fix CUDA latency

parent 579cfad8
......@@ -2,13 +2,12 @@
We want to make contributing to this project as easy and transparent as possible.
Please refer to the steps described on our website: [How to contribute to OAI](https://www.openairinterface.org/?page_id=112)
1. Sign and return a Contributor License Agreement to OAI team.
2. Create an account on [Eurecom GitLab Server](https://gitlab.eurecom.fr).
3. Provide the identifiant of this account to the OAI team (mailto:contact@openairinterface.org) so you have developer rights on this repository.
2. We recommend that you provide us with a professional or student email address
2. Register on [Eurecom GitLab Server](https://gitlab.eurecom.fr/users/sign_in)
3. Provide the OAI team with the **username** of this account to (mailto:contact@openairinterface.org) ; we will give you the developer rights on this repository.
4. The policies are described in these wiki pages: [OAI Policies](https://gitlab.eurecom.fr/oai/openairinterface5g/wikis/oai-policies-home)
- PLEASE DO NOT FORK the OAI repository on your own Eurecom GitLab account. It just eats up space on our servers.
- PLEASE DO NOT FORK the OAI repository on your own Eurecom GitLab account. It just eats up space on our servers.
- You can fork onto another hosting system. But we will NOT accept a merge request from a forked repository.
* This decision was made for the license reasons.
* The Continuous Integration will reject your merge request.
......
r*.raw
enb_*.log
ue_*.log
ping_*.*
......
......@@ -110,7 +110,7 @@ MODIFIED_FILES=`git log $TARGET_INIT_COMMIT..$MERGE_COMMMIT --oneline --name-sta
NB_WARNINGS_FILES=0
# Retrieve list of warnings
LIST_WARNING_FILES=`egrep "error:|warning:" archives/*/*.Rel15.txt archives/*/basic_simulator_*txt | egrep -v "jobserver unavailable|Clock skew detected.|flexran.proto" | sed -e "s#^.*/home/ubuntu/tmp/##" -e "s#^.*/tmp/CI-eNB/##" -e "s#common/utils/.*/itti#common/utils/itti#" | awk -F ":" '{print $1}' | sort | uniq`
LIST_WARNING_FILES=`egrep "error:|warning:" archives/*/*.Rel15.txt | egrep -v "jobserver unavailable|Clock skew detected.|flexran.proto" | sed -e "s#^.*/home/ubuntu/tmp/##" -e "s#^.*/tmp/CI-eNB/##" -e "s#common/utils/.*/itti#common/utils/itti#" | awk -F ":" '{print $1}' | sort | uniq`
echo ""
echo "List of files that have been modified by the Merge Request AND"
......
......@@ -57,6 +57,7 @@ OAI_UE_PROCESS_ASSERTION = -22
OAI_UE_PROCESS_FAILED = -23
OAI_UE_PROCESS_NO_TUNNEL_INTERFACE = -24
OAI_UE_PROCESS_SEG_FAULT = -25
OAI_UE_PROCESS_NO_MBMS_MSGS = -26
OAI_UE_PROCESS_OK = +6
UE_STATUS_DETACHED = 0
......
......@@ -37,6 +37,7 @@ memleak:openair2/UTIL/OMG/omg_hashtable.c
// _emm_as_encode function creates the encoded buffer
//
memleak:openair3/NAS/UE/EMM/SAP/emm_as.c
memleak:openair1/PHY/INIT/nr_init_ue.c
//-----------------------------------------------------------------------------
//*****************************************************************************
// section for files not used in oai exec's included in CI.
......
......@@ -38,7 +38,6 @@ Last point, this documentation is valid for all CI-supported branches:
* `master`
* `develop`
* `develop-nr`
But the feature set may not be aligned. **The principles still apply.**
......
......@@ -326,7 +326,7 @@ class HTMLManagement():
continue
self.htmlFile.write(' <tr>\n')
self.htmlFile.write(' <th colspan=8>' + str('eNB') + ' Server Characteristics</th>\n')
self.htmlFile.write(' <th colspan=8>' + str(machine) + ' Server Characteristics</th>\n')
self.htmlFile.write(' </tr>\n')
self.htmlFile.write(' <tr>\n')
self.htmlFile.write(' <td>OS Version</td>\n')
......
This diff is collapsed.
......@@ -186,7 +186,7 @@ function variant__v3__phy_sim {
BUILD_OPTIONS="--phy_simulators"
VM_MEMORY=8192
VM_DISK=20
RUN_OPTIONS="./run_exec_autotests.bash -g \"01510* 015111\" -q -np -b"
RUN_OPTIONS="./run_exec_autotests.bash -g \"01510* 015111 015112\" -q -np -b"
}
function variant__v4__cppcheck {
......@@ -197,7 +197,7 @@ function variant__v4__cppcheck {
}
function variant__v5__gnb_usrp {
VM_MEMORY=8192
VM_MEMORY=10240
VM_CPU=8
NB_PATTERN_FILES=9
BUILD_OPTIONS="--gNB -w USRP"
......
......@@ -366,7 +366,7 @@ class RANManagement():
count = 40
buildOAIprocess = True
while (count > 0) and buildOAIprocess:
mySSH.command('ps aux | grep --color=never build_ | grep -v grep', '\$', 3)
mySSH.command('ps aux | grep --color=never build_ | grep -v grep', '\$', 6)
result = re.search('build_oai', mySSH.getBefore())
if result is None:
buildOAIprocess = False
......@@ -546,6 +546,9 @@ class RANManagement():
# Launch eNB with the modified config file
mySSH.command('source oaienv', '\$', 5)
mySSH.command('cd cmake_targets', '\$', 5)
if self.air_interface == 'nr':
mySSH.command('if [ -e rbconfig.raw ]; then echo ' + lPassWord + ' | sudo -S rm rbconfig.raw; fi', '\$', 5)
mySSH.command('if [ -e reconfig.raw ]; then echo ' + lPassWord + ' | sudo -S rm reconfig.raw; fi', '\$', 5)
mySSH.command('echo "ulimit -c unlimited && ./ran_build/build/' + self.air_interface + '-softmodem -O ' + lSourcePath + '/' + ci_full_config_file + extra_options + '" > ./my-lte-softmodem-run' + str(self.eNB_instance) + '.sh', '\$', 5)
mySSH.command('chmod 775 ./my-lte-softmodem-run' + str(self.eNB_instance) + '.sh', '\$', 5)
mySSH.command('echo ' + lPassWord + ' | sudo -S rm -Rf enb_' + self.testCase_id + '.log', '\$', 5)
......@@ -607,7 +610,11 @@ class RANManagement():
enbDidSync = True
time.sleep(10)
if enbDidSync and eNBinNoS1:
rruCheck = False
result = re.search('^rru|^du.band', str(config_file))
if result is not None:
rruCheck = True
if enbDidSync and eNBinNoS1 and not rruCheck:
mySSH.command('ifconfig oaitun_enb1', '\$', 4)
mySSH.command('ifconfig oaitun_enb1', '\$', 4)
result = re.search('inet addr:1|inet 1', mySSH.getBefore())
......@@ -774,7 +781,7 @@ class RANManagement():
mySSH.command('cd ' + self.eNBSourceCodePath, '\$', 5)
mySSH.command('cd cmake_targets', '\$', 5)
mySSH.command('echo ' + self.eNBPassword + ' | sudo -S rm -f enb.log.zip', '\$', 5)
mySSH.command('echo ' + self.eNBPassword + ' | sudo -S zip enb.log.zip enb*.log core* enb_*record.raw enb_*.pcap enb_*txt', '\$', 60)
mySSH.command('echo ' + self.eNBPassword + ' | sudo -S zip enb.log.zip enb*.log core* enb_*record.raw enb_*.pcap enb_*txt physim_*.log', '\$', 60)
mySSH.command('echo ' + self.eNBPassword + ' | sudo -S rm enb*.log core* enb_*record.raw enb_*.pcap enb_*txt', '\$', 5)
mySSH.close()
......@@ -800,8 +807,11 @@ class RANManagement():
uciStatMsgCount = 0
pdcpFailure = 0
ulschFailure = 0
ulschAllocateCCEerror = 0
uplinkSegmentsAborted = 0
ulschReceiveOK = 0
gnbRxTxWakeUpFailure = 0
gnbTxWriteThreadEnabled = False
cdrxActivationMessageCount = 0
dropNotEnoughRBs = 0
mbmsRequestMsg = 0
......@@ -812,6 +822,7 @@ class RANManagement():
X2HO_state = CONST.X2_HO_REQ_STATE__IDLE
X2HO_inNbProcedures = 0
X2HO_outNbProcedures = 0
global_status = CONST.ALL_PROCESSES_OK
for line in enb_log_file.readlines():
if X2HO_state == CONST.X2_HO_REQ_STATE__IDLE:
result = re.search('target eNB Receives X2 HO Req X2AP_HANDOVER_REQ', str(line))
......@@ -914,9 +925,18 @@ class RANManagement():
result = re.search('could not wakeup gNB rxtx process', str(line))
if result is not None:
gnbRxTxWakeUpFailure += 1
result = re.search('tx write thread ready', str(line))
if result is not None:
gnbTxWriteThreadEnabled = True
result = re.search('ULSCH in error in round|ULSCH 0 in error', str(line))
if result is not None:
ulschFailure += 1
result = re.search('ERROR ALLOCATING CCEs', str(line))
if result is not None:
ulschAllocateCCEerror += 1
result = re.search('uplink segment error.*aborted [1-9] segments', str(line))
if result is not None:
uplinkSegmentsAborted += 1
result = re.search('ULSCH received ok', str(line))
if result is not None:
ulschReceiveOK += 1
......@@ -948,6 +968,10 @@ class RANManagement():
statMsg = nodeB_prefix + 'NB showed ' + str(gnbRxTxWakeUpFailure) + ' "could not wakeup gNB rxtx process" message(s)'
logging.debug('\u001B[1;30;43m ' + statMsg + ' \u001B[0m')
htmleNBFailureMsg += statMsg + '\n'
if gnbTxWriteThreadEnabled:
statMsg = nodeB_prefix + 'NB ran with TX Write thread enabled'
logging.debug('\u001B[1;30;43m ' + statMsg + ' \u001B[0m')
htmleNBFailureMsg += statMsg + '\n'
if uciStatMsgCount > 0:
statMsg = nodeB_prefix + 'NB showed ' + str(uciStatMsgCount) + ' "uci->stat" message(s)'
logging.debug('\u001B[1;30;43m ' + statMsg + ' \u001B[0m')
......@@ -960,6 +984,14 @@ class RANManagement():
statMsg = nodeB_prefix + 'NB showed ' + str(ulschFailure) + ' "ULSCH in error in round" message(s)'
logging.debug('\u001B[1;30;43m ' + statMsg + ' \u001B[0m')
htmleNBFailureMsg += statMsg + '\n'
if ulschAllocateCCEerror > 0:
statMsg = nodeB_prefix + 'NB showed ' + str(ulschAllocateCCEerror) + ' "eNB_dlsch_ulsch_scheduler(); ERROR ALLOCATING CCEs" message(s)'
logging.debug('\u001B[1;30;43m ' + statMsg + ' \u001B[0m')
htmleNBFailureMsg += statMsg + '\n'
if uplinkSegmentsAborted > 0:
statMsg = nodeB_prefix + 'NB showed ' + str(uplinkSegmentsAborted) + ' "uplink segment error 0/2, aborted * segments" message(s)'
logging.debug('\u001B[1;30;43m ' + statMsg + ' \u001B[0m')
htmleNBFailureMsg += statMsg + '\n'
if dropNotEnoughRBs > 0:
statMsg = 'eNB showed ' + str(dropNotEnoughRBs) + ' "dropping, not enough RBs" message(s)'
logging.debug('\u001B[1;30;43m ' + statMsg + ' \u001B[0m')
......@@ -1030,30 +1062,23 @@ class RANManagement():
rruMsg = 'Slave RRU DID NOT receive the RRU_frame_resynch command from RAU'
logging.debug('\u001B[1;37;41m ' + rruMsg + ' \u001B[0m')
htmleNBFailureMsg += rruMsg + '\n'
self.prematureExit(True)
return CONST.ENB_PROCESS_SLAVE_RRU_NOT_SYNCED
self.prematureExit = True
global_status = CONST.ENB_PROCESS_SLAVE_RRU_NOT_SYNCED
if foundSegFault:
logging.debug('\u001B[1;37;41m ' + nodeB_prefix + 'NB ended with a Segmentation Fault! \u001B[0m')
if self.htmlObj is not None:
self.htmlObj.SetHmleNBFailureMsg(htmleNBFailureMsg)
return CONST.ENB_PROCESS_SEG_FAULT
global_status = CONST.ENB_PROCESS_SEG_FAULT
if foundAssertion:
logging.debug('\u001B[1;37;41m ' + nodeB_prefix + 'NB ended with an assertion! \u001B[0m')
htmleNBFailureMsg += msgAssertion
if self.htmlObj is not None:
self.htmlObj.SetHmleNBFailureMsg(htmleNBFailureMsg)
return CONST.ENB_PROCESS_ASSERTION
global_status = CONST.ENB_PROCESS_ASSERTION
if foundRealTimeIssue:
logging.debug('\u001B[1;37;41m ' + nodeB_prefix + 'NB faced real time issues! \u001B[0m')
htmleNBFailureMsg += nodeB_prefix + 'NB faced real time issues!\n'
#return CONST.ENB_PROCESS_REALTIME_ISSUE
if rlcDiscardBuffer > 0:
rlcMsg = nodeB_prefix + 'NB RLC discarded ' + str(rlcDiscardBuffer) + ' buffer(s)'
logging.debug('\u001B[1;37;41m ' + rlcMsg + ' \u001B[0m')
htmleNBFailureMsg += rlcMsg + '\n'
if self.htmlObj is not None:
self.htmlObj.SetHmleNBFailureMsg(htmleNBFailureMsg)
return CONST.ENB_PROCESS_REALTIME_ISSUE
global_status = CONST.ENB_PROCESS_REALTIME_ISSUE
if self.htmlObj is not None:
self.htmlObj.SetHmleNBFailureMsg(htmleNBFailureMsg)
return 0
return global_status
......@@ -53,7 +53,7 @@ function details_table {
echo " <th>Message</th>" >> $3
echo " </tr>" >> $3
LIST_MESSAGES=`egrep "error:|warning:" $2 | egrep -v "jobserver unavailable|Clock skew detected.|flexran.proto"`
LIST_MESSAGES=`egrep "error:|warning:" $2 | egrep -v "jobserver unavailable|Clock skew detected.|flexran.proto|disabling jobserver mode"`
COMPLETE_MESSAGE="start"
for MESSAGE in $LIST_MESSAGES
do
......@@ -146,7 +146,7 @@ function summary_table_row {
else
echo " <td bgcolor = \"red\" >$NB_ERRORS</th>" >> ./build_results.html
fi
NB_WARNINGS=`egrep "warning:" $2 | egrep -v "jobserver unavailable|Clock skew detected.|flexran.proto" | egrep -c "warning:"`
NB_WARNINGS=`egrep "warning:" $2 | egrep -v "jobserver unavailable|Clock skew detected.|flexran.proto|disabling jobserver mode" | egrep -c "warning:"`
if [ $NB_WARNINGS -eq 0 ]
then
echo " <td bgcolor = \"green\" >$NB_WARNINGS</th>" >> ./build_results.html
......
......@@ -724,8 +724,8 @@ function report_test {
echo " </pre></td>" >> ./test_simulator_results.html
echo " </tr>" >> ./test_simulator_results.html
fi
#PING_LOGS=`ls $ARCHIVES_LOC/${TMODE}_${BW}MHz_${UES}users_${CN_CONFIG}_ping*.log 2> /dev/null`
#analyzePingFiles
PING_LOGS=`ls $ARCHIVES_LOC/${TMODE}_${BW}prb_${CN_CONFIG}_ping*.log 2> /dev/null`
analyzePingFiles
IPERF_TESTS=`ls $ARCHIVES_LOC/${TMODE}_${BW}prb_${CN_CONFIG}_iperf_dl*client*txt 2> /dev/null`
analyzeIperfFiles
......
File deleted
File deleted
......@@ -89,6 +89,9 @@ function start_basic_sim_enb {
fi
done
ENB_SYNC=0
echo "echo \"free -m\"" > $1
echo "free -m" >> $1
ssh -T -o StrictHostKeyChecking=no ubuntu@$LOC_VM_IP_ADDR < $1
rm $1
if [ $i -lt 50 ]
then
......@@ -151,6 +154,9 @@ function start_basic_sim_ue {
i=$[$i+1]
fi
done
echo "echo \"free -m\"" > $1
echo "free -m" >> $1
ssh -T -o StrictHostKeyChecking=no ubuntu@$2 < $1
rm $1
if [ $i -lt 50 ]
then
......@@ -523,9 +529,9 @@ function install_epc_on_vm {
echo "############################################################"
echo "[ -f 01proxy ] && sudo cp 01proxy /etc/apt/apt.conf.d/" > $LOC_EPC_VM_CMDS
echo "touch /home/ubuntu/.hushlogin" >> $LOC_EPC_VM_CMDS
echo "echo \"sudo apt-get --yes --quiet install zip openjdk-8-jre libconfuse-dev libreadline-dev liblog4c-dev libgcrypt-dev libsctp-dev python2.7 python2.7-dev daemon iperf\"" >> $LOC_EPC_VM_CMDS
echo "echo \"sudo apt-get --yes --quiet install zip openjdk-8-jre libconfuse-dev libreadline-dev liblog4c-dev libgcrypt-dev libsctp-dev python2.7 python2.7-dev iperf\"" >> $LOC_EPC_VM_CMDS
echo "sudo apt-get update > zip-install.txt 2>&1" >> $LOC_EPC_VM_CMDS
echo "sudo apt-get --yes install zip openjdk-8-jre libconfuse-dev libreadline-dev liblog4c-dev libgcrypt-dev libsctp-dev python2.7 python2.7-dev daemon iperf >> zip-install.txt 2>&1" >> $LOC_EPC_VM_CMDS
echo "sudo apt-get --yes install zip openjdk-8-jre libconfuse-dev libreadline-dev liblog4c-dev libgcrypt-dev libsctp-dev python2.7 python2.7-dev iperf >> zip-install.txt 2>&1" >> $LOC_EPC_VM_CMDS
# Installing HSS
echo "echo \"cd /opt\"" >> $LOC_EPC_VM_CMDS
......@@ -588,8 +594,6 @@ function start_epc {
echo "echo \"cd /opt/hss_sim0609\"" > $LOC_EPC_VM_CMDS
echo "cd /opt/hss_sim0609" >> $LOC_EPC_VM_CMDS
echo "sudo rm -f hss.log" >> $LOC_EPC_VM_CMDS
#echo "echo \"sudo daemon --unsafe --name=simulated_hss --chdir=/opt/hss_sim0609 ./starthss_real\"" >> $LOC_EPC_VM_CMDS
#echo "sudo daemon --unsafe --name=simulated_hss --chdir=/opt/hss_sim0609 ./starthss_real" >> $LOC_EPC_VM_CMDS
echo "echo \"screen -dm -S simulated_hss ./starthss_real\"" >> $LOC_EPC_VM_CMDS
echo "sudo su -c \"screen -dm -S simulated_hss ./starthss_real\"" >> $LOC_EPC_VM_CMDS
......@@ -656,8 +660,6 @@ function terminate_epc {
echo "cd /opt/ltebox/tools" >> $1
echo "echo \"sudo ./stop_ltebox\"" >> $1
echo "sudo ./stop_ltebox" >> $1
echo "echo \"sudo daemon --name=simulated_hss --stop\"" >> $1
echo "sudo daemon --name=simulated_hss --stop" >> $1
echo "echo \"sudo killall --signal SIGKILL hss_sim\"" >> $1
echo "sudo killall --signal SIGKILL hss_sim" >> $1
ssh -T -o StrictHostKeyChecking=no ubuntu@$2 < $1
......@@ -764,6 +766,9 @@ function start_l2_sim_enb {
i=$[$i+1]
fi
done
echo "echo \"free -m\"" > $1
echo "free -m" >> $1
ssh -T -o StrictHostKeyChecking=no ubuntu@$LOC_ENB_VM_IP_ADDR < $1
rm $1
ENB_SYNC=1
if [ $i -lt 50 ]
......@@ -872,6 +877,9 @@ function start_l2_sim_ue {
i=$[$i+1]
fi
done
echo "echo \"free -m\"" > $1
echo "free -m" >> $1
ssh -T -o StrictHostKeyChecking=no ubuntu@$LOC_UE_VM_IP_ADDR < $1
rm $1
UE_SYNC=1
if [ $i -lt 50 ]
......@@ -985,6 +993,9 @@ function start_rf_sim_enb {
i=$[$i+1]
fi
done
echo "echo \"free -m\"" > $1
echo "free -m" >> $1
ssh -T -o StrictHostKeyChecking=no ubuntu@$LOC_ENB_VM_IP_ADDR < $1
rm $1
if [ $i -lt 50 ]
then
......@@ -1114,6 +1125,9 @@ function start_rf_sim_ue {
i=$[$i+1]
fi
done
echo "echo \"free -m\"" > $1
echo "free -m" >> $1
ssh -T -o StrictHostKeyChecking=no ubuntu@$LOC_UE_VM_IP_ADDR < $1
rm $1
if [ $i -lt 50 ]
then
......@@ -1158,6 +1172,10 @@ function start_rf_sim_gnb {
local LOC_CONF_FILE=$5
# 1 is with S1 and 0 without S1 aka noS1
local LOC_S1_CONFIGURATION=$6
if [ -e rbconfig.raw ]; then rm -f rbconfig.raw; fi
if [ -e reconfig.raw ]; then rm -f reconfig.raw; fi
echo "cd /home/ubuntu/tmp" > $1
echo "echo \"sudo apt-get --yes --quiet install daemon \"" >> $1
echo "sudo apt-get --yes install daemon >> /home/ubuntu/tmp/cmake_targets/log/daemon-install.txt 2>&1" >> $1
......@@ -1171,6 +1189,7 @@ function start_rf_sim_gnb {
echo "echo \"cd /home/ubuntu/tmp/cmake_targets/ran_build/build/\"" >> $1
echo "sudo chmod 777 /home/ubuntu/tmp/cmake_targets/ran_build/build/" >> $1
echo "cd /home/ubuntu/tmp/cmake_targets/ran_build/build/" >> $1
echo "sudo rm -f r*config.raw" >> $1
if [ $LOC_S1_CONFIGURATION -eq 0 ]
then
echo "echo \"RFSIMULATOR=server ./nr-softmodem -O /home/ubuntu/tmp/ci-scripts/conf_files/ci-$LOC_CONF_FILE --log_config.global_log_options level,nocolor --parallel-config PARALLEL_SINGLE_THREAD --noS1 --nokrnmod 1 --rfsim --phy-test\" > ./my-nr-softmodem-run.sh " >> $1
......@@ -1231,6 +1250,13 @@ function start_rf_sim_gnb {
fi
fi
sleep 10
echo "echo \"free -m\"" > $1
echo "free -m" >> $1
ssh -T -o StrictHostKeyChecking=no ubuntu@$LOC_GNB_VM_IP_ADDR < $1
rm $1
# Copy the RAW files from the gNB run for the NR-UE
scp -o StrictHostKeyChecking=no ubuntu@$LOC_GNB_VM_IP_ADDR:/home/ubuntu/tmp/cmake_targets/ran_build/build/rbconfig.raw .
scp -o StrictHostKeyChecking=no ubuntu@$LOC_GNB_VM_IP_ADDR:/home/ubuntu/tmp/cmake_targets/ran_build/build/reconfig.raw .
