = new_rnti;
  }
  return true;
@ -128,25 +132,16 @@ bool gtpu_tunnel_manager::update_rnti(uint16_t old_rnti, uint16_t new_rnti)
 bool gtpu_tunnel_manager::remove_tunnel(uint32_t teidin)
 {
-  auto it = tunnels.find(teidin);
+  tunnel& tun = tunnels[teidin];
  if (it == tunnels.end()) {
    logger.warning("Removing GTPU tunnel TEID In=0x%x", teidin);
    return false;
  }
  tunnel_ctxt& tun = it->second;
  // Erase any present forwarding tunnel
  if (tun.params.fwd_teid_in_present) {
    remove_tunnel(tun.params.fwd_teid_in);
  }
  // erase keeping the relative order
-  auto& ue      = ue_teidin_db[tun.params.rnti];
+  auto& ue      = ue_teidin_db[tun.rnti];
-  auto  lcid_it = std::find(ue.begin(), ue.end(), lcid_tunnel{tun.params.lcid, tun.params.teid_in});
+  auto  lcid_it = std::lower_bound(ue.begin(), ue.end(), lcid_tunnel{tun.lcid, tun.teid_in});
  srsran_assert(lcid_it->teid == tun.teid_in and lcid_it->lcid == tun.lcid, "TEID in undefined state");
  ue.erase(lcid_it);
-  logger.info("TEID In=%d for rnti=0x%x erased", teidin, tun.params.rnti);
+  logger.info("TEID In=%d for rnti=0x%x erased", teidin, tun.rnti);
-  tunnels.erase(it);
+  tunnels.erase(teidin);
  return true;
 }
@ -168,7 +163,7 @@ bool gtpu_tunnel_manager::remove_bearer(uint16_t rnti, uint32_t lcid)
 bool gtpu_tunnel_manager::remove_rnti(uint16_t rnti)
 {
  if (not ue_teidin_db.contains(rnti)) {
-    logger.warning("Removing rnti. rnti=0x%x not found.", rnti);
+    logger.warning("removing rnti. rnti=0x%x not found.", rnti);
    return false;
  }
  logger.info("Removing rnti=0x%x", rnti);
@ -180,63 +175,110 @@ bool gtpu_tunnel_manager::remove_rnti(uint16_t rnti)
  return true;
 }
-srsran::expected<bool> gtpu_tunnel_manager::get_tunnel_dl_state(uint32_t teid) const
+void gtpu_tunnel_manager::activate_tunnel(uint32_t teid)
 {
-  auto it = tunnels.find(teid);
+  tunnel& tun = tunnels[teid];
-  if (it == tunnels.end()) {
+  if (tun.state == tunnel_state::pdcp_active) {
-    return srsran::default_error_t();
+    // nothing happens
    return;
  }
-  bool is_enabled = it->second.dl_enabled;
+
-  return is_enabled;
+  logger.info("Activating GTPU tunnel rnti=0x%x,TEID=%d. %d SDUs currently buffered",
              tun.rnti,
              tun.teid_in,
              tun.buffer->size());
  // Forward buffered SDUs to lower layers and delete buffer
  auto lower_sn = [](const std::pair<uint32_t, srsran::unique_byte_buffer_t>& lhs,
                     const std::pair<uint32_t, srsran::unique_byte_buffer_t>& rhs) { return lhs.first < rhs.first; };
  std::stable_sort(tun.buffer->begin(), tun.buffer->end(), lower_sn);
  for (auto& sdu_pair : *tun.buffer) {
    uint32_t pdcp_sn = sdu_pair.first;
    pdcp->write_sdu(tun.rnti, tun.lcid, std::move(sdu_pair.second), pdcp_sn == undefined_pdcp_sn ? -1 : pdcp_sn);
  }
  tun.buffer.reset();
  tun.state = tunnel_state::pdcp_active;
 }
-int gtpu_tunnel_manager::set_tunnel_dl_state(uint32_t teid, bool state, pdcp_interface_gtpu* pdcp)
+void gtpu_tunnel_manager::suspend_tunnel(uint32_t teid)
 {
