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Merge "JIRA-ID ODUHIGH-275 classification of logs of RLC part -2"
[o-du/l2.git]
/
src
/
du_app
/
du_f1ap_msg_hdl.c
diff --git
a/src/du_app/du_f1ap_msg_hdl.c
b/src/du_app/du_f1ap_msg_hdl.c
index
ec001ea
..
0c31605
100644
(file)
--- a/
src/du_app/du_f1ap_msg_hdl.c
+++ b/
src/du_app/du_f1ap_msg_hdl.c
@@
-725,14
+725,14
@@
uint8_t SendF1APMsg(Region region, Pool pool)
if(sctpSend(mBuf, F1_INTERFACE) != ROK)
{
if(sctpSend(mBuf, F1_INTERFACE) != ROK)
{
- DU_LOG("\nF1AP : SCTP Send failed");
+ DU_LOG("\n
ERROR -->
F1AP : SCTP Send failed");
ODU_PUT_MSG_BUF(mBuf);
return RFAILED;
}
}
else
{
ODU_PUT_MSG_BUF(mBuf);
return RFAILED;
}
}
else
{
- DU_LOG("\nF1AP : ODU_ADD_POST_MSG_MULT failed");
+ DU_LOG("\n
ERROR -->
F1AP : ODU_ADD_POST_MSG_MULT failed");
ODU_PUT_MSG_BUF(mBuf);
return RFAILED;
}
ODU_PUT_MSG_BUF(mBuf);
return RFAILED;
}
@@
-740,7
+740,7
@@
uint8_t SendF1APMsg(Region region, Pool pool)
}
else
{
}
else
{
- DU_LOG("\nF1AP : Failed to allocate memory");
+ DU_LOG("\n
ERROR -->
F1AP : Failed to allocate memory");
return RFAILED;
}
return ROK;
return RFAILED;
}
return ROK;
@@
-1011,7
+1011,7
@@
void FreeF1SetupReq(F1AP_PDU_t *f1apMsg)
FreeRrcVer(&f1SetupReq->protocolIEs.list.array[ieIdx]->value.choice.RRC_Version);
break;
default:
FreeRrcVer(&f1SetupReq->protocolIEs.list.array[ieIdx]->value.choice.RRC_Version);
break;
default:
- DU_LOG("\nInvalid Event Type %ld", f1SetupReq->protocolIEs.list.array[ieIdx]->id);
+ DU_LOG("\n
ERROR -->
Invalid Event Type %ld", f1SetupReq->protocolIEs.list.array[ieIdx]->id);
break;
}
}
break;
}
}
@@
-1053,7
+1053,7
@@
uint8_t BuildAndSendF1SetupReq()
asn_enc_rval_t encRetVal; /* Encoder return value */
ret= RFAILED;
asn_enc_rval_t encRetVal; /* Encoder return value */
ret= RFAILED;
- DU_LOG("\nF1AP : Building F1 Setup Request\n");
+ DU_LOG("\n
INFO -->
F1AP : Building F1 Setup Request\n");
do
{
DU_ALLOC(f1apMsg, sizeof(F1AP_PDU_t));
do
{
DU_ALLOC(f1apMsg, sizeof(F1AP_PDU_t));
@@
-1182,13
+1182,13
@@
uint8_t BuildAndSendF1SetupReq()
/* Encode results */
if(encRetVal.encoded == ENCODE_FAIL)
{
/* Encode results */
if(encRetVal.encoded == ENCODE_FAIL)
{
- DU_LOG("\nF1AP : Could not encode F1SetupRequest structure (at %s)\n",\
+ DU_LOG("\n
ERROR -->
F1AP : Could not encode F1SetupRequest structure (at %s)\n",\
encRetVal.failed_type ? encRetVal.failed_type->name : "unknown");
break;
}
else
{
encRetVal.failed_type ? encRetVal.failed_type->name : "unknown");
break;
}
else
{
- DU_LOG("\nF1AP : Created APER encoded buffer for F1SetupRequest\n");
+ DU_LOG("\n
DEBUG -->
F1AP : Created APER encoded buffer for F1SetupRequest\n");
for(ieIdx=0; ieIdx< encBufSize; ieIdx++)
{
printf("%x",encBuf[ieIdx]);
for(ieIdx=0; ieIdx< encBufSize; ieIdx++)
{
printf("%x",encBuf[ieIdx]);
@@
-1198,7
+1198,7
@@
uint8_t BuildAndSendF1SetupReq()
/* Sending msg */
if(SendF1APMsg(DU_APP_MEM_REGION, DU_POOL) != ROK)
{
/* Sending msg */
if(SendF1APMsg(DU_APP_MEM_REGION, DU_POOL) != ROK)
{
- DU_LOG("\nF1AP : Sending F1 Setup request failed");
+ DU_LOG("\n
ERROR -->
F1AP : Sending F1 Setup request failed");
break;
}
break;
}
@@
-1896,12
+1896,12
@@
uint8_t BuildAndSendDUConfigUpdate()
while(true)
{
while(true)
{
- DU_LOG("\nF1AP : Building DU config update\n");
+ DU_LOG("\n
INFO -->
F1AP : Building DU config update\n");
/* Allocate the memory for F1DuCfg */
DU_ALLOC(f1apDuCfg, sizeof(F1AP_PDU_t));
if(f1apDuCfg == NULLP)
{
/* Allocate the memory for F1DuCfg */
DU_ALLOC(f1apDuCfg, sizeof(F1AP_PDU_t));
if(f1apDuCfg == NULLP)
{
- DU_LOG("\nF1AP : Memory allocation for F1AP-PDU failed");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation for F1AP-PDU failed");
break;
}
break;
}
@@
-1909,7
+1909,7
@@
uint8_t BuildAndSendDUConfigUpdate()
DU_ALLOC(f1apDuCfg->choice.initiatingMessage,sizeof(InitiatingMessage_t));
if(f1apDuCfg->choice.initiatingMessage == NULLP)
{
DU_ALLOC(f1apDuCfg->choice.initiatingMessage,sizeof(InitiatingMessage_t));
if(f1apDuCfg->choice.initiatingMessage == NULLP)
{
- DU_LOG("\nF1AP : Memory allocation for F1AP-PDU failed");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation for F1AP-PDU failed");
break;
}
break;
}
@@
-1929,7
+1929,7
@@
uint8_t BuildAndSendDUConfigUpdate()
DU_ALLOC(duCfgUpdate->protocolIEs.list.array,duCfgUpdate->protocolIEs.list.size);
if(duCfgUpdate->protocolIEs.list.array == NULLP)
{
DU_ALLOC(duCfgUpdate->protocolIEs.list.array,duCfgUpdate->protocolIEs.list.size);
if(duCfgUpdate->protocolIEs.list.array == NULLP)
{
- DU_LOG("F1AP : Memory allocation for F1RequestIEs failed");
+ DU_LOG("
ERROR -->
F1AP : Memory allocation for F1RequestIEs failed");
break;
}
for(ieIdx=0; ieIdx<elementCnt; ieIdx++)
break;
}
for(ieIdx=0; ieIdx<elementCnt; ieIdx++)
@@
-1986,12
+1986,13
@@
uint8_t BuildAndSendDUConfigUpdate()
/* Checking encode results */
if(encRetVal.encoded == ENCODE_FAIL)
{
/* Checking encode results */
if(encRetVal.encoded == ENCODE_FAIL)
{
- DU_LOG("F1AP : Could not encode DUConfigUpdate structure (at %s)\n",encRetVal.failed_type ? encRetVal.failed_type->name : "unknown");
+ DU_LOG("ERROR --> F1AP : Could not encode DUConfigUpdate structure (at %s)\n",\
+ encRetVal.failed_type ? encRetVal.failed_type->name : "unknown");
break;
}
else
{
break;
}
else
{
- DU_LOG("\nF1AP : Created APER encoded buffer for DUConfigUpdate\n");
+ DU_LOG("\n
DEBUG -->
F1AP : Created APER encoded buffer for DUConfigUpdate\n");
for(ieIdx =0; ieIdx < encBufSize; ieIdx++)
{
printf("%x",encBuf[ieIdx]);
for(ieIdx =0; ieIdx < encBufSize; ieIdx++)
{
printf("%x",encBuf[ieIdx]);
@@
-2000,7
+2001,7
@@
uint8_t BuildAndSendDUConfigUpdate()
/* Sending msg */
if(SendF1APMsg(DU_APP_MEM_REGION, DU_POOL) != ROK)
{
/* Sending msg */
if(SendF1APMsg(DU_APP_MEM_REGION, DU_POOL) != ROK)
{
- DU_LOG("\n
F1AP : Sending GND
-DU Config Update failed");
+ DU_LOG("\n
ERROR --> F1AP : Sending GNB
-DU Config Update failed");
break;
}
break;
}
@@
-2093,19
+2094,19
@@
uint8_t BuildAndSendULRRCMessageTransfer(DuUeCb ueCb, uint8_t lcId, \
while(true)
{
while(true)
{
- DU_LOG("\n F1AP : Building UL RRC Message Transfer Message\n");
+ DU_LOG("\n
INFO -->
F1AP : Building UL RRC Message Transfer Message\n");
DU_ALLOC(f1apMsg, sizeof(F1AP_PDU_t));
if(f1apMsg == NULLP)
{
DU_ALLOC(f1apMsg, sizeof(F1AP_PDU_t));
if(f1apMsg == NULLP)
{
- DU_LOG(" F1AP : Memory allocation for F1AP-PDU failed");
+ DU_LOG("
ERROR -->
F1AP : Memory allocation for F1AP-PDU failed");
break;
}
f1apMsg->present = F1AP_PDU_PR_initiatingMessage;
DU_ALLOC(f1apMsg->choice.initiatingMessage,sizeof(InitiatingMessage_t));
if(f1apMsg->choice.initiatingMessage == NULLP)
{
break;
}
f1apMsg->present = F1AP_PDU_PR_initiatingMessage;
DU_ALLOC(f1apMsg->choice.initiatingMessage,sizeof(InitiatingMessage_t));
if(f1apMsg->choice.initiatingMessage == NULLP)
{
- DU_LOG("
F1AP : Memory allocation for
F1AP-PDU failed");
+ DU_LOG("
ERROR --> F1AP : Memory allocation for
F1AP-PDU failed");
break;
}
f1apMsg->choice.initiatingMessage->procedureCode = ProcedureCode_id_ULRRCMessageTransfer;
break;
}
f1apMsg->choice.initiatingMessage->procedureCode = ProcedureCode_id_ULRRCMessageTransfer;
@@
-2123,7
+2124,7
@@
uint8_t BuildAndSendULRRCMessageTransfer(DuUeCb ueCb, uint8_t lcId, \
DU_ALLOC(ulRRCMsg->protocolIEs.list.array, ulRRCMsg->protocolIEs.list.size);
if(ulRRCMsg->protocolIEs.list.array == NULLP)
{
DU_ALLOC(ulRRCMsg->protocolIEs.list.array, ulRRCMsg->protocolIEs.list.size);
if(ulRRCMsg->protocolIEs.list.array == NULLP)
{
- DU_LOG(" F1AP : Memory allocation for UL RRC MessageTransferIEs failed");
+ DU_LOG("
ERROR -->
F1AP : Memory allocation for UL RRC MessageTransferIEs failed");
break;
}
for(idx=0; idx<elementCnt; idx++)
break;
}
for(idx=0; idx<elementCnt; idx++)
@@
-2171,7
+2172,7
@@
uint8_t BuildAndSendULRRCMessageTransfer(DuUeCb ueCb, uint8_t lcId, \
ulRRCMsg->protocolIEs.list.array[idx1]->value.choice.RRCContainer.size)
if(!ulRRCMsg->protocolIEs.list.array[idx1]->value.choice.RRCContainer.buf)
{
ulRRCMsg->protocolIEs.list.array[idx1]->value.choice.RRCContainer.size)
if(!ulRRCMsg->protocolIEs.list.array[idx1]->value.choice.RRCContainer.buf)
{
- DU_LOG(" F1AP : Memory allocation for BuildAndSendULRRCMessageTransfer failed");
+ DU_LOG("
ERROR -->
F1AP : Memory allocation for BuildAndSendULRRCMessageTransfer failed");
break;
}
memset(ulRRCMsg->protocolIEs.list.array[idx1]->value.choice.RRCContainer.buf, 0, msgLen);
break;
}
memset(ulRRCMsg->protocolIEs.list.array[idx1]->value.choice.RRCContainer.buf, 0, msgLen);
@@
-2188,13
+2189,13
@@
uint8_t BuildAndSendULRRCMessageTransfer(DuUeCb ueCb, uint8_t lcId, \
/* Encode results */
if(encRetVal.encoded == ENCODE_FAIL)
{
/* Encode results */
if(encRetVal.encoded == ENCODE_FAIL)
{
- DU_LOG( "\n F1AP : Could not encode ULRRCMessageTransfer structure (at %s)\n",\
+ DU_LOG( "\n
ERROR -->
F1AP : Could not encode ULRRCMessageTransfer structure (at %s)\n",\
encRetVal.failed_type ? encRetVal.failed_type->name : "unknown");
break;
}
else
{
encRetVal.failed_type ? encRetVal.failed_type->name : "unknown");
break;
}
else
{
- DU_LOG("\n F1AP : Created APER encoded buffer for ULRRCMessageTransfer\n");
+ DU_LOG("\n
DEBUG -->
F1AP : Created APER encoded buffer for ULRRCMessageTransfer\n");
for(int i=0; i< encBufSize; i++)
{
printf("%x",encBuf[i]);
for(int i=0; i< encBufSize; i++)
{
printf("%x",encBuf[i]);
@@
-2204,7
+2205,7
@@
uint8_t BuildAndSendULRRCMessageTransfer(DuUeCb ueCb, uint8_t lcId, \
/* Sending msg */
if(SendF1APMsg(DU_APP_MEM_REGION,DU_POOL) != ROK)
{
/* Sending msg */
if(SendF1APMsg(DU_APP_MEM_REGION,DU_POOL) != ROK)
{
- DU_LOG("\n
F1AP : Sending
UL RRC Message Transfer Failed");
+ DU_LOG("\n
ERROR --> F1AP : Sending
UL RRC Message Transfer Failed");
break;
}
ret = ROK;
break;
}
ret = ROK;
@@
-2241,7
+2242,7
@@
uint8_t BuildTagConfig(struct TAG_Config *tagConfig)
DU_ALLOC(tagConfig->tag_ToAddModList, sizeof(struct TAG_Config__tag_ToAddModList));
if(!tagConfig->tag_ToAddModList)
{
DU_ALLOC(tagConfig->tag_ToAddModList, sizeof(struct TAG_Config__tag_ToAddModList));
if(!tagConfig->tag_ToAddModList)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildTagConfig");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildTagConfig");
return RFAILED;
}
return RFAILED;
}
@@
-2254,7
+2255,7
@@
uint8_t BuildTagConfig(struct TAG_Config *tagConfig)
DU_ALLOC(tagList->list.array, tagList->list.size);
if(!tagList->list.array)
{
DU_ALLOC(tagList->list.array, tagList->list.size);
if(!tagList->list.array)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildTagConfig");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildTagConfig");
return RFAILED;
}
return RFAILED;
}
@@
-2264,7
+2265,7
@@
uint8_t BuildTagConfig(struct TAG_Config *tagConfig)
DU_ALLOC(tagList->list.array[idx], sizeof(struct TAG));
if(!tagList->list.array[idx])
{
DU_ALLOC(tagList->list.array[idx], sizeof(struct TAG));
if(!tagList->list.array[idx])
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildTagConfig");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildTagConfig");
return RFAILED;
}
}
return RFAILED;
}
}
@@
-2300,7
+2301,7
@@
uint8_t BuildPhrConfig(struct MAC_CellGroupConfig__phr_Config *phrConfig)
DU_ALLOC(phrConfig->choice.setup, sizeof(struct PHR_Config));
if(!phrConfig->choice.setup)
{
DU_ALLOC(phrConfig->choice.setup, sizeof(struct PHR_Config));
if(!phrConfig->choice.setup)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildPhrConfig");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildPhrConfig");
return RFAILED;
}
return RFAILED;
}
@@
-2366,7
+2367,7
@@
uint8_t BuildSchedulingReqConfig(struct SchedulingRequestConfig *schedulingReque
sizeof(struct SchedulingRequestConfig__schedulingRequestToAddModList));
if(!schedulingRequestConfig->schedulingRequestToAddModList)
{
sizeof(struct SchedulingRequestConfig__schedulingRequestToAddModList));
if(!schedulingRequestConfig->schedulingRequestToAddModList)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildSchedulingReqConfig");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildSchedulingReqConfig");
return RFAILED;
}
return RFAILED;
}
@@
-2379,7
+2380,7
@@
uint8_t BuildSchedulingReqConfig(struct SchedulingRequestConfig *schedulingReque
DU_ALLOC(schReqList->list.array, schReqList->list.size);
if(!schReqList->list.array)
{
DU_ALLOC(schReqList->list.array, schReqList->list.size);
if(!schReqList->list.array)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildSchedulingReqConfig");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildSchedulingReqConfig");
return RFAILED;
}
return RFAILED;
}
@@
-2389,7
+2390,7
@@
uint8_t BuildSchedulingReqConfig(struct SchedulingRequestConfig *schedulingReque
DU_ALLOC(schReqList->list.array[idx], sizeof(struct SchedulingRequestToAddMod));
if(!schReqList->list.array[idx])
{
DU_ALLOC(schReqList->list.array[idx], sizeof(struct SchedulingRequestToAddMod));
if(!schReqList->list.array[idx])
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildSchedulingReqConfig");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildSchedulingReqConfig");
return RFAILED;
}
}
return RFAILED;
}
}
@@
-2401,7
+2402,7
@@
uint8_t BuildSchedulingReqConfig(struct SchedulingRequestConfig *schedulingReque
DU_ALLOC(schReqList->list.array[idx]->sr_ProhibitTimer, sizeof(long));
if(!schReqList->list.array[idx]->sr_ProhibitTimer)
{
DU_ALLOC(schReqList->list.array[idx]->sr_ProhibitTimer, sizeof(long));
if(!schReqList->list.array[idx]->sr_ProhibitTimer)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildSchedulingReqConfig");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildSchedulingReqConfig");
return RFAILED;
}
*(schReqList->list.array[idx]->sr_ProhibitTimer) = SR_PROHIBIT_TMR;
return RFAILED;
}
*(schReqList->list.array[idx]->sr_ProhibitTimer) = SR_PROHIBIT_TMR;
@@
-2436,7
+2437,7
@@
uint8_t BuildRlcConfig(struct RLC_Config *rlcConfig)
DU_ALLOC(rlcConfig->choice.am, sizeof(struct RLC_Config__am));
if(!rlcConfig->choice.am)
{
DU_ALLOC(rlcConfig->choice.am, sizeof(struct RLC_Config__am));
if(!rlcConfig->choice.am)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildRlcConfig");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildRlcConfig");
return RFAILED;
}
return RFAILED;
}
@@
-2445,7
+2446,7
@@
uint8_t BuildRlcConfig(struct RLC_Config *rlcConfig)
DU_ALLOC(rlcConfig->choice.am->ul_AM_RLC.sn_FieldLength, sizeof(SN_FieldLengthAM_t));
if(!rlcConfig->choice.am->ul_AM_RLC.sn_FieldLength)
{
DU_ALLOC(rlcConfig->choice.am->ul_AM_RLC.sn_FieldLength, sizeof(SN_FieldLengthAM_t));
if(!rlcConfig->choice.am->ul_AM_RLC.sn_FieldLength)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildRlcConfig");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildRlcConfig");
return RFAILED;
}
*(rlcConfig->choice.am->ul_AM_RLC.sn_FieldLength) = SN_FIELD_LEN;
return RFAILED;
}
*(rlcConfig->choice.am->ul_AM_RLC.sn_FieldLength) = SN_FIELD_LEN;
@@
-2459,7
+2460,7
@@
uint8_t BuildRlcConfig(struct RLC_Config *rlcConfig)