}
function start_rf_sim_nr_ue {
......@@ -1241,14 +1267,21 @@ function start_rf_sim_nr_ue {
local LOC_FREQUENCY=$6
# 1 is with S1 and 0 without S1 aka noS1
local LOC_S1_CONFIGURATION=$7
# Copy the RAW files from the gNB run
scp -o StrictHostKeyChecking=no rbconfig.raw ubuntu@$LOC_NR_UE_VM_IP_ADDR:/home/ubuntu/tmp
scp -o StrictHostKeyChecking=no reconfig.raw ubuntu@$LOC_NR_UE_VM_IP_ADDR:/home/ubuntu/tmp
echo "echo \"sudo apt-get --yes --quiet install daemon \"" > $1
echo "sudo apt-get --yes install daemon >> /home/ubuntu/tmp/cmake_targets/log/daemon-install.txt 2>&1" >> $1
echo "echo \"cd /home/ubuntu/tmp/cmake_targets/ran_build/build/\"" >> $1
echo "sudo chmod 777 /home/ubuntu/tmp/cmake_targets/ran_build/build/" >> $1
echo "sudo cp /home/ubuntu/tmp/r*config.raw /home/ubuntu/tmp/cmake_targets/ran_build/build/" >> $1
echo "sudo chmod 666 /home/ubuntu/tmp/cmake_targets/ran_build/build/r*config.raw" >> $1
echo "cd /home/ubuntu/tmp/cmake_targets/ran_build/build/" >> $1
if [ $LOC_S1_CONFIGURATION -eq 0 ]
then
echo "echo \"RFSIMULATOR=${LOC_GNB_VM_IP_ADDR} ./nr-uesoftmodem --nokrnmod 1 --rfsim --phy-test --rrc_config_path /home/ubuntu/tmp/ci-scripts/rrc-files --log_config.global_log_options level,nocolor --noS1\" > ./my-nr-softmodem-run.sh " >> $1
echo "echo \"RFSIMULATOR=${LOC_GNB_VM_IP_ADDR} ./nr-uesoftmodem --nokrnmod 1 --rfsim --phy-test --rrc_config_path /home/ubuntu/tmp/cmake_targets/ran_build/build/ --log_config.global_log_options level,nocolor --noS1\" > ./my-nr-softmodem-run.sh " >> $1
fi
echo "chmod 775 ./my-nr-softmodem-run.sh" >> $1
echo "cat ./my-nr-softmodem-run.sh" >> $1
......@@ -1295,6 +1328,9 @@ function start_rf_sim_nr_ue {
i=$[$i+1]
fi
done
echo "echo \"free -m\"" > $1
echo "free -m" >> $1
ssh -T -o StrictHostKeyChecking=no ubuntu@$LOC_NR_UE_VM_IP_ADDR < $1
rm $1
if [ $i -lt 50 ]
then
......@@ -2028,7 +2064,7 @@ function run_test_on_vm {
NR_STATUS=0
######### start of loop
while [ $try_cnt -lt 5 ]
while [ $try_cnt -lt 1 ]
do
SYNC_STATUS=0
PING_STATUS=0
......@@ -2050,6 +2086,8 @@ function run_test_on_vm {
echo "Problem w/ gNB and NR-UE not syncing"
terminate_enb_ue_basic_sim $NR_UE_VM_CMDS $NR_UE_VM_IP_ADDR 2
terminate_enb_ue_basic_sim $GNB_VM_CMDS $GNB_VM_IP_ADDR 1
scp -o StrictHostKeyChecking=no ubuntu@$GNB_VM_IP_ADDR:/home/ubuntu/tmp/cmake_targets/log/$CURRENT_GNB_LOG_FILE $ARCHIVES_LOC
scp -o StrictHostKeyChecking=no ubuntu@$NR_UE_VM_IP_ADDR:/home/ubuntu/tmp/cmake_targets/log/$CURRENT_NR_UE_LOG_FILE $ARCHIVES_LOC
SYNC_STATUS=-1
try_cnt=$[$try_cnt+1]
continue
......@@ -2089,6 +2127,8 @@ function run_test_on_vm {
echo "DL test not OK"
terminate_enb_ue_basic_sim $NR_UE_VM_CMDS $NR_UE_VM_IP_ADDR 2
terminate_enb_ue_basic_sim $GNB_VM_CMDS $GNB_VM_IP_ADDR 1
scp -o StrictHostKeyChecking=no ubuntu@$GNB_VM_IP_ADDR:/home/ubuntu/tmp/cmake_targets/log/$CURRENT_GNB_LOG_FILE $ARCHIVES_LOC
scp -o StrictHostKeyChecking=no ubuntu@$NR_UE_VM_IP_ADDR:/home/ubuntu/tmp/cmake_targets/log/$CURRENT_NR_UE_LOG_FILE $ARCHIVES_LOC
try_cnt=$[$try_cnt+1]
continue
fi
......
......@@ -25,23 +25,10 @@
<htmlTabName>EPC-Start</htmlTabName>
<htmlTabIcon>log-in</htmlTabIcon>
<TestCaseRequestedList>
010101 090101
050101 060101 070101
</TestCaseRequestedList>
<TestCaseExclusionList></TestCaseExclusionList>
<testCase id="010101">
<class>Build_eNB</class>
<desc>Build eNB (USRP)</desc>
<Build_eNB_args>-w USRP -c --eNB</Build_eNB_args>
</testCase>
<testCase id="090101">
<class>Build_OAI_UE</class>
<desc>Build OAI UE</desc>
<Build_OAI_UE_args>-w USRP --UE</Build_OAI_UE_args>
</testCase>
<testCase id="050101">
<class>Initialize_HSS</class>
<desc>Initialize HSS</desc>
......
......@@ -24,6 +24,7 @@
<htmlTabRef>test-05-tm1-rrc-no-flex</htmlTabRef>
<htmlTabName>Test-05MHz-TM1-RRC-Inactivity</htmlTabName>
<htmlTabIcon>tasks</htmlTabIcon>
<repeatCount>2</repeatCount>
<TestCaseRequestedList>
030201
040101
......
......@@ -52,7 +52,7 @@
<testCase id="090102">
<class>Initialize_OAI_UE</class>
<desc>Initialize NR UE USRP</desc>
<Initialize_OAI_UE_args>--phy-test --usrp-args "addr=192.168.30.2,second_addr=192.168.50.2,clock_source=external,time_source=external" --threadoffset 16 --rrc_config_path ci-scripts/rrc-files</Initialize_OAI_UE_args>
<Initialize_OAI_UE_args>--phy-test --usrp-args "addr=192.168.30.2,second_addr=192.168.50.2,clock_source=external,time_source=external" --threadoffset 16 --rrc_config_path .</Initialize_OAI_UE_args>
<air_interface>NR</air_interface>
</testCase>
......
......@@ -24,6 +24,7 @@
<htmlTabRef>gnb-build-tab</htmlTabRef>
<htmlTabName>Build-gNB</htmlTabName>
<htmlTabIcon>wrench</htmlTabIcon>
<repeatCount>4</repeatCount>
<TestCaseRequestedList>
010101
</TestCaseRequestedList>
......
......@@ -24,6 +24,7 @@
<htmlTabRef>test-10</htmlTabRef>
<htmlTabName>Test-10MHz</htmlTabName>
<htmlTabIcon>tasks</htmlTabIcon>
<repeatCount>2</repeatCount>
<TestCaseRequestedList>
030201
040101
......
......@@ -33,7 +33,7 @@
<testCase id="010101">
<class>Build_eNB</class>
<desc>Build RCC</desc>
<Build_eNB_args>-w USRP -c --eNB</Build_eNB_args>
<Build_eNB_args>-w USRP -c --eNB --ninja</Build_eNB_args>
<eNB_instance>0</eNB_instance>
<eNB_serverId>0</eNB_serverId>
<backgroundBuild>True</backgroundBuild>
......@@ -42,7 +42,7 @@
<testCase id="000101">
<class>WaitEndBuild_eNB</class>
<desc>Wait for end of Build RCC</desc>
<Build_eNB_args>-w USRP -c --eNB</Build_eNB_args>
<Build_eNB_args>-w USRP -c --eNB --ninja</Build_eNB_args>
<eNB_instance>0</eNB_instance>
<eNB_serverId>0</eNB_serverId>
</testCase>
......@@ -50,7 +50,7 @@
<testCase id="010102">
<class>Build_eNB</class>
<desc>Build Master RRU</desc>
<Build_eNB_args>-w USRP -c --eNB</Build_eNB_args>
<Build_eNB_args>-w USRP -c --eNB --ninja</Build_eNB_args>
<eNB_instance>1</eNB_instance>
<eNB_serverId>1</eNB_serverId>
<backgroundBuild>True</backgroundBuild>
......@@ -59,7 +59,7 @@
<testCase id="000102">
<class>WaitEndBuild_eNB</class>
<desc>Wait for end of Build Master RRU</desc>
<Build_eNB_args>-w USRP -c --eNB</Build_eNB_args>
<Build_eNB_args>-w USRP -c --eNB --ninja</Build_eNB_args>
<eNB_instance>1</eNB_instance>
<eNB_serverId>1</eNB_serverId>
</testCase>
......@@ -67,7 +67,7 @@
<testCase id="010103">
<class>Build_eNB</class>
<desc>Build Slave RRU</desc>
<Build_eNB_args>-w USRP -c --eNB</Build_eNB_args>
<Build_eNB_args>-w USRP -c --eNB --ninja</Build_eNB_args>
<eNB_instance>2</eNB_instance>
<eNB_serverId>2</eNB_serverId>
<backgroundBuild>True</backgroundBuild>
......@@ -76,7 +76,7 @@
<testCase id="000103">
<class>WaitEndBuild_eNB</class>
<desc>Wait for end of Build Slave RRU</desc>
<Build_eNB_args>-w USRP -c --eNB</Build_eNB_args>
<Build_eNB_args>-w USRP -c --eNB --ninja</Build_eNB_args>
<eNB_instance>2</eNB_instance>
<eNB_serverId>2</eNB_serverId>
</testCase>
......
......@@ -24,7 +24,7 @@
<htmlTabRef>test-multi-rru-10</htmlTabRef>
<htmlTabName>Test-Multi-RRU-10MHz</htmlTabName>
<htmlTabIcon>tasks</htmlTabIcon>
<repeatCount>4</repeatCount>
<repeatCount>2</repeatCount>
<TestCaseRequestedList>
030211 030212 030213
030111 030112 030113
......
......@@ -24,6 +24,7 @@
<htmlTabRef>nr-ue-build-tab</htmlTabRef>
<htmlTabName>Build-NR-UE</htmlTabName>
<htmlTabIcon>wrench</htmlTabIcon>
<repeatCount>2</repeatCount>
<TestCaseRequestedList>
010102
</TestCaseRequestedList>
......
This diff is collapsed.
......@@ -142,10 +142,14 @@ Obj.# Case# Test# Description
(Test 11: 10 MHz, R7.FDD (MCS 25), EVA5, 17.7dB (70%))
(TM2 Test 1 10 MHz, R.11 FDD (MCS 14), EVA5, 6.8 dB (70%)),
(TM2 Test 1b 20 MHz, R.11-2 FDD (MCS 13), EVA5, 5.9 dB (70%)),
01 51 11 nr_ulsim Test cases. (Test1: MCS 9),
(Test2: MCS 16),
(Test3: MCS 28)
01 51 11 nr_ulsim Test cases. (Test1: MCS 9 106 PRBs),
(Test2: MCS 16 50 PRBs),
(Test3: MCS 28 50 PRBs),
(Test4: MCS 9 217 PRBs),
(Test5: MCS 9 273 PRBs)
01 51 12 nr_prachsim Test cases.(Test1: 106 PRBs),
(Test2: 217 PRBs),
(Test3: 273 PRBs)
......
......@@ -1036,7 +1036,9 @@
<testCase id="015103">
<class>execution</class>
<desc>polartest Test cases. (Test1: PBCH polar test),
(Test2: DCI polar test)</desc>
(Test2: DCI polar test),
(Test3: UCI polar test,6-bit CRC),
(Test4: UCI polar test,11-bit CRC)</desc>
<pre_compile_prog></pre_compile_prog>
<compile_prog>$OPENAIR_DIR/cmake_targets/build_oai</compile_prog>
<compile_prog_args> --phy_simulators -c </compile_prog_args>
......@@ -1044,8 +1046,10 @@
<pre_exec_args></pre_exec_args>
<main_exec> $OPENAIR_DIR/targets/bin/polartest.Rel15</main_exec>
<main_exec_args>-q -s-10 -f0
-q -s-10 -f0 -m1</main_exec_args>
<tags>polartest.test1 polartest.test2</tags>
-q -s-10 -f0 -m1
-q -s-2 -f2 -m2 -k12
-q -s-2 -f2 -m2 -k20</main_exec_args>
<tags>polartest.test1 polartest.test2 polartest.test3 polartest.test4</tags>
<search_expr_true>BLER= 0.000000</search_expr_true>
<search_expr_false>segmentation fault|assertion|exiting|fatal</search_expr_false>
<nruns>3</nruns>
......@@ -1067,9 +1071,9 @@
<main_exec> $OPENAIR_DIR/targets/bin/nr_pbchsim.Rel15</main_exec>
<main_exec_args>-s0 -S1 -n1000 -R106
-s0 -S1 -n10 -I -R106
-s0 -S1 -n1000 -R217
-s0 -S1 -n1000 -R217
-s0 -S1 -n10 -I -R217
-s0 -S1 -n1000 -R273
-s0 -S1 -n1000 -R273
-s0 -S1 -n10 -I -R273</main_exec_args>
<tags>nr_pbchsim.test1 nr_pbchsim.test2 nr_pbchsim.test3 nr_pbchsim.test4 nr_pbchsim.test5 nr_pbchsim.test6</tags>
<search_expr_true>PBCH test OK</search_expr_true>
......@@ -1087,8 +1091,11 @@
(Test6: 217 PRB 100 PDSCH-PRBs),
(Test7: 217 PRB 80 PDSCH-Offset),
(Test8: 217 PRB 100 PDSCH-PRBs 110 PDSCH-Offset),
(Test9: 106 PRBs 50 PDSCH-PRBs MCS Index 27)
(Test10: 106 PRBs 50 PDSCH-PRBs MCS Index 16)</desc>
(Test9: 106 PRBs 50 PDSCH-PRBs MCS Index 27),
(Test10: 106 PRBs 50 PDSCH-PRBs MCS Index 16),
(Test11: HARQ test 25% TP (4 rounds),
(Test12: HARQ test 33% TP (3 rounds),
(Test13: HARQ test 50% TP (2 rounds)</desc>
<pre_compile_prog></pre_compile_prog>
<compile_prog>$OPENAIR_DIR/cmake_targets/build_oai</compile_prog>
<compile_prog_args> --phy_simulators -c </compile_prog_args>
......@@ -1104,8 +1111,11 @@
-n100 -R217 -a80 -s5
-n100 -R217 -a110 -s5 -b100
-n100 -e27 -s30
-n100 -e16 -s10</main_exec_args>
<tags>nr_dlsim.test1 nr_dlsim.test2 nr_dlsim.test3 nr_dlsim.test4 nr_dlsim.test5 nr_dlsim.test6 nr_dlsim.test7 nr_dlsim.test8 nr_dlsim.test9 nr_dlsim.test10</tags>
-n100 -e16 -s10
-n100 -s1 -t25
-n100 -s1 -t33
-n100 -s1 -t50</main_exec_args>
<tags>nr_dlsim.test1 nr_dlsim.test2 nr_dlsim.test3 nr_dlsim.test4 nr_dlsim.test5 nr_dlsim.test6 nr_dlsim.test7 nr_dlsim.test8 nr_dlsim.test9 nr_dlsim.test10 nr_dlsim.test11 nr_dlsim.test12 nr_dlsim.test13</tags>
<search_expr_true>PDSCH test OK</search_expr_true>
<search_expr_false>segmentation fault|assertion|exiting|fatal</search_expr_false>
<nruns>3</nruns>
......@@ -1179,15 +1189,20 @@
<desc>nr_pucchsim Test cases. (Test1: Format 0 1-bit ACK miss 106 PRB),
(Test2: Format 0 2-bit ACK miss 106 PRB),
(Test3: Format 0 2-bit ACK miss, 1-bit SR 106 PRB),
(Test4: Format 2 3-bit 106 PRB),
(Test5: Format 2 4-bit 106 PRB),
(Test6: Format 2 5-bit 106 PRB),
(Test7: Format 2 6-bit 106 PRB),
(Test8: Format 2 7-bit 106 PRB),
(Test9: Format 2 8-bit 106 PRB),
(Test10: Format 2 9-bit 106 PRB),
(Test11: Format 2 10-bit 106 PRB),
(Test12: Format 2 11-bit 106 PRB)</desc>
(Test4: Format 2 3-bit 2/106 PRB),
(Test5: Format 2 4-bit 2/106 PRB),
(Test6: Format 2 5-bit 2/106 PRB),
(Test7: Format 2 6-bit 2/106 PRB),
(Test8: Format 2 7-bit 2/106 PRB),
(Test9: Format 2 8-bit 2/106 PRB),
(Test10: Format 2 9-bit 2/106 PRB),
(Test11: Format 2 10-bit 2/106 PRB),
(Test12: Format 2 11-bit 2/106 PRB),
(Test13: Format 2 12-bit 8/106 PRB),
(Test14: Format 2 19-bit 8/106 PRB),
(Test15: Format 2 32-bit 8/106 PRB),
(Test16: Format 2 32-bit 16/106 PRB),
(Test17: Format 2 64-bit 16/106 PRB)</desc>
<pre_compile_prog></pre_compile_prog>
<compile_prog>$OPENAIR_DIR/cmake_targets/build_oai</compile_prog>
<compile_prog_args> --phy_simulators -c </compile_prog_args>
......@@ -1206,8 +1221,12 @@
-R 106 -i 1 -P 2 -b 9 -s5 -n1000
-R 106 -i 1 -P 2 -b 10 -s6 -n1000
-R 106 -i 1 -P 2 -b 11 -s6 -n1000
</main_exec_args>
<tags>nr_pucchsim.test1 nr_pucchsim.test2 nr_pucchsim.test3 nr_pucchsim.test4 nr_pucchsim.test5 nr_pucchsim.test6 nr_pucchsim.test7 nr_pucchsim.test8 nr_pucchsim.test9 nr_pucchsim.test10 nr_pucchsim.test11 nr_pucchsim.test12 </tags>
-R 106 -i 1 -P 2 -q8 -b 12 -s-3 -n1000
-R 106 -i 1 -P 2 -q8 -b 19 -s-3 -n1000
-R 106 -i 1 -P 2 -q8 -b 32 -s-3 -n1000
-R 106 -i 1 -P 2 -q16 -b 32 -s-3 -n1000
-R 106 -i 1 -P 2 -q16 -b 64 -s-3 -n1000</main_exec_args>
<tags>nr_pucchsim.test1 nr_pucchsim.test2 nr_pucchsim.test3 nr_pucchsim.test4 nr_pucchsim.test5 nr_pucchsim.test6 nr_pucchsim.test7 nr_pucchsim.test8 nr_pucchsim.test9 nr_pucchsim.test10 nr_pucchsim.test11 nr_pucchsim.test12 nr_pucchsim.test13 nr_pucchsim.test14 nr_pucchsim.test15 nr_pucchsim.test16 nr_pucchsim.test17</tags>
<search_expr_true>PUCCH test OK</search_expr_true>
<search_expr_false>segmentation fault|assertion|exiting|fatal</search_expr_false>
<nruns>3</nruns>
......@@ -1275,6 +1294,28 @@
<nruns>3</nruns>
</testCase>
<testCase id="015112">
<class>execution</class>
<desc>nr_prachsim Test cases. (Test1: 106 PRBs - Prach format A2),
(Test2: 217 PRBs - Prach format A2),
(Test3: 273 PRBs - Prach format A2),
(Test4: 106 PRBs - Prach format 0)</desc>
<pre_compile_prog></pre_compile_prog>
<compile_prog>$OPENAIR_DIR/cmake_targets/build_oai</compile_prog>
<compile_prog_args> --phy_simulators -c </compile_prog_args>
<pre_exec>$OPENAIR_DIR/cmake_targets/autotests/tools/free_mem.bash</pre_exec>
<pre_exec_args></pre_exec_args>
<main_exec> $OPENAIR_DIR/targets/bin/nr_prachsim.Rel15</main_exec>
<main_exec_args>-a -s -30 -n 100 -p 63 -R 106
-a -s -30 -n 100 -p 63 -R 217
-a -s -30 -n 100 -p 63 -R 273
-a -s -30 -n 100 -p 63 -R 106 -c 4</main_exec_args>
<tags>nr_prachsim.test1 nr_prachsim.test2 nr_prachsim.test3 nr_prachsim.test4</tags>
<search_expr_true>PRACH test OK</search_expr_true>
<search_expr_false>segmentation fault|assertion|exiting|fatal</search_expr_false>
<nruns>3</nruns>
</testCase>
<testCase id="015500" >
<class>lte-softmodem</class>
<desc></desc>
......