-  auto it = tunnels.find(teid);
+  tunnel& tun = tunnels[teid];
-  if (it == tunnels.end()) {
+  if (tun.state != tunnel_state::pdcp_active) {
-    logger.warning("Setting tunnel DL state. TEID=%d not found", teid);
+    logger.error("Invalid TEID transition detected");
-    return SRSRAN_ERROR;
+    return;
  }
-  tunnel_ctxt& tun = it->second;
+  // Create a container for buffering SDUs
  tun.buffer.emplace();
  tun.state = tunnel_state::buffering;
 }
-  if (tun.dl_enabled == state) {
+void gtpu_tunnel_manager::set_tunnel_priority(uint32_t before_teid, uint32_t after_teid)
-    // state didn't change
+{
-    return SRSRAN_SUCCESS;
+  tunnel& before_tun = tunnels[before_teid];
-  }
+  tunnel& after_tun  = tunnels[after_teid];
-  tun.dl_enabled = state;
+  // GTPU should not forward SDUs from main tunnel until the SeNB-TeNB tunnel has been flushed
-  if (state) {
+  suspend_tunnel(after_teid);
    logger.info("Activating GTPU tunnel rnti=0x%x,TEID=%d. %d SDUs currently buffered",
                tun.params.rnti,
                tun.params.teid_in,
                tun.buffer->size());
    // Forward buffered SDUs to lower layers and delete buffer
    if (pdcp != nullptr) {
      auto lower_sn = [](const std::pair<uint32_t, srsran::unique_byte_buffer_t>& lhs,
                         const std::pair<uint32_t, srsran::unique_byte_buffer_t>& rhs) {
        return lhs.first < rhs.first;
      };
      std::stable_sort(tun.buffer->begin(), tun.buffer->end(), lower_sn);
-      for (auto& sdu_pair : *tun.buffer) {
+  before_tun.on_removal = [this, after_teid]() {
-        uint32_t pdcp_sn = sdu_pair.first;
+    if (tunnels.contains(after_teid)) {
-        pdcp->write_sdu(
+      // In Handover, TeNB switches paths, and flushes PDUs that have been buffered
-            tun.params.rnti, tun.params.lcid, std::move(sdu_pair.second), pdcp_sn == undefined_pdcp_sn ? -1 : pdcp_sn);
+      activate_tunnel(after_teid);
      }
    }
-    tun.buffer.reset();
+  };
-  } else {
+
-    // Create a container for buffering SDUs
+  // Schedule auto-removal of this indirect tunnel
-    tun.buffer.emplace();
+  before_tun.rx_timer = task_sched.get_unique_timer();
  before_tun.rx_timer.set(500, [this, before_teid](uint32_t tid) {
    // This will self-destruct the callback object
    remove_tunnel(before_teid);
  });
  before_tun.rx_timer.run();
 }
 gtpu_tunnel_manager::tunnel_state gtpu_tunnel_manager::handle_rx_pdcp_sdu(uint32_t teid)
 {
  tunnel& rx_tun = tunnels[teid];
  // Reset Rx timer when a PDCP SDU is received
  if (rx_tun.rx_timer.is_valid() and rx_tun.rx_timer.is_running()) {
    rx_tun.rx_timer.run();
  }
-  return SRSRAN_SUCCESS;
+  return rx_tun.state;
 }
 void gtpu_tunnel_manager::buffer_pdcp_sdu(uint32_t teid, uint32_t pdcp_sn, srsran::unique_byte_buffer_t sdu)
 {
-  srsran_assert(not tunnels[teid].dl_enabled, "Method cannot be called for inexistent TEID=%d", teid);
+  tunnel& rx_tun = tunnels[teid];
-  tunnels[teid].buffer->push_back(std::make_pair(pdcp_sn, std::move(sdu)));
+
