sched,nr: move ssb_sched test to different file...

and also: - correct half-frame bit in MIB package - rename slot_index variable in ssb_sched function Signed-off-by: Carlo Galiotto <carlo@srs.io>
3 years ago · 9887c17c17
parent d18af603aa
commit 9887c17c17
6 changed files with 52 additions and 78 deletions
--- a/srsenb/hdr/stack/mac/nr/sched_nr_grant_allocator.h
+++ b/srsenb/hdr/stack/mac/nr/sched_nr_grant_allocator.h
@ -41,8 +41,8 @@ struct harq_ack_t {
 };
 using harq_ack_list_t = srsran::bounded_vector<harq_ack_t, MAX_GRANTS>;

-// save data for scheduler to keep track of previous allocations
-// This only contains information about a given slot
+/// save data for scheduler to keep track of previous allocations
+/// This only contains information about a given slot
 struct bwp_slot_grid {
  uint32_t          slot_idx = 0;
  const bwp_params* cfg      = nullptr;
--- a/srsenb/src/stack/mac/nr/sched_nr_signalling.cc
+++ b/srsenb/src/stack/mac/nr/sched_nr_signalling.cc
@ -44,24 +44,33 @@ void sched_ssb_basic(const slot_point& sl_point, uint32_t ssb_periodicity, ssb_l
 {
  // If the periodicity is 0, it means that the parameter was not passed by the upper layers.
  // In that case, we use default value of 5ms (see Clause 4.1, TS 38.213)
-  if (ssb_periodicity == 0)
+  if (ssb_periodicity == 0) {
    ssb_periodicity = DEFAULT_SSB_PERIODICITY;
+  }

-  uint32_t sl_idx = sl_point.to_uint();
-  // mod operation of slot index by ssb_periodicity. With current subcarrier spacing, 1 slot = 1ms
-  uint32_t sl_point_mod = sl_point.to_uint() % ssb_periodicity;
+  uint32_t sl_cnt = sl_point.to_uint();
+  // Perform mod operation of slot index by ssb_periodicity;
+  // "ssb_periodicity * nof_slots_per_subframe" gives the number of slots in 1 ssb_periodicity time interval
+  uint32_t sl_point_mod = sl_cnt % (ssb_periodicity * (uint32_t)sl_point.nof_slots_per_subframe());

-  // code below is simplified
+  // code below is simplified, it assumes 15kHz subcarrier spacing and sub 3GHz carrier
  if (sl_point_mod == 0) {
    ssb_t           ssb_msg = {};
    srsran_mib_nr_t mib_msg = {};
    mib_msg.sfn             = sl_point.sfn();
-    mib_msg.hrf             = (sl_idx % SRSRAN_NSLOTS_PER_FRAME_NR(srsran_subcarrier_spacing_15kHz) <
+    mib_msg.hrf             = (sl_point.slot_idx() % SRSRAN_NSLOTS_PER_FRAME_NR(srsran_subcarrier_spacing_15kHz) >=
                   SRSRAN_NSLOTS_PER_FRAME_NR(srsran_subcarrier_spacing_15kHz) / 2);
    // This corresponds to "Position in Burst" = 1000
    mib_msg.ssb_idx = 0;
+    // Setting the following 4 parameters is redundant, but it makes it explicit what values are passed to PHY
+    mib_msg.dmrs_typeA_pos = srsran_dmrs_sch_typeA_pos_2;
+    mib_msg.scs_common     = srsran_subcarrier_spacing_15kHz;
+    mib_msg.coreset0_idx   = 0;
+    mib_msg.ss0_idx        = 0;
+
    // Pack mib message to be sent to PHY
-    srsran_pbch_msg_nr_mib_pack(&mib_msg, &ssb_msg.pbch_msg);
+    int packing_ret_code = srsran_pbch_msg_nr_mib_pack(&mib_msg, &ssb_msg.pbch_msg);
+    srsran_assert(packing_ret_code == SRSRAN_SUCCESS, "SSB packing returned en error");
    ssb_list.push_back(ssb_msg);
  }
 }
--- a/srsenb/test/mac/nr/sched_nr_common_test.cc
+++ b/srsenb/test/mac/nr/sched_nr_common_test.cc
@ -12,6 +12,7 @@