DU_ALLOC(rlcConfig->choice.am->dl_AM_RLC.sn_FieldLength, sizeof(SN_FieldLengthAM_t));
if(!rlcConfig->choice.am->dl_AM_RLC.sn_FieldLength)
{
DU_ALLOC(rlcConfig->choice.am->dl_AM_RLC.sn_FieldLength, sizeof(SN_FieldLengthAM_t));
if(!rlcConfig->choice.am->dl_AM_RLC.sn_FieldLength)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildRlcConfig");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildRlcConfig");
return RFAILED;
}
*(rlcConfig->choice.am->dl_AM_RLC.sn_FieldLength) = SN_FIELD_LEN;
return RFAILED;
}
*(rlcConfig->choice.am->dl_AM_RLC.sn_FieldLength) = SN_FIELD_LEN;
@@
-2492,7
+2493,7
@@
uint8_t BuildMacLCConfig(struct LogicalChannelConfig *macLcConfig)
DU_ALLOC(macLcConfig->ul_SpecificParameters, sizeof(struct LogicalChannelConfig__ul_SpecificParameters));
if(!macLcConfig->ul_SpecificParameters)
{
DU_ALLOC(macLcConfig->ul_SpecificParameters, sizeof(struct LogicalChannelConfig__ul_SpecificParameters));
if(!macLcConfig->ul_SpecificParameters)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildMacLCConfig");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildMacLCConfig");
return RFAILED;
}
return RFAILED;
}
@@
-2508,7
+2509,7
@@
uint8_t BuildMacLCConfig(struct LogicalChannelConfig *macLcConfig)
DU_ALLOC(macLcConfig->ul_SpecificParameters->logicalChannelGroup, sizeof(long));
if(!macLcConfig->ul_SpecificParameters->logicalChannelGroup)
{
DU_ALLOC(macLcConfig->ul_SpecificParameters->logicalChannelGroup, sizeof(long));
if(!macLcConfig->ul_SpecificParameters->logicalChannelGroup)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildMacLCConfig");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildMacLCConfig");
return RFAILED;
}
*(macLcConfig->ul_SpecificParameters->logicalChannelGroup) = LC_GRP;
return RFAILED;
}
*(macLcConfig->ul_SpecificParameters->logicalChannelGroup) = LC_GRP;
@@
-2517,7
+2518,7
@@
uint8_t BuildMacLCConfig(struct LogicalChannelConfig *macLcConfig)
DU_ALLOC(macLcConfig->ul_SpecificParameters->schedulingRequestID, sizeof(SchedulingRequestId_t));
if(!macLcConfig->ul_SpecificParameters->schedulingRequestID)
{
DU_ALLOC(macLcConfig->ul_SpecificParameters->schedulingRequestID, sizeof(SchedulingRequestId_t));
if(!macLcConfig->ul_SpecificParameters->schedulingRequestID)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildMacLCConfig");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildMacLCConfig");
return RFAILED;
}
*(macLcConfig->ul_SpecificParameters->schedulingRequestID) = SCH_REQ_ID;
return RFAILED;
}
*(macLcConfig->ul_SpecificParameters->schedulingRequestID) = SCH_REQ_ID;
@@
-2557,7
+2558,7
@@
uint8_t BuildRlcBearerToAddModList(struct CellGroupConfigRrc__rlc_BearerToAddMod
DU_ALLOC(rlcBearerList->list.array, rlcBearerList->list.size);
if(!rlcBearerList->list.array)
{
DU_ALLOC(rlcBearerList->list.array, rlcBearerList->list.size);
if(!rlcBearerList->list.array)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildRlcBearerToAddModList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildRlcBearerToAddModList");
return RFAILED;
}
return RFAILED;
}
@@
-2567,7
+2568,7
@@
uint8_t BuildRlcBearerToAddModList(struct CellGroupConfigRrc__rlc_BearerToAddMod
DU_ALLOC(rlcBearerList->list.array[idx], sizeof(struct RLC_BearerConfig));
if(!rlcBearerList->list.array[idx])
{
DU_ALLOC(rlcBearerList->list.array[idx], sizeof(struct RLC_BearerConfig));
if(!rlcBearerList->list.array[idx])
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildRlcBearerToAddModList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildRlcBearerToAddModList");
return RFAILED;
}
}
return RFAILED;
}
}
@@
-2579,7
+2580,7
@@
uint8_t BuildRlcBearerToAddModList(struct CellGroupConfigRrc__rlc_BearerToAddMod
sizeof(struct RLC_BearerConfig__servedRadioBearer));
if(!rlcBearerList->list.array[idx]->servedRadioBearer)
{
sizeof(struct RLC_BearerConfig__servedRadioBearer));
if(!rlcBearerList->list.array[idx]->servedRadioBearer)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildRlcBearerToAddModList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildRlcBearerToAddModList");
return RFAILED;
}
return RFAILED;
}
@@
-2593,13
+2594,13
@@
uint8_t BuildRlcBearerToAddModList(struct CellGroupConfigRrc__rlc_BearerToAddMod
DU_ALLOC(rlcBearerList->list.array[idx]->rlc_Config, sizeof(struct RLC_Config));
if(!rlcBearerList->list.array[idx]->rlc_Config)
{
DU_ALLOC(rlcBearerList->list.array[idx]->rlc_Config, sizeof(struct RLC_Config));
if(!rlcBearerList->list.array[idx]->rlc_Config)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildRlcBearerToAddModList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildRlcBearerToAddModList");
return RFAILED;
}
if(BuildRlcConfig(rlcBearerList->list.array[idx]->rlc_Config) != ROK)
{
return RFAILED;
}
if(BuildRlcConfig(rlcBearerList->list.array[idx]->rlc_Config) != ROK)
{
- DU_LOG("\nF1AP : BuildRlcConfig failed");
+ DU_LOG("\n
ERROR -->
F1AP : BuildRlcConfig failed");
return RFAILED;
}
return RFAILED;
}
@@
-2608,13
+2609,13
@@
uint8_t BuildRlcBearerToAddModList(struct CellGroupConfigRrc__rlc_BearerToAddMod
sizeof(struct LogicalChannelConfig));
if(!rlcBearerList->list.array[idx]->mac_LogicalChannelConfig)
{
sizeof(struct LogicalChannelConfig));
if(!rlcBearerList->list.array[idx]->mac_LogicalChannelConfig)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildRlcBearerToAddModList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildRlcBearerToAddModList");
return RFAILED;
}
if(BuildMacLCConfig(rlcBearerList->list.array[idx]->mac_LogicalChannelConfig) != ROK)
{
return RFAILED;
}
if(BuildMacLCConfig(rlcBearerList->list.array[idx]->mac_LogicalChannelConfig) != ROK)
{
- DU_LOG("\nF1AP : BuildMacLCConfig failed");
+ DU_LOG("\n
ERROR -->
F1AP : BuildMacLCConfig failed");
return RFAILED;
}
return RFAILED;
}
@@
-2660,7
+2661,7
@@
uint8_t BuildRlcBearerToAddModList(struct CellGroupConfigRrc__rlc_BearerToAddMod
DU_ALLOC(controlRSetList->list.array, controlRSetList->list.size);
if(!controlRSetList->list.array)
{
DU_ALLOC(controlRSetList->list.array, controlRSetList->list.size);
if(!controlRSetList->list.array)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildControlRSetToAddModList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildControlRSetToAddModList");
return RFAILED;
}
return RFAILED;
}
@@
-2670,7
+2671,7
@@
uint8_t BuildRlcBearerToAddModList(struct CellGroupConfigRrc__rlc_BearerToAddMod
DU_ALLOC(controlRSetList->list.array[idx], sizeof(struct ControlResourceSet));
if(!controlRSetList->list.array[idx])
{
DU_ALLOC(controlRSetList->list.array[idx], sizeof(struct ControlResourceSet));
if(!controlRSetList->list.array[idx])
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildControlRSetToAddModList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildControlRSetToAddModList");
return RFAILED;
}
}
return RFAILED;
}
}
@@
-2693,7
+2694,7
@@
uint8_t BuildRlcBearerToAddModList(struct CellGroupConfigRrc__rlc_BearerToAddMod
controlRSet->frequencyDomainResources.size);
if(!controlRSet->frequencyDomainResources.buf)
{
controlRSet->frequencyDomainResources.size);
if(!controlRSet->frequencyDomainResources.buf)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildControlRSetToAddModList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildControlRSetToAddModList");
return RFAILED;
}
return RFAILED;
}
@@
-2721,7
+2722,7
@@
uint8_t BuildRlcBearerToAddModList(struct CellGroupConfigRrc__rlc_BearerToAddMod
sizeof(struct ControlResourceSet__tci_StatesPDCCH_ToAddList));
if(!controlRset->tci_StatesPDCCH_ToAddList)
{
sizeof(struct ControlResourceSet__tci_StatesPDCCH_ToAddList));
if(!controlRset->tci_StatesPDCCH_ToAddList)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildControlRSetToAddModList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildControlRSetToAddModList");
return RFAILED;
}
return RFAILED;
}
@@
-2732,7
+2733,7
@@
uint8_t BuildRlcBearerToAddModList(struct CellGroupConfigRrc__rlc_BearerToAddMod
controlRset->tci_StatesPDCCH_ToAddList->list.size)
if(!controlRset->tci_StatesPDCCH_ToAddList->list.array)
{
controlRset->tci_StatesPDCCH_ToAddList->list.size)
if(!controlRset->tci_StatesPDCCH_ToAddList->list.array)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildControlRSetToAddModList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildControlRSetToAddModList");
return RFAILED;
}
return RFAILED;
}
@@
-2741,7
+2742,7
@@
uint8_t BuildRlcBearerToAddModList(struct CellGroupConfigRrc__rlc_BearerToAddMod
DU_ALLOC(controlRset->tci_StatesPDCCH_ToAddList->list.array[tciStateIdx], sizeof(TCI_StateId_t));
if(!controlRset->tci_StatesPDCCH_ToAddList->list.array[tciStateIdx])
{
DU_ALLOC(controlRset->tci_StatesPDCCH_ToAddList->list.array[tciStateIdx], sizeof(TCI_StateId_t));
if(!controlRset->tci_StatesPDCCH_ToAddList->list.array[tciStateIdx])
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildControlRSetToAddModList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildControlRSetToAddModList");
return RFAILED;
}
}
return RFAILED;
}
}
@@
-2753,7
+2754,7
@@
uint8_t BuildRlcBearerToAddModList(struct CellGroupConfigRrc__rlc_BearerToAddMod
DU_ALLOC(controlRset->tci_PresentInDCI, sizeof(long));
if(!controlRset->tci_PresentInDCI)
{
DU_ALLOC(controlRset->tci_PresentInDCI, sizeof(long));
if(!controlRset->tci_PresentInDCI)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildControlRSetToAddModList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildControlRSetToAddModList");
return RFAILED;
}
/* TODO */
return RFAILED;
}
/* TODO */
@@
-2764,7
+2765,7
@@
uint8_t BuildRlcBearerToAddModList(struct CellGroupConfigRrc__rlc_BearerToAddMod
DU_ALLOC(controlRSet->pdcch_DMRS_ScramblingID, sizeof(long));
if(!controlRSet->pdcch_DMRS_ScramblingID)
{
DU_ALLOC(controlRSet->pdcch_DMRS_ScramblingID, sizeof(long));
if(!controlRSet->pdcch_DMRS_ScramblingID)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildControlRSetToAddModList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildControlRSetToAddModList");
return RFAILED;
}
*(controlRSet->pdcch_DMRS_ScramblingID) = SCRAMBLING_ID;
return RFAILED;
}
*(controlRSet->pdcch_DMRS_ScramblingID) = SCRAMBLING_ID;
@@
-2807,7
+2808,7
@@
uint8_t BuildRlcBearerToAddModList(struct CellGroupConfigRrc__rlc_BearerToAddMod
DU_ALLOC(searchSpcList->list.array, searchSpcList->list.size);
if(!searchSpcList->list.array)
{
DU_ALLOC(searchSpcList->list.array, searchSpcList->list.size);
if(!searchSpcList->list.array)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildSearchSpcToAddModList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildSearchSpcToAddModList");
return RFAILED;
}
return RFAILED;
}
@@
-2817,7
+2818,7
@@
uint8_t BuildRlcBearerToAddModList(struct CellGroupConfigRrc__rlc_BearerToAddMod
DU_ALLOC(searchSpcList->list.array[idx], sizeof(struct SearchSpace));
if(!searchSpcList->list.array[idx])
{
DU_ALLOC(searchSpcList->list.array[idx], sizeof(struct SearchSpace));
if(!searchSpcList->list.array[idx])
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildSearchSpcToAddModList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildSearchSpcToAddModList");
return RFAILED;
}
}
return RFAILED;
}
}
@@
-2831,7
+2832,7
@@
uint8_t BuildRlcBearerToAddModList(struct CellGroupConfigRrc__rlc_BearerToAddMod
DU_ALLOC(searchSpc->controlResourceSetId, sizeof(ControlResourceSetId_t));
if(!searchSpc->controlResourceSetId)
{
DU_ALLOC(searchSpc->controlResourceSetId, sizeof(ControlResourceSetId_t));
if(!searchSpc->controlResourceSetId)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildSearchSpcToAddModList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildSearchSpcToAddModList");
return RFAILED;
}
*(searchSpc->controlResourceSetId) = PDCCH_CTRL_RSRC_SET_ONE_ID;
return RFAILED;
}
*(searchSpc->controlResourceSetId) = PDCCH_CTRL_RSRC_SET_ONE_ID;
@@
-2841,7
+2842,7
@@
uint8_t BuildRlcBearerToAddModList(struct CellGroupConfigRrc__rlc_BearerToAddMod
sizeof(struct SearchSpace__monitoringSlotPeriodicityAndOffset));
if(!searchSpc->monitoringSlotPeriodicityAndOffset)
{
sizeof(struct SearchSpace__monitoringSlotPeriodicityAndOffset));
if(!searchSpc->monitoringSlotPeriodicityAndOffset)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildSearchSpcToAddModList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildSearchSpcToAddModList");
return RFAILED;
}
searchSpc->monitoringSlotPeriodicityAndOffset->present = \
return RFAILED;
}
searchSpc->monitoringSlotPeriodicityAndOffset->present = \
@@
-2852,7
+2853,7
@@
uint8_t BuildRlcBearerToAddModList(struct CellGroupConfigRrc__rlc_BearerToAddMod
DU_ALLOC(searchSpc->monitoringSymbolsWithinSlot, sizeof(BIT_STRING_t));
if(!searchSpc->monitoringSymbolsWithinSlot)
{
DU_ALLOC(searchSpc->monitoringSymbolsWithinSlot, sizeof(BIT_STRING_t));
if(!searchSpc->monitoringSymbolsWithinSlot)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildSearchSpcToAddModList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildSearchSpcToAddModList");
return RFAILED;
}
return RFAILED;
}
@@
-2870,7
+2871,7
@@
uint8_t BuildRlcBearerToAddModList(struct CellGroupConfigRrc__rlc_BearerToAddMod
searchSpc->monitoringSymbolsWithinSlot->size);
if(!searchSpc->monitoringSymbolsWithinSlot->buf)
{
searchSpc->monitoringSymbolsWithinSlot->size);
if(!searchSpc->monitoringSymbolsWithinSlot->buf)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildSearchSpcToAddModList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildSearchSpcToAddModList");
return RFAILED;
}
return RFAILED;
}
@@
-2884,7
+2885,7
@@
uint8_t BuildRlcBearerToAddModList(struct CellGroupConfigRrc__rlc_BearerToAddMod
DU_ALLOC(searchSpc->nrofCandidates, sizeof(struct SearchSpace__nrofCandidates));
if(!searchSpc->nrofCandidates)
{
DU_ALLOC(searchSpc->nrofCandidates, sizeof(struct SearchSpace__nrofCandidates));
if(!searchSpc->nrofCandidates)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildSearchSpcToAddModList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildSearchSpcToAddModList");
return RFAILED;
}
return RFAILED;
}
@@
-2903,7
+2904,7
@@
uint8_t BuildRlcBearerToAddModList(struct CellGroupConfigRrc__rlc_BearerToAddMod
DU_ALLOC(searchSpc->searchSpaceType, sizeof(struct SearchSpace__searchSpaceType));
if(!searchSpc->searchSpaceType)
{
DU_ALLOC(searchSpc->searchSpaceType, sizeof(struct SearchSpace__searchSpaceType));
if(!searchSpc->searchSpaceType)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildSearchSpcToAddModList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildSearchSpcToAddModList");
return RFAILED;
}
return RFAILED;
}
@@
-2914,7
+2915,7
@@
uint8_t BuildRlcBearerToAddModList(struct CellGroupConfigRrc__rlc_BearerToAddMod
sizeof(struct SearchSpace__searchSpaceType__ue_Specific));
if(!searchSpc->searchSpaceType->choice.ue_Specific)
{
sizeof(struct SearchSpace__searchSpaceType__ue_Specific));
if(!searchSpc->searchSpaceType->choice.ue_Specific)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildSearchSpcToAddModList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildSearchSpcToAddModList");
