schInitDrxHarqCb(&ueCb->ulHqEnt.procs[idx].ulDrxHarqCb);
}
/* convert all the drx configuration recived in ms/subms into number of slots and store into the drxUeCb */
- schFillDrxUeCb(ueCb->cellCb->cellCfg.numerology, ueCfg->macCellGrpCfg.drxCfg, &ueCb->drxUeCb);
+ schFillDrxUeCb(ueCb->cellCb->numerology, ueCfg->macCellGrpCfg.drxCfg, &ueCb->drxUeCb);
/* Calculate the onduration timer and short cycle timer (if shortcycle configuration is present) as soon as we
* recived ueCfg request */
schAddUeInOndurationList(ueCb->cellCb, ueCb, 0);
{
/* convert all the drx configuration recived in ms/subms into number
* of slots and store into the drxUeCb */
- schFillDrxUeCb(ueCb->cellCb->cellCfg.numerology, ueCfg->macCellGrpCfg.drxCfg, &ueCb->drxUeCb);
+ schFillDrxUeCb(ueCb->cellCb->numerology, ueCfg->macCellGrpCfg.drxCfg, &ueCb->drxUeCb);
/* Recalculate/Restart timer based on their presence */
schDrxUeReCfgTimer(ueCb->cellCb, ueCb);
schInitDrxHarqCb(&ueCb->ulHqEnt.procs[idx].ulDrxHarqCb);
}
/* convert all the drx configuration recived in ms/subms into number of slots and store into the drxUeCb */
- schFillDrxUeCb(ueCb->cellCb->cellCfg.numerology, ueRecfg->macCellGrpRecfg.drxCfg, &ueCb->drxUeCb);
+ schFillDrxUeCb(ueCb->cellCb->numerology, ueRecfg->macCellGrpRecfg.drxCfg, &ueCb->drxUeCb);
/* Calculate the onduration timer and short cycle timer (if shortcycle configuration is present) as soon as we
* recived ueCfg request */
schAddUeInOndurationList(ueCb->cellCb, ueCb, 0);
{
/* convert all the drx configuration recived in ms/subms into number
* of slots and store into the drxUeCb */
- schFillDrxUeCb(ueCb->cellCb->cellCfg.numerology, ueRecfg->macCellGrpRecfg.drxCfg, &ueCb->drxUeCb);
+ schFillDrxUeCb(ueCb->cellCb->numerology, ueRecfg->macCellGrpRecfg.drxCfg, &ueCb->drxUeCb);
/* Recalculate/Restart timer based on their presence */
schDrxUeReCfgTimer(ueCb->cellCb, ueCb);