......@@ -406,7 +406,7 @@ function main() {
shift 1;;
-k | --skip-shared-libraries)
SKIP_SHARED_LIB_FLAG="True"
echo_info "Skipping build of shared libraries, rfsimulator, basicsimulator and transport protocol libraries"
echo_info "Skipping build of shared libraries, rfsimulator and transport protocol libraries"
shift;;
--ninja)
CMAKE_CMD="$CMAKE_CMD -GNinja"
......@@ -701,7 +701,8 @@ function main() {
if [ "$SIMUS_PHY" = "1" ] ; then
echo_info "Compiling physical unitary tests simulators"
# TODO: fix: dlsim_tm4 pucchsim prachsim pdcchsim pbchsim mbmssim
simlist="dlsim ulsim ldpctest polartest smallblocktest nr_pbchsim nr_dlschsim nr_ulschsim nr_dlsim nr_ulsim nr_pucchsim nr_prachsim"
# simlist="dlsim ulsim ldpctest polartest smallblocktest nr_pbchsim nr_dlschsim nr_ulschsim nr_dlsim nr_ulsim nr_pucchsim nr_prachsim"
simlist="ldpctest"
for f in $simlist ; do
compilations \
phy_simulators $f \
......@@ -896,7 +897,7 @@ function main() {
$build_dir rfsimulator \
librfsimulator.so $dbin/librfsimulator.so.$REL
echo_info "Compiling basicsimulator"
echo_info "Compiling tcp_bridge_oai"
compilations \
$build_dir tcp_bridge_oai \
libtcp_bridge_oai.so $dbin/libtcp_bridge_oai.so.$REL
......@@ -958,6 +959,7 @@ function main() {
wait
else
echo_info "10. Bypassing the Tests ..."
echo_success "BUILD SHOULD BE SUCCESSFUL"
fi
}
......
......@@ -150,7 +150,9 @@ clean_all_files() {
set_openair_env
dir=$OPENAIR_DIR/cmake_targets
rm -rf $dir/log $OPENAIR_DIR/targets/bin/*
rm -rf $dir/ran_build $dir/lte-simulators/build
rm -rf $dir/ran_build $dir/ran_build_noLOG
rm -rf $dir/lte-simulators/build
rm -rf $dir/phy_simulators/build $dir/nas_sim_tools/build
rm -rf $dir/oaisim_build_oai/build $dir/oaisim_build_oai/CMakeLists.txt
rm -rf $dir/autotests/bin $dir/autotests/log $dir/autotests/*/build
}
......@@ -167,17 +169,29 @@ check_warnings() {
#we look for 'warning:' in the compilation log file
#this is how gcc starts a warning
#this is not perfect, we may get false positive
warning_count=`grep "warning:" "$1"|wc -l`
warning_count=`grep "warning:" "$1" | egrep -v "jobserver unavailable|disabling jobserver mode" | wc -l`
if [ $warning_count -gt 0 ]; then
echo_error "WARNING: $warning_count warnings. See $1"
fi
}
#check_errors:
# print error message if the compilation had errors
#argument:
# $1: log file
check_errors() {
#we look for 'warning:' in the compilation log file
error_count=`grep "error:" "$1" | wc -l`
if [ $error_count -gt 0 ]; then
echo_error "ERROR: $error_count error. See $1"
fi
}
compilations() {
cd $OPENAIR_DIR/cmake_targets/$1/build
echo_info "Log file for compilation is being written to: $dlog/$2.$REL.txt"
set +e
{
rm -f $3
if [ "$BUILD_COVERITY_SCAN" == "1" ]; then
COV_SCAN_PREFIX="cov-build --dir cov-int"
else
......@@ -192,15 +206,22 @@ compilations() {
$COV_SCAN_PREFIX make -j`nproc` $2
fi
fi
ret=$?
} > $dlog/$2.$REL.txt 2>&1
set -e
echo_info "Log file for compilation has been written to: $dlog/$2.$REL.txt"
if [[ $ret -ne 0 ]]; then
check_warnings "$dlog/$2.$REL.txt"
check_errors "$dlog/$2.$REL.txt"
echo_error "$2 compilation failed"
exit 1
fi
if [ -s $3 ] ; then
cp $3 $4
echo_success "$2 compiled"
check_warnings "$dlog/$2.$REL.txt"
else
check_warnings "$dlog/$2.$REL.txt"
check_errors "$dlog/$2.$REL.txt"
echo_error "$2 compilation failed"
exit 1
fi
......
......@@ -179,8 +179,8 @@ int config_libconfig_get(paramdef_t *cfgoptions,int numoptions, char *prefix ) {
*(cfgoptions[i].u64ptr) = (uint64_t)llu;
printf_params("[LIBCONFIG] %s: %llu\n", cfgpath,(long long unsigned)(*(cfgoptions[i].u64ptr)) );
} else {
*(cfgoptions[i].iptr) = llu;
printf_params("[LIBCONFIG] %s: %llu\n", cfgpath,(long long unsigned)(*(cfgoptions[i].i64ptr)) );
*(cfgoptions[i].i64ptr) = llu;
printf_params("[LIBCONFIG] %s: %lld\n", cfgpath,(long long)(*(cfgoptions[i].i64ptr)) );
}
} else {
defval=config_setdefault_int64(&(cfgoptions[i]),prefix);
......
......@@ -518,7 +518,29 @@ const char* eurecomFunctionsNames[] = {
"wakeup_txfh",
"gNB_thread_rxtx0",
"gNB_thread_rxtx1",
"ru_thread_tx_wait"
"ru_thread_tx_wait",
"gNB_ulsch_decoding",
"gNB_pdsch_codeword_scrambling",
"gNB_dlsch_encoding",
"gNB_pdsch_modulation",
"gNB_pdcch_tx",
"phy_procedures_gNB_tx",
"phy_procedures_gNB_common_tx",
"phy_procedures_gNB_uespec_rx",
"nr_rx_pusch",
"nr_ulsch_procedures_rx",
"macxface_gNB_dlsch_ulsch_scheduler",
/*NR ue-softmodem signal*/
"nr_ue_ulsch_encoding",
"nr_segmentation",
"ldpc_encoder_optim",
"nr_rate_matching_ldpc",
"nr_interleaving_ldpc",
"pss_synchro_nr",
"pss_search_time_nr",
"nr_initial_ue_sync",
"beam_switching_gpio"
};
struct vcd_module_s vcd_modules[] = {
......
......@@ -511,6 +511,29 @@ typedef enum {
VCD_SIGNAL_DUMPER_FUNCTIONS_gNB_PROC_RXTX0,
VCD_SIGNAL_DUMPER_FUNCTIONS_gNB_PROC_RXTX1,
VCD_SIGNAL_DUMPER_FUNCTIONS_RU_TX_WAIT,
VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_gNB_ULSCH_DECODING,
VCD_SIGNAL_DUMPER_FUNCTIONS_gNB_PDSCH_CODEWORD_SCRAMBLING,
VCD_SIGNAL_DUMPER_FUNCTIONS_gNB_DLSCH_ENCODING,
VCD_SIGNAL_DUMPER_FUNCTIONS_gNB_PDSCH_MODULATION,
VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_gNB_PDCCH_TX,
VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_PROCEDURES_gNB_TX,
VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_PROCEDURES_gNB_COMMON_TX,
VCD_SIGNAL_DUMPER_FUNCTIONS_PHY_PROCEDURES_gNB_UESPEC_RX,
VCD_SIGNAL_DUMPER_FUNCTIONS_NR_RX_PUSCH,
VCD_SIGNAL_DUMPER_FUNCTIONS_NR_ULSCH_PROCEDURES_RX,
VCD_SIGNAL_DUMPER_FUNCTIONS_gNB_DLSCH_ULSCH_SCHEDULER,
/* NR ue-softmodem signal*/
VCD_SIGNAL_DUMPER_FUNCTIONS_NR_UE_ULSCH_ENCODING,
VCD_SIGNAL_DUMPER_FUNCTIONS_NR_SEGMENTATION,
VCD_SIGNAL_DUMPER_FUNCTIONS_LDPC_ENCODER_OPTIM,
VCD_SIGNAL_DUMPER_FUNCTIONS_NR_RATE_MATCHING_LDPC,
VCD_SIGNAL_DUMPER_FUNCTIONS_NR_INTERLEAVING_LDPC,
VCD_SIGNAL_DUMPER_FUNCTIONS_PSS_SYNCHRO_NR,
VCD_SIGNAL_DUMPER_FUNCTIONS_PSS_SEARCH_TIME_NR,
VCD_SIGNAL_DUMPER_FUNCTIONS_NR_INITIAL_UE_SYNC,
VCD_SIGNAL_DUMPER_FUNCTIONS_BEAM_SWITCHING_GPIO,
VCD_SIGNAL_DUMPER_FUNCTIONS_END
} vcd_signal_dump_functions;
......
......@@ -73,7 +73,7 @@ typedef struct {
} T_cache_t;
/* number of VCD functions (to be kept up to date! see in T_messages.txt) */
#define VCD_NUM_FUNCTIONS (249)
#define VCD_NUM_FUNCTIONS (269)
/* number of VCD variables (to be kept up to date! see in T_messages.txt) */
#define VCD_NUM_VARIABLES (187)
......
......@@ -3393,3 +3393,106 @@ ID = VCD_FUNCTION_RU_TX_WAIT
GROUP = ALL:VCD:ENB:VCD_FUNCTION
FORMAT = int,value
VCD_NAME = ru_thread_tx_wait
ID = VCD_FUNCTION_PHY_gNB_ULSCH_DECODING
DESC = VCD function PHY_gNB_ULSCH_DECODING
GROUP = ALL:VCD:ENB:VCD_FUNCTION
FORMAT = int,value
VCD_NAME = gNB_ulsch_decoding
ID = VCD_FUNCTION_gNB_PDSCH_CODEWORD_SCRAMBLING
DESC = VCD function gNB_PDSCH_CODEWORD_SCRAMBLING
GROUP = ALL:VCD:ENB:VCD_FUNCTION
FORMAT = int,value
VCD_NAME = gNB_pdsch_codeword_scrambling
ID = VCD_FUNCTION_gNB_DLSCH_ENCODING
DESC = VCD function gNB_DLSCH_ENCODING
GROUP = ALL:VCD:ENB:VCD_FUNCTION
FORMAT = int,value
VCD_NAME = gNB_dlsch_encoding
ID = VCD_FUNCTION_gNB_PDSCH_MODULATION
DESC = VCD function gNB_PDSCH_MODULATION
GROUP = ALL:VCD:ENB:VCD_FUNCTION
FORMAT = int,value
VCD_NAME = gNB_pdsch_modulation
ID = VCD_FUNCTION_PHY_gNB_PDCCH_TX
DESC = VCD function PHY_gNB_PDCCH_TX
GROUP = ALL:VCD:ENB:VCD_FUNCTION
FORMAT = int,value
VCD_NAME = gNB_pdcch_tx
ID = VCD_FUNCTION_PHY_PROCEDURES_gNB_TX
DESC = VCD function PHY_PROCEDURES_gNB_TX
GROUP = ALL:VCD:ENB:VCD_FUNCTION
FORMAT = int,value
VCD_NAME = phy_procedures_gNB_tx
ID = VCD_FUNCTION_PHY_PROCEDURES_gNB_COMMON_TX
DESC = VCD function PHY_PROCEDURES_gNB_COMMON_TX
GROUP = ALL:VCD:ENB:VCD_FUNCTION
FORMAT = int,value
VCD_NAME = phy_procedures_gNB_common_tx
ID = VCD_FUNCTION_PHY_PROCEDURES_gNB_UESPEC_RX
DESC = VCD function PHY_PROCEDURES_gNB_UESPEC_RX
GROUP = ALL:VCD:ENB:VCD_FUNCTION
FORMAT = int,value
VCD_NAME = phy_procedures_gNB_uespec_rx
ID = VCD_FUNCTION_NR_RX_PUSCH
DESC = VCD function NR_RX_PUSCH
GROUP = ALL:VCD:ENB:VCD_FUNCTION
FORMAT = int,value
VCD_NAME = nr_rx_pusch
ID = VCD_FUNCTION_NR_ULSCH_PROCEDURES_RX
DESC = VCD function NR_ULSCH_PROCEDURES_RX
GROUP = ALL:VCD:ENB:VCD_FUNCTION
FORMAT = int,value
VCD_NAME = nr_ulsch_procedures_rx
ID = VCD_FUNCTION_gNB_DLSCH_ULSCH_SCHEDULER
DESC = VCD function gNB_DLSCH_ULSCH_SCHEDULER
GROUP = ALL:VCD:ENB:VCD_FUNCTION
FORMAT = int,value
VCD_NAME = macxface_gNB_dlsch_ulsch_scheduler
#function for nrUE
ID = VCD_FUNCTION_NR_UE_ULSCH_ENCODING
DESC = VCD function NR_UE_ULSCH_ENCODING
GROUP = ALL:VCD:UE:VCD_FUNCTION
FORMAT = int,value
VCD_NAME = nr_ue_ulsch_encoding
ID = VCD_FUNCTION_NR_SEGMENTATION
DESC = VCD function NR_SEGMENTATION
GROUP = ALL:VCD:UE:VCD_FUNCTION
FORMAT = int,value
VCD_NAME = nr_segmentation
ID = VCD_FUNCTION_LDPC_ENCODER_OPTIM
DESC = VCD function LDPC_ENCODER_OPTIM
GROUP = ALL:VCD:UE:VCD_FUNCTION
FORMAT = int,value
VCD_NAME = ldpc_encoder_optim
ID = VCD_FUNCTION_NR_RATE_MATCHING_LDPC
DESC = VCD function NR_RATE_MATCHING_LDPC
GROUP = ALL:VCD:UE:VCD_FUNCTION
FORMAT = int,value
VCD_NAME = nr_rate_matching_ldpc
ID = VCD_FUNCTION_NR_INTERLEAVING_LDPC
DESC = VCD function NR_INTERLEAVING_LDPC
GROUP = ALL:VCD:UE:VCD_FUNCTION
FORMAT = int,value
VCD_NAME = nr_interleaving_ldpc
ID = VCD_FUNCTION_PSS_SYNCHRO_NR
DESC = VCD function PSS_SYNCHRO_NR
GROUP = ALL:VCD:UE:VCD_FUNCTION
FORMAT = int,value
VCD_NAME = pss_synchro_nr
ID = VCD_FUNCTION_PSS_SEARCH_TIME_NR
DESC = VCD function PSS_SEARCH_TIME_NR
GROUP = ALL:VCD:UE:VCD_FUNCTION
FORMAT = int,value
VCD_NAME = pss_search_time_nr
ID = VCD_FUNCTION_NR_INITIAL_UE_SYNC
DESC = VCD function NR_INITIAL_UE_SYNC
GROUP = ALL:VCD:UE:VCD_FUNCTION
FORMAT = int,value
VCD_NAME = nr_initial_ue_sync
ID = VCD_FUNCTION_BEAM_SWITCHING_GPIO
DESC = VCD function BEAM_SWITCHING_GPIO
GROUP = ALL:VCD:ENB:VCD_FUNCTION
FORMAT = int,value
VCD_NAME = beam_switching_gpio
......@@ -52,6 +52,7 @@ int NRRIV2PRBOFFSET(int locationAndBandwidth,int N_RB) {
else return(N_RB-1-tmp2);
}
/* TS 38.214 ch. 6.1.2.2.2 - Resource allocation type 1 for DL and UL */
int PRBalloc_to_locationandbandwidth0(int NPRB,int RBstart,int BWPsize) {
AssertFatal(NPRB>0 && (NPRB + RBstart <= BWPsize),"Illegal NPRB/RBstart Configuration (%d,%d) for BWPsize %d\n",NPRB,RBstart,BWPsize);
......@@ -62,14 +63,21 @@ int PRBalloc_to_locationandbandwidth0(int NPRB,int RBstart,int BWPsize) {
int PRBalloc_to_locationandbandwidth(int NPRB,int RBstart) {
return(PRBalloc_to_locationandbandwidth0(NPRB,RBstart,275));
}
/// Target code rate tables indexed by Imcs
/* TS 38.214 table 5.1.3.1-1 - MCS index table 1 for PDSCH */
uint16_t nr_target_code_rate_table1[29] = {120, 157, 193, 251, 308, 379, 449, 526, 602, 679, 340, 378, 434, 490, 553, \
616, 658, 438, 466, 517, 567, 616, 666, 719, 772, 822, 873, 910, 948};
// Imcs values 20 and 26 have been multiplied by 2 to avoid the floating point
/* TS 38.214 table 5.1.3.1-2 - MCS index table 2 for PDSCH */
// Imcs values 20 and 26 have been multiplied by 2 to avoid the floating point
uint16_t nr_target_code_rate_table2[28] = {120, 193, 308, 449, 602, 378, 434, 490, 553, 616, 658, 466, 517, 567, \
616, 666, 719, 772, 822, 873, 1365, 711, 754, 797, 841, 885, 1833, 948};
/* TS 38.214 table 5.1.3.1-3 - MCS index table 3 for PDSCH */
uint16_t nr_target_code_rate_table3[29] = {30, 40, 50, 64, 78, 99, 120, 157, 193, 251, 308, 379, 449, 526, 602, 340, \
378, 434, 490, 553, 616, 438, 466, 517, 567, 616, 666, 719, 772};
uint16_t nr_tbs_table[93] = {24, 32, 40, 48, 56, 64, 72, 80, 88, 96, 104, 112, 120, 128, 136, 144, 152, 160, 168, 176, 184, 192, 208, 224, 240, 256, 272, 288, 304, 320, \
336, 352, 368, 384, 408, 432, 456, 480, 504, 528, 552, 576, 608, 640, 672, 704, 736, 768, 808, 848, 888, 928, 984, 1032, 1064, 1128, 1160, 1192, 1224, 1256, \
1288, 1320, 1352, 1416, 1480, 1544, 1608, 1672, 1736, 1800, 1864, 1928, 2024, 2088, 2152, 2216, 2280, 2408, 2472, 2536, 2600, 2664, 2728, 2792, 2856, 2976, \
......
......@@ -91,8 +91,16 @@ task_list_t tasks[TASK_MAX];
return (EXIT_SUCCESS);
}
// in the two following functions, the +32 in malloc is there to deal with gcc memory alignment
// because a struct size can be larger than sum(sizeof(struct components))
// We should remove the itti principle of a huge union for all types of messages in paramter "msg_t ittiMsg"
// to use a more C classical pointer casting "void * ittiMsg", later casted in the right struct
// but we would have to change all legacy macros, as per this example
// #define S1AP_REGISTER_ENB_REQ(mSGpTR) (mSGpTR)->ittiMsg.s1ap_register_enb_req
// would become
// #define S1AP_REGISTER_ENB_REQ(mSGpTR) (s1ap_register_enb_req) mSGpTR)->ittiMsg
MessageDef *itti_alloc_new_message_sized(task_id_t origin_task_id, MessagesIds message_id, MessageHeaderSize size) {
MessageDef *temp = (MessageDef *)itti_malloc (origin_task_id, TASK_UNKNOWN, sizeof(MessageHeader) + size);
MessageDef *temp = (MessageDef *)itti_malloc (origin_task_id, TASK_UNKNOWN, sizeof(MessageHeader) +32 + size);
temp->ittiMsgHeader.messageId = message_id;
temp->ittiMsgHeader.originTaskId = origin_task_id;
temp->ittiMsgHeader.ittiMsgSize = size;
......@@ -100,7 +108,7 @@ task_list_t tasks[TASK_MAX];
}
MessageDef *itti_alloc_new_message(task_id_t origin_task_id, MessagesIds message_id) {
int size=sizeof(MessageHeader) + messages_info[message_id].size;
int size=sizeof(MessageHeader) + 32 + messages_info[message_id].size;
MessageDef *temp = (MessageDef *)itti_malloc (origin_task_id, TASK_UNKNOWN, size);
temp->ittiMsgHeader.messageId = message_id;
temp->ittiMsgHeader.originTaskId = origin_task_id;
......
