The functions for the configuration, control, status and statistics
request primitives are defined here.
*/
-static const char* RLOG_MODULE_NAME="MAC";
-static int RLOG_FILE_ID=220;
-static int RLOG_MODULE_ID=4096;
/* header include files (.h) */
#include "common_def.h"
- RG_DIAG_LVL0(inst,0x0a0b0001, RG_DIAG_NA, SS_DIAG_INV_ARG,\
- "Received CfgReq for MAC layer, Entity = %d, Instance = %d\n", pst->srcEnt, pst->srcInst,0,0);
+ DU_LOG("\nINFO --> MAC : Received CfgReq for MAC layer, Entity = %d, Instance = %d\n", pst->srcEnt, pst->srcInst,0,0);
RG_IS_INST_VALID(pst->dstInst);
inst = pst->dstInst - RG_INST_START;
default:
ret = LCM_PRIM_NOK;
reason = LCM_REASON_INVALID_ELMNT;
- RLOG1(L_ERROR, "Invalid Elmnt=%d",
+ DU_LOG("\nERROR --> MAC : Invalid Elmnt=%d",
cfg->hdr.elmId.elmnt);
break;
}
cfm.cfm.status = LCM_PRIM_NOK;
cfm.cfm.reason = LCM_REASON_GENCFG_NOT_DONE;
RgMiLrgStsCfm(&cfmPst,&cfm);
- RLOG0(L_ERROR, "Gen Cfg not done");
+ DU_LOG("\nERROR --> MAC : Gen Cfg not done");
return ROK;
}
default:
cfm.cfm.status = LCM_PRIM_NOK;
cfm.cfm.reason = LCM_REASON_INVALID_ELMNT;
- RLOG1(L_ERROR, "Invalid Elmnt = %d",sts->hdr.elmId.elmnt);
+ DU_LOG("\nERROR --> MAC : Invalid Elmnt = %d",sts->hdr.elmId.elmnt);
break;
}
RgMiLrgStsCfm(&cfmPst,&cfm);
(Data **)&(cfm.t.ssta.s.sysId.ptNmb), LRG_MAX_PT_NUM_SIZE)
!= ROK)
{
- RLOG0(L_ERROR, "Memory Unavailable for Confirmation");
+ DU_LOG("\nERROR --> MAC : Memory Unavailable for Confirmation");
return ROK;
}
memset((cfm.t.ssta.s.sysId.ptNmb), 0, LRG_MAX_PT_NUM_SIZE);
cfm.cfm.reason = LCM_REASON_GENCFG_NOT_DONE;
cfm.hdr.elmId.elmnt = sta->hdr.elmId.elmnt;
RgMiLrgStaCfm(&cfmPst, &cfm);
- RLOG0(L_ERROR, "Gen Cfg not done");
+ DU_LOG("\nERROR --> MAC : Gen Cfg not done");
return ROK;
}
(Data **)&(cfm.t.ssta.s.sysId.ptNmb), LRG_MAX_PT_NUM_SIZE)
!= ROK)
{
- RLOG0(L_ERROR, "Memory Unavailable for Confirmation");
+ DU_LOG("\nERROR --> MAC : Memory Unavailable for Confirmation");
return ROK;
}
memset((cfm.t.ssta.s.sysId.ptNmb), 0, LRG_MAX_PT_NUM_SIZE);
cfm.cfm.status = LCM_PRIM_NOK;
cfm.cfm.reason = LCM_REASON_INVALID_ELMNT;
RgMiLrgStaCfm(&cfmPst, &cfm);
- RLOG1(L_ERROR, "Invalid elmnt=%d",sta->hdr.elmId.elmnt);
+ DU_LOG("\nERROR --> MAC : Invalid elmnt=%d",sta->hdr.elmId.elmnt);
break;
}
return ROK;
cfm.cfm.reason = LCM_REASON_GENCFG_NOT_DONE;
cfm.hdr.elmId.elmnt = cntrl->hdr.elmId.elmnt;
RgMiLrgCntrlCfm(&cfmPst, &cfm);
- RLOG0(L_ERROR, "Gen Cfg not done");
+ DU_LOG("\nERROR --> MAC : Gen Cfg not done");
return ROK;
}
cfm.cfm.status = LCM_PRIM_NOK;
cfm.cfm.reason = LCM_REASON_INVALID_PAR_VAL;
RgMiLrgCntrlCfm(&cfmPst, &cfm);
- RLOG1(L_ERROR, "invalid elmnt=%d",cntrl->hdr.elmId.elmnt);