  srsran_assert(rx_tun.state == tunnel_state::buffering, "Buffering of PDCP SDUs only enabled when PDCP is not active");
  rx_tun.buffer->push_back(std::make_pair(pdcp_sn, std::move(sdu)));
 }
 void gtpu_tunnel_manager::setup_forwarding(uint32_t rx_teid, uint32_t tx_teid)
 {
  tunnel& rx_tun = tunnels[rx_teid];
  tunnel& tx_tun = tunnels[tx_teid];
  rx_tun.state      = tunnel_state::forward_to;
  rx_tun.fwd_tunnel = &tx_tun;
  tx_tun.state      = tunnel_state::forwarded_from;
  // Auto-removes indirect tunnel when the main tunnel is removed
  rx_tun.on_removal = [this, tx_teid]() {
    if (tunnels.contains(tx_teid)) {
      remove_tunnel(tx_teid);
    }
  };
  logger.info("Creating forwarding tunnel for rnti=0x%x, lcid=%d, in={0x%x, 0x%x}->out={0x%x, 0x%x}",
              rx_tun.rnti,
              rx_tun.lcid,
              rx_tun.teid_out,
              rx_tun.spgw_addr,
              tx_tun.teid_out,
              tx_tun.spgw_addr);
 }
 /********************
@ -244,7 +286,7 @@ void gtpu_tunnel_manager::buffer_pdcp_sdu(uint32_t teid, uint32_t pdcp_sn, srsra
 *******************/
 gtpu::gtpu(srsran::task_sched_handle task_sched_, srslog::basic_logger& logger) :
-  m1u(this), task_sched(task_sched_), logger(logger)
+  m1u(this), task_sched(task_sched_), logger(logger), tunnels(task_sched_)
 {}
 gtpu::~gtpu()
@ -265,6 +307,8 @@ int gtpu::init(std::string                  gtp_bind_addr_,
  mme_addr      = mme_addr_;
  stack         = stack_;
  tunnels.init(pdcp);
  char errbuf[128] = {};
  // Set up socket
@ -321,10 +365,10 @@ void gtpu::write_pdu(uint16_t rnti, uint32_t lcid, srsran::unique_byte_buffer_t
 {
  srsran::span<gtpu_tunnel_manager::lcid_tunnel> teids = tunnels.find_rnti_lcid_tunnels(rnti, lcid);
  if (teids.empty()) {
-    logger.warning("The rnti=0x%x,lcid=%d does not have any active tunnel", rnti, lcid);
+    logger.warning("The rnti=0x%x,lcid=%d does not have any pdcp_active tunnel", rnti, lcid);
    return;
  }
-  gtpu_tunnel& tx_tun = *tunnels.find_tunnel(teids[0].teid);
+  const gtpu_tunnel& tx_tun = *tunnels.find_tunnel(teids[0].teid);
  log_message(tx_tun, false, srsran::make_span(pdu));
  send_pdu_to_tunnel(tx_tun, std::move(pdu));
 }
@ -371,7 +415,7 @@ void gtpu::send_pdu_to_tunnel(const gtpu_tunnel& tx_tun, srsran::unique_byte_buf
 uint32_t gtpu::add_bearer(uint16_t rnti, uint32_t lcid, uint32_t addr, uint32_t teid_out, const bearer_props* props)
 {
  // Allocate a TEID for the incoming tunnel
-  gtpu_tunnel* new_tun = tunnels.add_tunnel(rnti, lcid, teid_out, addr);
+  const gtpu_tunnel* new_tun = tunnels.add_tunnel(rnti, lcid, teid_out, addr);
  if (new_tun == nullptr) {
    return -1;
  }
@ -380,44 +424,17 @@ uint32_t gtpu::add_bearer(uint16_t rnti, uint32_t lcid, uint32_t addr, uint32_t
  if (props != nullptr) {
    if (props->flush_before_teidin_present) {
      // GTPU should wait for the bearer ctxt to arrive before sending SDUs from DL tunnel to PDCP
-      tunnels.set_tunnel_dl_state(teid_in, false, nullptr);
+      tunnels.suspend_tunnel(teid_in);
