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srsRAN_4G/test/phy/CMakeLists.txt

154 lines
7.2 KiB
CMake

#
# Copyright 2013-2021 Software Radio Systems Limited
#
# This file is part of srsRAN
#
# srsRAN is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License as
# published by the Free Software Foundation, either version 3 of
# the License, or (at your option) any later version.
#
# srsRAN is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Affero General Public License for more details.
#
# A copy of the GNU Affero General Public License can be found in
# the LICENSE file in the top-level directory of this distribution
# and at http://www.gnu.org/licenses/.
#
if (RF_FOUND AND ENABLE_SRSUE AND ENABLE_SRSENB)
set(NR_PHY_TEST_GNB_NOF_THREADS 1)
set(NR_PHY_TEST_UE_NOF_THREADS 1)
add_executable(nr_phy_test nr_phy_test.cc)
target_link_libraries(nr_phy_test
srsue_phy
srsran_common
srsran_phy
srsran_radio
srsenb_phy
srsgnb_mac
srsran_mac
${CMAKE_THREAD_LIBS_INIT}
${Boost_LIBRARIES}
${CMAKE_THREAD_LIBS_INIT}
${Boost_LIBRARIES}
${ATOMIC_LIBS})
# For each supported bandwidth
foreach (NR_PHY_TEST_BW "10MHz" "20MHz")
# For each supported frame structure
foreach (NR_PHY_TEST_DUPLEX "FDD" "6D+4U" "FR1.15-1")
set(NR_PHY_TEST_DURATION_MS 20)
# DL flooding only
foreach (NR_PHY_TEST_PDSCH "default" "ts38101/5.2-1")
add_nr_test(nr_phy_test_${NR_PHY_TEST_BW}_${NR_PHY_TEST_DUPLEX}_dl_${NR_PHY_TEST_PDSCH} nr_phy_test
--reference=carrier=${NR_PHY_TEST_BW},duplex=${NR_PHY_TEST_DUPLEX},pdsch=${NR_PHY_TEST_PDSCH}
--duration=${NR_PHY_TEST_DURATION_MS}
--gnb.stack.pdsch.slots=all
--gnb.stack.pdsch.start=0 # Start at RB 0
--gnb.stack.pdsch.length=52 # Full 10 MHz BW
--gnb.stack.pdsch.mcs=27 # Maximum MCS
--gnb.stack.pusch.slots=none
--gnb.phy.nof_threads=${NR_PHY_TEST_GNB_NOF_THREADS}
--ue.phy.nof_threads=${NR_PHY_TEST_UE_NOF_THREADS}
)
endforeach ()
# UL flooding
add_nr_test(nr_phy_test_${NR_PHY_TEST_BW}_${NR_PHY_TEST_DUPLEX}_ul_only nr_phy_test
--reference=carrier=${NR_PHY_TEST_BW},duplex=${NR_PHY_TEST_DUPLEX}
--duration=${NR_PHY_TEST_DURATION_MS}
--gnb.stack.pdsch.slots=none
--gnb.stack.pusch.slots=all
--gnb.stack.pusch.start=0 # Start at RB 0
--gnb.stack.pusch.length=52 # Full 10 MHz BW
--gnb.stack.pusch.mcs=28 # Maximum MCS
--gnb.phy.nof_threads=${NR_PHY_TEST_GNB_NOF_THREADS}
--ue.phy.nof_threads=${NR_PHY_TEST_UE_NOF_THREADS}
)
# DL and UL flooding
add_nr_test(nr_phy_test_${NR_PHY_TEST_BW}_${NR_PHY_TEST_DUPLEX}_bidir nr_phy_test
--reference=carrier=${NR_PHY_TEST_BW},duplex=${NR_PHY_TEST_DUPLEX}
--duration=${NR_PHY_TEST_DURATION_MS}
--gnb.stack.pdsch.slots=all
--gnb.stack.pdsch.start=0 # Start at RB 0
--gnb.stack.pdsch.length=52 # Full 10 MHz BW
--gnb.stack.pdsch.mcs=28 # Maximum MCS