return RFAILED;
}
searchSpc->searchSpaceType->choice.ue_Specific->dci_Formats = \
return RFAILED;
}
searchSpc->searchSpaceType->choice.ue_Specific->dci_Formats = \
@@
-2946,7
+2947,7
@@
uint8_t BuildBWPDlDedPdcchCfg(struct PDCCH_Config *pdcchCfg)
sizeof(struct PDCCH_Config__controlResourceSetToAddModList));
if(!pdcchCfg->controlResourceSetToAddModList)
{
sizeof(struct PDCCH_Config__controlResourceSetToAddModList));
if(!pdcchCfg->controlResourceSetToAddModList)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildBWPDlDedPdcchCfg");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildBWPDlDedPdcchCfg");
return RFAILED;
}
return RFAILED;
}
@@
-2962,7
+2963,7
@@
uint8_t BuildBWPDlDedPdcchCfg(struct PDCCH_Config *pdcchCfg)
sizeof(struct PDCCH_Config__searchSpacesToAddModList));
if(!pdcchCfg->searchSpacesToAddModList)
{
sizeof(struct PDCCH_Config__searchSpacesToAddModList));
if(!pdcchCfg->searchSpacesToAddModList)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildBWPDlDedPdcchCfg");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildBWPDlDedPdcchCfg");
return RFAILED;
}
return RFAILED;
}
@@
-3006,7
+3007,7
@@
uint8_t BuildBWPDlDedPdcchCfg(struct PDCCH_Config *pdcchCfg)
DU_ALLOC(dmrsDlCfg->choice.setup, sizeof(struct DMRS_DownlinkConfig));
if(!dmrsDlCfg->choice.setup)
{
DU_ALLOC(dmrsDlCfg->choice.setup, sizeof(struct DMRS_DownlinkConfig));
if(!dmrsDlCfg->choice.setup)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildBWPDlDedPdschCfg");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildBWPDlDedPdschCfg");
return RFAILED;
}
return RFAILED;
}
@@
-3015,7
+3016,7
@@
uint8_t BuildBWPDlDedPdcchCfg(struct PDCCH_Config *pdcchCfg)
DU_ALLOC(dmrsDlCfg->choice.setup->dmrs_AdditionalPosition, sizeof(long));
if(!dmrsDlCfg->choice.setup->dmrs_AdditionalPosition)
{
DU_ALLOC(dmrsDlCfg->choice.setup->dmrs_AdditionalPosition, sizeof(long));
if(!dmrsDlCfg->choice.setup->dmrs_AdditionalPosition)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildDMRSDLPdschMapTypeA");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildDMRSDLPdschMapTypeA");
return RFAILED;
}
*(dmrsDlCfg->choice.setup->dmrs_AdditionalPosition) = DMRS_ADDITIONAL_POS;
return RFAILED;
}
*(dmrsDlCfg->choice.setup->dmrs_AdditionalPosition) = DMRS_ADDITIONAL_POS;
@@
-3084,7
+3085,7
@@
uint8_t BuildTCIStatesToAddModList(struct PDSCH_Config__tci_StatesToAddModList *
sizeof(struct PDSCH_TimeDomainResourceAllocationList));
if(!timeDomAllocList->choice.setup)
{
sizeof(struct PDSCH_TimeDomainResourceAllocationList));
if(!timeDomAllocList->choice.setup)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildPdschTimeDomAllocList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildPdschTimeDomAllocList");
return RFAILED;
}
return RFAILED;
}
@@
-3098,7
+3099,7
@@
uint8_t BuildTCIStatesToAddModList(struct PDSCH_Config__tci_StatesToAddModList *
timeDomAllocList->choice.setup->list.size);
if(!timeDomAllocList->choice.setup->list.array)
{
timeDomAllocList->choice.setup->list.size);
if(!timeDomAllocList->choice.setup->list.array)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildPdschTimeDomAllocList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildPdschTimeDomAllocList");
return RFAILED;
}
return RFAILED;
}
@@
-3109,7
+3110,7
@@
uint8_t BuildTCIStatesToAddModList(struct PDSCH_Config__tci_StatesToAddModList *
sizeof(struct PDSCH_TimeDomainResourceAllocation));
if(!timeDomAllocList->choice.setup->list.array[idx])
{
sizeof(struct PDSCH_TimeDomainResourceAllocation));
if(!timeDomAllocList->choice.setup->list.array[idx])
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildPdschTimeDomAllocList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildPdschTimeDomAllocList");
return RFAILED;
}
}
return RFAILED;
}
}
@@
-3154,7
+3155,7
@@
uint8_t BuildTCIStatesToAddModList(struct PDSCH_Config__tci_StatesToAddModList *
sizeof(struct PDSCH_Config__prb_BundlingType__staticBundling));
if(!prbBndlType->choice.staticBundling)
{
sizeof(struct PDSCH_Config__prb_BundlingType__staticBundling));
if(!prbBndlType->choice.staticBundling)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildPdschPrbBundlingType");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildPdschPrbBundlingType");
return RFAILED;
}
prbBndlType->choice.staticBundling->bundleSize = NULLP;
return RFAILED;
}
prbBndlType->choice.staticBundling->bundleSize = NULLP;
@@
-3187,7
+3188,7
@@
uint8_t BuildBWPDlDedPdschCfg(struct PDSCH_Config *pdschCfg)
sizeof(struct PDSCH_Config__dmrs_DownlinkForPDSCH_MappingTypeA));
if(!pdschCfg->dmrs_DownlinkForPDSCH_MappingTypeA)
{
sizeof(struct PDSCH_Config__dmrs_DownlinkForPDSCH_MappingTypeA));
if(!pdschCfg->dmrs_DownlinkForPDSCH_MappingTypeA)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildBWPDlDedPdschCfg");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildBWPDlDedPdschCfg");
return RFAILED;
}
return RFAILED;
}
@@
-3204,7
+3205,7
@@
uint8_t BuildBWPDlDedPdschCfg(struct PDSCH_Config *pdschCfg)
DU_ALLOC(pdschCfg->tci_StatesToAddModList, sizeof(struct PDSCH_Config__tci_StatesToAddModList));
if(!pdschCfg->tci_StatesToAddModList)
{
DU_ALLOC(pdschCfg->tci_StatesToAddModList, sizeof(struct PDSCH_Config__tci_StatesToAddModList));
if(!pdschCfg->tci_StatesToAddModList)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildBWPDlDedPdschCfg");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildBWPDlDedPdschCfg");
return RFAILED;
}
if(BuildTCIStatesToAddModList(pdschCfg->tci_StatesToAddModList) != ROK)
return RFAILED;
}
if(BuildTCIStatesToAddModList(pdschCfg->tci_StatesToAddModList) != ROK)
@@
-3220,7
+3221,7
@@
uint8_t BuildBWPDlDedPdschCfg(struct PDSCH_Config *pdschCfg)
sizeof(struct PDSCH_Config__pdsch_TimeDomainAllocationList));
if(!pdschCfg->pdsch_TimeDomainAllocationList)
{
sizeof(struct PDSCH_Config__pdsch_TimeDomainAllocationList));
if(!pdschCfg->pdsch_TimeDomainAllocationList)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildBWPDlDedPdschCfg");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildBWPDlDedPdschCfg");
return RFAILED;
}
return RFAILED;
}
@@
-3241,7
+3242,7
@@
uint8_t BuildBWPDlDedPdschCfg(struct PDSCH_Config *pdschCfg)
DU_ALLOC(pdschCfg->maxNrofCodeWordsScheduledByDCI, sizeof(long));
if(!pdschCfg->maxNrofCodeWordsScheduledByDCI)
{
DU_ALLOC(pdschCfg->maxNrofCodeWordsScheduledByDCI, sizeof(long));
if(!pdschCfg->maxNrofCodeWordsScheduledByDCI)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildBWPDlDedPdschCfg");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildBWPDlDedPdschCfg");
return RFAILED;
}
*(pdschCfg->maxNrofCodeWordsScheduledByDCI) = PDSCH_MAX_CODEWORD_SCH_BY_DCI;
return RFAILED;
}
*(pdschCfg->maxNrofCodeWordsScheduledByDCI) = PDSCH_MAX_CODEWORD_SCH_BY_DCI;
@@
-3283,7
+3284,7
@@
uint8_t BuildInitialDlBWP(BWP_DownlinkDedicated_t *dlBwp)
DU_ALLOC(dlBwp->pdcch_Config, sizeof(struct BWP_DownlinkDedicated__pdcch_Config));
if(!dlBwp->pdcch_Config)
{
DU_ALLOC(dlBwp->pdcch_Config, sizeof(struct BWP_DownlinkDedicated__pdcch_Config));
if(!dlBwp->pdcch_Config)
{
- DU_LOG("\nF1AP : Memory Allocation failure in BuildInitialDlBWP");
+ DU_LOG("\n
ERROR -->
F1AP : Memory Allocation failure in BuildInitialDlBWP");
return RFAILED;
}
dlBwp->pdcch_Config->present = BWP_DownlinkDedicated__pdcch_Config_PR_setup;
return RFAILED;
}
dlBwp->pdcch_Config->present = BWP_DownlinkDedicated__pdcch_Config_PR_setup;
@@
-3292,7
+3293,7
@@
uint8_t BuildInitialDlBWP(BWP_DownlinkDedicated_t *dlBwp)
DU_ALLOC(dlBwp->pdcch_Config->choice.setup, sizeof(struct PDCCH_Config));
if(!dlBwp->pdcch_Config->choice.setup)
{
DU_ALLOC(dlBwp->pdcch_Config->choice.setup, sizeof(struct PDCCH_Config));
if(!dlBwp->pdcch_Config->choice.setup)
{
- DU_LOG("\nF1AP : Memory Allocation failure in BuildInitialDlBWP");
+ DU_LOG("\n
ERROR -->
F1AP : Memory Allocation failure in BuildInitialDlBWP");
return RFAILED;
}
if(BuildBWPDlDedPdcchCfg(dlBwp->pdcch_Config->choice.setup) != ROK)
return RFAILED;
}
if(BuildBWPDlDedPdcchCfg(dlBwp->pdcch_Config->choice.setup) != ROK)
@@
-3304,7
+3305,7
@@
uint8_t BuildInitialDlBWP(BWP_DownlinkDedicated_t *dlBwp)
DU_ALLOC(dlBwp->pdsch_Config, sizeof(struct BWP_DownlinkDedicated__pdsch_Config));
if(!dlBwp->pdsch_Config)
{
DU_ALLOC(dlBwp->pdsch_Config, sizeof(struct BWP_DownlinkDedicated__pdsch_Config));
if(!dlBwp->pdsch_Config)
{
- DU_LOG("\nF1AP : Memory Allocation failure in BuildInitialDlBWP");
+ DU_LOG("\n
ERROR -->
F1AP : Memory Allocation failure in BuildInitialDlBWP");
return RFAILED;
}
dlBwp->pdsch_Config->present = BWP_DownlinkDedicated__pdsch_Config_PR_setup;
return RFAILED;
}
dlBwp->pdsch_Config->present = BWP_DownlinkDedicated__pdsch_Config_PR_setup;
@@
-3313,7
+3314,7
@@
uint8_t BuildInitialDlBWP(BWP_DownlinkDedicated_t *dlBwp)
DU_ALLOC(dlBwp->pdsch_Config->choice.setup, sizeof(struct PDSCH_Config));
if(!dlBwp->pdsch_Config->choice.setup)
{
DU_ALLOC(dlBwp->pdsch_Config->choice.setup, sizeof(struct PDSCH_Config));
if(!dlBwp->pdsch_Config->choice.setup)
{
- DU_LOG("\nF1AP : Memory Allocation failure in BuildInitialDlBWP");
+ DU_LOG("\n
ERROR -->
F1AP : Memory Allocation failure in BuildInitialDlBWP");
return RFAILED;
}
return RFAILED;
}
@@
-3353,7
+3354,7
@@
uint8_t BuildInitialDlBWP(BWP_DownlinkDedicated_t *dlBwp)
DU_ALLOC(dmrsUlCfg->choice.setup, sizeof(DMRS_UplinkConfig_t));
if(!dmrsUlCfg->choice.setup)
{
DU_ALLOC(dmrsUlCfg->choice.setup, sizeof(DMRS_UplinkConfig_t));
if(!dmrsUlCfg->choice.setup)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildDMRSULPuschMapTypeA");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildDMRSULPuschMapTypeA");
return RFAILED;
}
return RFAILED;
}
@@
-3362,7
+3363,7
@@
uint8_t BuildInitialDlBWP(BWP_DownlinkDedicated_t *dlBwp)
DU_ALLOC(dmrsUlCfg->choice.setup->dmrs_AdditionalPosition, sizeof(long));
if(!dmrsUlCfg->choice.setup->dmrs_AdditionalPosition)
{
DU_ALLOC(dmrsUlCfg->choice.setup->dmrs_AdditionalPosition, sizeof(long));
if(!dmrsUlCfg->choice.setup->dmrs_AdditionalPosition)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildDMRSULPuschMapTypeA");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildDMRSULPuschMapTypeA");
return RFAILED;
}
*(dmrsUlCfg->choice.setup->dmrs_AdditionalPosition) = DMRS_ADDITIONAL_POS;
return RFAILED;
}
*(dmrsUlCfg->choice.setup->dmrs_AdditionalPosition) = DMRS_ADDITIONAL_POS;
@@
-3374,7
+3375,7
@@
uint8_t BuildInitialDlBWP(BWP_DownlinkDedicated_t *dlBwp)
sizeof(struct DMRS_UplinkConfig__transformPrecodingDisabled));
if(!dmrsUlCfg->choice.setup->transformPrecodingDisabled)
{
sizeof(struct DMRS_UplinkConfig__transformPrecodingDisabled));
if(!dmrsUlCfg->choice.setup->transformPrecodingDisabled)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildDMRSULPuschMapTypeA");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildDMRSULPuschMapTypeA");
return RFAILED;
}
return RFAILED;
}
@@
-3383,7
+3384,7
@@
uint8_t BuildInitialDlBWP(BWP_DownlinkDedicated_t *dlBwp)
sizeof(long));
if(!dmrsUlCfg->choice.setup->transformPrecodingDisabled->scramblingID0)
{
sizeof(long));
if(!dmrsUlCfg->choice.setup->transformPrecodingDisabled->scramblingID0)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildDMRSULPuschMapTypeA");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildDMRSULPuschMapTypeA");
return RFAILED;
}
*(dmrsUlCfg->choice.setup->transformPrecodingDisabled->scramblingID0) = SCRAMBLING_ID;
return RFAILED;
}
*(dmrsUlCfg->choice.setup->transformPrecodingDisabled->scramblingID0) = SCRAMBLING_ID;
@@
-3425,7
+3426,7
@@
uint8_t BuildInitialDlBWP(BWP_DownlinkDedicated_t *dlBwp)
sizeof(struct PUSCH_TimeDomainResourceAllocationList));
if(!timeDomAllocList->choice.setup)
{
sizeof(struct PUSCH_TimeDomainResourceAllocationList));
if(!timeDomAllocList->choice.setup)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildPuschTimeDomAllocList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildPuschTimeDomAllocList");
return RFAILED;
}
return RFAILED;
}
@@
-3438,7
+3439,7
@@
uint8_t BuildInitialDlBWP(BWP_DownlinkDedicated_t *dlBwp)
timeDomAllocList->choice.setup->list.size);
if(!timeDomAllocList->choice.setup->list.array)
{
timeDomAllocList->choice.setup->list.size);
if(!timeDomAllocList->choice.setup->list.array)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildPuschTimeDomAllocList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildPuschTimeDomAllocList");
return RFAILED;
}
return RFAILED;
}
@@
-3449,7
+3450,7
@@
uint8_t BuildInitialDlBWP(BWP_DownlinkDedicated_t *dlBwp)
sizeof(PUSCH_TimeDomainResourceAllocation_t));
if(!timeDomAllocList->choice.setup->list.array[idx])
{
sizeof(PUSCH_TimeDomainResourceAllocation_t));
if(!timeDomAllocList->choice.setup->list.array[idx])
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildPuschTimeDomAllocList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildPuschTimeDomAllocList");
return RFAILED;
}
}
return RFAILED;
}
}
@@
-3459,7
+3460,7
@@
uint8_t BuildInitialDlBWP(BWP_DownlinkDedicated_t *dlBwp)
DU_ALLOC(timeDomAlloc->k2, sizeof(long));
if(!timeDomAlloc->k2)
{
DU_ALLOC(timeDomAlloc->k2, sizeof(long));
if(!timeDomAlloc->k2)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildPuschTimeDomAllocList");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildPuschTimeDomAllocList");
return RFAILED;
}
*(timeDomAlloc->k2) = PUSCH_K2;
return RFAILED;
}
*(timeDomAlloc->k2) = PUSCH_K2;
@@
-3491,7
+3492,7
@@
uint8_t BuildBWPUlDedPuschCfg(PUSCH_Config_t *puschCfg)
DU_ALLOC(puschCfg->dataScramblingIdentityPUSCH, sizeof(long));
if(!puschCfg->dataScramblingIdentityPUSCH)
{
DU_ALLOC(puschCfg->dataScramblingIdentityPUSCH, sizeof(long));
if(!puschCfg->dataScramblingIdentityPUSCH)
{
- DU_LOG("\n
F1AP
: Memory allocation failed in BuildBWPUlDedPuschCfg");
+ DU_LOG("\n
ERROR --> F1AP
: Memory allocation failed in BuildBWPUlDedPuschCfg");
return RFAILED;
}
*(puschCfg->dataScramblingIdentityPUSCH) = SCRAMBLING_ID;
return RFAILED;
}
*(puschCfg->dataScramblingIdentityPUSCH) = SCRAMBLING_ID;
@@
-3502,7
+3503,7
@@
uint8_t BuildBWPUlDedPuschCfg(PUSCH_Config_t *puschCfg)
sizeof(struct PUSCH_Config__dmrs_UplinkForPUSCH_MappingTypeA));
if(!puschCfg->dmrs_UplinkForPUSCH_MappingTypeA)
{
sizeof(struct PUSCH_Config__dmrs_UplinkForPUSCH_MappingTypeA));
if(!puschCfg->dmrs_UplinkForPUSCH_MappingTypeA)
{
- DU_LOG("\n
F1AP
: Memory allocation failed in BuildBWPUlDedPuschCfg");
+ DU_LOG("\n
ERROR --> F1AP
: Memory allocation failed in BuildBWPUlDedPuschCfg");
return RFAILED;
}
return RFAILED;
}
@@
-3522,7
+3523,7
@@
uint8_t BuildBWPUlDedPuschCfg(PUSCH_Config_t *puschCfg)
sizeof(struct PUSCH_Config__pusch_TimeDomainAllocationList));
if(!puschCfg->pusch_TimeDomainAllocationList)
{
sizeof(struct PUSCH_Config__pusch_TimeDomainAllocationList));
if(!puschCfg->pusch_TimeDomainAllocationList)
{
- DU_LOG("\n
F1AP
: Memory allocation failed in BuildBWPUlDedPuschCfg");
+ DU_LOG("\n
ERROR --> F1AP
: Memory allocation failed in BuildBWPUlDedPuschCfg");
return RFAILED;
}
return RFAILED;
}
@@
-3538,7
+3539,7
@@