      // GTPU should not forward SDUs from main tunnel until the SeNB-TeNB tunnel has been flushed
      gtpu_tunnel* after_tun = tunnels.find_tunnel(props->flush_before_teidin);
      if (after_tun == nullptr) {
        logger.error("Setting priority relation between tunnels. TEID=0x%x not found", props->flush_before_teidin);
        tunnels.remove_tunnel(teid_in);
        return -1;
      }
      tunnels.set_tunnel_dl_state(after_tun->teid_in, false, nullptr);
      after_tun->prior_teid_in_present = true;
      after_tun->prior_teid_in         = teid_in;
-      // Schedule autoremoval of this indirect tunnel
+      // GTPU should not forward SDUs from main tunnel until the SeNB-TeNB tunnel has been flushed
-      uint32_t after_teidin  = after_tun->teid_in;
+      tunnels.set_tunnel_priority(teid_in, props->flush_before_teidin);
      uint32_t before_teidin = new_tun->teid_in;
      new_tun->rx_timer      = task_sched.get_unique_timer();
      new_tun->rx_timer.set(500, [this, before_teidin, after_teidin](uint32_t tid) {
        gtpu_tunnel* after_tun = tunnels.find_tunnel(after_teidin);
        if (after_tun != nullptr) {
          if (after_tun->prior_teid_in_present) {
            after_tun->prior_teid_in_present = false;
            set_tunnel_status(after_tun->teid_in, true);
          }
          // else: indirect tunnel already removed
        } else {
          logger.info("Callback to automatic indirect tunnel deletion called for non-existent TEID=%d", after_teidin);
        }
        // This will self-destruct the callback object
        rem_tunnel(before_teidin);
      });
      new_tun->rx_timer.run();
    }
    // Connect tunnels if forwarding is activated
    if (props->forward_from_teidin_present) {
      if (create_dl_fwd_tunnel(props->forward_from_teidin, teid_in) != SRSRAN_SUCCESS) {
        rem_tunnel(teid_in);
-        return 0;
+        return -1;
      }
    }
  }
@ -427,53 +444,68 @@ uint32_t gtpu::add_bearer(uint16_t rnti, uint32_t lcid, uint32_t addr, uint32_t
 void gtpu::set_tunnel_status(uint32_t teidin, bool dl_active)
 {
-  tunnels.set_tunnel_dl_state(teidin, dl_active, pdcp);
+  if (not tunnels.has_teid(teidin)) {
    logger.error("Setting status for non-existent TEID In=0x%x", teidin);
    return;
  }
  if (dl_active) {
    tunnels.activate_tunnel(teidin);
  } else {
    tunnels.suspend_tunnel(teidin);
  }
 }
 void gtpu::rem_bearer(uint16_t rnti, uint32_t lcid)
 {
  if (tunnels.find_rnti_lcid_tunnels(rnti, lcid).empty()) {
    logger.error("Removing non-existent bearer rnti=0x%x,lcid=%d", rnti, lcid);
    return;
  }
  tunnels.remove_bearer(rnti, lcid);
 }
 void gtpu::mod_bearer_rnti(uint16_t old_rnti, uint16_t new_rnti)
 {
  auto* old_rnti_ptr = tunnels.find_rnti_tunnels(old_rnti);
  if (old_rnti_ptr == nullptr or tunnels.find_rnti_tunnels(new_rnti) != nullptr) {
    logger.error("Modifying bearer rnti. Old rnti=0x%x, new rnti=0x%x", old_rnti, new_rnti);
    return;
  }
  tunnels.update_rnti(old_rnti, new_rnti);
 }
 void gtpu::rem_tunnel(uint32_t teidin)
 {
  if (not tunnels.has_teid(teidin)) {