......@@ -256,6 +256,7 @@ typedef struct IttiMsgText_s {
//#include <proto.h>
#include <openair3/GTPV1-U/gtpv1u_eNB_task.h>
#include <openair3/GTPV1-U/gtpv1u_gNB_task.h>
void *rrc_enb_process_itti_msg(void *);
#include <openair3/SCTP/sctp_eNB_task.h>
#include <openair3/S1AP/s1ap_eNB.h>
......@@ -414,7 +415,7 @@ static const message_info_t messages_info[] = {
#undef MESSAGE_DEF
};
typedef struct __attribute__ ((__packed__)) MessageDef_s {
typedef struct MessageDef_s {
MessageHeader ittiMsgHeader; /**< Message header */
msg_t ittiMsg;
} MessageDef;
......
......@@ -16,7 +16,6 @@ This page is valid on tags starting from **`2019.w09`**.
# Soft Modem Build Script
oai EPC is developed in a distinct project with it's own [documentation](https://github.com/OPENAIRINTERFACE/openair-cn/wiki) , it is not described here.
OAI softmodem sources, which aim to implement 3GPP compliant UEs, eNodeB and gNodeB can be downloaded from the Eurecom [gitlab repository](./GET_SOURCES.md).
......
This diff is collapsed.
......@@ -56,9 +56,56 @@ oai supports [number of deployment](FEATURE_SET.md) model, the following are tes
1. [Monolithic eNodeB](https://gitlab.eurecom.fr/oai/openairinterface5g/wikis/HowToConnectCOTSUEwithOAIeNBNew) where the whole signal processing is performed in a single process
2. if4p5 mode, where frequency domain samples are carried over ethernet, from the RRU which implement part of L1(FFT,IFFT,part of PRACH), to a RAU
# 5G NR
As of February 2020, all 5G NR development is part of the develop branch (the branch develop-nr is no longer maintained). This also means that all new development will be merged into there once it passes all the CI.
## NSA setup with COTS UE
This setup requires an EPC, an OAI eNB and gNB, and a COTS Phone. A dedicated page describe the setup can be found [here](https://gitlab.eurecom.fr/oai/openairinterface5g/wikis/home/gNB-COTS-UE-testing).
### Launch gNB
```bash sudo ./nr-softmodem -O ../../../targets/PROJECTS/GENERIC-LTE-EPC/CONF/gnb.band78.tm1.106PRB.usrpn300.conf```
### Launch eNB
```bash sudo ./lte-softmodem -O ../../../targets/PROJECTS/GENERIC-LTE-EPC/CONF/enb.band7.tm1.50PRB.usrpb210.conf```
## phy-test setup with OAI UE
The OAI UE can also be used in front of a OAI gNB without the support of eNB or EPC. In this case both gNB and eNB need to be run with the --phy-test flag. At the gNB this flag does the following
- it reads the RRC configuration from the configuration file
- it encodes the RRCConfiguration and the RBconfig message and stores them in the binary files rbconfig.raw and reconfig.raw
- the MAC uses a pre-configured allocation of PDSCH and PUSCH with randomly generated payload
At the UE the --phy-test flag will
- read the binary files rbconfig.raw and reconfig.raw from the current directory (a different directory can be specified with the flag --rrc_config_path) and process them.
### Launch gNB
```bash sudo ./nr-softmodem -O ../../../targets/PROJECTS/GENERIC-LTE-EPC/CONF/gnb.band78.tm1.106PRB.usrpn300.conf --phy-test```
### Launch UE in another window
```bash sudo ./nr-uesoftmodem --phy-test [--rrc_config_path ../../../ci-scripts/rrc-files]```
Some other useful paramters of the UE are
- --ue-fo-compensation: enables the frequency offset compenstation at the UE. This is useful when running over the air and/or without an external clock/time source
- --usrp-args: this is the equivalend paramter of sdr_addrs field in the gNB config file and can be used to identify the USRP and set some basic paramters (like the clock source)
- --clock-source: sets the clock-source (internal or external).
- --time-source: sets the time-source (internal or external).
## noS1 setup with OAI UE
Instead of randomly generated payload, in the phy-test mode we can also inject/receive user-plane traffic over a TUN interface. This is the so-called noS1 mode.
This setup is described in the [rfsimulator page](../targets/ARCH/rfsimulator/README.md#5g-case). In theory this should also work with the real hardware target although this has yet to be tested.
......
......@@ -80,6 +80,7 @@ int32_t uplink_frequency_offset[MAX_NUM_CCs][4];
int split73;
char * split73_config;
int split73;
int usrp_tx_thread = 0;
static void *ru_thread( void *param );
void kill_RU_proc(RU_t *ru) {
......@@ -1152,6 +1153,7 @@ int restart_L1L2(module_id_t enb_id) {
}
int main ( int argc, char **argv ) {
//mtrace();
int i;
int CC_id = 0;
int node_type = ngran_eNB;
......
......@@ -47,7 +47,7 @@
#include "SCHED/sched_eNB.h"
#include "SCHED_NR/sched_nr.h"
#include "SCHED_NR/fapi_nr_l1.h"
#include "PHY/LTE_TRANSPORT/transport_proto.h"
#include "PHY/NR_TRANSPORT/nr_transport_proto.h"
#undef MALLOC //there are two conflicting definitions, so we better make sure we don't use it at all
//#undef FRAME_LENGTH_COMPLEX_SAMPLES //there are two conflicting definitions, so we better make sure we don't use it at all
......@@ -61,7 +61,6 @@
#include "PHY/phy_extern.h"
#include "LAYER2/NR_MAC_COMMON/nr_mac_extern.h"
#include "RRC/LTE/rrc_extern.h"
#include "PHY_INTERFACE/phy_interface.h"
......@@ -162,14 +161,14 @@ static inline int rxtx(PHY_VARS_gNB *gNB, int frame_rx, int slot_rx, int frame_t
/*if (gNB->UL_INFO.rx_ind.rx_indication_body.number_of_pdus||
gNB->UL_INFO.harq_ind.harq_indication_body.number_of_harqs ||
gNB->UL_INFO.crc_ind.crc_indication_body.number_of_crcs ||
gNB->UL_INFO.rach_ind.rach_indication_body.number_of_preambles ||
gNB->UL_INFO.rach_ind.number_of_pdus ||
gNB->UL_INFO.cqi_ind.number_of_cqis
) {
LOG_D(PHY, "UL_info[rx_ind:%05d:%d harqs:%05d:%d crcs:%05d:%d preambles:%05d:%d cqis:%d] RX:%04d%d TX:%04d%d \n",
LOG_D(PHY, "UL_info[rx_ind:%05d:%d harqs:%05d:%d crcs:%05d:%d rach_pdus:%0d.%d:%d cqis:%d] RX:%04d%d TX:%04d%d \n",
NFAPI_SFNSF2DEC(gNB->UL_INFO.rx_ind.sfn_sf), gNB->UL_INFO.rx_ind.rx_indication_body.number_of_pdus,
NFAPI_SFNSF2DEC(gNB->UL_INFO.harq_ind.sfn_sf), gNB->UL_INFO.harq_ind.harq_indication_body.number_of_harqs,
NFAPI_SFNSF2DEC(gNB->UL_INFO.crc_ind.sfn_sf), gNB->UL_INFO.crc_ind.crc_indication_body.number_of_crcs,
NFAPI_SFNSF2DEC(gNB->UL_INFO.rach_ind.sfn_sf), gNB->UL_INFO.rach_ind.rach_indication_body.number_of_preambles,
gNB->UL_INFO.rach_ind.sfn, gNB->UL_INFO.rach_ind.slot,gNB->UL_INFO.rach_ind.number_of_pdus,
gNB->UL_INFO.cqi_ind.number_of_cqis,
frame_rx, slot_rx,
frame_tx, slot_tx);
......@@ -202,6 +201,13 @@ static inline int rxtx(PHY_VARS_gNB *gNB, int frame_rx, int slot_rx, int frame_t
if (rx_slot_type == NR_UPLINK_SLOT || rx_slot_type == NR_MIXED_SLOT) {
// UE-specific RX processing for subframe n
// TODO: check if this is correct for PARALLEL_RU_L1_TRX_SPLIT
// Do PRACH RU processing
int prach_id=find_nr_prach(gNB,frame_rx,slot_rx,0,SEARCH_EXIST);
if (prach_id>=0) {
L1_nr_prach_procedures(gNB,frame_rx,slot_rx,&gNB->prach_vars.list[prach_id].pdu);
gNB->prach_vars.list[prach_id].frame=-1;
}
phy_procedures_gNB_uespec_RX(gNB, frame_rx, slot_rx);
}
......@@ -957,12 +963,14 @@ void init_gNB(int single_thread_flag,int wait_for_sync) {
gNB->if_inst->NR_PHY_config_req = nr_phy_config_request;
memset((void *)&gNB->UL_INFO,0,sizeof(gNB->UL_INFO));
LOG_I(PHY,"Setting indication lists\n");
gNB->UL_INFO.rx_ind.pdu_list = gNB->rx_pdu_list;
gNB->UL_INFO.crc_ind.crc_list = gNB->crc_pdu_list;
/*gNB->UL_INFO.sr_ind.sr_indication_body.sr_pdu_list = gNB->sr_pdu_list;
gNB->UL_INFO.harq_ind.harq_indication_body.harq_pdu_list = gNB->harq_pdu_list;
gNB->UL_INFO.cqi_ind.cqi_pdu_list = gNB->cqi_pdu_list;
gNB->UL_INFO.cqi_ind.cqi_raw_pdu_list = gNB->cqi_raw_pdu_list;*/
gNB->prach_energy_counter = 0;
}
......
This diff is collapsed.
......@@ -57,6 +57,7 @@
#define CONFIG_HLP_DLSHIFT "dynamic shift for LLR compuation for TM3/4 (default 0)\n"
#define CONFIG_HLP_UELOOP "get softmodem (UE) to loop through memory instead of acquiring from HW\n"
#define CONFIG_HLP_PHYTST "test UE phy layer, mac disabled\n"
#define CONFIG_HLP_DORA "test gNB and UE with RA procedures\n"
#define CONFIG_HLP_DMAMAP "sets flag for improved EXMIMO UE performance\n"
#define CONFIG_HLP_EXCCLK "tells hardware to use a clock reference (0:internal(default), 1:external, 2:gpsdo)\n"
#define CONFIG_HLP_USIM "use XOR autentication algo in case of test usim mode\n"
......@@ -89,6 +90,7 @@
#define CONFIG_HLP_EMULATE_RF "Emulated RF enabled(disable by defult)\n"
#define CONFIG_HLP_PARALLEL_CMD "three config for level of parallelism 'PARALLEL_SINGLE_THREAD', 'PARALLEL_RU_L1_SPLIT', or 'PARALLEL_RU_L1_TRX_SPLIT'\n"
#define CONFIG_HLP_WORKER_CMD "two option for worker 'WORKER_DISABLE' or 'WORKER_ENABLE'\n"
#define CONFIG_HLP_USRP_THREAD "having extra thead for usrp tx\n"
#define CONFIG_HLP_DISABLNBIOT "disable nb-iot, even if defined in config\n"
#define CONFIG_HLP_USRP_ARGS "set the arguments to identify USRP (same syntax as in UHD)\n"
......@@ -143,6 +145,10 @@ extern int sync_var;
extern int transmission_mode;
extern double cpuf;
extern int emulate_rf;
extern int numerology;
extern int usrp_tx_thread;
extern volatile int start_eNB;
extern volatile int start_UE;
......
......@@ -178,10 +178,12 @@ extern void reset_opp_meas(void);
extern void print_opp_meas(void);
extern void init_eNB_afterRU(void);
extern void *udp_eNB_task(void *args_p);
int transmission_mode=1;
int emulate_rf = 0;
int numerology = 0;
int usrp_tx_thread = 0;
static char *parallel_config = NULL;
......@@ -384,10 +386,10 @@ int create_gNB_tasks(uint32_t gnb_nb) {
if (gnb_nb > 0) {
/* Last task to create, others task must be ready before its start */
if (itti_create_task (TASK_GNB_APP, gNB_app_task, NULL) < 0) {
/*if (itti_create_task (TASK_GNB_APP, gNB_app_task, NULL) < 0) {
LOG_E(GNB_APP, "Create task for gNB APP failed\n");
return -1;
}
}*/
if(itti_create_task(TASK_SCTP, sctp_eNB_task, NULL) < 0){
LOG_E(SCTP, "Create task for SCTP failed\n");
return -1;
......@@ -402,35 +404,39 @@ int create_gNB_tasks(uint32_t gnb_nb) {
}
}
/*
if (EPC_MODE_ENABLED) {
if (gnb_nb > 0) {
if (itti_create_task (TASK_SCTP, sctp_eNB_task, NULL) < 0) {
LOG_E(SCTP, "Create task for SCTP failed\n");
return -1;
}
if (EPC_MODE_ENABLED && (get_softmodem_params()->phy_test==0 && get_softmodem_params()->do_ra==0)) {
if (gnb_nb > 0) {
/*if (itti_create_task (TASK_SCTP, sctp_eNB_task, NULL) < 0) {
LOG_E(SCTP, "Create task for SCTP failed\n");
return -1;
}
if (itti_create_task (TASK_S1AP, s1ap_eNB_task, NULL) < 0) {
LOG_E(S1AP, "Create task for S1AP failed\n");
return -1;
}
if(!emulate_rf){
if (itti_create_task (TASK_UDP, udp_eNB_task, NULL) < 0) {
LOG_E(UDP_, "Create task for UDP failed\n");
return -1;
}
}
if (itti_create_task (TASK_S1AP, s1ap_eNB_task, NULL) < 0) {
LOG_E(S1AP, "Create task for S1AP failed\n");
return -1;
}*/
if (itti_create_task (TASK_GTPV1_U, &gtpv1u_eNB_task, NULL) < 0) {
LOG_E(GTPU, "Create task for GTPV1U failed\n");
return -1;
}
if(!emulate_rf){
if (itti_create_task (TASK_UDP, udp_eNB_task, NULL) < 0) {
LOG_E(UDP_, "Create task for UDP failed\n");
return -1;
}
}
if (itti_create_task (TASK_GTPV1_U, &gtpv1u_gNB_task, NULL) < 0) {
LOG_E(GTPU, "Create task for GTPV1U failed\n");
return -1;
}
}
*/
}
if (gnb_nb > 0) {
if (itti_create_task (TASK_GNB_APP, gNB_app_task, NULL) < 0) {
LOG_E(GNB_APP, "Create task for gNB APP failed\n");
return -1;
}
LOG_I(NR_RRC,"Creating NR RRC gNB Task\n");
if (itti_create_task (TASK_RRC_GNB, rrc_gnb_task, NULL) < 0) {
......@@ -819,6 +825,10 @@ int main( int argc, char **argv )
}
openair0_cfg[0].threequarter_fs = threequarter_fs;
EPC_MODE_ENABLED = !IS_SOFTMODEM_NOS1; //!get_softmodem_params()->phy_test;
if (get_softmodem_params()->do_ra)
AssertFatal(get_softmodem_params()->phy_test == 0,"RA and phy_test are mutually exclusive\n");
#if T_TRACER
T_Config_Init();
......@@ -954,7 +964,9 @@ if(!IS_SOFTMODEM_NOS1)
scopeParms_t p;
p.argc=&argc;
p.argv=argv;
startScope(&p);
p.gNB=RC.gNB[0];
p.ru=RC.ru[0];
gNBinitScope(&p);
}
if (nfapi_mode != 1 && nfapi_mode != 2) {
......
......@@ -34,6 +34,7 @@
{"emulate-rf" , CONFIG_HLP_EMULATE_RF, PARAMFLAG_BOOL, iptr:&emulate_rf, defintval:0, TYPE_INT, 0}, \
{"parallel-config", CONFIG_HLP_PARALLEL_CMD,0, strptr:(char **)&parallel_config, defstrval:NULL, TYPE_STRING, 0}, \
{"worker-config", CONFIG_HLP_WORKER_CMD, 0, strptr:(char **)&worker_config, defstrval:NULL, TYPE_STRING, 0}, \
{"usrp-tx-thread-config", CONFIG_HLP_USRP_THREAD, 0, iptr:&usrp_tx_thread, defstrval:0, TYPE_INT, 0}, \
{"s" , CONFIG_HLP_SNR, 0, dblptr:&snr_dB, defdblval:25, TYPE_DOUBLE, 0}, \
}
......
This diff is collapsed.
......@@ -76,36 +76,11 @@ unsigned short config_frames[4] = {2,9,11,13};
#include <openair2/NR_UE_PHY_INTERFACE/NR_IF_Module.h>
#include <openair1/SCHED_NR_UE/fapi_nr_ue_l1.h>
#include <forms.h>
/* Callbacks, globals and object handlers */
extern void reset_stats( FL_OBJECT *, long );
//extern void initTpool(char *params, tpool_t *pool, bool performanceMeas);
/* Forms and Objects */
typedef struct {
FL_FORM *stats_form;
void *vdata;
char *cdata;
long ldata;
FL_OBJECT *stats_text;
FL_OBJECT *stats_button;
} FD_stats_form;
extern FD_stats_form *create_form_stats_form( void );
#include "PHY/TOOLS/nr_phy_scope.h"
//#include "stats.h"
// current status is that every UE has a DL scope for a SINGLE eNB (eNB_id=0)
#include "PHY/TOOLS/nr_phy_scope.h"
// at eNB 0, an UL scope for every UE
FD_phy_scope_nrue *form_nrue[NUMBER_OF_UE_MAX];
//FD_lte_phy_scope_enb *form_enb[MAX_NUM_CCs][NUMBER_OF_UE_MAX];
//FD_stats_form *form_stats=NULL,*form_stats_l2=NULL;
char title[255];
static pthread_t forms_thread; //xforms
#include <executables/nr-uesoftmodem.h>
#include "executables/softmodem-common.h"
......@@ -198,6 +173,7 @@ uint64_t num_missed_slots=0; // counter for the number of missed slots
int transmission_mode=1;
int numerology = 0;
int usrp_tx_thread = 0;
/* flag set by eNB conf file to specify if the radio head is local or remote (default option is local) */
//uint8_t local_remote_radio = BBU_LOCAL_RADIO_HEAD;
......@@ -274,7 +250,7 @@ void exit_function(const char *file, const char *function, const int line, const
}
void reset_stats(FL_OBJECT *button, long arg) {
void reset_stats(long arg) {
//int i,j,k;
/*PHY_VARS_eNB *phy_vars_eNB = PHY_vars_eNB_g[0][0];
......@@ -304,35 +280,6 @@ void reset_stats(FL_OBJECT *button, long arg) {
}*/
}
static void *scope_thread(void *arg) {
sleep(5);
while (!oai_exit) {
phy_scope_nrUE(form_nrue[0],
PHY_vars_UE_g[0][0],
0,0,1);
usleep(100*1000);
}
pthread_exit((void *)arg);
}
void init_scope(void) {
int fl_argc=1;
if (do_forms==1) {
char *name="5G-UE-scope";
fl_initialize (&fl_argc, &name, NULL, 0, 0);
int UE_id = 0;
form_nrue[UE_id] = create_phy_scope_nrue();
sprintf (title, "NR DL SCOPE UE");
fl_show_form (form_nrue[UE_id]->phy_scope_nrue, FL_PLACE_HOTSPOT, FL_FULLBORDER, title);
threadCreate(&forms_thread, scope_thread, NULL, "scope", -1, OAI_PRIORITY_RT_LOW);
}
}
void *l2l1_task(void *arg) {
MessageDef *message_p = NULL;
int result;
......@@ -720,6 +667,9 @@ int main( int argc, char **argv ) {
PHY_vars_UE_g = malloc(sizeof(PHY_VARS_NR_UE **));
PHY_vars_UE_g[0] = malloc(sizeof(PHY_VARS_NR_UE *)*MAX_NUM_CCs);
if (get_softmodem_params()->do_ra)
AssertFatal(get_softmodem_params()->phy_test == 0,"RA and phy_test are mutually exclusive\n");
for (int CC_id=0; CC_id<MAX_NUM_CCs; CC_id++) {
printf("frame_parms %d\n",frame_parms[CC_id]->ofdm_symbol_size);
frame_parms[CC_id]->nb_antennas_tx = nb_antenna_tx;
......@@ -746,11 +696,6 @@ int main( int argc, char **argv ) {
init_nr_ue_vars(UE[CC_id],frame_parms[CC_id],0,abstraction_flag);
if (get_softmodem_params()->phy_test==1)
UE[CC_id]->mac_enabled = 0;
else
UE[CC_id]->mac_enabled = 1;
UE[CC_id]->mac_enabled = 1;
UE[CC_id]->if_inst = nr_ue_if_module_init(0);
UE[CC_id]->UE_scan = UE_scan;
......@@ -763,15 +708,49 @@ int main( int argc, char **argv ) {
UE[CC_id]->rx_total_gain_dB = (int)rx_gain[CC_id][0] + rx_gain_off;
UE[CC_id]->tx_power_max_dBm = tx_max_power[CC_id];
if (frame_parms[CC_id]->frame_type==FDD) {
if (UE[CC_id]->frame_parms.frame_type == FDD) {
UE[CC_id]->N_TA_offset = 0;
} else {
if (frame_parms[CC_id]->N_RB_DL == 100)
UE[CC_id]->N_TA_offset = 624;
else if (frame_parms[CC_id]->N_RB_DL == 50)
UE[CC_id]->N_TA_offset = 624/2;
else if (frame_parms[CC_id]->N_RB_DL == 25)
UE[CC_id]->N_TA_offset = 624/4;
int N_RB = UE[CC_id]->frame_parms.N_RB_DL;
int N_TA_offset = UE[CC_id]->frame_parms.ul_CarrierFreq < 6e9 ? 400 : 431; // reference samples for 25600Tc @ 30.72 Ms/s for FR1, same @ 61.44 Ms/s for FR2
double factor=1;
switch (UE[CC_id]->frame_parms.numerology_index) {
case 0: //15 kHz scs
AssertFatal(N_TA_offset == 400, "scs_common 15kHz only for FR1\n");
if (N_RB <= 25) factor = .25; // 7.68 Ms/s
else if (N_RB <=50) factor = .5; // 15.36 Ms/s
else if (N_RB <=75) factor = 1.0; // 30.72 Ms/s
else if (N_RB <=100) factor = 1.0; // 30.72 Ms/s
else AssertFatal(1==0,"Too many PRBS for mu=0\n");
break;
case 1: //30 kHz sc
AssertFatal(N_TA_offset == 400, "scs_common 30kHz only for FR1\n");
if (N_RB <= 106) factor = 2.0; // 61.44 Ms/s
else if (N_RB <= 275) factor = 4.0; // 122.88 Ms/s
break;
case 2: //60 kHz scs
AssertFatal(1==0,"scs_common should not be 60 kHz\n");
break;
case 3: //120 kHz scs
AssertFatal(N_TA_offset == 431, "scs_common 120kHz only for FR2\n");
break;
case 4: //240 kHz scs
AssertFatal(1==0,"scs_common should not be 60 kHz\n");
if (N_RB <= 32) factor = 1.0; // 61.44 Ms/s
else if (N_RB <= 66) factor = 2.0; // 122.88 Ms/s
else AssertFatal(1==0,"N_RB %d is too big for curretn FR2 implementation\n",N_RB);
break;
if (N_RB == 100)
UE[CC_id]->N_TA_offset = 624;
else if (N_RB == 50)
UE[CC_id]->N_TA_offset = 624/2;
else if (N_RB == 25)
UE[CC_id]->N_TA_offset = 624/4;
}
if (UE[CC_id]->frame_parms.threequarter_fs == 1) factor = factor*.75;
UE[CC_id]->N_TA_offset = (int)(N_TA_offset * factor);
LOG_I(PHY,"UE %d Setting N_TA_offset to %d samples (factor %f, UL Freq %lu, N_RB %d)\n", UE[CC_id]->Mod_id, UE[CC_id]->N_TA_offset, factor, UE[CC_id]->frame_parms.ul_CarrierFreq, N_RB);
}
}
......@@ -782,7 +761,8 @@ int main( int argc, char **argv ) {
memset (&UE_PF_PO[0][0], 0, sizeof(UE_PF_PO_t)*NUMBER_OF_UE_MAX*MAX_NUM_CCs);
configure_linux();
mlockall(MCL_CURRENT | MCL_FUTURE);
init_scope();
if (do_forms)
nrUEinitScope(PHY_vars_UE_g[0][0]);
number_of_cards = 1;
for(int CC_id=0; CC_id<MAX_NUM_CCs; CC_id++) {
......
