}
schUeCfg.numLc = ueCfg->numLcs;
- if(schUeCfg.numLc > MAX_NUM_LOGICAL_CHANNELS)
+ if(schUeCfg.numLc > MAX_NUM_LC)
{
DU_LOG("\nMAC : Number of Logical channels %d exceeds max limit %d",\
- schUeCfg.numLc, MAX_NUM_LOGICAL_CHANNELS);
+ schUeCfg.numLc, MAX_NUM_LC);
}
for(idx = 0; idx < schUeCfg.numLc; idx++)
{
}
/* Fill SRB1 info */
- if(ueCfg->numLcs > MAX_NUM_LOGICAL_CHANNELS)
+ if(ueCfg->numLcs > MAX_NUM_LC)
{
DU_LOG("\nMAC : Number of LC to configure[%d] exceeds limit[%d]",\
- ueCfg->numLcs, MAX_NUM_LOGICAL_CHANNELS);
+ ueCfg->numLcs, MAX_NUM_LC);
return RFAILED;
}
for(lcIdx = 0; lcIdx < ueCfg->numLcs; lcIdx++)
{
ueCb->dlInfo.lcCb[ueCb->dlInfo.numDlLc].lcId = ueCfg->lcCfgList[lcIdx].lcId;
- ueCb->dlInfo.lcCb[ueCb->dlInfo.numDlLc].lcState = LC_STATE_ACTIVE;
+ ueCb->dlInfo.lcCb[ueCb->dlInfo.numDlLc].lcState = MAC_LC_STATE_ACTIVE;
ueCb->dlInfo.numDlLc++;
}