CMCHKPK(cmPkLteCellId, param->cellId, mBuf);
CMCHKPK(cmPkLteRnti, param->ueId, mBuf);
- CMCHKPK(SPkU8, param->rbType, mBuf);
+ CMCHKPK(oduUnpackUInt8, param->rbType, mBuf);
CMCHKPK(cmPkLteRbId, param->rbId, mBuf);
- RETVALUE(ROK);
+ return ROK;
}
TRC3(cmUnpkLteRlcId);
CMCHKUNPK(cmUnpkLteRbId, ¶m->rbId, mBuf);
- CMCHKUNPK(SUnpkU8, ¶m->rbType, mBuf);
+ CMCHKUNPK(oduPackUInt8, ¶m->rbType, mBuf);
CMCHKUNPK(cmUnpkLteRnti, ¶m->ueId, mBuf);
CMCHKUNPK(cmUnpkLteCellId, ¶m->cellId, mBuf);
- RETVALUE(ROK);
+ return ROK;
}
TRC3(cmPkLteTimingInfo);
- CMCHKPK(SPkU16, param->slot, mBuf);
- CMCHKPK(SPkU16, param->sfn, mBuf);
- //CMCHKPK(SPkU16, param->hSfn, mBuf);
- RETVALUE(ROK);
+ CMCHKPK(oduUnpackUInt16, param->slot, mBuf);
+ CMCHKPK(oduUnpackUInt16, param->sfn, mBuf);
+ //CMCHKPK(oduUnpackUInt16, param->hSfn, mBuf);
+ return ROK;
}
TRC3(cmUnpkLteTimingInfo);
- //CMCHKUNPK(SUnpkU16, ¶m->hSfn, mBuf);
- CMCHKUNPK(SUnpkU16, ¶m->sfn, mBuf);
- CMCHKUNPK(SUnpkU8, ¶m->slot, mBuf);
- RETVALUE(ROK);
+ //CMCHKUNPK(oduPackUInt16, ¶m->hSfn, mBuf);
+ CMCHKUNPK(oduPackUInt16, ¶m->sfn, mBuf);
+ CMCHKUNPK(oduPackUInt16,¶m->slot, mBuf);
+ return ROK;
}
TRC3(cmPkLtePdcpId);
- CMCHKPK(SPkU8, param->rbType, mBuf);
+ CMCHKPK(oduUnpackUInt8, param->rbType, mBuf);
CMCHKPK(cmPkLteRbId, param->rbId, mBuf);
CMCHKPK(cmPkLteRnti, param->ueId, mBuf);
CMCHKPK(cmPkLteCellId, param->cellId, mBuf);
- RETVALUE(ROK);
+ return ROK;
}
CMCHKUNPK(cmUnpkLteCellId, ¶m->cellId, mBuf);
CMCHKUNPK(cmUnpkLteRnti, ¶m->ueId, mBuf);
CMCHKUNPK(cmUnpkLteRbId, ¶m->rbId, mBuf);
- CMCHKUNPK(SUnpkU8, ¶m->rbType, mBuf);
- RETVALUE(ROK);
+ CMCHKUNPK(oduPackUInt8, ¶m->rbType, mBuf);
+ return ROK;
}
#ifdef LTE_L2_MEAS
#ifdef ANSI
mInfo->regInfo[idxReg].isGenMemInfoUpdated = TRUE;
}
}
- RETVALUE(ROK);
+ return ROK;
}
#ifdef ANSI
memoryInfo->regInfo[idxReg].poolInfo[idxPool].maxUsed = memInfo->regInfo[idxReg].poolInfo[idxPool].maxUsed;
}
}
- RETVALUE(ROK);
+ return ROK;
}
#ifdef ANSI
memInfo->regInfo[idxReg].poolInfo[idxPool].maxUsed = 0;
}
}
- RETVALUE(ROK);
+ return ROK;
}
#ifdef ANSI
cpuInfo->cpuUtil[idx].numSamples = 0;
}
cpuInfo->numCores = 0;
- RETVALUE(ROK);
+ return ROK;
}
#ifdef ANSI
cpuMeasInfo->cpuUtil[idx].avgCpuUtil = cpuInfo->cpuUtil[idx].totCpuUtil/cpuInfo->cpuUtil[idx].numSamples;
cpuMeasInfo->cpuUtil[idx].maxCpuUtil = cpuInfo->cpuUtil[idx].maxCpuUtil;
}
- RETVALUE(ROK);
+ return ROK;
}
#endif