uint8_t BuildBWPUlDedPuschCfg(PUSCH_Config_t *puschCfg)
DU_ALLOC(puschCfg->transformPrecoder, sizeof(long));
if(!puschCfg->transformPrecoder)
{
DU_ALLOC(puschCfg->transformPrecoder, sizeof(long));
if(!puschCfg->transformPrecoder)
{
- DU_LOG("\n
F1AP
: Memory allocation failed in BuildBWPUlDedPuschCfg");
+ DU_LOG("\n
ERROR --> F1AP
: Memory allocation failed in BuildBWPUlDedPuschCfg");
return RFAILED;
}
*(puschCfg->transformPrecoder) = PUSCH_TRANSFORM_PRECODER;
return RFAILED;
}
*(puschCfg->transformPrecoder) = PUSCH_TRANSFORM_PRECODER;
@@
-3579,7
+3580,7
@@
uint8_t BuildSrsRsrcAddModList(struct SRS_Config__srs_ResourceToAddModList *reso
DU_ALLOC(resourceList->list.array, resourceList->list.size);
if(!resourceList->list.array)
{
DU_ALLOC(resourceList->list.array, resourceList->list.size);
if(!resourceList->list.array)
{
- DU_LOG("\n
F1AP
: Memory allocation failed in BuildSrsRsrcAddModList");
+ DU_LOG("\n
ERROR --> F1AP
: Memory allocation failed in BuildSrsRsrcAddModList");
return RFAILED;
}
return RFAILED;
}
@@
-3588,7
+3589,7
@@
uint8_t BuildSrsRsrcAddModList(struct SRS_Config__srs_ResourceToAddModList *reso
DU_ALLOC(resourceList->list.array[rsrcIdx], sizeof(SRS_Resource_t));
if(!resourceList->list.array[rsrcIdx])
{
DU_ALLOC(resourceList->list.array[rsrcIdx], sizeof(SRS_Resource_t));
if(!resourceList->list.array[rsrcIdx])
{
- DU_LOG("\n
F1AP
: Memory allocation failed in BuildSrsRsrcAddModList");
+ DU_LOG("\n
ERROR --> F1AP
: Memory allocation failed in BuildSrsRsrcAddModList");
return RFAILED;
}
}
return RFAILED;
}
}
@@
-3603,7
+3604,7
@@
uint8_t BuildSrsRsrcAddModList(struct SRS_Config__srs_ResourceToAddModList *reso
sizeof(struct SRS_Resource__transmissionComb__n2));
if(!resourceList->list.array[rsrcIdx]->transmissionComb.choice.n2)
{
sizeof(struct SRS_Resource__transmissionComb__n2));
if(!resourceList->list.array[rsrcIdx]->transmissionComb.choice.n2)
{
- DU_LOG("\n
F1AP
: Memory allocation failed in BuildSrsRsrcAddModList");
+ DU_LOG("\n
ERROR --> F1AP
: Memory allocation failed in BuildSrsRsrcAddModList");
return RFAILED;
}
resourceList->list.array[rsrcIdx]->transmissionComb.choice.n2->combOffset_n2\
return RFAILED;
}
resourceList->list.array[rsrcIdx]->transmissionComb.choice.n2->combOffset_n2\
@@
-3634,7
+3635,7
@@
uint8_t BuildSrsRsrcAddModList(struct SRS_Config__srs_ResourceToAddModList *reso
sizeof(struct SRS_Resource__resourceType__aperiodic));
if(!resourceList->list.array[rsrcIdx]->resourceType.choice.aperiodic)
{
sizeof(struct SRS_Resource__resourceType__aperiodic));
if(!resourceList->list.array[rsrcIdx]->resourceType.choice.aperiodic)
{
- DU_LOG("\n
F1AP
: Memory allocation failed in BuildSrsRsrcAddModList");
+ DU_LOG("\n
ERROR --> F1AP
: Memory allocation failed in BuildSrsRsrcAddModList");
return RFAILED;
}
resourceList->list.array[rsrcIdx]->sequenceId = SRS_SEQ_ID;
return RFAILED;
}
resourceList->list.array[rsrcIdx]->sequenceId = SRS_SEQ_ID;
@@
-3674,7
+3675,7
@@
uint8_t BuildSrsRsrcAddModList(struct SRS_Config__srs_ResourceToAddModList *reso
DU_ALLOC(rsrcSetList->list.array, rsrcSetList->list.size);
if(!rsrcSetList->list.array)
{
DU_ALLOC(rsrcSetList->list.array, rsrcSetList->list.size);
if(!rsrcSetList->list.array)
{
- DU_LOG("\n
F1AP
: Memory allocation failed in BuildSrsRsrcSetAddModList");
+ DU_LOG("\n
ERROR --> F1AP
: Memory allocation failed in BuildSrsRsrcSetAddModList");
return RFAILED;
}
return RFAILED;
}
@@
-3683,7
+3684,7
@@
uint8_t BuildSrsRsrcAddModList(struct SRS_Config__srs_ResourceToAddModList *reso
DU_ALLOC(rsrcSetList->list.array[rSetIdx], sizeof(SRS_ResourceSet_t));
if(!rsrcSetList->list.array[rSetIdx])
{
DU_ALLOC(rsrcSetList->list.array[rSetIdx], sizeof(SRS_ResourceSet_t));
if(!rsrcSetList->list.array[rSetIdx])
{
- DU_LOG("\n
F1AP
: Memory allocation failed in BuildSrsRsrcSetAddModList");
+ DU_LOG("\n
ERROR --> F1AP
: Memory allocation failed in BuildSrsRsrcSetAddModList");
return RFAILED;
}
}
return RFAILED;
}
}
@@
-3697,7
+3698,7
@@
uint8_t BuildSrsRsrcAddModList(struct SRS_Config__srs_ResourceToAddModList *reso
sizeof(struct SRS_ResourceSet__srs_ResourceIdList));
if(!rsrcSetList->list.array[rSetIdx]->srs_ResourceIdList)
{
sizeof(struct SRS_ResourceSet__srs_ResourceIdList));
if(!rsrcSetList->list.array[rSetIdx]->srs_ResourceIdList)
{
- DU_LOG("\n
F1AP
: Memory allocation failed in BuildSrsRsrcSetAddModList");
+ DU_LOG("\n
ERROR --> F1AP
: Memory allocation failed in BuildSrsRsrcSetAddModList");
return RFAILED;
}
return RFAILED;
}
@@
-3709,7
+3710,7
@@
uint8_t BuildSrsRsrcAddModList(struct SRS_Config__srs_ResourceToAddModList *reso
DU_ALLOC(rsrcIdList->list.array, rsrcIdList->list.size);
if(!rsrcIdList->list.array)
{
DU_ALLOC(rsrcIdList->list.array, rsrcIdList->list.size);
if(!rsrcIdList->list.array)
{
- DU_LOG("\n
F1AP
: Memory allocation failed in BuildSrsRsrcSetAddModList");
+ DU_LOG("\n
ERROR --> F1AP
: Memory allocation failed in BuildSrsRsrcSetAddModList");
return RFAILED;
}
return RFAILED;
}
@@
-3718,7
+3719,7
@@
uint8_t BuildSrsRsrcAddModList(struct SRS_Config__srs_ResourceToAddModList *reso
DU_ALLOC(rsrcIdList->list.array[rsrcIdx], sizeof(SRS_ResourceId_t));
if(!rsrcIdList->list.array[rsrcIdx])
{
DU_ALLOC(rsrcIdList->list.array[rsrcIdx], sizeof(SRS_ResourceId_t));
if(!rsrcIdList->list.array[rsrcIdx])
{
- DU_LOG("\n
F1AP
: Memory allocation failed in BuildSrsRsrcSetAddModList");
+ DU_LOG("\n
ERROR --> F1AP
: Memory allocation failed in BuildSrsRsrcSetAddModList");
return RFAILED;
}
}
return RFAILED;
}
}
@@
-3735,7
+3736,7
@@
uint8_t BuildSrsRsrcAddModList(struct SRS_Config__srs_ResourceToAddModList *reso
sizeof(struct SRS_ResourceSet__resourceType__aperiodic));
if(!rsrcSetList->list.array[rSetIdx]->resourceType.choice.aperiodic)
{
sizeof(struct SRS_ResourceSet__resourceType__aperiodic));
if(!rsrcSetList->list.array[rSetIdx]->resourceType.choice.aperiodic)
{
- DU_LOG("\n
F1AP
: Memory allocation failed in BuildSrsRsrcSetAddModList");
+ DU_LOG("\n
ERROR --> F1AP
: Memory allocation failed in BuildSrsRsrcSetAddModList");
return RFAILED;
}
rsrcSetList->list.array[rSetIdx]->resourceType.choice.aperiodic->aperiodicSRS_ResourceTrigger \
return RFAILED;
}
rsrcSetList->list.array[rSetIdx]->resourceType.choice.aperiodic->aperiodicSRS_ResourceTrigger \
@@
-3778,7
+3779,7
@@
uint8_t BuildBWPUlDedSrsCfg(SRS_Config_t *srsCfg)
sizeof(struct SRS_Config__srs_ResourceSetToAddModList));
if(!srsCfg->srs_ResourceSetToAddModList)
{
sizeof(struct SRS_Config__srs_ResourceSetToAddModList));
if(!srsCfg->srs_ResourceSetToAddModList)
{
- DU_LOG("\n
F1AP
: Memory allocation failed in BuildBWPUlDedSrsCfg");
+ DU_LOG("\n
ERROR --> F1AP
: Memory allocation failed in BuildBWPUlDedSrsCfg");
return RFAILED;
}
if(BuildSrsRsrcSetAddModList(srsCfg->srs_ResourceSetToAddModList) != ROK)
return RFAILED;
}
if(BuildSrsRsrcSetAddModList(srsCfg->srs_ResourceSetToAddModList) != ROK)
@@
-3794,7
+3795,7
@@
uint8_t BuildBWPUlDedSrsCfg(SRS_Config_t *srsCfg)
sizeof(struct SRS_Config__srs_ResourceToAddModList));
if(!srsCfg->srs_ResourceToAddModList)
{
sizeof(struct SRS_Config__srs_ResourceToAddModList));
if(!srsCfg->srs_ResourceToAddModList)
{
- DU_LOG("\n
F1AP
: Memory allocation failed in BuildBWPUlDedSrsCfg");
+ DU_LOG("\n
ERROR --> F1AP
: Memory allocation failed in BuildBWPUlDedSrsCfg");
return RFAILED;
}
return RFAILED;
}
@@
-3833,7
+3834,7
@@
uint8_t BuildPuschSrvCellCfg(struct UplinkConfig__pusch_ServingCellConfig *pusch
DU_ALLOC(puschCfg->choice.setup, sizeof(struct PUSCH_ServingCellConfig));
if(!puschCfg->choice.setup)
{
DU_ALLOC(puschCfg->choice.setup, sizeof(struct PUSCH_ServingCellConfig));
if(!puschCfg->choice.setup)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildPuschSrvCellCfg");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildPuschSrvCellCfg");
return RFAILED;
}
return RFAILED;
}
@@
-3844,7
+3845,7
@@
uint8_t BuildPuschSrvCellCfg(struct UplinkConfig__pusch_ServingCellConfig *pusch
DU_ALLOC(puschCfg->choice.setup->ext1, sizeof(struct PUSCH_ServingCellConfig__ext1));
if(!puschCfg->choice.setup->ext1)
{
DU_ALLOC(puschCfg->choice.setup->ext1, sizeof(struct PUSCH_ServingCellConfig__ext1));
if(!puschCfg->choice.setup->ext1)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildPuschSrvCellCfg");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildPuschSrvCellCfg");
return RFAILED;
}
return RFAILED;
}
@@
-3852,7
+3853,7
@@
uint8_t BuildPuschSrvCellCfg(struct UplinkConfig__pusch_ServingCellConfig *pusch
DU_ALLOC(puschCfg->choice.setup->ext1->maxMIMO_Layers, sizeof(long));
if(!puschCfg->choice.setup->ext1->maxMIMO_Layers)
{
DU_ALLOC(puschCfg->choice.setup->ext1->maxMIMO_Layers, sizeof(long));
if(!puschCfg->choice.setup->ext1->maxMIMO_Layers)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildPuschSrvCellCfg");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildPuschSrvCellCfg");
return RFAILED;
}
*(puschCfg->choice.setup->ext1->maxMIMO_Layers) = PUSCH_MAX_MIMO_LAYERS;
return RFAILED;
}
*(puschCfg->choice.setup->ext1->maxMIMO_Layers) = PUSCH_MAX_MIMO_LAYERS;
@@
-3861,7
+3862,7
@@
uint8_t BuildPuschSrvCellCfg(struct UplinkConfig__pusch_ServingCellConfig *pusch
DU_ALLOC(puschCfg->choice.setup->ext1->processingType2Enabled,sizeof(BOOLEAN_t));
if(!puschCfg->choice.setup->ext1->processingType2Enabled)
{
DU_ALLOC(puschCfg->choice.setup->ext1->processingType2Enabled,sizeof(BOOLEAN_t));
if(!puschCfg->choice.setup->ext1->processingType2Enabled)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildPuschSrvCellCfg");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildPuschSrvCellCfg");
return RFAILED;
}
*(puschCfg->choice.setup->ext1->processingType2Enabled) = PUSCH_PROCESS_TYPE2_ENABLED;
return RFAILED;
}
*(puschCfg->choice.setup->ext1->processingType2Enabled) = PUSCH_PROCESS_TYPE2_ENABLED;
@@
-3892,7
+3893,7
@@
uint8_t BuildInitialUlBWP(BWP_UplinkDedicated_t *ulBwp)
DU_ALLOC(ulBwp->pusch_Config, sizeof(struct BWP_UplinkDedicated__pusch_Config));
if(!ulBwp->pusch_Config)
{
DU_ALLOC(ulBwp->pusch_Config, sizeof(struct BWP_UplinkDedicated__pusch_Config));
if(!ulBwp->pusch_Config)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildInitialUlBWP");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildInitialUlBWP");
return RFAILED;
}
return RFAILED;
}
@@
-3901,7
+3902,7
@@
uint8_t BuildInitialUlBWP(BWP_UplinkDedicated_t *ulBwp)
DU_ALLOC(ulBwp->pusch_Config->choice.setup, sizeof(PUSCH_Config_t));
if(!ulBwp->pusch_Config->choice.setup)
{
DU_ALLOC(ulBwp->pusch_Config->choice.setup, sizeof(PUSCH_Config_t));
if(!ulBwp->pusch_Config->choice.setup)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildInitialUlBWP");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildInitialUlBWP");
return RFAILED;
}
return RFAILED;
}
@@
-3917,7
+3918,7
@@
uint8_t BuildInitialUlBWP(BWP_UplinkDedicated_t *ulBwp)
DU_ALLOC(ulBwp->srs_Config, sizeof(struct BWP_UplinkDedicated__srs_Config));
if(!ulBwp->srs_Config)
{
DU_ALLOC(ulBwp->srs_Config, sizeof(struct BWP_UplinkDedicated__srs_Config));
if(!ulBwp->srs_Config)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildInitialUlBWP");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildInitialUlBWP");
return RFAILED;
}
return RFAILED;
}
@@
-3926,7
+3927,7
@@
uint8_t BuildInitialUlBWP(BWP_UplinkDedicated_t *ulBwp)
DU_ALLOC(ulBwp->srs_Config->choice.setup, sizeof(SRS_Config_t));
if(!ulBwp->srs_Config->choice.setup)
{
DU_ALLOC(ulBwp->srs_Config->choice.setup, sizeof(SRS_Config_t));
if(!ulBwp->srs_Config->choice.setup)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildInitialUlBWP");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildInitialUlBWP");
return RFAILED;
}
return RFAILED;
}
@@
-3961,7
+3962,7
@@
uint8_t BuildUlCfg(UplinkConfig_t *ulCfg)
DU_ALLOC(ulCfg->initialUplinkBWP, sizeof(BWP_UplinkDedicated_t));
if(!ulCfg->initialUplinkBWP)
{
DU_ALLOC(ulCfg->initialUplinkBWP, sizeof(BWP_UplinkDedicated_t));
if(!ulCfg->initialUplinkBWP)
{
- DU_LOG("\nF1AP : Memory Allocation failed in BuildUlCfg");
+ DU_LOG("\n
ERROR -->
F1AP : Memory Allocation failed in BuildUlCfg");
return RFAILED;
}
return RFAILED;
}
@@
-3976,7
+3977,7
@@
uint8_t BuildUlCfg(UplinkConfig_t *ulCfg)
DU_ALLOC(ulCfg->firstActiveUplinkBWP_Id, sizeof(BWP_Id_t));
if(!ulCfg->firstActiveUplinkBWP_Id)
{
DU_ALLOC(ulCfg->firstActiveUplinkBWP_Id, sizeof(BWP_Id_t));
if(!ulCfg->firstActiveUplinkBWP_Id)
{
- DU_LOG("\nF1AP : Memory Allocation failed in BuildUlCfg");
+ DU_LOG("\n
ERROR -->
F1AP : Memory Allocation failed in BuildUlCfg");
return RFAILED;
}
*(ulCfg->firstActiveUplinkBWP_Id) = ACTIVE_UL_BWP_ID;
return RFAILED;
}
*(ulCfg->firstActiveUplinkBWP_Id) = ACTIVE_UL_BWP_ID;
@@
-3986,7
+3987,7
@@
uint8_t BuildUlCfg(UplinkConfig_t *ulCfg)
sizeof(struct UplinkConfig__pusch_ServingCellConfig));
if(!ulCfg->pusch_ServingCellConfig)
{
sizeof(struct UplinkConfig__pusch_ServingCellConfig));
if(!ulCfg->pusch_ServingCellConfig)
{
- DU_LOG("\nF1AP : Memory Allocation failed in BuildUlCfg");
+ DU_LOG("\n
ERROR -->
F1AP : Memory Allocation failed in BuildUlCfg");
return RFAILED;
}
return RFAILED;
}
@@
-4022,7
+4023,7
@@
uint8_t BuildPdschSrvCellCfg(struct ServingCellConfig__pdsch_ServingCellConfig *
DU_ALLOC(pdschCfg->choice.setup, sizeof( struct PDSCH_ServingCellConfig));
if(!pdschCfg->choice.setup)
{
DU_ALLOC(pdschCfg->choice.setup, sizeof( struct PDSCH_ServingCellConfig));
if(!pdschCfg->choice.setup)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildPdschSrvCellCfg");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildPdschSrvCellCfg");
return RFAILED;
}
return RFAILED;
}
@@
-4032,7
+4033,7
@@
uint8_t BuildPdschSrvCellCfg(struct ServingCellConfig__pdsch_ServingCellConfig *
DU_ALLOC(pdschCfg->choice.setup->nrofHARQ_ProcessesForPDSCH, sizeof(long));
if(!pdschCfg->choice.setup->nrofHARQ_ProcessesForPDSCH)
{
DU_ALLOC(pdschCfg->choice.setup->nrofHARQ_ProcessesForPDSCH, sizeof(long));
if(!pdschCfg->choice.setup->nrofHARQ_ProcessesForPDSCH)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildPdschSrvCellCfg");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildPdschSrvCellCfg");
return RFAILED;
}
*(pdschCfg->choice.setup->nrofHARQ_ProcessesForPDSCH)= PDSCH_NUM_HARQ_PROC;
return RFAILED;
}
*(pdschCfg->choice.setup->nrofHARQ_ProcessesForPDSCH)= PDSCH_NUM_HARQ_PROC;
@@
-4084,7
+4085,7
@@
uint8_t BuildSpCellCfgDed(ServingCellConfig_t *srvCellCfg)
DU_ALLOC(srvCellCfg->tdd_UL_DL_ConfigurationDedicated, sizeof(TDD_UL_DL_ConfigDedicated_t));
if(!srvCellCfg->tdd_UL_DL_ConfigurationDedicated)
{
DU_ALLOC(srvCellCfg->tdd_UL_DL_ConfigurationDedicated, sizeof(TDD_UL_DL_ConfigDedicated_t));
if(!srvCellCfg->tdd_UL_DL_ConfigurationDedicated)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildSpCellCfgDed");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildSpCellCfgDed");
return RFAILED;
}
return RFAILED;
}
@@
-4092,13
+4093,13
@@
uint8_t BuildSpCellCfgDed(ServingCellConfig_t *srvCellCfg)
DU_ALLOC(srvCellCfg->initialDownlinkBWP, sizeof(BWP_DownlinkDedicated_t));
if(!srvCellCfg->initialDownlinkBWP)