+ DU_LOG("\nERROR --> MAC : invalid elmnt=%d",cntrl->hdr.elmId.elmnt);
break;
}
return (ret);
(cfg->s.rguSap.selector != ODU_SELECTOR_LC))
{
ret = LCM_REASON_INVALID_PAR_VAL;
- RLOG0(L_ERROR, "unsupported Selector value for RGU");
+ DU_LOG("\nERROR --> MAC : unsupported Selector value for RGU");
break;
}
upSapCb = &(rgCb[inst].rguSap[cfg->s.rguSap.spId]);
(cfg->s.crgSap.selector != ODU_SELECTOR_LC))
{
ret = LCM_REASON_INVALID_PAR_VAL;
- RLOG0(L_ERROR, "unsupported Selector value for CRG");
+ DU_LOG("\nERROR --> MAC : unsupported Selector value for CRG");
break;
}
if(rgCb[inst].crgSap.sapSta.sapState == LRG_NOT_CFG)
(cfg->s.tfuSap.selector != ODU_SELECTOR_LC))
{
ret = LCM_REASON_INVALID_PAR_VAL;
- RLOG0(L_ERROR, "unsupported Selector value for TFU");
+ DU_LOG("\nERROR --> MAC : unsupported Selector value for TFU");
break;
}
#endif
if ((cfg->s.genCfg.lmPst.selector != ODU_SELECTOR_TC) &&
(cfg->s.genCfg.lmPst.selector != ODU_SELECTOR_LC))
{
- RLOG0(L_ERROR, "unsupported Selector value for RGU");
+ DU_LOG("\nERROR --> MAC : unsupported Selector value for RGU");
return (LCM_REASON_INVALID_PAR_VAL);
}
/* Update the Pst structure for LM interface */
if(cfg->s.genCfg.numRguSaps == 0)
{
- RGDBGERRNEW(inst,(rgPBuf(inst), "\nrgGenCfg(): Invalid numRguSap.\n"));
+ DU_LOG("\nERROR --> MAC : rgGenCfg(): Invalid numRguSap.\n");
return RFAILED;
}
(Data **)&rgCb[inst].rguSap,
(sizeof(RgUpSapCb) * cfg->s.genCfg.numRguSaps)) != ROK)
{
- RGDBGERRNEW(inst,(rgPBuf(inst), "\nrgGenCfg(): Failed to allocate mem for RGU SAP's.\n"));
+ DU_LOG("\nERROR --> MAC : rgGenCfg(): Failed to allocate mem for RGU SAP's.\n");
return RFAILED;
}
rgCb[inst].numRguSaps = cfg->s.genCfg.numRguSaps;
(S16)rgCb[inst].genCfg.tmrRes, rgActvTmr) != ROK)
{
- RLOG0(L_ERROR, "Failed to register timer");
+ DU_LOG("\nERROR --> MAC : Failed to register timer");
SPutSBuf(rgCb[inst].rgInit.region,
rgCb[inst].rgInit.pool,
default:
cfm->cfm.status = LCM_PRIM_NOK;
cfm->cfm.reason = LCM_REASON_INVALID_PAR_VAL;
- RLOG1(L_ERROR, "invalid subaction=%d",cntrl->t.cntrl.subAction);
+ DU_LOG("\nERROR --> MAC : invalid subaction=%d",cntrl->t.cntrl.subAction);
break;
}
break;
default:
cfm->cfm.status = LCM_PRIM_NOK;
cfm->cfm.reason = LCM_REASON_INVALID_PAR_VAL;
- RLOG1(L_ERROR, "invalid subaction=%d",cntrl->t.cntrl.subAction);
+ DU_LOG("\nERROR --> MAC : invalid subaction=%d",cntrl->t.cntrl.subAction);
break;
}
break;
default:
cfm->cfm.status = LCM_PRIM_NOK;
cfm->cfm.reason = LCM_REASON_INVALID_PAR_VAL;
- RLOG1(L_ERROR, "invalid action=%d",cntrl->t.cntrl.action);
+ DU_LOG("\nERROR --> MAC : invalid action=%d",cntrl->t.cntrl.action);
break;
}
RgMiLrgCntrlCfm(cfmPst, cfm);
default:
cfm->cfm.status = LCM_PRIM_NOK;