......@@ -4,7 +4,6 @@
#include <executables/softmodem-common.h>
#include "PHY/defs_nr_UE.h"
#include "SIMULATION/ETH_TRANSPORT/proto.h"
#include <openair2/LAYER2/NR_MAC_gNB/mac_proto.h>
/***************************************************************************************************************************************/
/* command line options definitions, CMDLINE_XXXX_DESC macros are used to initialize paramdef_t arrays which are then used as argument
......
......@@ -55,6 +55,7 @@ extern "C"
#define CONFIG_HLP_DUMPFRAME "dump UE received frame to rxsig_frame0.dat and exit\n"
#define CONFIG_HLP_UELOOP "get softmodem (UE) to loop through memory instead of acquiring from HW\n"
#define CONFIG_HLP_PHYTST "test UE phy layer, mac disabled\n"
#define CONFIG_HLP_DORA "test gNB and UE with RA procedures\n"
#define CONFIG_HLP_EXTS "tells hardware to use an external timing reference\n"
#define CONFIG_HLP_DMRSSYNC "tells RU to insert DMRS in subframe 1 slot 0"
#define CONFIG_HLP_CLK "tells hardware to use a clock reference (0:internal, 1:external, 2:gpsdo)\n"
......@@ -97,6 +98,7 @@ extern "C"
#define SPLIT73 softmodem_params.split73
#define TP_CONFIG softmodem_params.threadPoolConfig
#define PHY_TEST softmodem_params.phy_test
#define DO_RA softmodem_params.do_ra
#define WAIT_FOR_SYNC softmodem_params.wait_for_sync
#define SINGLE_THREAD_FLAG softmodem_params.single_thread_flag
#define CHAIN_OFFSET softmodem_params.chain_offset
......@@ -114,6 +116,7 @@ extern "C"
{"split73", CONFIG_HLP_SPLIT73, 0, strptr:(char **)&SPLIT73, defstrval:NULL, TYPE_STRING, sizeof(SPLIT73)},\
{"thread-pool", CONFIG_HLP_TPOOL, 0, strptr:(char **)&TP_CONFIG, defstrval:"n", TYPE_STRING, sizeof(TP_CONFIG)}, \
{"phy-test", CONFIG_HLP_PHYTST, PARAMFLAG_BOOL, iptr:&PHY_TEST, defintval:0, TYPE_INT, 0}, \
{"do-ra", CONFIG_HLP_DORA, PARAMFLAG_BOOL, iptr:&DO_RA, defintval:0, TYPE_INT, 0}, \
{"usim-test", CONFIG_HLP_USIM, PARAMFLAG_BOOL, u8ptr:&USIM_TEST, defintval:0, TYPE_UINT8, 0}, \
{"clock-source", CONFIG_HLP_CLK, 0, uptr:&CLOCK_SOURCE, defintval:0, TYPE_UINT, 0}, \
{"time-source", CONFIG_HLP_TME, 0, uptr:&TIMING_SOURCE, defintval:0, TYPE_UINT, 0}, \
......@@ -205,6 +208,7 @@ typedef struct {
char split73[1024];
char threadPoolConfig[1024];
int phy_test;
int do_ra;
uint8_t usim_test;
int emulate_rf;
int wait_for_sync; //eNodeB only
......
......@@ -18,6 +18,7 @@
#define FAPI_NR_RX_PDU_TYPE_SIB 0x02
#define FAPI_NR_RX_PDU_TYPE_DLSCH 0x03
#define FAPI_NR_DCI_IND 0x04
#define FAPI_NR_RX_PDU_TYPE_RAR 0x05
#define FAPI_NR_SIBS_MASK_SIB1 0x1
......@@ -42,6 +43,7 @@
#define FAPI_NR_DL_CONFIG_TYPE_DCI 0x01
#define FAPI_NR_DL_CONFIG_TYPE_DLSCH 0x02
#define FAPI_NR_DL_CONFIG_TYPE_RA_DLSCH 0x03
#define FAPI_NR_CCE_REG_MAPPING_TYPE_INTERLEAVED 0x01
......
......@@ -62,7 +62,7 @@ typedef struct {
uint8_t CoreSetType;
uint8_t precoder_granularity;
uint16_t pdcch_dmrs_scrambling_id;
uint16_t scrambling_rnti;
uint8_t tci_state_pdcch;
uint8_t tci_present_in_dci;
} fapi_nr_coreset_t;
......@@ -158,22 +158,29 @@ typedef struct {
fapi_nr_tx_request_body_t *tx_request_body;
} fapi_nr_tx_request_t;
typedef struct {
uint8_t preamble_index;
uint8_t prach_configuration_index;
uint16_t preamble_length;
uint8_t power_ramping_step;
uint16_t preamble_received_target_power;
uint8_t msg1_fdm;
uint8_t msg1_frequency_start;
uint8_t zero_correlation_zone_config;
uint8_t subcarrier_spacing;
uint8_t restrictedset_config;
uint16_t root_sequence_index;
uint16_t rsrp_threshold_ssb;
uint16_t rsrp_threshold_sul;
uint16_t prach_freq_offset;
} fapi_nr_ul_config_prach_pdu;
/// This struct replaces:
/// PRACH-ConfigInfo from 38.331 RRC spec
/// PRACH-ConfigSIB or PRACH-Config
typedef struct {
/// PHY cell ID
uint16_t phys_cell_id;
/// Num PRACH occasions
uint8_t num_prach_ocas;
/// PRACH format
uint8_t prach_format;
/// Num RA
uint8_t num_ra;
uint8_t prach_start_symbol;
/// 38.211 (NCS 38.211 6.3.3.1).
uint16_t num_cs;
/// Parameter: prach-rootSequenceIndex, see TS 38.211 (6.3.3.2).
uint16_t root_seq_id;
/// Parameter: High-speed-flag, see TS 38.211 (6.3.3.1). 1 corresponds to Restricted set and 0 to Unrestricted set.
uint8_t restricted_set;
/// see TS 38.211 (6.3.3.2).
uint16_t freq_msg1;
// nfapi_nr_ul_beamforming_t beamforming;
} fapi_nr_ul_config_prach_pdu;
typedef struct {
......
......@@ -86,7 +86,7 @@ typedef enum {
NFAPI_NR_PHY_MSG_TYPE_CRC_INDICATION= 0X86,
NFAPI_NR_PHY_MSG_TYPE_UCI_INDICATION= 0X87,
NFAPI_NR_PHY_MSG_TYPE_SRS_INDICATION= 0X88,
NFAPI_NR_PHY_MSG_TYPE_PACH_INDICATION= 0X89
NFAPI_NR_PHY_MSG_TYPE_RACH_INDICATION= 0X89
//RESERVED 0X8a ~ 0xff
} nfapi_nr_phy_msg_type_e;
......@@ -623,22 +623,35 @@ typedef struct {
//table 3-37
#define DCI_PAYLOAD_BTYE_LEN 12 //? TS38.212 sec 7.3.1
#define DCI_PAYLOAD_BYTE_LEN 8 // 12 ? TS38.212 sec 7.3.1
#define MAX_DCI_CORESET 8
typedef struct
{
uint16_t rnti;//
uint16_t scrambling_id;//
uint16_t scrambling_rnti;/* */
uint8_t cce_index;//
uint8_t aggregation_level;//
nfapi_nr_tx_precoding_and_beamforming_t* precoding_and_beamforming_list;
//tx power info
uint8_t beta_pdcch_1_0;/*PDCCH power value used for PDCCH Format 1_0 with CRC scrambled by SI-RNTI, PI-RNTI or RA-RNTI. This is ratio of
SSB/PBCH EPRE to PDCCH and PDCCH DMRS EPRE [TS38.213, sec 4.1] Value :0->17 */
uint8_t power_control_offset_ss;//PDCCH power value used for all other PDCCH Formats. This is ratio of SSB/PBCH block EPRE to PDCCH and PDCCH DMRS EPRE [TS38.214, sec 4.1] Values: 0: -3dB, 1: 0dB, 2: 3dB, 3: 6dB
uint16_t payload_size_bits;//The total DCI length (in bits) including padding bits [TS38.212 sec 7.3.1] Range 0-> DCI_PAYLOAD_BTYE_LEN*8
uint8_t payload[DCI_PAYLOAD_BTYE_LEN];//DCI payload, where the actual size is defined by PayloadSizeBits. The bit order is as following bit0-bit7 are mapped to first byte of MSB - LSB
typedef struct {
// The RNTI used for identifying the UE when receiving the PDU Value: 1 -> 65535.
uint16_t RNTI[MAX_DCI_CORESET];
// For a UE-specific search space it equals the higher-layer parameter PDCCH-DMRSScrambling-ID if configured,
// otherwise it should be set to the phy cell ID. [TS38.211, sec 7.3.2.3] Value: 0->65535
uint16_t ScramblingId[MAX_DCI_CORESET];
// For a UE-specific search space where PDCCH-DMRSScrambling- ID is configured This param equals the CRNTI.
// Otherwise, it should be set to 0. [TS38.211, sec 7.3.2.3] Value: 0 -> 65535
uint16_t ScramblingRNTI[MAX_DCI_CORESET];
// CCE start Index used to send the DCI Value: 0->135
uint8_t CceIndex[MAX_DCI_CORESET];
// Aggregation level used [TS38.211, sec 7.3.2.1] Value: 1,2,4,8,16
uint8_t AggregationLevel[MAX_DCI_CORESET];
// Precoding and Beamforming structure See Table 3-43
nfapi_nr_tx_precoding_and_beamforming_t precodingAndBeamforming[MAX_DCI_CORESET];
// PDCCH power value used for PDCCH Format 1_0 with CRC scrambled by SI-RNTI, PI-RNTI or RA-RNTI.
// This is ratio of SSB/PBCH EPRE to PDCCH and PDCCH DMRS EPRE [TS38.213, sec 4.1]
// Value :0->17 Report title: 5G FAPI: PHY API Specification Issue date: 29 June 2019 Version: 222.10.17 68 Field Type Description representing -8 to 8 dB in 1dB steps
uint8_t beta_PDCCH_1_0[MAX_DCI_CORESET];
// PDCCH power value used for all other PDCCH Formats.
// This is ratio of SSB/PBCH block EPRE to PDCCH and PDCCH DMRS EPRE [TS38.214, sec 4.1] Values: 0: -3dB,1: 0dB,2: 3dB,3: 6dB
uint8_t powerControlOffsetSS[MAX_DCI_CORESET];
// The total DCI length (in bits) including padding bits [TS38.212 sec 7.3.1] Range 0->DCI_PAYLOAD_BYTE_LEN*8
uint16_t PayloadSizeBits[MAX_DCI_CORESET];
// DCI payload, where the actual size is defined by PayloadSizeBits. The bit order is as following bit0-bit7 are mapped to first byte of MSB - LSB
uint8_t Payload[MAX_DCI_CORESET][DCI_PAYLOAD_BYTE_LEN];
} nfapi_nr_dl_dci_pdu_t;
......@@ -653,9 +666,6 @@ typedef struct {
uint16_t *beamIdx[275];
} nr_beamforming_t;
#define MAX_DCI_CORESET 8
#define DCI_PAYLOAD_BYTE_LEN 8
typedef struct {
///Bandwidth part size [TS38.213 sec12]. Number of contiguous PRBs allocated to the BWP,Value: 1->275
uint16_t BWPSize;
......@@ -685,26 +695,8 @@ typedef struct {
uint8_t precoderGranularity;
///Number of DCIs in this CORESET.Value: 0->MaxDciPerSlot
uint16_t numDlDci;
///The RNTI used for identifying the UE when receiving the PDU Value: 1 -> 65535.
uint16_t RNTI[MAX_DCI_CORESET];
///For a UE-specific search space it equals the higher-layer parameter PDCCH-DMRSScrambling-ID if configured, otherwise it should be set to the phy cell ID. [TS38.211, sec 7.3.2.3] Value: 0->65535
uint16_t ScramblingId[MAX_DCI_CORESET];
///For a UE-specific search space where PDCCH-DMRSScrambling- ID is configured This param equals the CRNTI. Otherwise, it should be set to 0. [TS38.211, sec 7.3.2.3] Value: 0 -> 65535
uint16_t ScramblingRNTI[MAX_DCI_CORESET];
///CCE start Index used to send the DCI Value: 0->135
uint8_t CceIndex[MAX_DCI_CORESET];
///Aggregation level used [TS38.211, sec 7.3.2.1] Value: 1,2,4,8,16
uint8_t AggregationLevel[MAX_DCI_CORESET];
///Precoding and Beamforming structure See Table 3-43
nfapi_nr_tx_precoding_and_beamforming_t precodingAndBeamforming[MAX_DCI_CORESET];
///PDCCH power value used for PDCCH Format 1_0 with CRC scrambled by SI-RNTI, PI-RNTI or RA-RNTI. This is ratio of SSB/PBCH EPRE to PDCCH and PDCCH DMRS EPRE [TS38.213, sec 4.1] Value :0->17 Report title: 5G FAPI: PHY API Specification Issue date: 29 June 2019 Version: 222.10.17 68 Field Type Description representing -8 to 8 dB in 1dB steps
uint8_t beta_PDCCH_1_0[MAX_DCI_CORESET];
///PDCCH power value used for all other PDCCH Formats. This is ratio of SSB/PBCH block EPRE to PDCCH and PDCCH DMRS EPRE [TS38.214, sec 4.1] Values: 0: -3dB,1: 0dB,2: 3dB,3: 6dB
uint8_t powerControlOffsetSS[MAX_DCI_CORESET];
///The total DCI length (in bits) including padding bits [TS38.212 sec 7.3.1] Range 0->DCI_PAYLOAD_BTYE_LEN*8
uint16_t PayloadSizeBits[MAX_DCI_CORESET];
///DCI payload, where the actual size is defined by PayloadSizeBits. The bit order is as following bit0-bit7 are mapped to first byte of MSB - LSB
uint8_t Payload[MAX_DCI_CORESET][DCI_PAYLOAD_BYTE_LEN];
///DL DCI PDU
nfapi_nr_dl_dci_pdu_t dci_pdu;
} nfapi_nr_dl_tti_pdcch_pdu_rel15_t;
typedef struct {
......@@ -1037,10 +1029,12 @@ typedef struct
{
uint16_t phys_cell_id;
uint8_t num_prach_ocas;
// SCF PRACH PDU format field does not consider A1/B1 etc. possibilities
// We added 9 = A1/B1 10 = A2/B2 11 A3/B3
uint8_t prach_format;
uint8_t num_ra;
uint8_t prach_start_symbol;
uint16_t num_cs;//
uint16_t num_cs;
nfapi_nr_ul_beamforming_t beamforming;
} nfapi_nr_prach_pdu_t;
......@@ -1126,6 +1120,7 @@ typedef struct
uint16_t ul_dmrs_symb_pos;
uint8_t dmrs_config_type;
uint16_t ul_dmrs_scrambling_id;
uint16_t pusch_identity;
uint8_t scid;
uint8_t num_dmrs_cdm_grps_no_data;
uint16_t dmrs_ports;//DMRS ports. [TS38.212 7.3.1.1.2] provides description between DCI 0-1 content and DMRS ports. Bitmap occupying the 11 LSBs with: bit 0: antenna port 1000 bit 11: antenna port 1011 and for each bit 0: DMRS port not used 1: DMRS port used
......@@ -1498,7 +1493,7 @@ typedef struct
//for dci_pusch_pdu
typedef struct
{
uint8_t pdu_bit_map;
uint8_t pduBitmap;
uint32_t handle;
uint16_t rnti;
uint8_t ul_cqi;
......@@ -1513,7 +1508,7 @@ typedef struct
//for PUCCH PDU Format 0/1
typedef struct
{
uint8_t pdu_bit_map;
uint8_t pduBitmap;
uint32_t handle;
uint16_t rnti;
uint8_t pucch_format;//PUCCH format Value: 0 -> 1 0: PUCCH Format0 1: PUCCH Format1
......@@ -1529,7 +1524,7 @@ typedef struct
//PUCCH PDU Format 2/3/4
typedef struct
{
uint8_t pdu_bit_map;
uint8_t pduBitmap;
uint32_t handle;
uint16_t rnti;
uint8_t pucch_format;//PUCCH format Value: 0 -> 2 0: PUCCH Format2 1: PUCCH Format3 2: PUCCH Format4
......@@ -1566,7 +1561,7 @@ typedef struct
uint16_t sfn;
uint16_t slot;
uint16_t num_ucis;
nfapi_nr_uci_t uci_list[NFAPI_MAX_NUM_UCI_INDICATION];
nfapi_nr_uci_t *uci_list;
} nfapi_nr_uci_indication_t;
......
......@@ -526,7 +526,7 @@ uint32_t pullarray8(uint8_t **in, uint8_t out[], uint32_t max_len, uint32_t len,
return 0;
}
if((end - out) >= sizeof(uint8_t) * len)
if((end - (*in)) >= sizeof(uint8_t) * len)
{
memcpy(out, (*in), len);
(*in)+=len;
......