{
DU_ALLOC(srvCellCfg->initialDownlinkBWP, sizeof(BWP_DownlinkDedicated_t));
if(!srvCellCfg->initialDownlinkBWP)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildSpCellCfgDed");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildSpCellCfgDed");
return RFAILED;
}
if(BuildInitialDlBWP(srvCellCfg->initialDownlinkBWP) != ROK)
{
return RFAILED;
}
if(BuildInitialDlBWP(srvCellCfg->initialDownlinkBWP) != ROK)
{
- DU_LOG("\nF1AP : BuildInitialDlBWP failed");
+ DU_LOG("\n
ERROR -->
F1AP : BuildInitialDlBWP failed");
return RFAILED;
}
srvCellCfg->downlinkBWP_ToReleaseList = NULLP;
return RFAILED;
}
srvCellCfg->downlinkBWP_ToReleaseList = NULLP;
@@
-4108,7
+4109,7
@@
uint8_t BuildSpCellCfgDed(ServingCellConfig_t *srvCellCfg)
DU_ALLOC(srvCellCfg->firstActiveDownlinkBWP_Id, sizeof(long));
if(!srvCellCfg->firstActiveDownlinkBWP_Id)
{
DU_ALLOC(srvCellCfg->firstActiveDownlinkBWP_Id, sizeof(long));
if(!srvCellCfg->firstActiveDownlinkBWP_Id)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildSpCellCfgDed");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildSpCellCfgDed");
return RFAILED;
}
*(srvCellCfg->firstActiveDownlinkBWP_Id) = ACTIVE_DL_BWP_ID;
return RFAILED;
}
*(srvCellCfg->firstActiveDownlinkBWP_Id) = ACTIVE_DL_BWP_ID;
@@
-4119,7
+4120,7
@@
uint8_t BuildSpCellCfgDed(ServingCellConfig_t *srvCellCfg)
DU_ALLOC(srvCellCfg->defaultDownlinkBWP_Id, sizeof(long));
if(!srvCellCfg->defaultDownlinkBWP_Id)
{
DU_ALLOC(srvCellCfg->defaultDownlinkBWP_Id, sizeof(long));
if(!srvCellCfg->defaultDownlinkBWP_Id)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildSpCellCfgDed");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildSpCellCfgDed");
return RFAILED;
}
*(srvCellCfg->defaultDownlinkBWP_Id) = ACTIVE_DL_BWP_ID;
return RFAILED;
}
*(srvCellCfg->defaultDownlinkBWP_Id) = ACTIVE_DL_BWP_ID;
@@
-4128,13
+4129,13
@@
uint8_t BuildSpCellCfgDed(ServingCellConfig_t *srvCellCfg)
DU_ALLOC(srvCellCfg->uplinkConfig, sizeof(UplinkConfig_t));
if(!srvCellCfg->uplinkConfig)
{
DU_ALLOC(srvCellCfg->uplinkConfig, sizeof(UplinkConfig_t));
if(!srvCellCfg->uplinkConfig)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildSpCellCfgDed");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildSpCellCfgDed");
return RFAILED;
}
if(BuildUlCfg(srvCellCfg->uplinkConfig) != ROK)
{
return RFAILED;
}
if(BuildUlCfg(srvCellCfg->uplinkConfig) != ROK)
{
- DU_LOG("\nF1AP : BuildUlCfg failed");
+ DU_LOG("\n
ERROR -->
F1AP : BuildUlCfg failed");
return RFAILED;
}
srvCellCfg->supplementaryUplink = NULLP;
return RFAILED;
}
srvCellCfg->supplementaryUplink = NULLP;
@@
-4144,13
+4145,13
@@
uint8_t BuildSpCellCfgDed(ServingCellConfig_t *srvCellCfg)
DU_ALLOC(srvCellCfg->pdsch_ServingCellConfig, sizeof(struct ServingCellConfig__pdsch_ServingCellConfig));
if(!srvCellCfg->pdsch_ServingCellConfig)
{
DU_ALLOC(srvCellCfg->pdsch_ServingCellConfig, sizeof(struct ServingCellConfig__pdsch_ServingCellConfig));
if(!srvCellCfg->pdsch_ServingCellConfig)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildSpCellCfgDed");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildSpCellCfgDed");
return RFAILED;
}
if(BuildPdschSrvCellCfg(srvCellCfg->pdsch_ServingCellConfig) != ROK)
{
return RFAILED;
}
if(BuildPdschSrvCellCfg(srvCellCfg->pdsch_ServingCellConfig) != ROK)
{
- DU_LOG("\nF1AP : BuildPdschSrvCellCfg failed");
+ DU_LOG("\n
ERROR -->
F1AP : BuildPdschSrvCellCfg failed");
return RFAILED;
}
return RFAILED;
}
@@
-4159,7
+4160,7
@@
uint8_t BuildSpCellCfgDed(ServingCellConfig_t *srvCellCfg)
DU_ALLOC(srvCellCfg->csi_MeasConfig, sizeof(struct ServingCellConfig__csi_MeasConfig))
if(!srvCellCfg->csi_MeasConfig)
{
DU_ALLOC(srvCellCfg->csi_MeasConfig, sizeof(struct ServingCellConfig__csi_MeasConfig))
if(!srvCellCfg->csi_MeasConfig)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildSpCellCfgDed");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildSpCellCfgDed");
return RFAILED;
}
return RFAILED;
}
@@
-4202,7
+4203,7
@@
uint8_t BuildSpCellCfg(SpCellConfig_t *spCellCfg)
DU_ALLOC(spCellCfg->servCellIndex, sizeof(long));
if(!spCellCfg->servCellIndex)
{
DU_ALLOC(spCellCfg->servCellIndex, sizeof(long));
if(!spCellCfg->servCellIndex)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildSpCellCfg");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildSpCellCfg");
return RFAILED;
}
*(spCellCfg->servCellIndex) = SERV_CELL_IDX;
return RFAILED;
}
*(spCellCfg->servCellIndex) = SERV_CELL_IDX;
@@
-4213,7
+4214,7
@@
uint8_t BuildSpCellCfg(SpCellConfig_t *spCellCfg)
DU_ALLOC(spCellCfg->rlmInSyncOutOfSyncThreshold, sizeof(long));
if(!spCellCfg->rlmInSyncOutOfSyncThreshold)
{
DU_ALLOC(spCellCfg->rlmInSyncOutOfSyncThreshold, sizeof(long));
if(!spCellCfg->rlmInSyncOutOfSyncThreshold)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildSpCellCfg");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildSpCellCfg");
return RFAILED;
}
*(spCellCfg->rlmInSyncOutOfSyncThreshold) = RLM_SYNC_OUT_SYNC_THRESHOLD;
return RFAILED;
}
*(spCellCfg->rlmInSyncOutOfSyncThreshold) = RLM_SYNC_OUT_SYNC_THRESHOLD;
@@
-4222,12
+4223,12
@@
uint8_t BuildSpCellCfg(SpCellConfig_t *spCellCfg)
DU_ALLOC(spCellCfg->spCellConfigDedicated, sizeof(ServingCellConfig_t));
if(!spCellCfg->spCellConfigDedicated)
{
DU_ALLOC(spCellCfg->spCellConfigDedicated, sizeof(ServingCellConfig_t));
if(!spCellCfg->spCellConfigDedicated)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildSpCellCfg");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildSpCellCfg");
return RFAILED;
}
if(BuildSpCellCfgDed(spCellCfg->spCellConfigDedicated) != ROK)
{
return RFAILED;
}
if(BuildSpCellCfgDed(spCellCfg->spCellConfigDedicated) != ROK)
{
- DU_LOG("\nF1AP : BuildSpCellCfgDed failed");
+ DU_LOG("\n
ERROR -->
F1AP : BuildSpCellCfgDed failed");
return RFAILED;
}
return ROK;
return RFAILED;
}
return ROK;
@@
-4257,7
+4258,7
@@
uint8_t BuildPhyCellGrpCfg(PhysicalCellGroupConfig_t *phyCellGrpCfg)
DU_ALLOC(phyCellGrpCfg->p_NR_FR1, sizeof(long));
if(!phyCellGrpCfg->p_NR_FR1)
{
DU_ALLOC(phyCellGrpCfg->p_NR_FR1, sizeof(long));
if(!phyCellGrpCfg->p_NR_FR1)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildPhyCellGrpCfg");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildPhyCellGrpCfg");
return RFAILED;
}
*(phyCellGrpCfg->p_NR_FR1) = P_NR_FR1;
return RFAILED;
}
*(phyCellGrpCfg->p_NR_FR1) = P_NR_FR1;
@@
-4295,13
+4296,13
@@
uint8_t BuildMacCellGrpCfg(MAC_CellGroupConfig_t *macCellGrpCfg)
DU_ALLOC(macCellGrpCfg->schedulingRequestConfig, sizeof(struct SchedulingRequestConfig));
if(!macCellGrpCfg->schedulingRequestConfig)
{
DU_ALLOC(macCellGrpCfg->schedulingRequestConfig, sizeof(struct SchedulingRequestConfig));
if(!macCellGrpCfg->schedulingRequestConfig)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildMacCellGrpCfg");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildMacCellGrpCfg");
return RFAILED;
}
if(BuildSchedulingReqConfig(macCellGrpCfg->schedulingRequestConfig) != ROK)
{
return RFAILED;
}
if(BuildSchedulingReqConfig(macCellGrpCfg->schedulingRequestConfig) != ROK)
{
- DU_LOG("\nF1AP : BuildSchedulingReqConfig failed");
+ DU_LOG("\n
ERROR -->
F1AP : BuildSchedulingReqConfig failed");
return RFAILED;
}
return RFAILED;
}
@@
-4309,13
+4310,13
@@
uint8_t BuildMacCellGrpCfg(MAC_CellGroupConfig_t *macCellGrpCfg)
DU_ALLOC(macCellGrpCfg->bsr_Config, sizeof(struct BSR_Config));
if(!macCellGrpCfg->bsr_Config)
{
DU_ALLOC(macCellGrpCfg->bsr_Config, sizeof(struct BSR_Config));
if(!macCellGrpCfg->bsr_Config)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildMacCellGrpCfg");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildMacCellGrpCfg");
return RFAILED;
}
if(BuildBsrConfig(macCellGrpCfg->bsr_Config) != ROK)
{
return RFAILED;
}
if(BuildBsrConfig(macCellGrpCfg->bsr_Config) != ROK)
{
- DU_LOG("\nF1AP : BuildBsrConfig failed");
+ DU_LOG("\n
ERROR -->
F1AP : BuildBsrConfig failed");
return RFAILED;
}
return RFAILED;
}
@@
-4323,13
+4324,13
@@
uint8_t BuildMacCellGrpCfg(MAC_CellGroupConfig_t *macCellGrpCfg)
DU_ALLOC(macCellGrpCfg->tag_Config, sizeof(struct TAG_Config));
if(!macCellGrpCfg->tag_Config)
{
DU_ALLOC(macCellGrpCfg->tag_Config, sizeof(struct TAG_Config));
if(!macCellGrpCfg->tag_Config)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildMacCellGrpCfg");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildMacCellGrpCfg");
return RFAILED;
}
if(BuildTagConfig(macCellGrpCfg->tag_Config) != ROK)
{
return RFAILED;
}
if(BuildTagConfig(macCellGrpCfg->tag_Config) != ROK)
{
- DU_LOG("\nF1AP : BuildTagConfig failed");
+ DU_LOG("\n
ERROR -->
F1AP : BuildTagConfig failed");
return RFAILED;
}
return RFAILED;
}
@@
-4337,13
+4338,13
@@
uint8_t BuildMacCellGrpCfg(MAC_CellGroupConfig_t *macCellGrpCfg)
DU_ALLOC(macCellGrpCfg->phr_Config, sizeof(struct MAC_CellGroupConfig__phr_Config));
if(!macCellGrpCfg->phr_Config)
{
DU_ALLOC(macCellGrpCfg->phr_Config, sizeof(struct MAC_CellGroupConfig__phr_Config));
if(!macCellGrpCfg->phr_Config)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildMacCellGrpCfg");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildMacCellGrpCfg");
return RFAILED;
}
if(BuildPhrConfig(macCellGrpCfg->phr_Config) != ROK)
{
return RFAILED;
}
if(BuildPhrConfig(macCellGrpCfg->phr_Config) != ROK)
{
- DU_LOG("\nF1AP : BuildPhrConfig failed");
+ DU_LOG("\n
ERROR -->
F1AP : BuildPhrConfig failed");
return RFAILED;
}
return RFAILED;
}
@@
-5040,13
+5041,13
@@
uint8_t BuildDuToCuRrcContainer(DUtoCURRCContainer_t *duToCuRrcContainer)
DU_ALLOC(cellGrpCfg.rlc_BearerToAddModList, sizeof(struct CellGroupConfigRrc__rlc_BearerToAddModList));
if(!cellGrpCfg.rlc_BearerToAddModList)
{
DU_ALLOC(cellGrpCfg.rlc_BearerToAddModList, sizeof(struct CellGroupConfigRrc__rlc_BearerToAddModList));
if(!cellGrpCfg.rlc_BearerToAddModList)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildDuToCuRrcContainer");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildDuToCuRrcContainer");
ret = RFAILED;
break;
}
if(BuildRlcBearerToAddModList(cellGrpCfg.rlc_BearerToAddModList) != ROK)
{
ret = RFAILED;
break;
}
if(BuildRlcBearerToAddModList(cellGrpCfg.rlc_BearerToAddModList) != ROK)
{
- DU_LOG("\nF1AP : BuildRlcBearerToAddModList failed");
+ DU_LOG("\n
ERROR -->
F1AP : BuildRlcBearerToAddModList failed");
ret = RFAILED;
break;
}
ret = RFAILED;
break;
}
@@
-5056,13
+5057,13
@@
uint8_t BuildDuToCuRrcContainer(DUtoCURRCContainer_t *duToCuRrcContainer)
DU_ALLOC(cellGrpCfg.mac_CellGroupConfig, sizeof(MAC_CellGroupConfig_t));
if(!cellGrpCfg.mac_CellGroupConfig)
{
DU_ALLOC(cellGrpCfg.mac_CellGroupConfig, sizeof(MAC_CellGroupConfig_t));
if(!cellGrpCfg.mac_CellGroupConfig)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildDuToCuRrcContainer");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildDuToCuRrcContainer");
ret = RFAILED;
break;
}
if(BuildMacCellGrpCfg(cellGrpCfg.mac_CellGroupConfig) != ROK)
{
ret = RFAILED;
break;
}
if(BuildMacCellGrpCfg(cellGrpCfg.mac_CellGroupConfig) != ROK)
{
- DU_LOG("\nF1AP : BuildMacCellGrpCfg failed");
+ DU_LOG("\n
ERROR -->
F1AP : BuildMacCellGrpCfg failed");
ret = RFAILED;
break;
}
ret = RFAILED;
break;
}
@@
-5071,13
+5072,13
@@
uint8_t BuildDuToCuRrcContainer(DUtoCURRCContainer_t *duToCuRrcContainer)
DU_ALLOC(cellGrpCfg.physicalCellGroupConfig, sizeof(PhysicalCellGroupConfig_t));
if(!cellGrpCfg.physicalCellGroupConfig)
{
DU_ALLOC(cellGrpCfg.physicalCellGroupConfig, sizeof(PhysicalCellGroupConfig_t));
if(!cellGrpCfg.physicalCellGroupConfig)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildDuToCuRrcContainer");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildDuToCuRrcContainer");
ret = RFAILED;
break;
}
if(BuildPhyCellGrpCfg(cellGrpCfg.physicalCellGroupConfig) != ROK)
{
ret = RFAILED;
break;
}
if(BuildPhyCellGrpCfg(cellGrpCfg.physicalCellGroupConfig) != ROK)
{
- DU_LOG("\nF1AP : BuildPhyCellGrpCfg failed");
+ DU_LOG("\n
ERROR -->
F1AP : BuildPhyCellGrpCfg failed");
ret = RFAILED;
break;
}
ret = RFAILED;
break;
}
@@
-5086,13
+5087,13
@@
uint8_t BuildDuToCuRrcContainer(DUtoCURRCContainer_t *duToCuRrcContainer)
DU_ALLOC(cellGrpCfg.spCellConfig, sizeof(SpCellConfig_t));
if(!cellGrpCfg.spCellConfig)
{
DU_ALLOC(cellGrpCfg.spCellConfig, sizeof(SpCellConfig_t));
if(!cellGrpCfg.spCellConfig)
{
- DU_LOG("\nF1AP : Memory allocation failure in BuildDuToCuRrcContainer");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failure in BuildDuToCuRrcContainer");
ret = RFAILED;
break;
}
if(BuildSpCellCfg(cellGrpCfg.spCellConfig) != ROK)
{
ret = RFAILED;
break;
}
if(BuildSpCellCfg(cellGrpCfg.spCellConfig) != ROK)
{
- DU_LOG("\nF1AP : BuildSpCellCfg failed");
+ DU_LOG("\n
ERROR -->
F1AP : BuildSpCellCfg failed");
ret = RFAILED;
break;
}
ret = RFAILED;
break;
}
@@
-5109,14
+5110,14
@@
uint8_t BuildDuToCuRrcContainer(DUtoCURRCContainer_t *duToCuRrcContainer)
/* Encode results */
if(encRetVal.encoded == ENCODE_FAIL)
{
/* Encode results */
if(encRetVal.encoded == ENCODE_FAIL)
{
- DU_LOG( "\n F1AP : Could not encode DuToCuRrcContainer (at %s)\n",\
+ DU_LOG( "\n
ERROR -->
F1AP : Could not encode DuToCuRrcContainer (at %s)\n",\
encRetVal.failed_type ? encRetVal.failed_type->name : "unknown");
ret = RFAILED;
break;
}
else
{
encRetVal.failed_type ? encRetVal.failed_type->name : "unknown");
ret = RFAILED;
break;
}
else
{
- DU_LOG("\n F1AP : Created APER encoded buffer for DuToCuRrcContainer\n");
+ DU_LOG("\n
DEBUG -->
F1AP : Created APER encoded buffer for DuToCuRrcContainer\n");
for(int i=0; i< encBufSize; i++)
{
printf("%x",encBuf[i]);
for(int i=0; i< encBufSize; i++)
{
printf("%x",encBuf[i]);
@@
-5127,7
+5128,7
@@
uint8_t BuildDuToCuRrcContainer(DUtoCURRCContainer_t *duToCuRrcContainer)
DU_ALLOC(duToCuRrcContainer->buf, duToCuRrcContainer->size);
if(!duToCuRrcContainer->buf)
{
DU_ALLOC(duToCuRrcContainer->buf, duToCuRrcContainer->size);
if(!duToCuRrcContainer->buf)
{
- DU_LOG("\nF1AP : Memory allocation failed in BuildDuToCuRrcContainer");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in BuildDuToCuRrcContainer");
ret = RFAILED;
break;
}
ret = RFAILED;
break;
}
@@
-5227,7
+5228,7
@@
uint8_t freeInitUlRrcMsgTransfer(F1AP_PDU_t *f1apMsg)
}
else
{
}
else
{
- DU_LOG("\nDU_APP : Recevied F1ap Pdu is null at freeInitUlRrcMsgTransfer()");
+ DU_LOG("\n
ERROR -->
DU_APP : Recevied F1ap Pdu is null at freeInitUlRrcMsgTransfer()");
return RFAILED;
}
return ROK;
return RFAILED;
}
return ROK;
@@
-5263,18
+5264,18
@@
uint8_t BuildAndSendInitialRrcMsgTransfer(uint32_t gnbDuUeF1apId, uint16_t crnti
while(true)
{
while(true)
{
- DU_LOG("\n F1AP : Building RRC Setup Request\n");
+ DU_LOG("\n
INFO -->
F1AP : Building RRC Setup Request\n");
DU_ALLOC(f1apMsg, sizeof(F1AP_PDU_t));
if(f1apMsg == NULLP)
{
DU_ALLOC(f1apMsg, sizeof(F1AP_PDU_t));
if(f1apMsg == NULLP)
{
- DU_LOG(" F1AP : Memory allocation for F1AP-PDU failed");
+ DU_LOG("
ERROR -->
F1AP : Memory allocation for F1AP-PDU failed");
break;
}
f1apMsg->present = F1AP_PDU_PR_initiatingMessage;
DU_ALLOC(f1apMsg->choice.initiatingMessage,sizeof(InitiatingMessage_t));