cfm->cfm.reason = LCM_REASON_INVALID_PAR_VAL;
- RGDBGERRNEW(inst,(rgPBuf(inst), "\nrgLMMSapCntrl(): invalid action=%d",
- cntrl->t.cntrl.action));
+ DU_LOG("\nERROR --> MAC : rgLMMSapCntrl(): invalid action=%d",
+ cntrl->t.cntrl.action);
break;
}
break;
default:
cfm->cfm.status = LCM_PRIM_NOK;
cfm->cfm.reason = LCM_REASON_INVALID_PAR_VAL;
- RGDBGERRNEW(inst,(rgPBuf(inst), "\nrgLMMSapCntrl(): invalid action=%d",
- cntrl->t.cntrl.action));
+ DU_LOG("\nERROR --> MAC : rgLMMSapCntrl(): invalid action=%d",
+ cntrl->t.cntrl.action);
break;
}
break;
default:
cfm->cfm.status = LCM_PRIM_NOK;
cfm->cfm.reason = LCM_REASON_INVALID_PAR_VAL;
- RLOG1(L_ERROR, "invalid action=%d",cntrl->t.cntrl.action);
+ DU_LOG("\nERROR --> MAC : invalid action=%d",cntrl->t.cntrl.action);
break;
}
}
break;
default:
- RLOG1(L_ERROR, "Invalid tmrEvnt=%d",tmrEvnt);
+ DU_LOG("\nERROR --> MAC : Invalid tmrEvnt=%d",tmrEvnt);
ret = RFAILED;
break;
}
if ((rgCb[inst].trcLen == LRG_NO_TRACE) || (srcMbuf == NULLP))
{
- RLOG0(L_ERROR, "Trace Disabled.");
+ DU_LOG("\nERROR --> MAC : Trace Disabled.");
return;
}
if (SCpyMsgMsg(srcMbuf, pst.region, pst.pool, &dstMbuf)
!= ROK)
{
- RLOG0(L_ERROR, "SCpyMsgMsg Failed.");
+ DU_LOG("\nERROR --> MAC : SCpyMsgMsg Failed.");
return;
}
trc.cfm.status = LCM_PRIM_OK;
/* Get the length of the recvd message buffer */
if (SFndLenMsg(srcMbuf, &bufLen) != ROK)
{
- RLOG0(L_ERROR, "SFndLenMsg Failed.");
+ DU_LOG("\nERROR --> MAC : SFndLenMsg Failed.");
return;
}
/* Check if the recvd buffer size is less than request trace len */
if (SCpyMsgMsg(srcMbuf, pst.region, pst.pool, &dstMbuf)
!= ROK)
{
- RLOG0(L_ERROR, "SCpyMsgMsg Failed.");
+ DU_LOG("\nERROR --> MAC : SCpyMsgMsg Failed.");
return;
}
/* Get a temporary buffer to store the msg */
if (rgAllocSBuf(inst,&tempBuf, rgCb[inst].trcLen) != ROK)
{
- RLOG0(L_ERROR, "rgAllocSBuf Failed.");
+ DU_LOG("\nERROR --> MAC : rgAllocSBuf Failed.");
return;
}
/* Copy trcLen nos of bytes from the recvd message */
if (SCpyMsgFix(srcMbuf,0,rgCb[inst].trcLen,tempBuf,&tempCnt) != ROK)
{
- RLOG0(L_ERROR, "SCpyMsgFix Failed.");
+ DU_LOG("\nERROR --> MAC : SCpyMsgFix Failed.");
return;
}
if (SGetMsg(pst.region, pst.pool, &dstMbuf) != ROK)
{
- RLOG0(L_ERROR, "dstMbuf Allocation Failed");
+ DU_LOG("\nERROR --> MAC : dstMbuf Allocation Failed");
return;
}
/* Copy the tempBuf data to dst mBuf */
if (SCpyFixMsg(tempBuf,dstMbuf,0,rgCb[inst].trcLen,&tempCnt) != ROK)
{
- RLOG0(L_ERROR, "SCpyFixMsg Failed.");
+ DU_LOG("\nERROR --> MAC : SCpyFixMsg Failed.");
return;
}
/* Check if the suId is valid */
if(rgCb[inst].tfuSap.sapCfg.suId != suId)
{
- RLOG0(L_ERROR, "Invalid SuId");
+ DU_LOG("\nERROR --> MAC : Invalid SuId");
return RFAILED;
}