--gnb.stack.pusch.slots=all
--gnb.stack.pusch.start=0 # Start at RB 0
--gnb.stack.pusch.length=52 # Full 10 MHz BW
--gnb.stack.pusch.mcs=28 # Maximum MCS
--gnb.phy.nof_threads=${NR_PHY_TEST_GNB_NOF_THREADS}
--ue.phy.nof_threads=${NR_PHY_TEST_UE_NOF_THREADS}
)
endforeach ()
add_nr_test(nr_phy_test_${NR_PHY_TEST_BW}_bidir_sched nr_phy_test
--reference=carrier=${NR_PHY_TEST_BW}
--duration=100 # 100 slots
--rnti=17921 # 0x4601
--gnb.stack.pdsch.slots=0,1,2,3,4,5 # All possible DL slots
--gnb.stack.pdsch.start=0 # Start at RB 0
--gnb.stack.pdsch.length=52 # Full 10 MHz BW
--gnb.stack.pdsch.mcs=28 # Maximum MCS
--gnb.stack.pusch.slots=6,7,8,9 # All possible UL slots
--gnb.stack.pusch.start=0 # Start at RB 0
--gnb.stack.pusch.length=52 # Full 10 MHz BW
--gnb.stack.pusch.mcs=28 # Maximum MCS
--gnb.stack.use_dummy_sched=false # Use real NR scheduler
--gnb.phy.nof_threads=${NR_PHY_TEST_GNB_NOF_THREADS}
--ue.phy.nof_threads=${NR_PHY_TEST_UE_NOF_THREADS}
)
# Test PRACH transmission and detection
add_nr_test(nr_phy_test_${NR_PHY_TEST_BW}_prach_fdd nr_phy_test
--reference=carrier=${NR_PHY_TEST_BW},duplex=FDD
--duration=1000 # 1000 slots
--gnb.stack.pdsch.slots=none # No PDSCH
--gnb.stack.pusch.slots=none # No PUSCH
--gnb.phy.nof_threads=${NR_PHY_TEST_GNB_NOF_THREADS}
--ue.stack.prach.period=30 # Transmit PRACH every 30 radio frames
--ue.stack.prach.preamble=10 # Use preamble 10
--ue.phy.nof_threads=${NR_PHY_TEST_UE_NOF_THREADS}
)
add_nr_test(nr_phy_test_${NR_PHY_TEST_BW}_prach_tdd nr_phy_test
--reference=carrier=${NR_PHY_TEST_BW},duplex=6D+4U
--duration=1000 # 1000 slots
--gnb.stack.pdsch.slots=none # No PDSCH
--gnb.stack.pusch.slots=none # No PUSCH
--gnb.phy.nof_threads=${NR_PHY_TEST_GNB_NOF_THREADS}
--ue.stack.prach.period=30 # Transmit PRACH every 30 radio frames
--ue.stack.prach.preamble=10 # Use preamble 10
--ue.phy.nof_threads=${NR_PHY_TEST_UE_NOF_THREADS}
)
# Test scheduling request
add_nr_test(nr_phy_test_${NR_PHY_TEST_BW}_sr nr_phy_test
--reference=carrier=${NR_PHY_TEST_BW}
--duration=1000 # 1000 slots
--gnb.stack.pdsch.slots=none # No PDSCH
--gnb.stack.pusch.slots=none # No PUSCH
--gnb.phy.nof_threads=${NR_PHY_TEST_GNB_NOF_THREADS}
--ue.stack.sr.period=4 # Transmit SR every 4 opportunities
--ue.phy.nof_threads=${NR_PHY_TEST_UE_NOF_THREADS}
)
# Test scheduling request multiplexed with HARQ ACK feedback
add_nr_test(nr_phy_test_${NR_PHY_TEST_BW}_sr_harq nr_phy_test
--reference=carrier=${NR_PHY_TEST_BW}
--duration=1000 # 1000 slots
--gnb.stack.pdsch.slots=all # All PDSCH
--gnb.stack.pusch.slots=none # No PUSCH
--gnb.phy.nof_threads=${NR_PHY_TEST_GNB_NOF_THREADS}
--ue.stack.sr.period=4 # Transmit SR every 4 opportunities
--ue.phy.nof_threads=${NR_PHY_TEST_UE_NOF_THREADS}
)
endforeach ()
endif ()