if(f1apMsg->choice.initiatingMessage == NULLP)
{
break;
}
f1apMsg->present = F1AP_PDU_PR_initiatingMessage;
DU_ALLOC(f1apMsg->choice.initiatingMessage,sizeof(InitiatingMessage_t));
if(f1apMsg->choice.initiatingMessage == NULLP)
{
- DU_LOG(" F1AP : Memory allocation for F1AP-PDU failed");
+ DU_LOG("
ERROR -->
F1AP : Memory allocation for F1AP-PDU failed");
break;
}
f1apMsg->choice.initiatingMessage->procedureCode =\
break;
}
f1apMsg->choice.initiatingMessage->procedureCode =\
@@
-5292,7
+5293,7
@@
uint8_t BuildAndSendInitialRrcMsgTransfer(uint32_t gnbDuUeF1apId, uint16_t crnti
DU_ALLOC(initULRRCMsg->protocolIEs.list.array,initULRRCMsg->protocolIEs.list.size);
if(initULRRCMsg->protocolIEs.list.array == NULLP)
{
DU_ALLOC(initULRRCMsg->protocolIEs.list.array,initULRRCMsg->protocolIEs.list.size);
if(initULRRCMsg->protocolIEs.list.array == NULLP)
{
- DU_LOG(" F1AP : Memory allocation for\
+ DU_LOG("
ERROR -->
F1AP : Memory allocation for\
RRCSetupRequestMessageTransferIEs failed");
break;
}
RRCSetupRequestMessageTransferIEs failed");
break;
}
@@
-5352,7
+5353,7
@@
uint8_t BuildAndSendInitialRrcMsgTransfer(uint32_t gnbDuUeF1apId, uint16_t crnti
initULRRCMsg->protocolIEs.list.array[ieIdx]->value.choice.RRCContainer.size)
if(!initULRRCMsg->protocolIEs.list.array[ieIdx]->value.choice.RRCContainer.buf)
{
initULRRCMsg->protocolIEs.list.array[ieIdx]->value.choice.RRCContainer.size)
if(!initULRRCMsg->protocolIEs.list.array[ieIdx]->value.choice.RRCContainer.buf)
{
- DU_LOG(" F1AP : Memory allocation for RRCSetupRequestMessageTransferIEs failed");
+ DU_LOG("
ERROR -->
F1AP : Memory allocation for RRCSetupRequestMessageTransferIEs failed");
break;
}
break;
}
@@
-5382,7
+5383,7
@@
uint8_t BuildAndSendInitialRrcMsgTransfer(uint32_t gnbDuUeF1apId, uint16_t crnti
/* Encode results */
if(encRetVal.encoded == ENCODE_FAIL)
{
/* Encode results */
if(encRetVal.encoded == ENCODE_FAIL)
{
- DU_LOG( "\n F1AP : Could not encode Initial UL RRC Message Transfer\
+ DU_LOG( "\n
ERROR -->
F1AP : Could not encode Initial UL RRC Message Transfer\
structure (at %s)\n",encRetVal.failed_type ? \
encRetVal.failed_type->name : "unknown");
ret = RFAILED;
structure (at %s)\n",encRetVal.failed_type ? \
encRetVal.failed_type->name : "unknown");
ret = RFAILED;
@@
-5391,7
+5392,7
@@
uint8_t BuildAndSendInitialRrcMsgTransfer(uint32_t gnbDuUeF1apId, uint16_t crnti
else
{
else
{
- DU_LOG("\n F1AP : Created APER encoded buffer for Initial UL RRC\
+ DU_LOG("\n
DEBUG -->
F1AP : Created APER encoded buffer for Initial UL RRC\
Message transfer\n");
for(int i=0; i< encBufSize; i++)
{
Message transfer\n");
for(int i=0; i< encBufSize; i++)
{
@@
-5401,7
+5402,7
@@
uint8_t BuildAndSendInitialRrcMsgTransfer(uint32_t gnbDuUeF1apId, uint16_t crnti
/* Sending msg */
if(SendF1APMsg(DU_APP_MEM_REGION,DU_POOL) != ROK)
{
/* Sending msg */
if(SendF1APMsg(DU_APP_MEM_REGION,DU_POOL) != ROK)
{
- DU_LOG("\n F1AP : Sending Initial UL RRC Message Transfer Failed");
+ DU_LOG("\n
ERROR -->
F1AP : Sending Initial UL RRC Message Transfer Failed");
ret = RFAILED;
break;
}
ret = RFAILED;
break;
}
@@
-5494,7
+5495,7
@@
void freeRlcLcCfg(RlcBearerCfg *lcCfg)
break;
}
default:
break;
}
default:
- DU_LOG("\nDU_APP: Invalid Rlc Mode %d at freeRlcLcCfg()", lcCfg->rlcMode);
+ DU_LOG("\n
ERROR -->
DU_APP: Invalid Rlc Mode %d at freeRlcLcCfg()", lcCfg->rlcMode);
break;
}
memset(lcCfg, 0, sizeof(LcCfg));
break;
}
memset(lcCfg, 0, sizeof(LcCfg));
@@
-6492,7
+6493,7
@@
void extractRlcModeCfg(uint8_t rlcMode, RlcBearerCfg *rlcDbCfg, RLC_Config_t *lc
break;
}
default:
break;
}
default:
- DU_LOG("\nDUAPP: Invalid rlcMode %d at extractRlcCfgToAddMod()", rlcMode);
+ DU_LOG("\n
ERROR -->
DUAPP: Invalid rlcMode %d at extractRlcCfgToAddMod()", rlcMode);
break;
}
}
break;
}
}
@@
-6658,7
+6659,7
@@
uint8_t extractDrbCfg(DRBs_ToBeSetup_Item_t *drbItem, LcCfg *macLcToAdd)
DU_ALLOC_SHRABL_BUF(macLcToAdd->drbQos, sizeof(DrbQosInfo));
if(macLcToAdd->drbQos == NULLP)
{
DU_ALLOC_SHRABL_BUF(macLcToAdd->drbQos, sizeof(DrbQosInfo));
if(macLcToAdd->drbQos == NULLP)
{
- DU_LOG("\n DUAPP:Memory failed at allocating DrbQos at extractDrbCfg()");
+ DU_LOG("\n
ERROR -->
DUAPP:Memory failed at allocating DrbQos at extractDrbCfg()");
return RFAILED;
}
return RFAILED;
}
@@
-6673,7
+6674,7
@@
uint8_t extractDrbCfg(DRBs_ToBeSetup_Item_t *drbItem, LcCfg *macLcToAdd)
DU_ALLOC_SHRABL_BUF(macLcToAdd->snssai, sizeof(Snssai));
if(macLcToAdd->snssai == NULLP)
{
DU_ALLOC_SHRABL_BUF(macLcToAdd->snssai, sizeof(Snssai));
if(macLcToAdd->snssai == NULLP)
{
- DU_LOG("\n
DUAPP:
Memory failed at allocating SNSSAI at extractDrbCfg()");
+ DU_LOG("\n
ERROR --> DUAPP :
Memory failed at allocating SNSSAI at extractDrbCfg()");
return RFAILED;
}
}
return RFAILED;
}
}
@@
-6698,7
+6699,7
@@
uint8_t extractMacRbCfg(uint8_t lcId, DRBs_ToBeSetup_Item_t *drbCfg, LogicalChan
ret = extractDrbCfg(drbCfg, lcCfg);
if(ret == RFAILED)
{
ret = extractDrbCfg(drbCfg, lcCfg);
if(ret == RFAILED)
{
- DU_LOG("
F1AP
: Failed to build Drb Qos at extractMacRbCfg()");
+ DU_LOG("
ERROR --> F1AP
: Failed to build Drb Qos at extractMacRbCfg()");
return ret;
}
}
return ret;
}
}
@@
-6782,7
+6783,7
@@
uint8_t extractRlcCfgToAddMod(struct CellGroupConfigRrc__rlc_BearerToAddModList
}
else
{
}
else
{
- DU_LOG("\n No components present in Bearer config to ADD/MOD");
+ DU_LOG("\n
ERROR -->
No components present in Bearer config to ADD/MOD");
return RFAILED;
}
/* MAC UL LC Config */
return RFAILED;
}
/* MAC UL LC Config */
@@
-6793,7
+6794,7
@@
uint8_t extractRlcCfgToAddMod(struct CellGroupConfigRrc__rlc_BearerToAddModList
}
else
{
}
else
{
- DU_LOG("\nDUAPP: Received RadioBearer config is NULL");
+ DU_LOG("\n
ERROR -->
DUAPP: Received RadioBearer config is NULL");
return RFAILED;
}
/* RLC Mode Config */
return RFAILED;
}
/* RLC Mode Config */
@@
-6810,7
+6811,7
@@
uint8_t extractRlcCfgToAddMod(struct CellGroupConfigRrc__rlc_BearerToAddModList
ret = procMacLcCfg(lcId, rbType, CONFIG_UNKNOWN, NULL, macUlLcCfg, &ueCfgDb->macLcCfg[idx]);
if(ret == RFAILED)
{
ret = procMacLcCfg(lcId, rbType, CONFIG_UNKNOWN, NULL, macUlLcCfg, &ueCfgDb->macLcCfg[idx]);
if(ret == RFAILED)
{
- DU_LOG("\n
DUAPP
: Failed while filling MAC LC config at extractRlcCfgToAddMod()");
+ DU_LOG("\n
ERROR --> DU APP
: Failed while filling MAC LC config at extractRlcCfgToAddMod()");
return ret;
}
(ueCfgDb->numRlcLcs)++;
return ret;
}
(ueCfgDb->numRlcLcs)++;
@@
-7260,7
+7261,7
@@
uint8_t extractPdschServingCellCfg(PDSCH_ServingCellConfig_t *cuPdschSrvCellCfg,
}
else
{
}
else
{
- DU_LOG("\n
DUAPP
: Memory allocation failed for maxCodeBlkGrpPerTb at extractPdschServingCellCfg()");
+ DU_LOG("\n
ERROR --> DU APP
: Memory allocation failed for maxCodeBlkGrpPerTb at extractPdschServingCellCfg()");
return RFAILED;
}
}
return RFAILED;
}
}
@@
-7279,7
+7280,7
@@
uint8_t extractPdschServingCellCfg(PDSCH_ServingCellConfig_t *cuPdschSrvCellCfg,
}
else
{
}
else
{
- DU_LOG("\n
DUAPP
: Memory allocation failed for codeBlkGrpFlushInd at extractPdschServingCellCfg()");
+ DU_LOG("\n
ERROR --> DU APP
: Memory allocation failed for codeBlkGrpFlushInd at extractPdschServingCellCfg()");
return RFAILED;
}
}
return RFAILED;
}
}
@@
-7306,7
+7307,7
@@
uint8_t extractPdschServingCellCfg(PDSCH_ServingCellConfig_t *cuPdschSrvCellCfg,
}
else
{
}
else
{
- DU_LOG("\n
DUAPP
: Memory allocation failed for maxMimoLayers at extractPdschServingCellCfg()");
+ DU_LOG("\n
ERROR --> DU APP
: Memory allocation failed for maxMimoLayers at extractPdschServingCellCfg()");
return RFAILED;
}
}
return RFAILED;
}
}
@@
-7327,7
+7328,7
@@
uint8_t extractPdschServingCellCfg(PDSCH_ServingCellConfig_t *cuPdschSrvCellCfg,
}
else
{
}
else
{
- DU_LOG("\n
DUAPP
: Memory allocation failed for xOverhead at extractPdschServingCellCfg()");
+ DU_LOG("\n
ERROR --> DU APP
: Memory allocation failed for xOverhead at extractPdschServingCellCfg()");
return RFAILED;
}
}
return RFAILED;
}
}
@@
-7750,7
+7751,7
@@
void fillPucchSchedReqPeriodAndOffset(uint8_t macPeriodicty, uint16_t macOffset
break;
}
default :
break;
}
default :
- DU_LOG("\nERROR --> F1AP : Invalid periodicity %d", macPeriodicty);
+ DU_LOG("\nERROR -->
F1AP : Invalid periodicity %d", macPeriodicty);
}
}
}
}
@@
-8279,7
+8280,7
@@
void freeAperDecodeCuToDuInfo(CUtoDURRCInformation_t *rrcMsg)
}
break;
default:
}
break;
default:
- DU_LOG("\n
F1AP:
Invalid Event type %ld at FreeCuToDuInfo()", \
+ DU_LOG("\n
ERROR --> F1AP :
Invalid Event type %ld at FreeCuToDuInfo()", \
rrcMsg->iE_Extensions->list.array[ieIdx]->id);
break;
}
rrcMsg->iE_Extensions->list.array[ieIdx]->id);
break;
}
@@
-8589,7
+8590,7
@@
uint8_t procUeReCfgCellInfo(MacUeCfg *macUeCfg, void *cellInfo)
cellGrp = (CellGroupConfigRrc_t *)cellInfo;
ret = extractUeReCfgCellInfo(cellGrp, macUeCfg);
if(ret == RFAILED)
cellGrp = (CellGroupConfigRrc_t *)cellInfo;
ret = extractUeReCfgCellInfo(cellGrp, macUeCfg);
if(ret == RFAILED)
- DU_LOG("\n
F1AP
: Failed at procUeReCfgCellInfo()");
+ DU_LOG("\n
ERROR --> F1AP
: Failed at procUeReCfgCellInfo()");
}
if(ret == RFAILED)
{
}
if(ret == RFAILED)
{
@@
-8653,7
+8654,7
@@
void duFillModulationDetails(MacUeCfg *ueCfg, MacUeCfg *oldUeCfg, void *ueCap)
}
default:
{
}
default:
{
- DU_LOG("\nDU APP: Incorrect downlink modulation order received. Reatining old modulation configuration");
+ DU_LOG("\n
ERROR -->
DU APP: Incorrect downlink modulation order received. Reatining old modulation configuration");
memcpy(&ueCfg->dlModInfo, &oldUeCfg->dlModInfo, sizeof(ModulationInfo));
break;
}
memcpy(&ueCfg->dlModInfo, &oldUeCfg->dlModInfo, sizeof(ModulationInfo));
break;
}
@@
-8695,7
+8696,7
@@
void duFillModulationDetails(MacUeCfg *ueCfg, MacUeCfg *oldUeCfg, void *ueCap)
}
default:
{
}
default:
{
- DU_LOG("\nDU APP: Incorrect uplink modulation order received. Reatining old modulation configuration");
+ DU_LOG("\n
ERROR -->
DU APP: Incorrect uplink modulation order received. Reatining old modulation configuration");
memcpy(&ueCfg->ulModInfo, &oldUeCfg->ulModInfo, sizeof(ModulationInfo));
break;
}
memcpy(&ueCfg->ulModInfo, &oldUeCfg->ulModInfo, sizeof(ModulationInfo));
break;
}
@@
-8755,7
+8756,7
@@
CellGroupConfigRrc_t *extractCellGrpInfo(ProtocolExtensionContainer_4624P16_t *p
extIeInfo->extensionValue.choice.CellGroupConfig.buf, recvBufLen, 0, 0);
if(rval.code == RC_FAIL || rval.code == RC_WMORE)
{
extIeInfo->extensionValue.choice.CellGroupConfig.buf, recvBufLen, 0, 0);
if(rval.code == RC_FAIL || rval.code == RC_WMORE)
{
- DU_LOG("\nF1AP : ASN decode failed at decodeCellGrpCfg()");
+ DU_LOG("\n
ERROR -->
F1AP : ASN decode failed at decodeCellGrpCfg()");
return NULLP;
}
xer_fprint(stdout, &asn_DEF_CellGroupConfigRrc, cellGrpCfg);
return NULLP;
}
xer_fprint(stdout, &asn_DEF_CellGroupConfigRrc, cellGrpCfg);
@@
-8765,7
+8766,7
@@
CellGroupConfigRrc_t *extractCellGrpInfo(ProtocolExtensionContainer_4624P16_t *p
break;
}
default:
break;
}
default:
- DU_LOG("\nF1AP : Invalid IE received CUtoDURRCInformation:%d at decodeCellGrpCfg()", id);
+ DU_LOG("\n
ERROR -->
F1AP : Invalid IE received CUtoDURRCInformation:%d at decodeCellGrpCfg()", id);
break;
}
}
break;
}
}
@@
-8800,7
+8801,7
@@
uint8_t procSrbListToSetup(SRBs_ToBeSetup_Item_t * srbItem, LcCfg *macLcToAdd, R
ret = procMacLcCfg(srbItem->sRBID, RB_TYPE_SRB, CONFIG_ADD, NULL, NULL, macLcToAdd);
if(ret == RFAILED)
{
ret = procMacLcCfg(srbItem->sRBID, RB_TYPE_SRB, CONFIG_ADD, NULL, NULL, macLcToAdd);
if(ret == RFAILED)
{
- DU_LOG("\n
F1AP:
Failed at MAC LC Cfg in procSrbListToSetup()");
+ DU_LOG("\n
ERROR --> F1AP :
Failed at MAC LC Cfg in procSrbListToSetup()");
return ret;
}
return ret;
return ret;
}
return ret;
@@
-8837,13
+8838,13
@@
uint8_t extractSrbListToSetup(SRBs_ToBeSetup_List_t *srbCfg, DuUeCfg *ueCfgDb)
srbItem = &srbCfg->list.array[srbIdx]->value.choice.SRBs_ToBeSetup_Item;
if(ueCfgDb->numMacLcs > MAX_NUM_LC)
{
srbItem = &srbCfg->list.array[srbIdx]->value.choice.SRBs_ToBeSetup_Item;
if(ueCfgDb->numMacLcs > MAX_NUM_LC)
{
- DU_LOG("\nF1AP: MAX LC Reached in MAC");
+ DU_LOG("\n
ERROR -->
F1AP: MAX LC Reached in MAC");
ret = RFAILED;
break;
}
if(ueCfgDb->numRlcLcs > MAX_NUM_LC)
{
ret = RFAILED;
break;
}
if(ueCfgDb->numRlcLcs > MAX_NUM_LC)
{
- DU_LOG("\nF1AP: MAX LC Reached in RLC");
+ DU_LOG("\n
ERROR -->
F1AP: MAX LC Reached in RLC");
ret = RFAILED;
break;
}
ret = RFAILED;
break;
}
@@
-8855,7
+8856,7
@@
uint8_t extractSrbListToSetup(SRBs_ToBeSetup_List_t *srbCfg, DuUeCfg *ueCfgDb)
ueCfgDb->numMacLcs++;
if(ret == RFAILED)
{
ueCfgDb->numMacLcs++;
if(ret == RFAILED)
{
- DU_LOG("\nF1AP: Failed at extractSrbListToSetup()");
+ DU_LOG("\n
ERROR -->
F1AP: Failed at extractSrbListToSetup()");
break;
}
}
break;
}
}
@@
-8895,7
+8896,7
@@
uint8_t procDrbListToSetup(uint8_t lcId, DRBs_ToBeSetup_Item_t *drbItem, LcCfg *
ret = procMacLcCfg(lcId, RB_TYPE_DRB, CONFIG_ADD, drbItem, NULL, macLcToAdd);
if(ret == RFAILED)
{
ret = procMacLcCfg(lcId, RB_TYPE_DRB, CONFIG_ADD, drbItem, NULL, macLcToAdd);
if(ret == RFAILED)
{
- DU_LOG("\n
F1AP:
Failed at RLC LC Cfg in extractDrbListToSetup()");
+ DU_LOG("\n
ERROR --> F1AP :
Failed at RLC LC Cfg in extractDrbListToSetup()");
return ret;
}
return ret;
}
@@
-8932,13
+8933,13
@@
uint8_t extractDrbListToSetup(uint8_t lcId, DRBs_ToBeSetup_List_t *drbCfg, DuUeC
drbItem = &drbCfg->list.array[drbIdx]->value.choice.DRBs_ToBeSetup_Item;
if(ueCfgDb->numMacLcs > MAX_NUM_LC)
{
drbItem = &drbCfg->list.array[drbIdx]->value.choice.DRBs_ToBeSetup_Item;
if(ueCfgDb->numMacLcs > MAX_NUM_LC)
{
- DU_LOG("\nF1AP: MAX LC Reached in MAC ");
+ DU_LOG("\n
ERROR -->
F1AP: MAX LC Reached in MAC ");
ret = RFAILED;
break;
}
if(ueCfgDb->numRlcLcs > MAX_NUM_LC)
{
ret = RFAILED;
break;
}
if(ueCfgDb->numRlcLcs > MAX_NUM_LC)
{
- DU_LOG("\nF1AP: MAX LC Reached in RLC");
+ DU_LOG("\n
ERROR -->
F1AP: MAX LC Reached in RLC");
ret = RFAILED;
break;
}
ret = RFAILED;
break;
}
@@
-8950,7
+8951,7
@@
uint8_t extractDrbListToSetup(uint8_t lcId, DRBs_ToBeSetup_List_t *drbCfg, DuUeC
ueCfgDb->numMacLcs++;
if(ret == RFAILED)
{
ueCfgDb->numMacLcs++;
if(ret == RFAILED)
{
- DU_LOG("\n
F1AP
: Failed at extractDrbListToSetup()");
+ DU_LOG("\n
ERROR --> F1AP
: Failed at extractDrbListToSetup()");
break;
}
}
break;
}
}
@@
-8987,7
+8988,7
@@
uint8_t extractDlRrcMsg(uint32_t gnbDuUeF1apId, uint32_t gnbCuUeF1apId, \
DU_ALLOC_SHRABL_BUF(dlRrcMsg->rrcMsgPdu, dlRrcMsg->rrcMsgSize);
if(!dlRrcMsg->rrcMsgPdu)
{
DU_ALLOC_SHRABL_BUF(dlRrcMsg->rrcMsgPdu, dlRrcMsg->rrcMsgSize);
if(!dlRrcMsg->rrcMsgPdu)
{
- DU_LOG("\nDU APP : Memory allocation failed for RRC Msg in procUeCtxtSetupReq");
+ DU_LOG("\n
ERROR -->
DU APP : Memory allocation failed for RRC Msg in procUeCtxtSetupReq");
ret = RFAILED;
}
else
ret = RFAILED;
}
else
@@
-9029,7
+9030,7
@@
UE_NR_Capability_t *extractUeCapability(UE_CapabilityRAT_ContainerList_t *ueCapa
DU_ALLOC(ueCapRatContList, sizeof(UE_CapabilityRAT_ContainerListRRC_t));
if(!ueCapRatContList)
{
DU_ALLOC(ueCapRatContList, sizeof(UE_CapabilityRAT_ContainerListRRC_t));
if(!ueCapRatContList)