 #include "sched_nr_common_test.h"
 #include "srsran/support/srsran_test.h"
+#include <srsenb/hdr/stack/mac/nr/sched_nr_cfg.h>

 namespace srsenb {

@ -40,4 +41,31 @@ void test_pdsch_consistency(srsran::const_span<mac_interface_phy_nr::pdsch_t> pd
  }
 }

+void test_ssb_scheduled_grant(
+    srsran::slot_point&                                                                       sl_point,
+    const srsran::bounded_vector<mac_interface_phy_nr::ssb_t, mac_interface_phy_nr::MAX_SSB>& ssb_list)
+{
+  const uint32_t ssb_periodicity = 5;
+
+  /*
+   * Verify that, with correct SSB periodicity, dl_res has:
+   * 1) SSB grant
+   * 2) 4 LSBs of SFN in packed MIB message are correct
+   * 3) SSB index is 0
+   */
+  if (sl_point.to_uint() % (ssb_periodicity * (uint32_t)sl_point.nof_slots_per_subframe()) == 0) {
+    TESTASSERT(ssb_list.size() == 1);
+    auto& ssb_item = ssb_list.back();
+    TESTASSERT(ssb_item.pbch_msg.sfn_4lsb == ((uint8_t)sl_point.sfn() & 0b1111));
+    bool expected_hrf = sl_point.slot_idx() % SRSRAN_NSLOTS_PER_FRAME_NR(srsran_subcarrier_spacing_15kHz) >=
+                        SRSRAN_NSLOTS_PER_FRAME_NR(srsran_subcarrier_spacing_15kHz) / 2;
+    TESTASSERT(ssb_item.pbch_msg.hrf == expected_hrf);
+    TESTASSERT(ssb_item.pbch_msg.ssb_idx == 0);
+  }
+  // Verify that, outside SSB periodicity, there is NO SSB grant
+  else {
+    TESTASSERT(ssb_list.size() == 0);
+  }
+}
+
 } // namespace srsenb
--- a/srsenb/test/mac/nr/sched_nr_common_test.h
+++ b/srsenb/test/mac/nr/sched_nr_common_test.h
@ -20,6 +20,10 @@ namespace srsenb {

 void test_dl_pdcch_consistency(srsran::const_span<sched_nr_impl::pdcch_dl_t> dl_pdcch);
 void test_pdsch_consistency(srsran::const_span<mac_interface_phy_nr::pdsch_t> dl_pdcch);
+/// @brief Test whether the SSB grant gets scheduled with the correct periodicity.
+void test_ssb_scheduled_grant(
+    srsran::slot_point&                                                                       sl_point,
+    const srsran::bounded_vector<mac_interface_phy_nr::ssb_t, mac_interface_phy_nr::MAX_SSB>& ssb_list);

 } // namespace srsenb

--- a/srsenb/test/mac/nr/sched_nr_sim_ue.cc
+++ b/srsenb/test/mac/nr/sched_nr_sim_ue.cc
@ -162,6 +162,8 @@ void sched_nr_sim_base::update(sched_nr_cc_output_res_t& cc_out)
  // Run common tests
  test_dl_pdcch_consistency(cc_out.dl_cc_result->dl_sched.pdcch_dl);
  test_pdsch_consistency(cc_out.dl_cc_result->dl_sched.pdsch);
+  test_ssb_scheduled_grant(cc_out.slot, cc_out.dl_cc_result->dl_sched.ssb);
+

  // Run UE-dedicated tests
  test_dl_sched_result(ctxt, cc_out);
--- a/srsenb/test/mac/nr/sched_nr_test.cc
+++ b/srsenb/test/mac/nr/sched_nr_test.cc
@ -126,74 +126,6 @@ void sched_nr_cfg_serialized_test()
  printf("Total time taken per slot: %f usec\n", final_avg_usec);
 }