......@@ -27,9 +27,7 @@
#include "SIMULATION/TOOLS/sim.h"
#include "PHY/CODING/nrLDPC_extern.h"
#include "openair1/SIMULATION/NR_PHY/nr_unitary_defs.h"
// extern "C" {
#include "openair1/PHY/CODING/nrLDPC_decoder_LYC/nrLDPC_decoder_LYC.h"
// }
#define MAX_NUM_DLSCH_SEGMENTS 16
#define MAX_BLOCK_LENGTH 8448
......@@ -105,7 +103,7 @@ int test_ldpc(short No_iteration,
time_stats_t *time_optim,
time_stats_t *time_decoder,
n_iter_stats_t *dec_iter,
short run_cuda)
short run_cuda)
{
//clock initiate
//time_stats_t time,time_optim,tinput,tprep,tparity,toutput, time_decoder;
......@@ -398,23 +396,24 @@ int test_ldpc(short No_iteration,
decParams.numMaxIter=No_iteration;
decParams.outMode = nrLDPC_outMode_BIT;
//decParams.outMode =nrLDPC_outMode_LLRINT8;
set_compact_BG(Zc,BG);
init_LLR_DMA_for_CUDA(&decParams, (int8_t*)channel_output_fixed[j], (int8_t*)estimated_output[j], block_length);
for(j=0;j<n_segments;j++) {
start_meas(time_decoder);
#ifdef CUDA_FLAG
if(run_cuda){
printf("***********run ldpc by cuda\n");
n_iter = nrLDPC_decoder_LYC(&decParams, (int8_t*)channel_output_fixed[j], (int8_t*)estimated_output[j], block_length, time_decoder);
}
else{
printf("**************run ldpc by cpu\n");
// decode the sequence
// decoder supports BG2, Z=128 & 256
//esimated_output=ldpc_decoder(channel_output_fixed, block_length, No_iteration, (double)((float)nom_rate/(float)denom_rate));
///nrLDPC_decoder(&decParams, channel_output_fixed, estimated_output, NULL);
}
else{
// decode the sequence
// decoder supports BG2, Z=128 & 256
//esimated_output=ldpc_decoder(channel_output_fixed, block_length, No_iteration, (double)((float)nom_rate/(float)denom_rate));
///nrLDPC_decoder(&decParams, channel_output_fixed, estimated_output, NULL);
n_iter = nrLDPC_decoder(&decParams, (int8_t*)channel_output_fixed[j], (int8_t*)estimated_output[j], p_nrLDPC_procBuf, p_decoder_profiler);
}
#else
n_iter = nrLDPC_decoder(&decParams, (int8_t*)channel_output_fixed[j], (int8_t*)estimated_output[j], p_nrLDPC_procBuf, p_decoder_profiler);
}
#endif
stop_meas(time_decoder);
}
......@@ -515,6 +514,7 @@ int test_ldpc(short No_iteration,
int main(int argc, char *argv[])
{
warmup_for_GPU();
unsigned int errors, errors_bit, crc_misses;
double errors_bit_uncoded;
short block_length=8448; // decoder supports length: 1201 -> 1280, 2401 -> 2560
......@@ -561,7 +561,7 @@ int main(int argc, char *argv[])
block_length = atoi(optarg);
break;
case 'G':
case 'G':
run_cuda = atoi(optarg);
break;
......
......@@ -12,7 +12,6 @@
#include "PHY/CODING/coding_defs.h"
#include "SIMULATION/TOOLS/sim.h"
#include "openair1/SIMULATION/NR_PHY/nr_unitary_defs.h"
//#include "PHY/NR_TRANSPORT/nr_transport.h"
//#include "common/utils/LOG/log.h"
//#define DEBUG_DCI_POLAR_PARAMS
......@@ -27,7 +26,7 @@ int main(int argc, char *argv[])
{
//Default simulation values (Aim for iterations = 1000000.)
int decoder_int16=0;
int itr, iterations = 1000, arguments, polarMessageType = 0; //0=PBCH, 1=DCI, -1=UCI
int itr, iterations = 1000, arguments, polarMessageType = 0; //0=PBCH, 1=DCI, 2=UCI
double SNRstart = -20.0, SNRstop = 0.0, SNRinc= 0.5; //dB
double SNR, SNR_lin;
int16_t nBitError = 0; // -1 = Decoding failed (All list entries have failed the CRC checks).
......@@ -42,6 +41,7 @@ int main(int argc, char *argv[])
switch (arguments) {
case 's':
SNRstart = atof(optarg);
SNRstop = SNRstart + 2;
break;
case 'd':
......@@ -91,7 +91,7 @@ int main(int argc, char *argv[])
case 'k':
testLength=atoi(optarg);
if (testLength < 12 || testLength > 60) {
if (testLength < 12 || testLength > 127) {
printf("Illegal packet bitlength %d \n",testLength);
exit(-1);
}
......@@ -120,12 +120,13 @@ int main(int argc, char *argv[])
crcTableInit();
if (polarMessageType == 0) { //PBCH
aggregation_level = NR_POLAR_PBCH_AGGREGATION_LEVEL;
aggregation_level = NR_POLAR_PBCH_AGGREGATION_LEVEL;
} else if (polarMessageType == 1) { //DCI
coderLength = 108*aggregation_level;
} else if (polarMessageType == -1) { //UCI
printf("UCI testing not supported yet\n");
exit(-1);
coderLength = 108*aggregation_level;
} else if (polarMessageType == 2) { //UCI
//pucch2 parameters, 1 symbol, aggregation_level = NPRB
AssertFatal(aggregation_level>2,"For UCI formats, aggregation (N_RB) should be > 2\n");
coderLength = 16*aggregation_level;
}
//Logging
......
......@@ -382,12 +382,24 @@ unsigned int crc16 (unsigned char * inptr, int bitlen);
@param bitlen length of inputs in bits*/
unsigned int crc12 (unsigned char * inptr, int bitlen);
/*!\fn uint32_t crc12(uint8_t *inPtr, int32_t bitlen)
\brief This computes an 11-bit crc based on 3GPP NR specifications.
@param inPtr Pointer to input byte stream
@param bitlen length of inputs in bits*/
unsigned int crc11 (unsigned char * inptr, int bitlen);
/*!\fn uint32_t crc8(uint8_t *inPtr, int32_t bitlen)
\brief This computes a 8-bit crc based on 3GPP UMTS specifications.
@param inPtr Pointer to input byte stream
@param bitlen length of inputs in bits*/
unsigned int crc8 (unsigned char * inptr, int bitlen);
/*!\fn uint32_t crc8(uint8_t *inPtr, int32_t bitlen)
\brief This computes a 6-bit crc based on 3GPP NR specifications.
@param inPtr Pointer to input byte stream
@param bitlen length of inputs in bits*/
unsigned int crc6 (unsigned char * inptr, int bitlen);
int check_crc(uint8_t* decoded_bytes, uint32_t n, uint32_t F, uint8_t crc_type);
/*!\fn void phy_viterbi_dot11_sse2(int8_t *y, uint8_t *decoded_bytes, uint16_t n,int offset,int traceback)
......@@ -463,6 +475,7 @@ uint32_t nr_compute_tbs(uint16_t Qm,
uint16_t nb_symb_sch,
uint16_t nb_dmrs_prb,
uint16_t nb_rb_oh,
uint8_t tb_scaling,
uint8_t Nl);
uint32_t nr_compute_tbslbrm(uint16_t table,
......
......@@ -90,7 +90,9 @@ static unsigned int crc24bTable[256];
static unsigned int crc24cTable[256];
static unsigned short crc16Table[256];
static unsigned short crc12Table[256];
static unsigned short crc11Table[256];
static unsigned char crc8Table[256];
static unsigned char crc6Table[256];
void crcTableInit (void)
{
......@@ -102,7 +104,9 @@ void crcTableInit (void)
crc24cTable[c] = crcbit (&c, 1, poly24c);
crc16Table[c] = (unsigned short) (crcbit (&c, 1, poly16) >> 16);
crc12Table[c] = (unsigned short) (crcbit (&c, 1, poly12) >> 16);
crc11Table[c] = (unsigned short) (crcbit (&c, 1, poly11) >> 16);
crc8Table[c] = (unsigned char) (crcbit (&c, 1, poly8) >> 24);
crc6Table[c] = (unsigned char) (crcbit (&c, 1, poly6) >> 24);
} while (++c);
}
......@@ -207,6 +211,24 @@ crc12 (unsigned char * inptr, int bitlen)
return crc;
}
unsigned int
crc11 (unsigned char * inptr, int bitlen)
{
int octetlen, resbit;
unsigned int crc = 0;
octetlen = bitlen / 8; /* Change in octets */
resbit = (bitlen % 8);
while (octetlen-- > 0) {
crc = (crc << 8) ^ (crc11Table[(*inptr++) ^ (crc >> 24)] << 16);
}
if (resbit > 0)
crc = (crc << resbit) ^ (crc11Table[((*inptr) >> (8 - resbit)) ^ (crc >> (32 - resbit))] << 16);
return crc;
}
unsigned int
crc8 (unsigned char * inptr, int bitlen)
{
......@@ -225,6 +247,24 @@ crc8 (unsigned char * inptr, int bitlen)
return crc;
}
unsigned int
crc6 (unsigned char * inptr, int bitlen)
{
int octetlen, resbit;
unsigned int crc = 0;
octetlen = bitlen / 8; /* Change in octets */
resbit = (bitlen % 8);
while (octetlen-- > 0) {
crc = crc6Table[(*inptr++) ^ (crc >> 24)] << 24;
}
if (resbit > 0)
crc = (crc << resbit) ^ (crc8Table[((*inptr) >> (8 - resbit)) ^ (crc >> (32 - resbit))] << 24);
return crc;
}
int check_crc(uint8_t* decoded_bytes, uint32_t n, uint32_t F, uint8_t crc_type)
{
uint32_t crc=0,oldcrc=0;
......@@ -284,6 +324,7 @@ int check_crc(uint8_t* decoded_bytes, uint32_t n, uint32_t F, uint8_t crc_type)
AssertFatal(1,"Invalid crc_type \n");
}
if (crc == oldcrc)
return(1);
else
......
#ifndef __NR_LDPC_DECODER_LYC__H__
#define __NR_LDPC_DECODER_LYC__H__
#include "nrLDPC_types.h"
#include "nrLDPC_init_mem.h"
/*! \file PHY/CODING/nrLDPC_decoder_LYC/nrLDPC_decoder_LYC.h
* \brief LDPC cuda support BG1 all length
......@@ -25,4 +23,10 @@
int32_t nrLDPC_decoder_LYC(t_nrLDPC_dec_params* p_decParams, int8_t* p_llr, int8_t* p_out, int block_length, time_stats_t *time_decoder);
void init_LLR_DMA_for_CUDA(t_nrLDPC_dec_params* p_decParams, int8_t* p_llr, int8_t* p_out, int block_length);
void warmup_for_GPU(void);
void set_compact_BG(int Zc, short BG);
#endif
This diff is collapsed.
/*
* Licensed to the OpenAirInterface (OAI) Software Alliance under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The OpenAirInterface Software Alliance licenses this file to You under
* the OAI Public License, Version 1.1 (the "License"); you may not use this file
* except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.openairinterface.org/?page_id=698
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*-------------------------------------------------------------------------------
* For more information about the OpenAirInterface (OAI) Software Alliance:
* contact@openairinterface.org
*/
/*!\file nrLDPC_init_mem.h
* \brief Defines the function to initialize the LDPC decoder and sets correct LUTs.
* \author Sebastian Wagner (TCL Communications) Email: <mailto:sebastian.wagner@tcl.com>
* \date 07-12-2018
* \version 1.0
* \note
* \warning
*/
#ifndef __NR_LDPC_INIT_MEM__H__
#define __NR_LDPC_INIT_MEM__H__
#include <stdlib.h>
#include "nrLDPC_defs.h"
#include "nrLDPC_types.h"
#ifndef malloc32_clear
/**
\brief Allocates 32 byte aligned memory and initializes to zero
\param size Input size in bytes
\return Pointer to memory
*/
static inline void* malloc32_clear(size_t size)
{
void* ptr = (void*) memalign(32, size+32);
memset(ptr, 0, size);
return ptr;
}
#endif
/**
\brief Allocates and initializes the internal decoder processing buffers
\param p_decParams Pointer to decoder parameters
\param p_lut Pointer to decoder LUTs
\return Number of LLR values
*/
static inline t_nrLDPC_procBuf* nrLDPC_init_mem(void)
{
t_nrLDPC_procBuf* p_procBuf = (t_nrLDPC_procBuf*) malloc32_clear(sizeof(t_nrLDPC_procBuf));
if (p_procBuf)
{
p_procBuf->cnProcBuf = (int8_t*) malloc32_clear(NR_LDPC_SIZE_CN_PROC_BUF*sizeof(int8_t));
p_procBuf->cnProcBufRes = (int8_t*) malloc32_clear(NR_LDPC_SIZE_CN_PROC_BUF*sizeof(int8_t));
p_procBuf->bnProcBuf = (int8_t*) malloc32_clear(NR_LDPC_SIZE_BN_PROC_BUF*sizeof(int8_t));
p_procBuf->bnProcBufRes = (int8_t*) malloc32_clear(NR_LDPC_SIZE_BN_PROC_BUF*sizeof(int8_t));
p_procBuf->llrRes = (int8_t*) malloc32_clear(NR_LDPC_MAX_NUM_LLR *sizeof(int8_t));
p_procBuf->llrProcBuf = (int8_t*) malloc32_clear(NR_LDPC_MAX_NUM_LLR *sizeof(int8_t));
}
return(p_procBuf);
}
static inline void nrLDPC_free_mem(t_nrLDPC_procBuf* p_procBuf)
{
free(p_procBuf->cnProcBuf);
free(p_procBuf->cnProcBufRes);
free(p_procBuf->bnProcBuf);
free(p_procBuf->bnProcBufRes);
free(p_procBuf->llrRes);
free(p_procBuf->llrProcBuf);
free(p_procBuf);
}
#endif
/*
* Licensed to the OpenAirInterface (OAI) Software Alliance under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The OpenAirInterface Software Alliance licenses this file to You under
* the OAI Public License, Version 1.1 (the "License"); you may not use this file
* except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.openairinterface.org/?page_id=698
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*-------------------------------------------------------------------------------
* For more information about the OpenAirInterface (OAI) Software Alliance:
* contact@openairinterface.org
*/
/*!\file nrLDPC_types.h
* \brief Defines all types for the LDPC decoder
* \author Sebastian Wagner (TCL Communications) Email: <mailto:sebastian.wagner@tcl.com>
* \date 27-03-2018
* \version 1.0
* \note
* \warning
*/
#ifndef __NR_LDPC_TYPES__H__
#define __NR_LDPC_TYPES__H__
#include "PHY/TOOLS/time_meas.h"
#include "nrLDPC_defs.h"
// ==============================================================================
// TYPES
/**
Structure containing the pointers to the LUTs.
*/
typedef struct nrLDPC_lut {
const uint32_t* startAddrCnGroups; /**< Start addresses for CN groups in CN processing buffer */
const uint8_t* numCnInCnGroups; /**< Number of CNs in every CN group */
const uint8_t* numBnInBnGroups; /**< Number of CNs in every BN group */
const uint32_t* startAddrBnGroups; /**< Start addresses for BN groups in BN processing buffer */
const uint16_t* startAddrBnGroupsLlr; /**< Start addresses for BN groups in LLR processing buffer */
const uint16_t** circShift[NR_LDPC_NUM_CN_GROUPS_BG1]; /**< LUT for circular shift values for all CN groups and Zs */
const uint32_t** startAddrBnProcBuf[NR_LDPC_NUM_CN_GROUPS_BG1]; /**< LUT of start addresses of CN groups in BN proc buffer */
const uint8_t** bnPosBnProcBuf[NR_LDPC_NUM_CN_GROUPS_BG1]; /**< LUT of BN positions in BG for CN groups */
const uint16_t* llr2llrProcBufAddr; /**< LUT for transferring input LLRs to LLR processing buffer */
const uint8_t* llr2llrProcBufBnPos; /**< LUT BN position in BG */
const uint8_t** posBnInCnProcBuf[NR_LDPC_NUM_CN_GROUPS_BG1]; /**< LUT for llr2cnProcBuf */
} t_nrLDPC_lut;
/**
Enum with possible LDPC output formats.
*/
typedef enum nrLDPC_outMode {
nrLDPC_outMode_BIT, /**< 32 bits per uint32_t output */
nrLDPC_outMode_BITINT8, /**< 1 bit per int8_t output */
nrLDPC_outMode_LLRINT8 /**< Single LLR value per int8_t output */
} e_nrLDPC_outMode;
/**
Structure containing LDPC decoder parameters.
*/
typedef struct nrLDPC_dec_params {
uint8_t BG; /**< Base graph */
uint16_t Z; /**< Lifting size */
uint8_t R; /**< Decoding rate: Format 15,13,... for code rates 1/5, 1/3,... */
uint8_t numMaxIter; /**< Maximum number of iterations */
e_nrLDPC_outMode outMode; /**< Output format */
} t_nrLDPC_dec_params;
/**
Structure containing LDPC decoder processing time statistics.
*/
typedef struct nrLDPC_time_stats {
time_stats_t llr2llrProcBuf; /**< Statistics for function llr2llrProcBuf */
time_stats_t llr2CnProcBuf; /**< Statistics for function llr2CnProcBuf */
time_stats_t cnProc; /**< Statistics for function cnProc */
time_stats_t cnProcPc; /**< Statistics for function cnProcPc */
time_stats_t bnProcPc; /**< Statistics for function bnProcPc */
time_stats_t bnProc; /**< Statistics for function bnProc */
time_stats_t cn2bnProcBuf; /**< Statistics for function cn2bnProcBuf */
time_stats_t bn2cnProcBuf; /**< Statistics for function bn2cnProcBuf */
time_stats_t llrRes2llrOut; /**< Statistics for function llrRes2llrOut */
time_stats_t llr2bit; /**< Statistics for function llr2bit */
time_stats_t total; /**< Statistics for total processing time */
} t_nrLDPC_time_stats;
/**
Structure containing the processing buffers
*/
typedef struct nrLDPC_procBuf {
int8_t* cnProcBuf; /**< CN processing buffer */
int8_t* cnProcBufRes; /**< Buffer for CN processing results */
int8_t* bnProcBuf; /**< BN processing buffer */
int8_t* bnProcBufRes; /**< Buffer for BN processing results */
int8_t* llrRes; /**< Buffer for LLR results */
int8_t* llrProcBuf; /**< LLR processing buffer */
} t_nrLDPC_procBuf;
#endif
......@@ -569,7 +569,7 @@ int8_t polar_decoder_dci(double *input,
}
void init_polar_deinterleaver_table(t_nrPolar_params *polarParams) {
AssertFatal(polarParams->K > 32, "K = %d < 33, is not supported yet\n",polarParams->K);
AssertFatal(polarParams->K > 17, "K = %d < 18, is not allowed\n",polarParams->K);
AssertFatal(polarParams->K < 129, "K = %d > 128, is not supported yet\n",polarParams->K);
int bit_i,ip,ipmod64;
int numbytes = polarParams->K>>3;
......@@ -670,7 +670,9 @@ uint32_t polar_decoder_int16(int16_t *input,
A32_flip[1+offset]=((uint8_t *)&Aprime)[2];
A32_flip[2+offset]=((uint8_t *)&Aprime)[1];
A32_flip[3+offset]=((uint8_t *)&Aprime)[0];
crc = (uint64_t)(crc24c(A32_flip,8*offset+len)>>8);
if (crclen == 24) crc = (uint64_t)((crc24c(A32_flip,8*offset+len)>>8)&0xffffff);
else if (crclen == 11) crc = (uint64_t)((crc11(A32_flip,8*offset+len)>>21)&0x7ff);
else if (crclen == 6) crc = (uint64_t)((crc6(A32_flip,8*offset+len)>>26)&0x3f);
} else if (len<=64) {
Ar = (B[0]>>crclen) | (B[1]<<(64-crclen));;
uint8_t A64_flip[8+offset];
......@@ -688,7 +690,9 @@ uint32_t polar_decoder_int16(int16_t *input,
A64_flip[5+offset]=((uint8_t *)&Aprime)[2];
A64_flip[6+offset]=((uint8_t *)&Aprime)[1];
A64_flip[7+offset]=((uint8_t *)&Aprime)[0];
crc = (uint64_t)(crc24c(A64_flip,8*offset+len)>>8);
if (crclen==24) crc = (uint64_t)(crc24c(A64_flip,8*offset+len)>>8)&0xffffff;
else if (crclen==11) crc = (uint64_t)(crc11(A64_flip,8*offset+len)>>21)&0x7ff;
else if (crclen==6) crc = (uint64_t)(crc6(A64_flip,8*offset+len)>>26)&0x3f;
}
#if 0
......
......@@ -197,8 +197,10 @@ decoder_node_t *add_nodes(int level, int first_leaf_index, t_nrPolar_params *pol
}
for (int i=0;i<Nv;i++) {
if (polarParams->information_bit_pattern[i+first_leaf_index]>0)
all_frozen_below=0;
if (polarParams->information_bit_pattern[i+first_leaf_index]>0) {
all_frozen_below=0;
break;
}
}
if (all_frozen_below==0)
......
......@@ -146,7 +146,7 @@ void polar_encoder_dci(uint32_t *in,
uint16_t n_RNTI);
void polar_encoder_fast(uint64_t *A,
uint32_t *out,
void *out,
int32_t crcmask,
uint8_t ones_flag,
t_nrPolar_params *polarParams);
......
......@@ -295,8 +295,8 @@ static inline void polar_rate_matching(t_nrPolar_params *polarParams,void *in,vo
void build_polar_tables(t_nrPolar_params *polarParams) {
// build table b -> c'
AssertFatal(polarParams->K > 32, "K = %d < 33, is not supported yet\n",polarParams->K);
AssertFatal(polarParams->K < 129, "K = %d > 64, is not supported yet\n",polarParams->K);
AssertFatal(polarParams->K > 17, "K = %d < 18, is not possible\n",polarParams->K);
AssertFatal(polarParams->K < 129, "K = %d > 128, is not supported yet\n",polarParams->K);
int bit_i,ip;
int numbytes = polarParams->K>>3;
int residue = polarParams->K&7;
......@@ -327,7 +327,7 @@ void build_polar_tables(t_nrPolar_params *polarParams) {
AssertFatal(polarParams->N==512 || polarParams->N==256 || polarParams->N==128,"N = %d, not done yet\n",polarParams->N);
// build G bit vectors for information bit positions and convert the bit as bytes tables in nr_polar_kronecker_power_matrices.c to 64 bit packed vectors.