{
- DU_LOG("\nF1AP : Memory allocation failed in extractUeCapability");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in extractUeCapability");
return NULLP;
}
memset(ueCapRatContList, 0, sizeof(UE_CapabilityRAT_ContainerListRRC_t));
return NULLP;
}
memset(ueCapRatContList, 0, sizeof(UE_CapabilityRAT_ContainerListRRC_t));
@@
-9038,7
+9039,7
@@
UE_NR_Capability_t *extractUeCapability(UE_CapabilityRAT_ContainerList_t *ueCapa
ueCapablityListBuf->buf, recvBufLen, 0, 0);
if(rval.code == RC_FAIL || rval.code == RC_WMORE)
{
ueCapablityListBuf->buf, recvBufLen, 0, 0);
if(rval.code == RC_FAIL || rval.code == RC_WMORE)
{
- DU_LOG("\nF1AP : ASN decode failed at decodeCellGrpCfg()");
+ DU_LOG("\n
ERROR -->
F1AP : ASN decode failed at decodeCellGrpCfg()");
return NULLP;
}
xer_fprint(stdout, &asn_DEF_UE_CapabilityRAT_ContainerListRRC, ueCapRatContList);
return NULLP;
}
xer_fprint(stdout, &asn_DEF_UE_CapabilityRAT_ContainerListRRC, ueCapRatContList);
@@
-9054,7
+9055,7
@@
UE_NR_Capability_t *extractUeCapability(UE_CapabilityRAT_ContainerList_t *ueCapa
DU_ALLOC(ueNrCap, sizeof(UE_NR_Capability_t));
if(!ueNrCap)
{
DU_ALLOC(ueNrCap, sizeof(UE_NR_Capability_t));
if(!ueNrCap)
{
- DU_LOG("\nF1AP : Memory allocation failed in extractUeCapability");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in extractUeCapability");
DU_FREE(ueCapRatContList, sizeof(UE_CapabilityRAT_ContainerListRRC_t));
return NULLP;
}
DU_FREE(ueCapRatContList, sizeof(UE_CapabilityRAT_ContainerListRRC_t));
return NULLP;
}
@@
-9064,7
+9065,7
@@
UE_NR_Capability_t *extractUeCapability(UE_CapabilityRAT_ContainerList_t *ueCapa
ueCapRatContList->list.array[idx]->ue_CapabilityRAT_Container.buf, recvBufLen, 0, 0);
if(rval.code == RC_FAIL || rval.code == RC_WMORE)
{
ueCapRatContList->list.array[idx]->ue_CapabilityRAT_Container.buf, recvBufLen, 0, 0);
if(rval.code == RC_FAIL || rval.code == RC_WMORE)
{
- DU_LOG("\nF1AP : ASN decode failed at decodeCellGrpCfg()");
+ DU_LOG("\n
ERROR -->
F1AP : ASN decode failed at decodeCellGrpCfg()");
return NULLP;
}
xer_fprint(stdout, &asn_DEF_UE_NR_Capability, ueNrCap);
return NULLP;
}
xer_fprint(stdout, &asn_DEF_UE_NR_Capability, ueNrCap);
@@
-9156,7
+9157,7
@@
void freeAperDecodeF1UeContextSetupReq(UEContextSetupRequest_t *ueSetReq)
break;
}
default:
break;
}
default:
-
printf("\nF1AP: Invalid event type %ld"
,ueSetReq->protocolIEs.list.array[ieIdx]->id);
+
DU_LOG("\nERROR --> F1AP: Invalid event type %ld "
,ueSetReq->protocolIEs.list.array[ieIdx]->id);
}
free(ueSetReq->protocolIEs.list.array[ieIdx]);
}
}
free(ueSetReq->protocolIEs.list.array[ieIdx]);
}
@@
-9223,7
+9224,7
@@
uint8_t procF1UeContextSetupReq(F1AP_PDU_t *f1apMsg)
}
else
{
}
else
{
- DU_LOG("\nF1AP: Memory Alloc Failed at procF1UeContextSetupReq()");
+ DU_LOG("\n
ERROR -->
F1AP: Memory Alloc Failed at procF1UeContextSetupReq()");
ret = RFAILED;
}
}
ret = RFAILED;
}
}
@@
-9233,7
+9234,7
@@
uint8_t procF1UeContextSetupReq(F1AP_PDU_t *f1apMsg)
}
if(!ueCbFound)
{
}
if(!ueCbFound)
{
- DU_LOG("\nF1AP: DuUeCb is not found at procF1UeContextSetupReq()");
+ DU_LOG("\n
ERROR -->
F1AP: DuUeCb is not found at procF1UeContextSetupReq()");
ret = RFAILED;
}
break;
ret = RFAILED;
}
break;
@@
-9256,7
+9257,7
@@
uint8_t procF1UeContextSetupReq(F1AP_PDU_t *f1apMsg)
value.choice.CUtoDURRCInformation.iE_Extensions, &duUeCb->f1UeDb->duUeCfg);
if(!duUeCb->f1UeDb->duUeCfg.cellGrpCfg)
{
value.choice.CUtoDURRCInformation.iE_Extensions, &duUeCb->f1UeDb->duUeCfg);
if(!duUeCb->f1UeDb->duUeCfg.cellGrpCfg)
{
- DU_LOG("\n F1AP: Failed to extract cell Grp Info");
+ DU_LOG("\n
ERROR -->
F1AP: Failed to extract cell Grp Info");
//TODO: Update the failure cause in ue context Setup Response
ret = RFAILED;
}
//TODO: Update the failure cause in ue context Setup Response
ret = RFAILED;
}
@@
-9265,8
+9266,7
@@
uint8_t procF1UeContextSetupReq(F1AP_PDU_t *f1apMsg)
}
case ProtocolIE_ID_id_SCell_ToBeSetup_List:
{
}
case ProtocolIE_ID_id_SCell_ToBeSetup_List:
{
- DU_LOG("\nDU_APP: Received SCell to be added");
- DU_LOG("\nDU_APP: Not processing the SCell_ToBeSetup_List");
+ DU_LOG("\nINFO --> DU_APP: Received SCell_ToBeSetup_List but Not processing the list");
break;
}
case ProtocolIE_ID_id_SRBs_ToBeSetup_List:
break;
}
case ProtocolIE_ID_id_SRBs_ToBeSetup_List:
@@
-9274,7
+9274,7
@@
uint8_t procF1UeContextSetupReq(F1AP_PDU_t *f1apMsg)
if(extractSrbListToSetup(&ueSetReq->protocolIEs.list.array[ieIdx]->value.choice.SRBs_ToBeSetup_List,\
&duUeCb->f1UeDb->duUeCfg))
{
if(extractSrbListToSetup(&ueSetReq->protocolIEs.list.array[ieIdx]->value.choice.SRBs_ToBeSetup_List,\
&duUeCb->f1UeDb->duUeCfg))
{
- DU_LOG("\n
DU_APP
: Failed at extractSrbListToSetup()");
+ DU_LOG("\n
ERROR --> DU APP
: Failed at extractSrbListToSetup()");
//TODO: Update the failure cause in ue context Setup Response
ret = RFAILED;
}
//TODO: Update the failure cause in ue context Setup Response
ret = RFAILED;
}
@@
-9288,7
+9288,7
@@
uint8_t procF1UeContextSetupReq(F1AP_PDU_t *f1apMsg)
if(extractDrbListToSetup(lcId, &ueSetReq->protocolIEs.list.array[ieIdx]->value.choice.DRBs_ToBeSetup_List,\
&duUeCb->f1UeDb->duUeCfg))
{
if(extractDrbListToSetup(lcId, &ueSetReq->protocolIEs.list.array[ieIdx]->value.choice.DRBs_ToBeSetup_List,\
&duUeCb->f1UeDb->duUeCfg))
{
- DU_LOG("\n
DU_APP
: Failed at extractDrbListToSetup()");
+ DU_LOG("\n
ERROR --> DU APP
: Failed at extractDrbListToSetup()");
//TODO: Update the failure cause in ue context Setup Response
ret = RFAILED;
}
//TODO: Update the failure cause in ue context Setup Response
ret = RFAILED;
}
@@
-9303,7
+9303,7
@@
uint8_t procF1UeContextSetupReq(F1AP_PDU_t *f1apMsg)
DU_ALLOC_SHRABL_BUF(duUeCb->f1UeDb->dlRrcMsg, sizeof(F1DlRrcMsg));
if(!duUeCb->f1UeDb->dlRrcMsg)
{
DU_ALLOC_SHRABL_BUF(duUeCb->f1UeDb->dlRrcMsg, sizeof(F1DlRrcMsg));
if(!duUeCb->f1UeDb->dlRrcMsg)
{
- DU_LOG("\nDU APP : Memory allocation failed for DL RRC Msg in procUeCtxtSetupReq()");
+ DU_LOG("\n
ERROR -->
DU APP : Memory allocation failed for DL RRC Msg in procUeCtxtSetupReq()");
ret = RFAILED;
}
else
ret = RFAILED;
}
else
@@
-9322,7
+9322,7
@@
uint8_t procF1UeContextSetupReq(F1AP_PDU_t *f1apMsg)
}
else
{
}
else
{
- DU_LOG("\nIgnoring delivery report, since rrcContainer is not present");
+ DU_LOG("\n
ERROR -->
Ignoring delivery report, since rrcContainer is not present");
}
break;
}
}
break;
}
@@
-9335,7
+9335,7
@@
uint8_t procF1UeContextSetupReq(F1AP_PDU_t *f1apMsg)
DU_ALLOC_SHRABL_BUF(duUeCb->f1UeDb->duUeCfg.ambrCfg, bitRateSize);
if(!duUeCb->f1UeDb->duUeCfg.ambrCfg)
{
DU_ALLOC_SHRABL_BUF(duUeCb->f1UeDb->duUeCfg.ambrCfg, bitRateSize);
if(!duUeCb->f1UeDb->duUeCfg.ambrCfg)
{
- DU_LOG("\nDU APP : Memory allocation failed for bitRate in procUeCtxtSetupReq");
+ DU_LOG("\n
ERROR -->
DU APP : Memory allocation failed for bitRate in procUeCtxtSetupReq");
ret = RFAILED;
}
else
ret = RFAILED;
}
else
@@
-9360,7
+9360,7
@@
uint8_t procF1UeContextSetupReq(F1AP_PDU_t *f1apMsg)
{
/*TODO : Negative case*/
// BuildAndSendUeContextSetupRsp(ueIdx, cellId);
{
/*TODO : Negative case*/
// BuildAndSendUeContextSetupRsp(ueIdx, cellId);
- DU_LOG("F1AP: Failed to process UE CNTXT SETUP REQ at procF1UeContextSetupReq()");
+ DU_LOG("
\nERROR -->
F1AP: Failed to process UE CNTXT SETUP REQ at procF1UeContextSetupReq()");
}
else
ret = duProcUeContextSetupRequest(duUeCb);
}
else
ret = duProcUeContextSetupRequest(duUeCb);
@@
-9421,7
+9421,8
@@
void FreeUeContextSetupRsp(F1AP_PDU_t *f1apMsg)
break;
}
default:
break;
}
default:
- DU_LOG("\nDUAPP: Invalid Id %ld at FreeUeContextSetupRsp()", ueSetRsp->protocolIEs.list.array[idx]->id);
+ DU_LOG("\nERROR --> DUAPP: Invalid Id %ld at FreeUeContextSetupRsp()",\
+ ueSetRsp->protocolIEs.list.array[idx]->id);
break;
}
DU_FREE(ueSetRsp->protocolIEs.list.array[idx],\
break;
}
DU_FREE(ueSetRsp->protocolIEs.list.array[idx],\
@@
-9465,13
+9466,13
@@
uint8_t EncodeUeCntxtDuToCuInfo(CellGroupConfig_t *duToCuCellGrp, CellGroupConfi
/* Encode results */
if(encRetVal.encoded == ENCODE_FAIL)
{
/* Encode results */
if(encRetVal.encoded == ENCODE_FAIL)
{
- DU_LOG( "\n F1AP : Could not encode UeCntxtDuToCuInfo (at %s)\n",\
+ DU_LOG( "\n
ERROR -->
F1AP : Could not encode UeCntxtDuToCuInfo (at %s)\n",\
encRetVal.failed_type ? encRetVal.failed_type->name : "unknown");
return RFAILED;
}
else
{
encRetVal.failed_type ? encRetVal.failed_type->name : "unknown");
return RFAILED;
}
else
{
- DU_LOG("\n F1AP : Created APER encoded buffer for UeCntxtDuToCuInfo\n");
+ DU_LOG("\n
DEBUG -->
F1AP : Created APER encoded buffer for UeCntxtDuToCuInfo\n");
for(int i=0; i< encBufSize; i++)
{
printf("%x",encBuf[i]);
for(int i=0; i< encBufSize; i++)
{
printf("%x",encBuf[i]);
@@
-9481,7
+9482,7
@@
uint8_t EncodeUeCntxtDuToCuInfo(CellGroupConfig_t *duToCuCellGrp, CellGroupConfi
DU_ALLOC(duToCuCellGrp->buf, duToCuCellGrp->size);
if(!duToCuCellGrp->buf)
{
DU_ALLOC(duToCuCellGrp->buf, duToCuCellGrp->size);
if(!duToCuCellGrp->buf)
{
- DU_LOG("\nF1AP : Memory allocation failed in UeCntxtDuToCuInfo");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed in UeCntxtDuToCuInfo");
}
memcpy(duToCuCellGrp->buf, encBuf, duToCuCellGrp->size);
return ROK;
}
memcpy(duToCuCellGrp->buf, encBuf, duToCuCellGrp->size);
return ROK;
@@
-9515,14
+9516,14
@@
uint8_t BuildAndSendUeContextSetupRsp(uint8_t ueIdx, uint8_t cellId)
CellGroupConfigRrc_t *cellGrpCfg = NULLP;
DuUeCb *ueCb = NULLP;
CellGroupConfigRrc_t *cellGrpCfg = NULLP;
DuUeCb *ueCb = NULLP;
- DU_LOG("\n F1AP : Building UE Context Setup Response for cellId %d, ueIdx %d\n", cellId, ueIdx);
+ DU_LOG("\n
INFO -->
F1AP : Building UE Context Setup Response for cellId %d, ueIdx %d\n", cellId, ueIdx);
while(true)
{
DU_ALLOC(f1apMsg, sizeof(F1AP_PDU_t));
if(f1apMsg == NULLP)
{
while(true)
{
DU_ALLOC(f1apMsg, sizeof(F1AP_PDU_t));
if(f1apMsg == NULLP)
{
- DU_LOG(" F1AP : Memory allocation for F1AP-PDU failed");
+ DU_LOG("
ERROR -->
F1AP : Memory allocation for F1AP-PDU failed");
ret = RFAILED;
break;
}
ret = RFAILED;
break;
}
@@
-9532,7
+9533,7
@@
uint8_t BuildAndSendUeContextSetupRsp(uint8_t ueIdx, uint8_t cellId)
sizeof(SuccessfulOutcome_t));
if(f1apMsg->choice.successfulOutcome == NULLP)
{
sizeof(SuccessfulOutcome_t));
if(f1apMsg->choice.successfulOutcome == NULLP)
{
- DU_LOG("
F1AP : Memory allocation for
F1AP-PDU failed");
+ DU_LOG("
ERROR --> F1AP : Memory allocation for
F1AP-PDU failed");
ret = RFAILED;
break;
}
ret = RFAILED;
break;
}
@@
-9555,7
+9556,7
@@
uint8_t BuildAndSendUeContextSetupRsp(uint8_t ueIdx, uint8_t cellId)
ueSetRsp->protocolIEs.list.size);
if(ueSetRsp->protocolIEs.list.array == NULLP)
{
ueSetRsp->protocolIEs.list.size);
if(ueSetRsp->protocolIEs.list.array == NULLP)
{
- DU_LOG(" F1AP : Memory allocation for UE Setup Response failed");
+ DU_LOG("
ERROR -->
F1AP : Memory allocation for UE Setup Response failed");
ret = RFAILED;
break;
}
ret = RFAILED;
break;
}
@@
-9566,7
+9567,7
@@
uint8_t BuildAndSendUeContextSetupRsp(uint8_t ueIdx, uint8_t cellId)
sizeof(UEContextSetupResponseIEs_t));
if(ueSetRsp->protocolIEs.list.array[idx] == NULLP)
{
sizeof(UEContextSetupResponseIEs_t));
if(ueSetRsp->protocolIEs.list.array[idx] == NULLP)
{
- DU_LOG(" F1AP : Memory allocation for UE Setup Response failed");
+ DU_LOG("
ERROR -->
F1AP : Memory allocation for UE Setup Response failed");
ret = RFAILED;
break;
}
ret = RFAILED;
break;
}
@@
-9617,7
+9618,7
@@
uint8_t BuildAndSendUeContextSetupRsp(uint8_t ueIdx, uint8_t cellId)
}
else
{
}
else
{
- DU_LOG("\nF1AP: Failed to form DUtoCU RRCInfo at BuildAndSendUeContextSetupRsp()");
+ DU_LOG("\n
ERROR -->
F1AP: Failed to form DUtoCU RRCInfo at BuildAndSendUeContextSetupRsp()");
ret = RFAILED;
}
if(ret == RFAILED)
ret = RFAILED;
}
if(ret == RFAILED)
@@
-9633,14
+9634,14
@@
uint8_t BuildAndSendUeContextSetupRsp(uint8_t ueIdx, uint8_t cellId)
/* Encode results */
if(encRetVal.encoded == ENCODE_FAIL)
{
/* Encode results */
if(encRetVal.encoded == ENCODE_FAIL)
{
- DU_LOG( "\n F1AP : Could not encode UE Context Setup Request structure (at %s)\n",\
+ DU_LOG( "\n
ERROR -->
F1AP : Could not encode UE Context Setup Request structure (at %s)\n",\
encRetVal.failed_type ? encRetVal.failed_type->name : "unknown");
ret = RFAILED;
break;
}
else
{
encRetVal.failed_type ? encRetVal.failed_type->name : "unknown");
ret = RFAILED;
break;
}
else
{
- DU_LOG("\n F1AP : Created APER encoded buffer for UE Context Setup Request\n");
+ DU_LOG("\n
DEBUG -->
F1AP : Created APER encoded buffer for UE Context Setup Request\n");
for(int i=0; i< encBufSize; i++)
{
printf("%x",encBuf[i]);
for(int i=0; i< encBufSize; i++)
{
printf("%x",encBuf[i]);
@@
-9650,7
+9651,7
@@
uint8_t BuildAndSendUeContextSetupRsp(uint8_t ueIdx, uint8_t cellId)
/* Sending msg */
if(SendF1APMsg(DU_APP_MEM_REGION,DU_POOL) != ROK)
{
/* Sending msg */
if(SendF1APMsg(DU_APP_MEM_REGION,DU_POOL) != ROK)
{
- DU_LOG("\n F1AP : Sending UE Context Setup Request Failed");
+ DU_LOG("\n
ERROR -->
F1AP : Sending UE Context Setup Request Failed");
ret = RFAILED;
break;
}
ret = RFAILED;
break;
}
@@
-9690,7
+9691,7
@@
uint8_t BuildAndSendUeCtxtRsp(uint8_t ueIdx, uint8_t cellId)
//TODO: Build Ue context Modification Rsp
break;
default:
//TODO: Build Ue context Modification Rsp
break;
default:
- DU_LOG("F1AP: Invalid Action Type %d at BuildAndSendUeCtxtRsp()", actionType);
+ DU_LOG("
ERROR -->
F1AP: Invalid Action Type %d at BuildAndSendUeCtxtRsp()", actionType);
break;
}
break;
}
@@
-9764,7
+9765,7
@@
uint8_t BuildAndSendF1ResetReq()
Reset_t *f1ResetMsg = NULLP;
F1AP_PDU_t *f1apMsg = NULLP;
asn_enc_rval_t encRetVal;
Reset_t *f1ResetMsg = NULLP;
F1AP_PDU_t *f1apMsg = NULLP;
asn_enc_rval_t encRetVal;
- DU_LOG("\nF1AP : Building F1 Reset request \n");
+ DU_LOG("\n
INFO -->
F1AP : Building F1 Reset request \n");
do
{
DU_ALLOC(f1apMsg, sizeof(F1AP_PDU_t));
do
{
DU_ALLOC(f1apMsg, sizeof(F1AP_PDU_t));
@@
-9837,13
+9838,13
@@
uint8_t BuildAndSendF1ResetReq()
/* Encode results */
if(encRetVal.encoded == ENCODE_FAIL)
{
/* Encode results */
if(encRetVal.encoded == ENCODE_FAIL)
{
- DU_LOG("\nF1AP : Could not encode F1Reset structure (at %s)\n",\
+ DU_LOG("\n
ERROR -->
F1AP : Could not encode F1Reset structure (at %s)\n",\
encRetVal.failed_type ? encRetVal.failed_type->name : "unknown");
break;
}
else
{
encRetVal.failed_type ? encRetVal.failed_type->name : "unknown");
break;
}
else
{
- DU_LOG("\nF1AP : Created APER encoded buffer for F1Reset\n");
+ DU_LOG("\n
DEBUG -->
F1AP : Created APER encoded buffer for F1Reset\n");
for(idx=0; idx< encBufSize; idx++)
{
printf("%x",encBuf[idx]);
for(idx=0; idx< encBufSize; idx++)
{
printf("%x",encBuf[idx]);
@@
-9852,7
+9853,7
@@
uint8_t BuildAndSendF1ResetReq()
if(SendF1APMsg(DU_APP_MEM_REGION, DU_POOL) != ROK)
{
if(SendF1APMsg(DU_APP_MEM_REGION, DU_POOL) != ROK)
{
- DU_LOG("\nF1AP : Sending F1 Reset request failed");
+ DU_LOG("\n
ERROR -->
F1AP : Sending F1 Reset request failed");
break;
}
break;
}
@@
-9930,14
+9931,14
@@
uint8_t BuildAndSendF1ResetAck()
F1AP_PDU_t *f1apMsg = NULL;
ResetAcknowledge_t *f1ResetAck = NULLP;