-/*
- * @brief Test whether the SSB grant gets scheduled with the correct periodicity.
- *
- */
-void sched_nr_ssb_test()
-{
-  const uint32_t   ssb_periodicity = 5;
-  uint32_t         max_nof_ttis = 1000, nof_sectors = 4;
-  task_job_manager tasks;
-
-  sched_nr_interface::sched_cfg_t cfg;
-  cfg.auto_refill_buffer = true;
-
-  std::vector<sched_nr_interface::cell_cfg_t> cells_cfg = get_default_cells_cfg(nof_sectors);
-
-  sched_nr_sim_base sched_tester(cfg, cells_cfg, "Serialized Test");
-
-  sched_nr_interface::ue_cfg_t uecfg = get_default_ue_cfg(nof_sectors);
-  uecfg.fixed_dl_mcs                 = 15;
-  uecfg.fixed_ul_mcs                 = 15;
-  sched_tester.add_user(0x46, uecfg, slot_point{0, 0}, 0);
-
-  std::vector<long> count_per_cc(nof_sectors, 0);
-  for (uint32_t nof_slots = 0; nof_slots < max_nof_ttis; ++nof_slots) {
-    slot_point slot_rx(0, nof_slots % 10240);
-    slot_point slot_tx = slot_rx + TX_ENB_DELAY;
-    tasks.start_slot(slot_rx, nof_sectors);
-    sched_tester.new_slot(slot_tx);
-    for (uint32_t cc = 0; cc < cells_cfg.size(); ++cc) {
-      sched_nr_interface::dl_sched_res_t dl_res;
-      sched_nr_interface::ul_sched_t     ul_res;
-      auto                               tp1 = std::chrono::steady_clock::now();
-      TESTASSERT(sched_tester.get_sched()->get_dl_sched(slot_tx, cc, dl_res) == SRSRAN_SUCCESS);
-      TESTASSERT(sched_tester.get_sched()->get_ul_sched(slot_tx, cc, ul_res) == SRSRAN_SUCCESS);
-      auto tp2 = std::chrono::steady_clock::now();
-      count_per_cc[cc] += std::chrono::duration_cast<std::chrono::nanoseconds>(tp2 - tp1).count();
-      sched_nr_cc_output_res_t out{slot_tx, cc, &dl_res, &ul_res};
-      sched_tester.update(out);
-      tasks.finish_cc(slot_rx, dl_res, ul_res);
-      /*
-       * Verify that, with correct SSB periodicity, dl_res has:
-       * 1) SSB grant
-       * 2) 4 LSBs of SFN in packed MIB message are correct
-       * 3) SSB index is 0
-       */
-      if (slot_tx.to_uint() % ssb_periodicity == 0) {
-        TESTASSERT(dl_res.dl_sched.ssb.size() == 1);
-        auto& ssb_item = dl_res.dl_sched.ssb.back();
-        TESTASSERT(ssb_item.pbch_msg.sfn_4lsb == ((uint8_t)slot_tx.sfn() & 0b1111));
-        TESTASSERT(ssb_item.pbch_msg.ssb_idx == 0);
-      }
-      /// Verify that, outside SSB periodicity, dl_res HAS NO SSB grant
-      else
-        TESTASSERT(dl_res.dl_sched.ssb.size() == 0);
-    }
-  }
-
-  tasks.print_results();
-  TESTASSERT(tasks.pdsch_count == (int)(max_nof_ttis * nof_sectors * 0.6));
-
-  double final_avg_usec = 0;
-  for (uint32_t cc = 0; cc < cells_cfg.size(); ++cc) {
-    final_avg_usec += count_per_cc[cc];
-  }
-  final_avg_usec = final_avg_usec / 1000.0 / max_nof_ttis;
-  printf("Total time taken per slot: %f usec\n", final_avg_usec);
-}
-
 void sched_nr_cfg_parallel_cc_test()
 {
  uint32_t         nof_sectors  = 4;
@ -266,5 +198,4 @@ int main()

  srsenb::sched_nr_cfg_serialized_test();
  srsenb::sched_nr_cfg_parallel_cc_test();
-  srsenb::sched_nr_ssb_test();
 }