    logger.warning("TEID In=0x%x to be removed does not exist", teidin);
    return;
  }
  tunnels.remove_tunnel(teidin);
 }
 void gtpu::rem_user(uint16_t rnti)
 {
  if (tunnels.find_rnti_tunnels(rnti) == nullptr) {
    logger.warning("removing rnti. rnti=0x%x not found.", rnti);
    return;
  }
  tunnels.remove_rnti(rnti);
 }
 void gtpu::handle_end_marker(const gtpu_tunnel& rx_tunnel)
 {
  uint16_t rnti = rx_tunnel.rnti;
-  logger.info("Received GTPU End Marker for rnti=0x%x.", rnti);
+  logger.info("Received GTPU End Marker for TEID In=0x%x, rnti=0x%x.", rx_tunnel.teid_in, rnti);
-  // TS 36.300, Sec 10.1.2.2.1 - Path Switch upon handover
+  if (rx_tunnel.state == gtpu_tunnel_state::forward_to) {
-  if (rx_tunnel.fwd_teid_in_present) {
+    // TS 36.300, Sec 10.1.2.2.1 - Path Switch upon handover
    // END MARKER should be forwarded to TeNB if forwarding is activated
-    send_end_marker(rx_tunnel.fwd_teid_in);
+    send_end_marker(rx_tunnel.fwd_tunnel->teid_in);
    rem_tunnel(rx_tunnel.teid_in);
  } else {
    // TeNB switches paths, and flushes PDUs that have been buffered
    srsran::span<gtpu_tunnel_manager::lcid_tunnel> lcid_tunnels = tunnels.find_rnti_lcid_tunnels(rnti, rx_tunnel.lcid);
    for (auto& lcid_tun : lcid_tunnels) {
      gtpu_tunnel* new_tun = tunnels.find_tunnel(lcid_tun.teid);
      if (new_tun->teid_in != rx_tunnel.teid_in and new_tun->prior_teid_in_present and
          new_tun->prior_teid_in == rx_tunnel.teid_in) {
        rem_tunnel(new_tun->prior_teid_in);
        new_tun->prior_teid_in_present = false;
        set_tunnel_status(new_tun->teid_in, true);
        break;
      }
    }
  }
  // Remove tunnel that received End Marker
  rem_tunnel(rx_tunnel.teid_in);
 }
 void gtpu::handle_gtpu_s1u_rx_packet(srsran::unique_byte_buffer_t pdu, const sockaddr_in& addr)
@ -496,7 +528,7 @@ void gtpu::handle_gtpu_s1u_rx_packet(srsran::unique_byte_buffer_t pdu, const soc
  }
  // Find TEID present in GTPU Header
-  gtpu_tunnel* tun_ptr = tunnels.find_tunnel(header.teid);
+  const gtpu_tunnel* tun_ptr = tunnels.find_tunnel(header.teid);
  if (tun_ptr == nullptr) {
    // Received G-PDU for non-existing and non-zero TEID.
    // Sending GTP-U error indication
@ -517,7 +549,9 @@ void gtpu::handle_gtpu_s1u_rx_packet(srsran::unique_byte_buffer_t pdu, const soc
  }
 }
-void gtpu::handle_msg_data_pdu(const gtpu_header_t& header, gtpu_tunnel& rx_tunnel, srsran::unique_byte_buffer_t pdu)
+void gtpu::handle_msg_data_pdu(const gtpu_header_t&         header,
                               const gtpu_tunnel&           rx_tunnel,
                               srsran::unique_byte_buffer_t pdu)
 {
  struct iphdr* ip_pkt = (struct iphdr*)pdu->msg;
  if (ip_pkt->version != 4 && ip_pkt->version != 6) {
@ -525,36 +559,37 @@ void gtpu::handle_msg_data_pdu(const gtpu_header_t& header, gtpu_tunnel& rx_tunn
    return;
  }
  if (rx_tunnel.rx_timer.is_valid()) {
    // Restart Rx timer
    rx_tunnel.rx_timer.run();
  }
  uint16_t rnti = rx_tunnel.rnti;
  uint16_t lcid = rx_tunnel.lcid;