// keep only rows of G which correspond to information/crc bits
polarParams->G_N_tab = (uint64_t **)malloc(polarParams->K * sizeof(int64_t *));
polarParams->G_N_tab = (uint64_t **)malloc((polarParams->K + polarParams->n_pc) * sizeof(int64_t *));
int k=0;
for (int i=0; i<polarParams->N; i++) {
......@@ -408,18 +408,18 @@ void build_polar_tables(t_nrPolar_params *polarParams) {
}
void polar_encoder_fast(uint64_t *A,
uint32_t *out,
void *out,
int32_t crcmask,
uint8_t ones_flag,
t_nrPolar_params *polarParams) {
AssertFatal(polarParams->K > 32, "K = %d < 33, is not supported yet\n",polarParams->K);
// AssertFatal(polarParams->K > 32, "K = %d < 33, is not supported yet\n",polarParams->K);
AssertFatal(polarParams->K < 129, "K = %d > 128, is not supported yet\n",polarParams->K);
AssertFatal(polarParams->payloadBits < 65, "payload bits = %d > 64, is not supported yet\n",polarParams->payloadBits);
uint64_t B[4]= {0,0,0,0},Cprime[4]= {0,0,0,0};
int bitlen = polarParams->payloadBits;
// append crc
AssertFatal(bitlen<129,"support for payloads <= 128 bits\n");
AssertFatal(polarParams->crcParityBits == 24,"support for 24-bit crc only for now\n");
// AssertFatal(polarParams->crcParityBits == 24,"support for 24-bit crc only for now\n");
//int bitlen0=bitlen;
uint64_t tcrc=0;
uint8_t offset = 0;
......@@ -444,7 +444,9 @@ void polar_encoder_fast(uint64_t *A,
A32_flip[1+offset]=((uint8_t *)&Aprime)[2];
A32_flip[2+offset]=((uint8_t *)&Aprime)[1];
A32_flip[3+offset]=((uint8_t *)&Aprime)[0];
tcrc = (uint64_t)((crcmask^(crc24c(A32_flip,8*offset+bitlen)>>8)));
if (polarParams->crcParityBits == 24) tcrc = (uint64_t)(((crcmask^(crc24c(A32_flip,8*offset+bitlen)>>8)))&0xffffff);
else if (polarParams->crcParityBits == 11) tcrc = (uint64_t)(((crcmask^(crc11(A32_flip,bitlen)>>21)))&0x7ff);
else if (polarParams->crcParityBits == 6) tcrc = (uint64_t)(((crcmask^(crc6(A32_flip,bitlen)>>26)))&0x3f);
} else if (bitlen<=64) {
uint8_t A64_flip[8+offset];
if (ones_flag) {
......@@ -461,7 +463,8 @@ void polar_encoder_fast(uint64_t *A,
A64_flip[5+offset]=((uint8_t *)&Aprime)[2];
A64_flip[6+offset]=((uint8_t *)&Aprime)[1];
A64_flip[7+offset]=((uint8_t *)&Aprime)[0];
tcrc = (uint64_t)((crcmask^(crc24c(A64_flip,8*offset+bitlen)>>8)));
if (polarParams->crcParityBits == 24) tcrc = (uint64_t)((crcmask^(crc24c(A64_flip,8*offset+bitlen)>>8)))&0xffffff;
else if (polarParams->crcParityBits == 11) tcrc = (uint64_t)((crcmask^(crc11(A64_flip,bitlen)>>21)))&0x7ff;
}
else if (bitlen<=128) {
uint8_t A128_flip[16+offset];
......@@ -479,7 +482,8 @@ void polar_encoder_fast(uint64_t *A,
A128_flip[10+offset]=((uint8_t*)&Aprime)[5]; A128_flip[11+offset]=((uint8_t*)&Aprime)[4];
A128_flip[12+offset]=((uint8_t*)&Aprime)[3]; A128_flip[13+offset]=((uint8_t*)&Aprime)[2];
A128_flip[14+offset]=((uint8_t*)&Aprime)[1]; A128_flip[15+offset]=((uint8_t*)&Aprime)[0];
tcrc = (uint64_t)((crcmask^(crc24c(A128_flip,8*offset+bitlen)>>8)));
if (polarParams->crcParityBits == 24) tcrc = (uint64_t)((crcmask^(crc24c(A128_flip,8*offset+bitlen)>>8)))&0xffffff;
else if (polarParams->crcParityBits == 11) tcrc = (uint64_t)((crcmask^(crc11(A128_flip,bitlen)>>21)))&0x7ff;
}
int n;
......@@ -522,6 +526,7 @@ void polar_encoder_fast(uint64_t *A,
#ifdef DEBUG_POLAR_ENCODER
printf("Polar encoder: (N,K) : (%d,%d)\n",polarParams->N,polarParams->K);
if (polarParams->K<65)
printf("A %llx B %llx Cprime %llx (payload bits %d,crc %x)\n",
(unsigned long long)(A[0]&(((uint64_t)1<<bitlen)-1)),
......@@ -546,7 +551,7 @@ void polar_encoder_fast(uint64_t *A,
crc24c((uint8_t *)A,bitlen)>>8);
}
#endif
#endif
/* printf("Bbytes : %x.%x.%x.%x.%x.%x.%x.%x\n",Bbyte[0],Bbyte[1],Bbyte[2],Bbyte[3],Bbyte[4],Bbyte[5],Bbyte[6],Bbyte[7]);
printf("%llx,%llx,%llx,%llx,%llx,%llx,%llx,%llx\n",polarParams->cprime_tab[0][Bbyte[0]] ,
polarParams->cprime_tab[1][Bbyte[1]] ,
......@@ -671,5 +676,5 @@ void polar_encoder_fast(uint64_t *A,
}
}
memset((void*)out,0,polarParams->encoderLength>>3);
polar_rate_matching(polarParams,(void *)D,(void *)out);
polar_rate_matching(polarParams,(void *)D, out);
}
......@@ -33,8 +33,8 @@
#ifndef __NR_POLAR_UCI_DEFS__H__
#define __NR_POLAR_UCI_DEFS__H__
#define NR_POLAR_UCI_MESSAGE_TYPE -1 //int8_t
#define NR_POLAR_UCI_CRC_ERROR_CORRECTION_BITS 3
#define NR_POLAR_UCI_PUCCH_MESSAGE_TYPE 2 //int8_t
#define NR_POLAR_PUCCH_CRC_ERROR_CORRECTION_BITS 3
#define NR_POLAR_PUCCH_PAYLOAD_BITS 32
#define NR_POLAR_PUCCH_E 32
......
......@@ -43,11 +43,12 @@ static void nr_polar_init(t_nrPolar_params * *polarParams,
uint8_t aggregation_level,
int decoder_flag) {
t_nrPolar_params *currentPtr = *polarParams;
uint16_t aggregation_prime = nr_polar_aggregation_prime(aggregation_level);
uint16_t aggregation_prime = (messageType >= 2) ? aggregation_level : nr_polar_aggregation_prime(aggregation_level);
//Parse the list. If the node is already created, return without initialization.
while (currentPtr != NULL) {
//printf("currentPtr->idx %d, (%d,%d)\n",currentPtr->idx,currentPtr->payloadBits,currentPtr->encoderLength);
//LOG_D(PHY,"Looking for index %d\n",(messageType * messageLength * aggregation_prime));
if (currentPtr->idx == (messageType * messageLength * aggregation_prime)) return;
else currentPtr = currentPtr->nextPtr;
}
......@@ -55,8 +56,9 @@ static void nr_polar_init(t_nrPolar_params * *polarParams,
// printf("currentPtr %p (polarParams %p)\n",currentPtr,polarParams);
//Else, initialize and add node to the end of the linked list.
t_nrPolar_params *newPolarInitNode = calloc(sizeof(t_nrPolar_params),1);
if (newPolarInitNode != NULL) {
// LOG_D(PHY,"Setting new polarParams index %d, messageType %d, messageLength %d, aggregation_prime %d\n",(messageType * messageLength * aggregation_prime),messageType,messageLength,aggregation_prime);
newPolarInitNode->idx = (messageType * messageLength * aggregation_prime);
newPolarInitNode->nextPtr = NULL;
//printf("newPolarInitNode->idx %d, (%d,%d,%d:%d)\n",newPolarInitNode->idx,messageType,messageLength,aggregation_prime,aggregation_level);
......@@ -87,15 +89,44 @@ static void nr_polar_init(t_nrPolar_params * *polarParams,
newPolarInitNode->crcCorrectionBits = NR_POLAR_DCI_CRC_ERROR_CORRECTION_BITS;
newPolarInitNode->crc_generator_matrix=crc24c_generator_matrix(newPolarInitNode->payloadBits+newPolarInitNode->crcParityBits);//G_P
//printf("Initializing polar parameters for DCI (K %d, E %d, L %d)\n",newPolarInitNode->payloadBits,newPolarInitNode->encoderLength,aggregation_level);
} else if (messageType == -1) { //UCI
} else if (messageType == 2) { //UCI PUCCH2
AssertFatal(aggregation_level>2,"Aggregation level (%d) for PUCCH 2 encoding is NPRB and should be > 2\n",aggregation_level);
AssertFatal(messageLength>11,"Message length %d is too short for polar encoding of UCI\n",messageLength);
newPolarInitNode->n_max = NR_POLAR_PUCCH_N_MAX;
newPolarInitNode->i_il = NR_POLAR_PUCCH_I_IL;
newPolarInitNode->encoderLength = aggregation_level * 16;
newPolarInitNode->i_seg = 0;
if ((messageLength >= 360 && newPolarInitNode->encoderLength >= 1088)||
(messageLength >= 1013)) newPolarInitNode->i_seg = 1;
newPolarInitNode->crcParityBits = 11;
newPolarInitNode->n_pc = 0;
newPolarInitNode->n_pc_wm = 0;
if (messageLength < 20) {
newPolarInitNode->crcParityBits = 6;
newPolarInitNode->n_pc = 3;
if ((newPolarInitNode->encoderLength - messageLength - 6 + 3) < 193) newPolarInitNode->n_pc_wm = 1;
}
newPolarInitNode->i_bil = NR_POLAR_PUCCH_I_BIL;
newPolarInitNode->payloadBits = messageLength;
newPolarInitNode->crcCorrectionBits = NR_POLAR_PUCCH_CRC_ERROR_CORRECTION_BITS;
//newPolarInitNode->crc_generator_matrix=crc24c_generator_matrix(newPolarInitNode->payloadBits+newPolarInitNode->crcParityBits);//G_P
//LOG_D(PHY,"New polar node, encoderLength %d, aggregation_level %d\n",newPolarInitNode->encoderLength,aggregation_level);
} else {
AssertFatal(1 == 0, "[nr_polar_init] Incorrect Message Type(%d)", messageType);
}
newPolarInitNode->K = newPolarInitNode->payloadBits + newPolarInitNode->crcParityBits; // Number of bits to encode.
newPolarInitNode->N = nr_polar_output_length(newPolarInitNode->K,
newPolarInitNode->encoderLength,
newPolarInitNode->n_max);
newPolarInitNode->encoderLength,
newPolarInitNode->n_max);
newPolarInitNode->n = log2(newPolarInitNode->N);
newPolarInitNode->G_N = nr_polar_kronecker_power_matrices(newPolarInitNode->n);
//polar_encoder vectors:
......@@ -191,16 +222,19 @@ t_nrPolar_params *nr_polar_params (int8_t messageType,
nr_polar_init(polarList_ext != NULL ? polarList_ext : &polarList,
messageType,messageLength,aggregation_level,decoding_flag);
t_nrPolar_params *polarParams=polarList_ext != NULL ? *polarList_ext : polarList;
const int tag=messageType * messageLength * nr_polar_aggregation_prime(aggregation_level);
const int tag=messageType * messageLength * (messageType>=2 ? aggregation_level : nr_polar_aggregation_prime(aggregation_level));
while (polarParams != NULL) {
// LOG_D(PHY,"nr_polar_params : tag %d (from nr_polar_init %d)\n",tag,polarParams->idx);
if (polarParams->idx == tag)
return polarParams;
polarParams = polarParams->nextPtr;
}
AssertFatal(false,"Polar Init tables internal failure\n");
AssertFatal(false,"Polar Init tables internal failure, no polarParams found\n");
return NULL;
}
......
......@@ -364,8 +364,8 @@ int nr_rate_matching_ldpc(uint8_t Ilbrm,
if (ind < Foffset) { // case where we have some bits before the filler and the rest after
memcpy((void*)e,(void*)(w+ind),Foffset-ind);
if (E + F <= Ncb) { // E+F doesn't contain all coded bits
memcpy((void*)(e+Foffset-ind),(void*)(w+Foffset+F-ind),E-Foffset+ind);
if (E + F <= Ncb-ind) { // E+F doesn't contain all coded bits
memcpy((void*)(e+Foffset-ind),(void*)(w+Foffset+F),E-Foffset+ind);
k=E;
}
else {
......@@ -375,11 +375,12 @@ int nr_rate_matching_ldpc(uint8_t Ilbrm,
}
else {
if (E + F <= Ncb-ind) { //E+F doesn't contain all coded bits
memcpy((void*)(e+Foffset-ind),(void*)(w+Foffset+F-ind),E-Foffset+ind);
memcpy((void*)(e),(void*)(w+ind),E);
k=E;
}
else {
memcpy((void*)(e),(void*)(w+ind),Ncb-ind);
k=Ncb-ind;
}
}
......
......@@ -25,7 +25,8 @@
#include "PHY/NR_REFSIG/nr_refsig.h"
#include "PHY/INIT/phy_init.h"
#include "PHY/CODING/nrPolar_tools/nr_polar_pbch_defs.h"
#include "PHY/NR_TRANSPORT/nr_transport.h"
#include "PHY/NR_TRANSPORT/nr_transport_proto.h"
#include "PHY/NR_TRANSPORT/nr_transport_common_proto.h"
/*#include "RadioResourceConfigCommonSIB.h"
#include "RadioResourceConfigDedicated.h"
#include "TDD-Config.h"
......@@ -39,7 +40,6 @@
#include "PHY/NR_TRANSPORT/nr_ulsch.h"
#include "PHY/NR_REFSIG/nr_refsig.h"
#include "SCHED_NR/fapi_nr_l1.h"
#include "openair2/LAYER2/NR_MAC_gNB/mac_proto.h"
#include "nfapi_nr_interface.h"
/*
......@@ -153,11 +153,11 @@ int phy_init_nr_gNB(PHY_VARS_gNB *gNB,
}
}
nr_init_pdsch_dmrs(gNB, cfg->cell_config.phy_cell_id.value);
//PUSCH DMRS init
gNB->nr_gold_pusch_dmrs = (uint32_t ****)malloc16(2*sizeof(uint32_t ***));
uint32_t ****pusch_dmrs = gNB->nr_gold_pusch_dmrs;
for(int nscid=0; nscid<2; nscid++) {
......@@ -176,6 +176,7 @@ int phy_init_nr_gNB(PHY_VARS_gNB *gNB,
}
uint32_t Nid_pusch[2] = {cfg->cell_config.phy_cell_id.value,cfg->cell_config.phy_cell_id.value};
LOG_D(PHY,"Initializing PUSCH DMRS Gold sequence with (%x,%x)\n",Nid_pusch[0],Nid_pusch[1]);
nr_gold_pusch(gNB, &Nid_pusch[0]);
/// Transport init necessary for NR synchro
......@@ -232,6 +233,8 @@ int phy_init_nr_gNB(PHY_VARS_gNB *gNB,
*/
prach_vars->prach_ifft = (int32_t *)malloc16_clear(1024*2*sizeof(int32_t));
init_prach_list(gNB);
int N_RB_UL = cfg->carrier_config.ul_grid_size[cfg->ssb_config.scs_common.value].value;
printf("Before ULSCH init : %p\n",gNB->dlsch[0][0]->harq_processes[0]);
......@@ -405,7 +408,7 @@ void nr_phy_config_request_sim(PHY_VARS_gNB *gNB,
fp->dl_CarrierFreq = 3500000000;//from_nrarfcn(gNB_config->nfapi_config.rf_bands.rf_band[0],gNB_config->nfapi_config.nrarfcn.value);
fp->ul_CarrierFreq = 3500000000;//fp->dl_CarrierFreq - (get_uldl_offset(gNB_config->nfapi_config.rf_bands.rf_band[0])*100000);
fp->nr_band = 78;
fp->threequarter_fs= 0;
// fp->threequarter_fs= 0;
gNB_config->carrier_config.dl_bandwidth.value = config_bandwidth(mu, N_RB_DL, fp->nr_band);
......@@ -417,6 +420,7 @@ void nr_phy_config_request_sim(PHY_VARS_gNB *gNB,
void nr_phy_config_request(NR_PHY_Config_t *phy_config) {
uint8_t Mod_id = phy_config->Mod_id;
uint8_t short_sequence, num_sequences, rootSequenceIndex, fd_occasion;
NR_DL_FRAME_PARMS *fp = &RC.gNB[Mod_id]->frame_parms;
nfapi_nr_config_request_scf_t *gNB_config = &RC.gNB[Mod_id]->gNB_config;
......@@ -480,6 +484,14 @@ void nr_phy_config_request(NR_PHY_Config_t *phy_config) {
return;
}
fd_occasion = 0;
nfapi_nr_prach_config_t *prach_config = &gNB_config->prach_config;
short_sequence = prach_config->prach_sequence_length.value;
num_sequences = prach_config->num_prach_fd_occasions_list[fd_occasion].num_root_sequences.value;
rootSequenceIndex = prach_config->num_prach_fd_occasions_list[fd_occasion].prach_root_sequence_index.value;
compute_nr_prach_seq(short_sequence, num_sequences, rootSequenceIndex, RC.gNB[Mod_id]->X_u);
RC.gNB[Mod_id]->configured = 1;
LOG_I(PHY,"gNB %d configured\n",Mod_id);
}
......@@ -492,6 +504,12 @@ void init_nr_transport(PHY_VARS_gNB *gNB) {
LOG_I(PHY, "Initialise nr transport\n");
uint16_t grid_size = cfg->carrier_config.dl_grid_size[fp->numerology_index].value;
for (i=0; i<NUMBER_OF_NR_PUCCH_MAX; i++) {
LOG_I(PHY,"Allocating Transport Channel Buffers for PUCCH %d/%d\n",i,NUMBER_OF_NR_PUCCH_MAX);
gNB->pucch[i] = new_gNB_pucch();
AssertFatal(gNB->pucch[i]!=NULL,"Can't initialize pucch %d \n", i);
}
for (i=0; i<NUMBER_OF_NR_DLSCH_MAX; i++) {
LOG_I(PHY,"Allocating Transport Channel Buffers for DLSCH %d/%d\n",i,NUMBER_OF_NR_DLSCH_MAX);
......
......@@ -22,6 +22,7 @@
#include "phy_init.h"
#include "SCHED/sched_common.h"
#include "PHY/phy_extern.h"
#include "PHY/NR_TRANSPORT/nr_transport_proto.h"
#include "SIMULATION/TOOLS/sim.h"
/*#include "RadioResourceConfigCommonSIB.h"
#include "RadioResourceConfigDedicated.h"
......@@ -44,9 +45,11 @@ int nr_phy_init_RU(RU_t *ru) {
nfapi_nr_config_request_scf_t *cfg;
ru->nb_log_antennas=0;
for (int n=0;n<RC.nb_nr_L1_inst;n++) {
cfg = &RC.gNB[n]->gNB_config;
cfg = &ru->config;
if (cfg->carrier_config.num_tx_ant.value > ru->nb_log_antennas) ru->nb_log_antennas = cfg->carrier_config.num_tx_ant.value;
}
// copy configuration from gNB[0] in to RU, assume that all gNB instances sharing RU use the same configuration (at least the parts that are needed by the RU, numerology and PRACH)
AssertFatal(ru->nb_log_antennas > 0 && ru->nb_log_antennas < 13, "ru->nb_log_antennas %d ! \n",ru->nb_log_antennas);
if (ru->if_south <= REMOTE_IF5) { // this means REMOTE_IF5 or LOCAL_RF, so allocate memory for time-domain signals
// Time-domain signals
......@@ -107,7 +110,8 @@ int nr_phy_init_RU(RU_t *ru) {
ru->prach_rxsigF = (int16_t**)malloc(ru->nb_rx * sizeof(int16_t*));
for (i=0; i<ru->nb_rx; i++) {
ru->prach_rxsigF[i] = (int16_t*)malloc16_clear( fp->ofdm_symbol_size*12*2*sizeof(int16_t) );
// largest size for PRACH FFT is 4x98304 (16*24576)
ru->prach_rxsigF[i] = (int16_t*)malloc16_clear( 4*98304*2*sizeof(int16_t) );
LOG_D(PHY,"[INIT] prach_vars->rxsigF[%d] = %p\n",i,ru->prach_rxsigF[i]);
}
......@@ -144,6 +148,8 @@ int nr_phy_init_RU(RU_t *ru) {
ru->common.sync_corr = (uint32_t*)malloc16_clear( LTE_NUMBER_OF_SUBFRAMES_PER_FRAME*sizeof(uint32_t)*fp->samples_per_subframe_wCP );
init_prach_ru_list(ru);
return(0);
}
......
