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158 lines
4.9 KiB
C++
158 lines
4.9 KiB
C++
/**
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*
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* \section COPYRIGHT
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*
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* Copyright 2013-2021 Software Radio Systems Limited
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*
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* By using this file, you agree to the terms and conditions set
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* forth in the LICENSE file which can be found at the top level of
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* the distribution.
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*
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*/
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#include "dummy_gnb_stack.h"
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#include "srsran/common/phy_cfg_nr_default.h"
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#include "srsran/common/test_common.h"
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#include "test_bench.h"
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test_bench::args_t::args_t(int argc, char** argv)
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{
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// Flag configuration as valid
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valid = true;
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// Load default reference configuration
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srsran::phy_cfg_nr_default_t::reference_cfg_t reference_cfg;
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phy_cfg = srsran::phy_cfg_nr_default_t(reference_cfg);
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cell_list.resize(1);
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cell_list[0].carrier = phy_cfg.carrier;
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cell_list[0].rf_port = 0;
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cell_list[0].cell_id = 0;
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cell_list[0].pdcch = phy_cfg.pdcch;
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}
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class ue_dummy_stack : public srsue::stack_interface_phy_nr
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{
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private:
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uint16_t rnti = 0;
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bool valid = false;
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struct dummy_harq_proc {
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static const uint32_t MAX_TB_SZ = SRSRAN_LDPC_MAX_LEN_CB * SRSRAN_SCH_NR_MAX_NOF_CB_LDPC;
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srsran_softbuffer_rx_t softbuffer = {};
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dummy_harq_proc()
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{
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// Initialise softbuffer
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if (srsran_softbuffer_rx_init_guru(&softbuffer, SRSRAN_SCH_NR_MAX_NOF_CB_LDPC, SRSRAN_LDPC_MAX_LEN_ENCODED_CB) <
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SRSRAN_SUCCESS) {
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ERROR("Error Tx buffer");
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}
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}
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~dummy_harq_proc() { srsran_softbuffer_rx_free(&softbuffer); }
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};
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srsran::circular_array<dummy_harq_proc, SRSRAN_MAX_HARQ_PROC_DL_NR> rx_harq_proc;
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public:
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struct args_t {
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uint16_t rnti = 0x1234;
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};
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ue_dummy_stack(const args_t& args) : rnti(args.rnti) { valid = true; }
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void in_sync() override {}
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void out_of_sync() override {}
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void run_tti(const uint32_t tti) override {}
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int sf_indication(const uint32_t tti) override { return 0; }
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sched_rnti_t get_dl_sched_rnti_nr(const uint32_t tti) override { return {rnti, srsran_rnti_type_c}; }
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sched_rnti_t get_ul_sched_rnti_nr(const uint32_t tti) override { return {rnti, srsran_rnti_type_c}; }
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void new_grant_dl(const uint32_t cc_idx, const mac_nr_grant_dl_t& grant, tb_action_dl_t* action) override
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{
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action->tb.enabled = true;
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action->tb.softbuffer = &rx_harq_proc[grant.pid].softbuffer;
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}
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void tb_decoded(const uint32_t cc_idx, const mac_nr_grant_dl_t& grant, tb_action_dl_result_t result) override {}
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void new_grant_ul(const uint32_t cc_idx, const mac_nr_grant_ul_t& grant, tb_action_ul_t* action) override {}
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void prach_sent(uint32_t tti, uint32_t s_id, uint32_t t_id, uint32_t f_id, uint32_t ul_carrier_id) override {}
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bool sr_opportunity(uint32_t tti, uint32_t sr_id, bool meas_gap, bool ul_sch_tx) override { return false; }
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bool is_valid() const { return valid; }
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};
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int main(int argc, char** argv)
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{
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srslog::init();
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// Parse test bench arguments
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test_bench::args_t args(argc, argv);
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args.gnb_args.log_id_preamble = "GNB/";
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args.gnb_args.log_level = "info";
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args.gnb_args.nof_phy_threads = 1;
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args.ue_args.log.id_preamble = " UE/";
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args.ue_args.log.phy_level = "info";
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args.ue_args.log.phy_hex_limit = 0;
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args.ue_args.nof_phy_threads = 1;
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// Parse arguments
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TESTASSERT(args.valid);
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// Create UE stack arguments
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ue_dummy_stack::args_t ue_stack_args = {};
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ue_stack_args.rnti = 0x1234;
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// Create UE stack
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ue_dummy_stack ue_stack(ue_stack_args);
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TESTASSERT(ue_stack.is_valid());
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// Create GNB stack arguments
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gnb_dummy_stack::args_t gnb_stack_args = {};
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gnb_stack_args.rnti = 0x1234;
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gnb_stack_args.mcs = 10;
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gnb_stack_args.phy_cfg = args.phy_cfg;
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gnb_stack_args.dl_start_rb = 0;
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gnb_stack_args.dl_length_rb = args.phy_cfg.carrier.nof_prb;
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// Create GNB stack
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gnb_dummy_stack gnb_stack(gnb_stack_args);
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TESTASSERT(gnb_stack.is_valid());
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// Create test bench
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test_bench tb(args, gnb_stack, ue_stack);
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// Assert bench is initialised correctly
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TESTASSERT(tb.is_initialised());
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// Run per TTI basis
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for (uint32_t i = 0; i < 1000; i++) {
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TESTASSERT(tb.run_tti());
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}
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// Stop test bench
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tb.stop();
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// Flush log
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srslog::flush();
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// Retrieve MAC metrics
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srsenb::mac_ue_metrics_t mac_metrics = gnb_stack.get_metrics();
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// Print metrics
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float pdsch_bler = 0.0f;
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if (mac_metrics.tx_pkts != 0) {
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pdsch_bler = (float)mac_metrics.tx_errors / (float)mac_metrics.tx_pkts;
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}
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float pdsch_rate = 0.0f;
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if (mac_metrics.tx_pkts != 0) {
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pdsch_rate = (float)mac_metrics.tx_brate / (float)mac_metrics.tx_pkts / 1000.0f;
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}
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srsran::console("PDSCH:\n");
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srsran::console(" Count: %d\n", mac_metrics.tx_pkts);
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srsran::console(" BLER: %f\n", pdsch_bler);
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srsran::console(" Rate: %f Mbps\n", pdsch_rate);
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// Assert metrics
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TESTASSERT(mac_metrics.tx_errors == 0);
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// If reached here, the test is successful
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return SRSRAN_SUCCESS;
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}
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