  log_message(rx_tunnel, true, srsran::make_span(pdu));
  if (rx_tunnel.fwd_teid_in_present) {
    // Forward SDU to direct/indirect tunnel during Handover
    const gtpu_tunnel* tx_tun_ptr = tunnels.find_tunnel(rx_tunnel.fwd_teid_in);
    if (tx_tun_ptr == nullptr) {
      logger.error("Forwarding tunnel TEID=%d does not exist", rx_tunnel.fwd_teid_in);
      return;
    }
    send_pdu_to_tunnel(*tx_tun_ptr, std::move(pdu));
    return;
  }
  // Forward SDU to PDCP or buffer it if tunnel is disabled
  uint32_t pdcp_sn = undefined_pdcp_sn;
  if ((header.flags & GTPU_FLAGS_EXTENDED_HDR) != 0 and header.next_ext_hdr_type == GTPU_EXT_HEADER_PDCP_PDU_NUMBER) {
    pdcp_sn = (header.ext_buffer[1] << 8U) + header.ext_buffer[2];
  }
-  if (not tunnels.get_tunnel_dl_state(rx_tunnel.teid_in).value()) {
+
-    tunnels.buffer_pdcp_sdu(rx_tunnel.teid_in, pdcp_sn, std::move(pdu));
+  uint16_t rnti = rx_tunnel.rnti;
-  } else {
+  uint16_t lcid = rx_tunnel.lcid;
-    pdcp->write_sdu(rnti, lcid, std::move(pdu), pdcp_sn == undefined_pdcp_sn ? -1 : (int)pdcp_sn);
+
  log_message(rx_tunnel, true, srsran::make_span(pdu));
  gtpu_tunnel_manager::tunnel_state tun_state = tunnels.handle_rx_pdcp_sdu(rx_tunnel.teid_in);
  switch (tun_state) {
    case gtpu_tunnel_manager::tunnel_state::forward_to: {
      // Forward SDU to direct/indirect tunnel during Handover
      send_pdu_to_tunnel(*rx_tunnel.fwd_tunnel, std::move(pdu));
      break;
    }
    case gtpu_tunnel_manager::tunnel_state::buffering: {
      tunnels.buffer_pdcp_sdu(rx_tunnel.teid_in, pdcp_sn, std::move(pdu));
      break;
    }
    case gtpu_tunnel_manager::tunnel_state::pdcp_active: {
      pdcp->write_sdu(rnti, lcid, std::move(pdu), pdcp_sn == undefined_pdcp_sn ? -1 : (int)pdcp_sn);
      break;
    }
    case gtpu_tunnel_manager::tunnel_state::forwarded_from:
    default:
      logger.error("TEID=0x%x in invalid state");
      break;
  }
 }
@ -566,28 +601,21 @@ void gtpu::handle_gtpu_m1u_rx_packet(srsran::unique_byte_buffer_t pdu, const soc
 /// Connect created tunnel with pre-existing tunnel for data forwarding
 int gtpu::create_dl_fwd_tunnel(uint32_t rx_teid_in, uint32_t tx_teid_in)
 {
-  gtpu_tunnel* rx_tun = tunnels.find_tunnel(rx_teid_in);
+  const gtpu_tunnel* rx_tun = tunnels.find_tunnel(rx_teid_in);
-  gtpu_tunnel* tx_tun = tunnels.find_tunnel(tx_teid_in);
+  const gtpu_tunnel* tx_tun = tunnels.find_tunnel(tx_teid_in);
  if (rx_tun == nullptr or tx_tun == nullptr) {
    logger.error("Failed to create forwarding tunnel between teids 0x%x and 0x%x", rx_teid_in, tx_teid_in);
    return SRSRAN_ERROR;
  }
-  rx_tun->fwd_teid_in_present = true;
+  tunnels.setup_forwarding(rx_teid_in, tx_teid_in);
  rx_tun->fwd_teid_in         = tx_teid_in;
  logger.info("Creating forwarding tunnel for rnti=0x%x, lcid=%d, in={0x%x, 0x%x}->out={0x%x, 0x%x}",
              rx_tun->rnti,
              rx_tun->lcid,
              rx_tun->teid_out,
              rx_tun->spgw_addr,
              tx_tun->teid_out,
              tx_tun->spgw_addr);