......@@ -77,19 +77,19 @@ void phy_config_sib2_ue(uint8_t Mod_id,int CC_id,
LOG_I(PHY,"[UE%d] Applying radioResourceConfigCommon from eNB%d\n",Mod_id,eNB_id);
fp->prach_config_common.rootSequenceIndex =radioResourceConfigCommon->prach_Config.rootSequenceIndex;
ue->prach_vars[eNB_id]->prach_pdu.root_seq_id =radioResourceConfigCommon->prach_Config.rootSequenceIndex;
fp->prach_config_common.prach_Config_enabled=1;
fp->prach_config_common.prach_ConfigInfo.prach_ConfigIndex =radioResourceConfigCommon->prach_Config.prach_ConfigInfo.prach_ConfigIndex;
fp->prach_config_common.prach_ConfigInfo.highSpeedFlag =radioResourceConfigCommon->prach_Config.prach_ConfigInfo.highSpeedFlag;
fp->prach_config_common.prach_ConfigInfo.zeroCorrelationZoneConfig =radioResourceConfigCommon->prach_Config.prach_ConfigInfo.zeroCorrelationZoneConfig;
fp->prach_config_common.prach_ConfigInfo.prach_FreqOffset =radioResourceConfigCommon->prach_Config.prach_ConfigInfo.prach_FreqOffset;
ue->prach_vars[eNB_id]->prach_Config_enabled=1;
//ue->prach_vars[eNB_id]->prach_pdu.prach_ConfigIndex =radioResourceConfigCommon->prach_Config.prach_ConfigInfo.prach_ConfigIndex;
ue->prach_vars[eNB_id]->prach_pdu.restricted_set =radioResourceConfigCommon->prach_Config.prach_ConfigInfo.highSpeedFlag;
ue->prach_vars[eNB_id]->prach_pdu.num_cs =radioResourceConfigCommon->prach_Config.prach_ConfigInfo.zeroCorrelationZoneConfig;
//ue->prach_vars[eNB_id]->prach_pdu.prach_FreqOffset =radioResourceConfigCommon->prach_Config.prach_ConfigInfo.prach_FreqOffset;
compute_prach_seq(fp->prach_config_common.rootSequenceIndex,
fp->prach_config_common.prach_ConfigInfo.prach_ConfigIndex,
fp->prach_config_common.prach_ConfigInfo.zeroCorrelationZoneConfig,
fp->prach_config_common.prach_ConfigInfo.highSpeedFlag,
fp->frame_type,ue->X_u);
//compute_prach_seq(fp->prach_config_common.rootSequenceIndex,
// fp->prach_config_common.prach_ConfigInfo.prach_ConfigIndex,
// fp->prach_config_common.prach_ConfigInfo.zeroCorrelationZoneConfig,
// fp->prach_config_common.prach_ConfigInfo.highSpeedFlag,
// fp->frame_type,ue->X_u);
......@@ -226,12 +226,12 @@ void phy_config_sib13_ue(uint8_t Mod_id,int CC_id,uint8_t eNB_id,int mbsfn_Area_
LOG_I(PHY,"[UE%d] Handover triggered: Applying radioResourceConfigCommon from eNB %d\n",
Mod_id,eNB_id);
fp->prach_config_common.rootSequenceIndex =radioResourceConfigCommon->prach_Config.rootSequenceIndex;
fp->prach_config_common.prach_Config_enabled=1;
fp->prach_config_common.prach_ConfigInfo.prach_ConfigIndex =radioResourceConfigCommon->prach_Config.prach_ConfigInfo->prach_ConfigIndex;
fp->prach_config_common.prach_ConfigInfo.highSpeedFlag =radioResourceConfigCommon->prach_Config.prach_ConfigInfo->highSpeedFlag;
fp->prach_config_common.prach_ConfigInfo.zeroCorrelationZoneConfig =radioResourceConfigCommon->prach_Config.prach_ConfigInfo->zeroCorrelationZoneConfig;
fp->prach_config_common.prach_ConfigInfo.prach_FreqOffset =radioResourceConfigCommon->prach_Config.prach_ConfigInfo->prach_FreqOffset;
ue->prach_vars[eNB_id]->prach_pdu.root_seq_id =radioResourceConfigCommon->prach_Config.rootSequenceIndex;
ue->prach_vars[eNB_id]->prach_Config_enabled=1;
//ue->prach_vars[eNB_id]->prach_pdu.prach_ConfigIndex =radioResourceConfigCommon->prach_Config.prach_ConfigInfo->prach_ConfigIndex;
ue->prach_vars[eNB_id]->prach_pdu.restricted_set =radioResourceConfigCommon->prach_Config.prach_ConfigInfo->highSpeedFlag;
ue->prach_vars[eNB_id]->prach_pdu.num_cs =radioResourceConfigCommon->prach_Config.prach_ConfigInfo->zeroCorrelationZoneConfig;
//ue->prach_vars[eNB_id]->prach_pdu.prach_FreqOffset =radioResourceConfigCommon->prach_Config.prach_ConfigInfo->prach_FreqOffset;
// prach_fmt = get_prach_fmt(radioResourceConfigCommon->prach_Config.prach_ConfigInfo->prach_ConfigIndex,fp->frame_type);
// N_ZC = (prach_fmt <4)?839:139;
......@@ -239,12 +239,12 @@ void phy_config_sib13_ue(uint8_t Mod_id,int CC_id,uint8_t eNB_id,int mbsfn_Area_
// prach_root_sequence_map4[fp->prach_config_common.rootSequenceIndex];
//compute_prach_seq(u,N_ZC, PHY_vars_UE_g[Mod_id]->X_u);
compute_prach_seq(PHY_vars_UE_g[Mod_id][CC_id]->frame_parms.prach_config_common.rootSequenceIndex,
PHY_vars_UE_g[Mod_id][CC_id]->frame_parms.prach_config_common.prach_ConfigInfo.prach_ConfigIndex,
PHY_vars_UE_g[Mod_id][CC_id]->frame_parms.prach_config_common.prach_ConfigInfo.zeroCorrelationZoneConfig,
PHY_vars_UE_g[Mod_id][CC_id]->frame_parms.prach_config_common.prach_ConfigInfo.highSpeedFlag,
fp->frame_type,
PHY_vars_UE_g[Mod_id][CC_id]->X_u);
//compute_prach_seq(PHY_vars_UE_g[Mod_id][CC_id]->frame_parms.prach_config_common.rootSequenceIndex,
// PHY_vars_UE_g[Mod_id][CC_id]->frame_parms.prach_config_common.prach_ConfigInfo.prach_ConfigIndex,
// PHY_vars_UE_g[Mod_id][CC_id]->frame_parms.prach_config_common.prach_ConfigInfo.zeroCorrelationZoneConfig,
// PHY_vars_UE_g[Mod_id][CC_id]->frame_parms.prach_config_common.prach_ConfigInfo.highSpeedFlag,
// fp->frame_type,
// PHY_vars_UE_g[Mod_id][CC_id]->X_u);
fp->pucch_config_common.deltaPUCCH_Shift = 1+radioResourceConfigCommon->pucch_ConfigCommon->deltaPUCCH_Shift;
......@@ -958,7 +958,9 @@ int init_nr_ue_signal(PHY_VARS_NR_UE *ue,
// enable MIB/SIB decoding by default
ue->decode_MIB = 1;
ue->decode_SIB = 1;
init_prach_tables(839);
init_nr_prach_tables(839);
return 0;
}
......
......@@ -112,18 +112,12 @@ int lte_est_timing_advance(LTE_DL_FRAME_PARMS *frame_parms,
}
int lte_est_timing_advance_pusch(PHY_VARS_eNB *eNB,
module_id_t UE_id)
int lte_est_timing_advance_pusch(LTE_DL_FRAME_PARMS *frame_parms,
int32_t **ul_ch_estimates_time)
{
int temp, i, aa, max_pos=0, max_val=0;
short Re,Im;
RU_t *ru;
ru = RC.ru[UE_id];
LTE_DL_FRAME_PARMS *frame_parms = (eNB==NULL) ? ru->frame_parms : &eNB->frame_parms;
LTE_eNB_PUSCH *eNB_pusch_vars = (eNB!=NULL) ? eNB->pusch_vars[UE_id] : (LTE_eNB_PUSCH*)NULL;
RU_CALIBRATION *calibration = &ru->calibration;
int32_t **ul_ch_estimates_time = (eNB==NULL) ? calibration->drs_ch_estimates_time : eNB_pusch_vars->drs_ch_estimates_time;
uint8_t cyclic_shift = 0;
int sync_pos = (frame_parms->ofdm_symbol_size-cyclic_shift*frame_parms->ofdm_symbol_size/12)%(frame_parms->ofdm_symbol_size);
......@@ -149,7 +143,7 @@ int lte_est_timing_advance_pusch(PHY_VARS_eNB *eNB,
max_pos = max_pos-frame_parms->ofdm_symbol_size;
//#ifdef DEBUG_PHY
LOG_D(PHY,"frame %d: max_pos = %d, sync_pos=%d\n",eNB->proc.frame_rx,max_pos,sync_pos);
LOG_D(PHY,"max_pos = %d, sync_pos=%d\n",max_pos,sync_pos);
//#endif //DEBUG_PHY
return max_pos - sync_pos;
......
......@@ -220,8 +220,12 @@ void phy_adjust_gain (PHY_VARS_UE *phy_vars_ue,
uint32_t rx_power_fil_dB,
unsigned char eNB_id);
int lte_ul_channel_estimation(PHY_VARS_eNB *phy_vars_eNB,
int32_t lte_ul_channel_estimation(LTE_DL_FRAME_PARMS *frame_parms,
L1_rxtx_proc_t *proc,
LTE_eNB_ULSCH_t * ulsch,
int32_t **ul_ch_estimates,
int32_t **ul_ch_estimates_time,
int32_t **rxdataF_ext,
module_id_t UE_id,
uint8_t l,
uint8_t Ns);
......@@ -258,7 +262,8 @@ int lte_est_timing_advance(LTE_DL_FRAME_PARMS *frame_parms,
unsigned char number_of_cards,
short coef);
int lte_est_timing_advance_pusch(PHY_VARS_eNB* phy_vars_eNB,module_id_t UE_id);
int lte_est_timing_advance_pusch(LTE_DL_FRAME_PARMS *frame_parms,
int32_t **ul_ch_estimates_time);
void lte_eNB_I0_measurements(PHY_VARS_eNB *phy_vars_eNB,
int subframe,
......
......@@ -34,23 +34,17 @@ static int16_t ru_90c[2*128] = {32767, 0,32766, -402,32758, -804,32746, -1206,32
#define SCALE 0x3FFF
int32_t lte_ul_channel_estimation(PHY_VARS_eNB *eNB,
int32_t lte_ul_channel_estimation(LTE_DL_FRAME_PARMS *frame_parms,
L1_rxtx_proc_t *proc,
LTE_eNB_ULSCH_t * ulsch,
int32_t **ul_ch_estimates,
int32_t **ul_ch_estimates_time,
int32_t **rxdataF_ext,
module_id_t UE_id,
unsigned char l,
unsigned char Ns) {
RU_t *ru;
ru = RC.ru[UE_id];
LTE_DL_FRAME_PARMS *frame_parms = (eNB!=NULL) ? &eNB->frame_parms : ru->frame_parms;
LTE_eNB_PUSCH *pusch_vars = (eNB!=NULL) ? eNB->pusch_vars[UE_id] : NULL;
RU_CALIBRATION *calibration = &ru->calibration;
int32_t **ul_ch_estimates = (eNB!=NULL) ? pusch_vars->drs_ch_estimates : calibration->drs_ch_estimates;
AssertFatal(ul_ch_estimates != NULL, "ul_ch_estimates is null (eNB %p, pusch %p, pusch->drs_ch_estimates %p, pusch->drs_ch_estimates[0] %p ul_ch_estimates %p UE_id %d)\n",eNB,pusch_vars,
pusch_vars->drs_ch_estimates,pusch_vars->drs_ch_estimates[0],ul_ch_estimates,UE_id);
int32_t **ul_ch_estimates_time = (eNB!=NULL) ? pusch_vars->drs_ch_estimates_time : calibration->drs_ch_estimates_time;
AssertFatal(ul_ch_estimates != NULL, "ul_ch_estimates is null ");
AssertFatal(ul_ch_estimates_time != NULL, "ul_ch_estimates_time is null\n");
int32_t **rxdataF_ext = (eNB!=NULL) ? pusch_vars->rxdataF_ext : calibration->rxdataF_ext;
int subframe = proc->subframe_rx;
uint8_t harq_pid;
......@@ -83,16 +77,16 @@ int32_t lte_ul_channel_estimation(PHY_VARS_eNB *eNB,
#endif
int32_t temp_in_ifft_0[2048*2] __attribute__((aligned(32)));
if (eNB->ulsch[UE_id]->ue_type > 0) harq_pid = 0;
if (ulsch->ue_type > 0) harq_pid = 0;
else {
harq_pid = subframe2harq_pid(frame_parms,proc->frame_rx,subframe);
}
uint16_t N_rb_alloc = eNB->ulsch[UE_id]->harq_processes[harq_pid]->nb_rb;
uint16_t N_rb_alloc = ulsch->harq_processes[harq_pid]->nb_rb;
int32_t tmp_estimates[N_rb_alloc*12] __attribute__((aligned(16)));
Msc_RS = N_rb_alloc*12;
cyclic_shift = (frame_parms->pusch_config_common.ul_ReferenceSignalsPUSCH.cyclicShift +
eNB->ulsch[UE_id]->harq_processes[harq_pid]->n_DMRS2 +
ulsch->harq_processes[harq_pid]->n_DMRS2 +
frame_parms->pusch_config_common.ul_ReferenceSignalsPUSCH.nPRS[(subframe<<1)+Ns]) % 12;
Msc_idx_ptr = (uint16_t *) bsearch(&Msc_RS, dftsizes, 34, sizeof(uint16_t), compareints);
......@@ -276,7 +270,7 @@ int32_t lte_ul_channel_estimation(PHY_VARS_eNB *eNB,
#if T_TRACER
if (aa == 0)
T(T_ENB_PHY_UL_CHANNEL_ESTIMATE, T_INT(0), T_INT(eNB->ulsch[UE_id]->rnti),
T(T_ENB_PHY_UL_CHANNEL_ESTIMATE, T_INT(0), T_INT(ulsch->rnti),
T_INT(proc->frame_rx), T_INT(subframe),
T_INT(0), T_BUFFER(ul_ch_estimates_time[0], 512 * 4));
......
......@@ -2006,11 +2006,6 @@ void fill_ulsch(PHY_VARS_eNB *eNB,int UE_id,nfapi_ul_config_ulsch_pdu *ulsch_pdu
return;
}
//AssertFatal(ulsch->harq_processes[harq_pid]->nb_rb>0,"nb_rb = 0\n");
if(ulsch->harq_processes[harq_pid]->nb_rb == 0) {
LOG_E(PHY, "fill_ulsch UE_id %d nb_rb = 0\n", UE_id);
}
ulsch->harq_processes[harq_pid]->frame = frame;
ulsch->harq_processes[harq_pid]->subframe = subframe;
ulsch->harq_processes[harq_pid]->handled = 0;
......
......@@ -422,6 +422,6 @@ int dlsch_encoding(PHY_VARS_eNB *eNB,
else
r_offset += Nl*Qm * ((GpmodC==0?0:1) + (Gp/C));
}
VCD_SIGNAL_DUMPER_DUMP_FUNCTION_BY_NAME(VCD_SIGNAL_DUMPER_FUNCTIONS_ENB_DLSCH_ENCODING, VCD_FUNCTION_OUT);
return(0);
}
......@@ -1047,7 +1047,11 @@ void rx_ulsch(PHY_VARS_eNB *eNB,
l%(frame_parms->symbols_per_tti/2),
l/(frame_parms->symbols_per_tti/2),
frame_parms);
lte_ul_channel_estimation(eNB,proc,
lte_ul_channel_estimation(&eNB->frame_parms,proc,
eNB->ulsch[UE_id],
eNB->pusch_vars[UE_id]->drs_ch_estimates,
eNB->pusch_vars[UE_id]->drs_ch_estimates_time,
eNB->pusch_vars[UE_id]->rxdataF_ext,
UE_id,
l%(frame_parms->symbols_per_tti/2),
l/(frame_parms->symbols_per_tti/2));
......
......@@ -821,15 +821,14 @@ int rx_pdsch(PHY_VARS_UE *ue,
pllr_symbol_cw0 += llr_offset_symbol;
pllr_symbol_cw1 += llr_offset_symbol;
/*
LOG_I(PHY,"compute LLRs [AbsSubframe %d.%d-%d] NbRB %d Qm %d LLRs-Length %d LLR-Offset %d @LLR Buff %p @LLR Buff(symb) %p\n",
LOG_D(PHY,"compute LLRs [AbsSubframe %d.%d-%d] NbRB %d Qm %d LLRs-Length %d LLR-Offset %d @LLR Buff %p @LLR Buff(symb) %p energy: %d\n",
frame, subframe,symbol,
nb_rb,dlsch0_harq->Qm,
pdsch_vars[eNB_id]->llr_length[symbol],
pdsch_vars[eNB_id]->llr_offset[symbol],
(int16_t*)pdsch_vars[eNB_id]->llr[0],
pllr_symbol_cw0);
*/
pllr_symbol_cw0,
signal_energy(pdsch_vars[eNB_id]->rxdataF_comp0[0], 7*2*frame_parms->N_RB_DL*12));
switch (dlsch0_harq->Qm) {
case 2 :
if ((rx_type==rx_standard) || (codeword_TB1 == -1)) {
......
......@@ -34,6 +34,8 @@ void nr_modulation(uint32_t *in,
offset = (mod_order==2)? NR_MOD_TABLE_QPSK_OFFSET : (mod_order==4)? NR_MOD_TABLE_QAM16_OFFSET : \
(mod_order==6)? NR_MOD_TABLE_QAM64_OFFSET: (mod_order==8)? NR_MOD_TABLE_QAM256_OFFSET : 0;
LOG_D(PHY,"nr_modulation: length %d, mod_order %d\n",length,mod_order);
for (int i=0; i<length/mod_order; i++)
{
idx = 0;
......
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......@@ -33,7 +33,32 @@
#include "PHY/NR_REFSIG/ss_pbch_nr.h"
#include "PHY/NR_REFSIG/dmrs_nr.h"
/***********************************************************************/
uint8_t allowed_xlsch_re_in_dmrs_symbol(uint16_t k,
uint16_t start_sc,
uint8_t numDmrsCdmGrpsNoData,
uint8_t dmrs_type) {
uint8_t delta;
uint16_t diff;
if (k>start_sc)
diff = k-start_sc;
else
diff = start_sc-k;
for (int i = 0; i<numDmrsCdmGrpsNoData; i++){
if (dmrs_type==NFAPI_NR_DMRS_TYPE1) {
delta = i;
if (((diff)%2) == delta)
return (0);
}
else {
delta = i<<1;
if ( (((diff)%6) == delta) || (((k-start_sc)%6) == (delta+1)) )
return (0);
}
}
return (1);
}
/*******************************************************************
......
......@@ -56,6 +56,11 @@ void lte_gold_new(LTE_DL_FRAME_PARMS *frame_parms, uint32_t lte_gold_table[20][2
void generate_dmrs_pbch(uint32_t dmrs_pbch_bitmap[DMRS_PBCH_I_SSB][DMRS_PBCH_N_HF][DMRS_BITMAP_SIZE], uint16_t Nid_cell);
uint16_t get_dmrs_freq_idx_ul(uint16_t n, uint8_t k_prime, uint8_t delta, uint8_t dmrs_type);
uint8_t allowed_xlsch_re_in_dmrs_symbol(uint16_t k,
uint16_t start_sc,
uint8_t numDmrsCdmGrpsNoData,
uint8_t dmrs_type);
#undef EXTERN
#endif /* DMRS_NR_H */
......
This diff is collapsed.
......@@ -88,6 +88,7 @@ void nr_init_pdsch_dmrs(PHY_VARS_gNB* gNB, uint32_t Nid)
uint16_t N_n_scid[NR_MAX_NB_CODEWORDS]={Nid, Nid}; // Not correct, appropriate scrambling IDs have to be updated to support DCI 1_1
uint8_t n_scid=0; // again works only for 1_0
for (uint8_t slot=0; slot<fp->slots_per_frame; slot++) {
for (uint8_t symb=0; symb<fp->symbols_per_slot; symb++) {
reset = 1;
x2 = ((1<<17) * (fp->symbols_per_slot*slot+symb+1) * ((N_n_scid[n_scid]<<1)+1) +((N_n_scid[n_scid]<<1)+n_scid));
......
......@@ -48,6 +48,7 @@ int nr_pusch_dmrs_rx(PHY_VARS_gNB *gNB,
unsigned short p,
unsigned char lp,
unsigned short nb_pusch_rb,
uint32_t re_offset,
uint8_t dmrs_type);
void init_scrambling_luts(void);
......
......@@ -27,6 +27,7 @@
#include "PHY/impl_defs_nr.h"
#include "PHY/sse_intrin.h"
#include <common/utils/LOG/log.h>
__m64 byte2m64_re[256];
__m64 byte2m64_im[256];
......@@ -42,7 +43,7 @@ void init_byte2m64(void) {
byte2m64_im[s] = _mm_insert_pi16(byte2m64_im[s],(1-2*((s>>5)&1)),2);
byte2m64_re[s] = _mm_insert_pi16(byte2m64_re[s],(1-2*((s>>6)&1)),3);
byte2m64_im[s] = _mm_insert_pi16(byte2m64_im[s],(1-2*((s>>7)&1)),3);
printf("init_scrambling_luts: s %x (%d) ((%d,%d),(%d,%d),(%d,%d),(%d,%d))\n",
LOG_T(PHY,"init_scrambling_luts: s %x (%d) ((%d,%d),(%d,%d),(%d,%d),(%d,%d))\n",
((uint16_t*)&s)[0],
(1-2*(s&1)),
((int16_t*)&byte2m64_re[s])[0],((int16_t*)&byte2m64_im[s])[0],
......
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