asn_enc_rval_t encRetVal;
F1AP_PDU_t *f1apMsg = NULL;
ResetAcknowledge_t *f1ResetAck = NULLP;
asn_enc_rval_t encRetVal;
- DU_LOG("\nF1AP : Building F1 Reset Acknowledgment \n");
+ DU_LOG("\n
INFO -->
F1AP : Building F1 Reset Acknowledgment \n");
do{
/* Allocate the memory for F1ResetRequest_t */
DU_ALLOC(f1apMsg, sizeof(F1AP_PDU_t));
if(f1apMsg == NULLP)
{
do{
/* Allocate the memory for F1ResetRequest_t */
DU_ALLOC(f1apMsg, sizeof(F1AP_PDU_t));
if(f1apMsg == NULLP)
{
- DU_LOG("\nF1AP : Memory allocation for F1AP-PDU failed");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation for F1AP-PDU failed");
break;
}
break;
}
@@
-9946,7
+9947,7
@@
uint8_t BuildAndSendF1ResetAck()
DU_ALLOC(f1apMsg->choice.successfulOutcome, sizeof(SuccessfulOutcome_t));
if(f1apMsg->choice.successfulOutcome == NULLP)
{
DU_ALLOC(f1apMsg->choice.successfulOutcome, sizeof(SuccessfulOutcome_t));
if(f1apMsg->choice.successfulOutcome == NULLP)
{
- DU_LOG("\nF1AP : Memory allocation for F1AP-PDU failed");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation for F1AP-PDU failed");
break;
}
f1apMsg->choice.successfulOutcome->criticality = Criticality_reject;
break;
}
f1apMsg->choice.successfulOutcome->criticality = Criticality_reject;
@@
-9961,7
+9962,7
@@
uint8_t BuildAndSendF1ResetAck()
DU_ALLOC(f1ResetAck->protocolIEs.list.array, f1ResetAck->protocolIEs.list.size );
if(f1ResetAck->protocolIEs.list.array == NULLP)
{
DU_ALLOC(f1ResetAck->protocolIEs.list.array, f1ResetAck->protocolIEs.list.size );
if(f1ResetAck->protocolIEs.list.array == NULLP)
{
- DU_LOG("\nF1AP : Memory allocation for F1ResetAckIEs failed");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation for F1ResetAckIEs failed");
break;
}
break;
}
@@
-9990,13
+9991,13
@@
uint8_t BuildAndSendF1ResetAck()
/* Check encode results */
if(encRetVal.encoded == ENCODE_FAIL)
{
/* Check encode results */
if(encRetVal.encoded == ENCODE_FAIL)
{
- DU_LOG("\nF1AP : Could not encode F1ResetAck structure (at %s)\n",\
+ DU_LOG("\n
ERROR -->
F1AP : Could not encode F1ResetAck structure (at %s)\n",\
encRetVal.failed_type ? encRetVal.failed_type->name : "unknown");
break;
}
else
{
encRetVal.failed_type ? encRetVal.failed_type->name : "unknown");
break;
}
else
{
- DU_LOG("\nF1AP : Created APER encoded buffer for F1ResetAck\n");
+ DU_LOG("\n
DUBUG -->
F1AP : Created APER encoded buffer for F1ResetAck\n");
for(int i=0; i< encBufSize; i++)
{
printf("%x",encBuf[i]);
for(int i=0; i< encBufSize; i++)
{
printf("%x",encBuf[i]);
@@
-10005,7
+10006,7
@@
uint8_t BuildAndSendF1ResetAck()
/* Sending msg */
if(SendF1APMsg(DU_APP_MEM_REGION, DU_POOL) != ROK)
{
/* Sending msg */
if(SendF1APMsg(DU_APP_MEM_REGION, DU_POOL) != ROK)
{
- DU_LOG("\nF1AP : Sending F1 Reset Acknowledgement failed");
+ DU_LOG("\n
ERROR -->
F1AP : Sending F1 Reset Acknowledgement failed");
break;
}
break;
}
@@
-10069,7
+10070,7
@@
uint8_t procF1ResetReq(F1AP_PDU_t *f1apMsg)
uint8_t ret = ROK;
Reset_t *f1ResetMsg = NULLP;
uint8_t ret = ROK;
Reset_t *f1ResetMsg = NULLP;
- DU_LOG("\nProcessing F1 reset request");
+ DU_LOG("\n
INFO -->
Processing F1 reset request");
f1ResetMsg = &f1apMsg->choice.initiatingMessage->value.choice.Reset;
for(ieIdx=0; ieIdx<f1ResetMsg->protocolIEs.list.count; ieIdx++)
f1ResetMsg = &f1apMsg->choice.initiatingMessage->value.choice.Reset;
for(ieIdx=0; ieIdx<f1ResetMsg->protocolIEs.list.count; ieIdx++)
@@
-10084,7
+10085,6
@@
uint8_t procF1ResetReq(F1AP_PDU_t *f1apMsg)
case ProtocolIE_ID_id_ResetType:
{
case ProtocolIE_ID_id_ResetType:
{
- DU_LOG("\nReceived F1 Reset request");
break;
}
break;
}
@@
-10093,7
+10093,7
@@
uint8_t procF1ResetReq(F1AP_PDU_t *f1apMsg)
}
}
ret = BuildAndSendF1ResetAck();
}
}
ret = BuildAndSendF1ResetAck();
- DU_LOG("\nUE release is not supported for now");
+ DU_LOG("\n
INFO -->
UE release is not supported for now");
freeAperDecodeF1ResetMsg(f1ResetMsg);
freeAperDecodeF1ResetMsg(f1ResetMsg);
@@
-10175,18
+10175,18
@@
uint8_t BuildAndSendRrcDeliveryReport(uint32_t gnbCuUeF1apId, \
do{
do{
- DU_LOG("\nF1AP : Building RRC delivery Message Transfer Message\n");
+ DU_LOG("\n
INFO -->
F1AP : Building RRC delivery Message Transfer Message\n");
DU_ALLOC(f1apMsg, sizeof(F1AP_PDU_t));
if(f1apMsg == NULLP)
{
DU_ALLOC(f1apMsg, sizeof(F1AP_PDU_t));
if(f1apMsg == NULLP)
{
- DU_LOG(" F1AP : Memory allocation for F1AP-PDU failed");
+ DU_LOG("
ERROR -->
F1AP : Memory allocation for F1AP-PDU failed");
break;
}
f1apMsg->present = F1AP_PDU_PR_initiatingMessage;
DU_ALLOC(f1apMsg->choice.initiatingMessage,sizeof(InitiatingMessage_t));
if(f1apMsg->choice.initiatingMessage == NULLP)
{
break;
}
f1apMsg->present = F1AP_PDU_PR_initiatingMessage;
DU_ALLOC(f1apMsg->choice.initiatingMessage,sizeof(InitiatingMessage_t));
if(f1apMsg->choice.initiatingMessage == NULLP)
{
- DU_LOG(" F1AP : Memory allocation for F1AP-PDU failed");
+ DU_LOG("
ERROR -->
F1AP : Memory allocation for F1AP-PDU failed");
break;
}
f1apMsg->choice.initiatingMessage->procedureCode = ProcedureCode_id_RRCDeliveryReport;
break;
}
f1apMsg->choice.initiatingMessage->procedureCode = ProcedureCode_id_RRCDeliveryReport;
@@
-10202,7
+10202,7
@@
uint8_t BuildAndSendRrcDeliveryReport(uint32_t gnbCuUeF1apId, \
DU_ALLOC(rrcDeliveryReport->protocolIEs.list.array, rrcDeliveryReport->protocolIEs.list.size);
if(rrcDeliveryReport->protocolIEs.list.array == NULLP)
{
DU_ALLOC(rrcDeliveryReport->protocolIEs.list.array, rrcDeliveryReport->protocolIEs.list.size);
if(rrcDeliveryReport->protocolIEs.list.array == NULLP)
{
- DU_LOG(" F1AP : Memory allocation for RRC Delivery failed");
+ DU_LOG("
ERROR -->
F1AP : Memory allocation for RRC Delivery failed");
break;
}
for(idx =0 ;idx <elementCnt; idx++)
break;
}
for(idx =0 ;idx <elementCnt; idx++)
@@
-10257,13
+10257,13
@@
uint8_t BuildAndSendRrcDeliveryReport(uint32_t gnbCuUeF1apId, \
/* Encode results */
if(encRetVal.encoded == ENCODE_FAIL)
{
/* Encode results */
if(encRetVal.encoded == ENCODE_FAIL)
{
- DU_LOG("\nF1AP : Could not encode RRC Delivery Msg structure (at %s)\n",\
+ DU_LOG("\n
ERROR -->
F1AP : Could not encode RRC Delivery Msg structure (at %s)\n",\
encRetVal.failed_type ? encRetVal.failed_type->name : "unknown");
break;
}
else
{
encRetVal.failed_type ? encRetVal.failed_type->name : "unknown");
break;
}
else
{
- DU_LOG("\nF1AP : Created APER encoded buffer for RRC Delivery Msg \n");
+ DU_LOG("\n
DEBUG -->
F1AP : Created APER encoded buffer for RRC Delivery Msg \n");
for(idx=0; idx< encBufSize; idx++)
{
printf("%x",encBuf[idx]);
for(idx=0; idx< encBufSize; idx++)
{
printf("%x",encBuf[idx]);
@@
-10273,7
+10273,7
@@
uint8_t BuildAndSendRrcDeliveryReport(uint32_t gnbCuUeF1apId, \
/* Sending msg */
if(SendF1APMsg(DU_APP_MEM_REGION, DU_POOL) != ROK)
{
/* Sending msg */
if(SendF1APMsg(DU_APP_MEM_REGION, DU_POOL) != ROK)
{
- DU_LOG("\nF1AP : Sending RRC delivery msg request failed");
+ DU_LOG("\n
ERROR -->
F1AP : Sending RRC delivery msg request failed");
break;
}
ret = ROK;
break;
}
ret = ROK;
@@
-10422,7
+10422,7
@@
void freeAperDecodeF1SetupRsp(F1SetupResponse_t *f1SetRspMsg)
}
default:
{
}
default:
{
- DU_LOG("\nDU_APP : Invalid IE received in F1SetupRsp:%ld",
+ DU_LOG("\n
ERROR -->
DU_APP : Invalid IE received in F1SetupRsp:%ld",
f1SetRspMsg->protocolIEs.list.array[ieIdx]->id);
}
}
f1SetRspMsg->protocolIEs.list.array[ieIdx]->id);
}
}
@@
-10458,7
+10458,7
@@
uint8_t procF1SetupRsp(F1AP_PDU_t *f1apMsg)
memset(&f1SetRspDb, 0, sizeof(F1SetupRsp));
memset(&f1SetRspDb, 0, sizeof(F1SetupRsp));
- DU_LOG("\nF1AP : F1 Setup Response received");
+ DU_LOG("\n
INFO -->
F1AP : F1 Setup Response received");
f1SetRspMsg = &f1apMsg->choice.successfulOutcome->value.choice.F1SetupResponse;
for(idx=0; idx<f1SetRspMsg->protocolIEs.list.count; idx++)
f1SetRspMsg = &f1apMsg->choice.successfulOutcome->value.choice.F1SetupResponse;
for(idx=0; idx<f1SetRspMsg->protocolIEs.list.count; idx++)
@@
-10492,7
+10492,7
@@
uint8_t procF1SetupRsp(F1AP_PDU_t *f1apMsg)
break;
}
default:
break;
}
default:
- DU_LOG("\nDU_APP : Invalid IE received in F1SetupRsp:%ld",
+ DU_LOG("\n
ERROR -->
DU_APP : Invalid IE received in F1SetupRsp:%ld",
f1SetRspMsg->protocolIEs.list.array[idx]->id);
}
duProcF1SetupRsp();
f1SetRspMsg->protocolIEs.list.array[idx]->id);
}
duProcF1SetupRsp();
@@
-10550,9
+10550,10
@@
void freeAperDecodeGnbDuAck(GNBDUConfigurationUpdateAcknowledge_t *gnbDuAck)
* ****************************************************************/
uint8_t procF1GNBDUCfgUpdAck(F1AP_PDU_t *f1apMsg)
{
* ****************************************************************/
uint8_t procF1GNBDUCfgUpdAck(F1AP_PDU_t *f1apMsg)
{
- uint8_t ieIdx
, transId
;
+ uint8_t ieIdx;
GNBDUConfigurationUpdateAcknowledge_t *gnbDuAck = NULLP;
GNBDUConfigurationUpdateAcknowledge_t *gnbDuAck = NULLP;
-
+
+ DU_LOG("\nINFO --> F1AP : GNB-DU config update acknowledgment");
gnbDuAck = &f1apMsg->choice.successfulOutcome->value.choice.GNBDUConfigurationUpdateAcknowledge;
for(ieIdx=0; ieIdx < gnbDuAck->protocolIEs.list.count; ieIdx++)
gnbDuAck = &f1apMsg->choice.successfulOutcome->value.choice.GNBDUConfigurationUpdateAcknowledge;
for(ieIdx=0; ieIdx < gnbDuAck->protocolIEs.list.count; ieIdx++)
@@
-10560,14
+10561,11
@@
uint8_t procF1GNBDUCfgUpdAck(F1AP_PDU_t *f1apMsg)
switch(gnbDuAck->protocolIEs.list.array[ieIdx]->id)
{
case ProtocolIE_ID_id_TransactionID:
switch(gnbDuAck->protocolIEs.list.array[ieIdx]->id)
{
case ProtocolIE_ID_id_TransactionID:
- transId = gnbDuAck->protocolIEs.list.array[ieIdx]->\
- value.choice.TransactionID;
- DU_LOG("\nF1AP : GNB-DU config update acknowledgment received for transId %d", transId);
break;
case ProtocolIE_ID_id_Cells_to_be_Activated_List:
break;
default :
break;
case ProtocolIE_ID_id_Cells_to_be_Activated_List:
break;
default :
- DU_LOG("\nF1AP: Invalid IE Received: %ld, at procF1GNBDUCfgUpdAck()", \
+ DU_LOG("\n
ERROR -->
F1AP: Invalid IE Received: %ld, at procF1GNBDUCfgUpdAck()", \
gnbDuAck->protocolIEs.list.array[ieIdx]->id);
break;
}
gnbDuAck->protocolIEs.list.array[ieIdx]->id);
break;
}
@@
-10657,7
+10655,7
@@
uint8_t procF1DlRrcMsgTrans(F1AP_PDU_t *f1apMsg)
F1DlRrcMsg dlMsg;
memset(&dlMsg, 0, sizeof(F1DlRrcMsg));
F1DlRrcMsg dlMsg;
memset(&dlMsg, 0, sizeof(F1DlRrcMsg));
- DU_LOG("\nDU_APP : DL RRC message transfer Recevied");
+ DU_LOG("\n
INFO -->
DU_APP : DL RRC message transfer Recevied");
f1DlRrcMsg = &f1apMsg->choice.initiatingMessage->value.choice.DLRRCMessageTransfer;
ret = ROK;
f1DlRrcMsg = &f1apMsg->choice.initiatingMessage->value.choice.DLRRCMessageTransfer;
ret = ROK;
@@
-10698,13
+10696,13
@@
uint8_t procF1DlRrcMsgTrans(F1AP_PDU_t *f1apMsg)
}
else
{
}
else
{
- DU_LOG("\n
DU_
APP : Memory alloc Failed at RRC Container at procF1DlRrcMsgTrans()");
+ DU_LOG("\n
ERROR --> DU
APP : Memory alloc Failed at RRC Container at procF1DlRrcMsgTrans()");
return RFAILED;
}
}
else
{
return RFAILED;
}
}
else
{
- DU_LOG("\nDU_APP : RRC Container Size is invalid:%ld",\
+ DU_LOG("\n
ERROR -->
DU_APP : RRC Container Size is invalid:%ld",\
f1DlRrcMsg->protocolIEs.list.array[idx]->value.choice.RRCContainer.size);
return RFAILED;
}
f1DlRrcMsg->protocolIEs.list.array[idx]->value.choice.RRCContainer.size);
return RFAILED;
}
@@
-10716,7
+10714,7
@@
uint8_t procF1DlRrcMsgTrans(F1AP_PDU_t *f1apMsg)
break;
}
default:
break;
}
default:
- DU_LOG("\nDU_APP : Invalid IE received in DL RRC Msg Transfer:%ld",
+ DU_LOG("\n
ERROR -->
DU_APP : Invalid IE received in DL RRC Msg Transfer:%ld",
f1DlRrcMsg->protocolIEs.list.array[idx]->id);
}
}
f1DlRrcMsg->protocolIEs.list.array[idx]->id);
}
}
@@
-10753,7
+10751,7
@@
void F1APMsgHdlr(Buffer *mBuf)
F1AP_PDU_t *f1apMsg =NULLP;
asn_dec_rval_t rval; /* Decoder return value */
F1AP_PDU_t f1apasnmsg ;
F1AP_PDU_t *f1apMsg =NULLP;
asn_dec_rval_t rval; /* Decoder return value */
F1AP_PDU_t f1apasnmsg ;
- DU_LOG("\nF1AP : Received F1AP message buffer");
+ DU_LOG("\n
INFO -->
F1AP : Received F1AP message buffer");
ODU_PRINT_MSG(mBuf, 0,0);
/* Copy mBuf into char array to decode it */
ODU_PRINT_MSG(mBuf, 0,0);
/* Copy mBuf into char array to decode it */
@@
-10762,16
+10760,16
@@
void F1APMsgHdlr(Buffer *mBuf)
if(recvBuf == NULLP)
{
if(recvBuf == NULLP)
{
- DU_LOG("\nF1AP : Memory allocation failed");
+ DU_LOG("\n
ERROR -->
F1AP : Memory allocation failed");
return;
}
if(ODU_COPY_MSG_TO_FIX_BUF(mBuf, 0, recvBufLen, (Data *)recvBuf, ©Cnt) != ROK)
{
return;
}
if(ODU_COPY_MSG_TO_FIX_BUF(mBuf, 0, recvBufLen, (Data *)recvBuf, ©Cnt) != ROK)
{
- DU_LOG("\nF1AP : Failed while copying %d", copyCnt);
+ DU_LOG("\n
ERROR -->
F1AP : Failed while copying %d", copyCnt);
return;
}
return;
}
- printf("\nF1AP : Received flat buffer to be decoded : ");
+ printf("\n
DEBUG -->
F1AP : Received flat buffer to be decoded : ");
for(i=0; i< recvBufLen; i++)
{
printf("%x",recvBuf[i]);
for(i=0; i< recvBufLen; i++)
{
printf("%x",recvBuf[i]);
@@
-10786,7
+10784,7
@@
void F1APMsgHdlr(Buffer *mBuf)
if(rval.code == RC_FAIL || rval.code == RC_WMORE)
{
if(rval.code == RC_FAIL || rval.code == RC_WMORE)
{
- DU_LOG("\nF1AP : ASN decode failed");
+ DU_LOG("\n
ERROR -->
F1AP : ASN decode failed");
return;
}
printf("\n");
return;
}
printf("\n");
@@
-10800,7
+10798,7
@@
void F1APMsgHdlr(Buffer *mBuf)
{
case SuccessfulOutcome__value_PR_ResetAcknowledge:
{
{
case SuccessfulOutcome__value_PR_ResetAcknowledge:
{
- DU_LOG("\nF1AP : F1ResetAcknowledge is received successfully ");
+ DU_LOG("\n
INFO -->
F1AP : F1ResetAcknowledge is received successfully ");
break;
}
case SuccessfulOutcome__value_PR_F1SetupResponse:
break;
}
case SuccessfulOutcome__value_PR_F1SetupResponse:
@@
-10819,7
+10817,8
@@
void F1APMsgHdlr(Buffer *mBuf)
default:
{
default:
{
- DU_LOG("\nF1AP : Invalid type of successful outcome [%d]", f1apMsg->choice.successfulOutcome->value.present);
+ DU_LOG("\nERROR --> F1AP : Invalid type of SuccessfulOutcome__value_PR_ResetAcknowledge [%d]",\
+ f1apMsg->choice.successfulOutcome->value.present);
return;
}
}/* End of switch(successfulOutcome) */
return;
}
}/* End of switch(successfulOutcome) */
@@
-10832,7
+10831,6
@@
void F1APMsgHdlr(Buffer *mBuf)
{
case InitiatingMessage__value_PR_Reset:
{
{
case InitiatingMessage__value_PR_Reset:
{
- DU_LOG("\nF1AP : F1 reset request received");
procF1ResetReq(f1apMsg);
break;
}
procF1ResetReq(f1apMsg);
break;
}
@@
-10846,10
+10844,9
@@
void F1APMsgHdlr(Buffer *mBuf)
procF1UeContextSetupReq(f1apMsg);
break;
}
procF1UeContextSetupReq(f1apMsg);
break;
}
-
default:
{
default:
{
- DU_LOG("\n
F1AP : Invalid type of initiating message
[%d]",
+ DU_LOG("\n
ERROR --> F1AP : Invalid type of F1AP_PDU_PR_initiatingMessage
[%d]",
f1apMsg->choice.initiatingMessage->value.present);
return;
}
f1apMsg->choice.initiatingMessage->value.present);
return;
}
@@
-10860,7
+10857,7
@@
void F1APMsgHdlr(Buffer *mBuf)
default:
{
default:
{
- DU_LOG("\nF1AP : Invalid type of f1apMsg->present [%d]",f1apMsg->present);
+ DU_LOG("\n
ERROR -->
F1AP : Invalid type of f1apMsg->present [%d]",f1apMsg->present);
return;
}
free(f1apMsg);
return;
}
free(f1apMsg);