  // Get all buffered PDCP PDUs, and forward them through tx tunnel
  std::map<uint32_t, srsran::unique_byte_buffer_t> pdus = pdcp->get_buffered_pdus(rx_tun->rnti, rx_tun->lcid);
  for (auto& pdu_pair : pdus) {
-    log_message(*tx_tun, false, srsran::make_span(pdu_pair.second), pdu_pair.first);
+    uint32_t pdcp_sn = pdu_pair.first;
-    send_pdu_to_tunnel(*tx_tun, std::move(pdu_pair.second), pdu_pair.first);
+    log_message(*tx_tun, false, srsran::make_span(pdu_pair.second), pdcp_sn);
    send_pdu_to_tunnel(*tx_tun, std::move(pdu_pair.second), pdcp_sn);
  }
  return SRSRAN_SUCCESS;
@ -718,16 +746,22 @@ void gtpu::log_message(const gtpu_tunnel& tun, bool is_rx, srsran::span<uint8_t>
  if (is_rx) {
    dir = "Rx";
    fmt::format_to(strbuf2, "{}:0x{:0x} > ", srsran::to_c_str(addrbuf), tun.teid_in);
-    if (not tunnels.get_tunnel_dl_state(tun.teid_in).value()) {
+    switch (tun.state) {
-      fmt::format_to(strbuf2, "DL (buffered), ");
+      case gtpu_tunnel_manager::tunnel_state::buffering:
-    } else if (tun.fwd_teid_in_present) {
+        fmt::format_to(strbuf2, "DL (buffered), ");
-      const gtpu_tunnel* tx_tun = tunnels.find_tunnel(tun.fwd_teid_in);
+        break;
-      srsran_assert(tx_tun != nullptr, "Invalid teid=%d", tun.fwd_teid_in);
+      case gtpu_tunnel_manager::tunnel_state::forward_to: {
-      addrbuf.clear();
+        addrbuf.clear();
-      srsran::gtpu_ntoa(addrbuf, htonl(tx_tun->spgw_addr));
+        srsran::gtpu_ntoa(addrbuf, htonl(tun.fwd_tunnel->spgw_addr));
-      fmt::format_to(strbuf2, "{}:0x{:0x} (forwarded), ", srsran::to_c_str(addrbuf), tx_tun->teid_in);
+        fmt::format_to(strbuf2, "{}:0x{:0x} (forwarded), ", srsran::to_c_str(addrbuf), tun.fwd_tunnel->teid_in);
-    } else {
+        break;
-      fmt::format_to(strbuf2, "DL, ");
+      }
      case gtpu_tunnel_manager::tunnel_state::pdcp_active:
        fmt::format_to(strbuf2, "DL, ");
        break;
      default:
        logger.error("TEID=%d found in invalid state: %d", tun.teid_in, (int)tun.state);
        break;
    }
  } else {
    if (pdcp_sn >= 0) {
--- a/srsenb/test/upper/gtpu_test.cc
+++ b/srsenb/test/upper/gtpu_test.cc
@ -132,23 +132,23 @@ void test_gtpu_tunnel_manager()
  const char*        sgw_addr_str = "127.0.0.1";
  struct sockaddr_in sgw_sockaddr = {};
  srsran::net_utils::set_sockaddr(&sgw_sockaddr, sgw_addr_str, GTPU_PORT);
-  uint32_t       sgw_addr  = ntohl(sgw_sockaddr.sin_addr.s_addr);
+  uint32_t               sgw_addr  = ntohl(sgw_sockaddr.sin_addr.s_addr);
-  const uint32_t drb1_lcid = 3;
+  const uint32_t         drb1_lcid = 3;
  srsran::task_scheduler task_sched;
-  gtpu_tunnel_manager tunnels;
+  gtpu_tunnel_manager tunnels(&task_sched);
  TESTASSERT(tunnels.find_tunnel(0) == nullptr);
  TESTASSERT(tunnels.find_rnti_lcid_tunnels(0x46, drb1_lcid).empty());
  TESTASSERT(tunnels.find_rnti_tunnels(0x46) == nullptr);
  TESTASSERT(not tunnels.remove_tunnel(0));
  // Creation of tunnels for different users and lcids
-  gtpu_tunnel* tun = tunnels.add_tunnel(0x46, drb1_lcid, 5, sgw_addr);
+  const gtpu_tunnel* tun = tunnels.add_tunnel(0x46, drb1_lcid, 5, sgw_addr);
  TESTASSERT(tun != nullptr);
  TESTASSERT(tunnels.find_tunnel(tun->teid_in) == tun);
-  gtpu_tunnel* tun2 = tunnels.add_tunnel(0x47, drb1_lcid, 6, sgw_addr);
+  const gtpu_tunnel* tun2 = tunnels.add_tunnel(0x47, drb1_lcid, 6, sgw_addr);
  TESTASSERT(tun2 != nullptr);
  TESTASSERT(tunnels.find_tunnel(tun2->teid_in) == tun2);
-  tun2 = tunnels.add_tunnel(0x47, drb1_lcid + 1, 6, sgw_addr);
+  tun2 = tunnels.add_tunnel(0x47, drb1_lcid + 1, 7, sgw_addr);
  TESTASSERT(tun2 != nullptr);
  TESTASSERT(tunnels.find_tunnel(tun2->teid_in) == tun2);
  TESTASSERT(tunnels.find_rnti_lcid_tunnels(0x46, drb1_lcid).size() == 1);
@ -156,21 +156,39 @@ void test_gtpu_tunnel_manager()
  TESTASSERT(tunnels.find_rnti_lcid_tunnels(0x47, drb1_lcid + 1).size() == 1);
  // TEST: Creation/Removal of indirect tunnel
-  gtpu_tunnel* fwd_tun = tunnels.add_tunnel(0x46, drb1_lcid, 6, sgw_addr);
+  const gtpu_tunnel* fwd_tun = tunnels.add_tunnel(0x46, drb1_lcid, 8, sgw_addr);
  TESTASSERT(fwd_tun != nullptr);
  TESTASSERT(tunnels.find_tunnel(fwd_tun->teid_in) == fwd_tun);
-  tun->fwd_teid_in_present = true;
+  tunnels.setup_forwarding(tun->teid_in, fwd_tun->teid_in);
  tun->fwd_teid_in         = fwd_tun->teid_in;
  TESTASSERT(tunnels.find_rnti_lcid_tunnels(0x46, drb1_lcid).size() == 2);
-  // Removing a tunnel also removes any associated forwarding tunnel
+  // Removing a tunnel also clears any associated forwarding tunnel
  TESTASSERT(tunnels.remove_tunnel(tun->teid_in));
  TESTASSERT(tunnels.find_rnti_lcid_tunnels(0x46, drb1_lcid).empty());
  // TEST: Prioritization of one TEID over another
  const gtpu_tunnel* before_tun = tunnels.add_tunnel(0x46, drb1_lcid, 7, sgw_addr);
  const gtpu_tunnel* after_tun  = tunnels.add_tunnel(0x46, drb1_lcid, 8, sgw_addr);
  TESTASSERT(before_tun != nullptr and after_tun != nullptr);
  tunnels.set_tunnel_priority(before_tun->teid_in, after_tun->teid_in);
  for (uint32_t i = 0; i < 1000; ++i) {
    TESTASSERT(before_tun->state == gtpu_tunnel_manager::tunnel_state::pdcp_active);
    TESTASSERT(after_tun->state == gtpu_tunnel_manager::tunnel_state::buffering);
    // while Rx packets are received, active forwarding TEID should not be removed
    tunnels.handle_rx_pdcp_sdu(before_tun->teid_in);
  }
  // Removing active TEID, will automatically switch TEID paths
  TESTASSERT(tunnels.find_rnti_lcid_tunnels(0x46, drb1_lcid).size() == 2);
  tunnels.remove_tunnel(before_tun->teid_in);
  TESTASSERT(tunnels.find_rnti_lcid_tunnels(0x46, drb1_lcid).size() == 1);
  TESTASSERT(after_tun->state == gtpu_tunnel_manager::tunnel_state::pdcp_active);
 }
 enum class tunnel_test_event { success, wait_end_marker_timeout };
 int test_gtpu_direct_tunneling(tunnel_test_event event)
 {
  srslog::basic_logger& logger = srslog::fetch_basic_logger("TEST");
  logger.info("\n\n**** Test GTPU Direct Tunneling ****\n");
  uint16_t           rnti = 0x46, rnti2 = 0x50;
  uint32_t           drb1         = 3;
  uint32_t           sgw_teidout1 = 1, sgw_teidout2 = 2;