Desc: Source code for RLC Unacknowledged mode assembly and
reassembly.This file contains following functions
- --kwUmmQSdu
- --kwUmmProcessSdus
- --kwUmmProcessPdus
- --kwUmmReAssembleSdus
+ --rlcUmmQSdu
+ --rlcUmmProcessSdus
+ --rlcUmmProcessPdus
+ --rlcUmmReAssembleSdus
--kwUmmReEstablish
File: kw_umm_ul.c
**********************************************************************/
-static const char* RLOG_MODULE_NAME="RLC";
-static int RLOG_MODULE_ID=2048;
-static int RLOG_FILE_ID=240;
-
/**
* @file kw_umm_ul.c
* @brief RLC Unacknowledged Mode uplink module
#include "kw.x" /* RLC layer */
#include "kw_ul.x"
-#define KW_MODULE (KW_DBGMASK_UM | KW_DBGMASK_UL)
+#define RLC_MODULE (RLC_DBGMASK_UM | RLC_DBGMASK_UL)
-PRIVATE S16 kwUmmExtractHdr ARGS ((KwCb *gCb,
- KwUlRbCb *rbCb,
+uint8_t rlcUmmExtractHdr ARGS ((RlcCb *gCb,
+ RlcUlRbCb *rbCb,
Buffer *pdu,
- KwUmHdr *umHdr));
+ RlcUmHdr *umHdr));
-PRIVATE Void kwUmmReAssembleSdus ARGS ((KwCb *gCb,
- KwUlRbCb *rbCb,
- KwUmRecBuf *umRecBuf));
+void rlcUmmReAssembleSdus ARGS ((RlcCb *gCb,
+ RlcUlRbCb *rbCb,
+ RlcUmRecBuf *umRecBuf));
#ifndef TENB_ACC
#ifndef LTE_PAL_ENB
*
* @return Void
*/
-PRIVATE Void kwUmmFindNextVRUR (KwUmUl* umUl, KwSn nextSn)
+void rlcUmmFindNextVRUR (RlcUmUl* umUl, RlcSn nextSn)
{
- KwSn ur = KW_UM_GET_VALUE(umUl->vrUr, *umUl);
+ RlcSn ur = RLC_UM_GET_VALUE(umUl->vrUr, *umUl);
- KwSn nextSnToCompare = KW_UM_GET_VALUE(nextSn,*umUl);
+ RlcSn nextSnToCompare = RLC_UM_GET_VALUE(nextSn,*umUl);
while (ur < nextSnToCompare)
{
break;
}
nextSn = (nextSn + 1) & umUl->modBitMask;
- nextSnToCompare = KW_UM_GET_VALUE(nextSn,*umUl);
+ nextSnToCompare = RLC_UM_GET_VALUE(nextSn,*umUl);
}
}
*
* @return Void
*/
-PRIVATE S16 kwUmmCheckSnInReordWindow (KwSn sn,
- CONSTANT KwUmUl* CONSTANT umUl)
+int16_t rlcUmmCheckSnInReordWindow (RlcSn sn, CONSTANT RlcUmUl* CONSTANT umUl)
{
- return (KW_UM_GET_VALUE(sn, *umUl) < KW_UM_GET_VALUE(umUl->vrUh, *umUl));
+ return (RLC_UM_GET_VALUE(sn, *umUl) < RLC_UM_GET_VALUE(umUl->vrUh, *umUl));
}
/**
*/
/* kw005.201 added support for L2 Measurement */
#ifdef LTE_L2_MEAS
-
-#ifdef ANSI
-PUBLIC Void kwUmmProcessPdus
-(
-KwCb *gCb,
-KwUlRbCb *rbCb, /* Rb Control Block */
-KwPduInfo *pduInfo, /* Pdu data and related information */
-U32 ttiCnt /* ttiCnt received from MAC */
-)
-#else
-PUBLIC Void kwUmmProcessPdus(rbCb,pduInfo,ttiCnt)
-KwCb *gCb;
-KwUlRbCb *rbCb; /* Rb Control Block */
-KwPduInfo *pduInfo; /* Pdu data and related information */
-U32 ttiCnt; /* ttiCnt received from MAC */
-#endif
-#else
-#ifdef ANSI
-PUBLIC Void kwUmmProcessPdus
-(
-KwCb *gCb,
-KwUlRbCb *rbCb, /* Rb Control Block */
-KwPduInfo *pduInfo /* Pdu data and related information */
-)
+void rlcUmmProcessPdus(RlcCb *gCb, RlcUlRbCb *rbCb, KwPduInfo *pduInfo, uint32_t ttiCnt)
#else
-PUBLIC Void kwUmmProcessPdus(rbCb,pduInfo)
-KwCb *gCb;
-KwUlRbCb *rbCb; /* Rb Control Block */
-KwPduInfo *pduInfo; /* Pdu data and related information */
-#endif
+void rlcUmmProcessPdus(RlcCb *gCb, RlcUlRbCb *rbCb, KwPduInfo *pduInfo)
#endif
{
- KwSn *vrUh; /* vr(uh) */
- KwSn *vrUr; /* vr(ur) */
- KwSn *vrUx; /* vr(ux) */
- U16 curSn; /* Current Sequence Number */
- U32 pduCount; /* PDU count */
- U32 count; /* Loop counter */
- KwUmRecBuf **recBuf; /* UM Reception Buffer */
-
- Bool tmrRunning; /* Boolean for checking Tmr */
-/* kw005.201 added support for L2 Measurement */
-
- TRC2(kwUmmProcessPdus)
+ RlcSn *vrUh; /* vr(uh) */
+ RlcSn *vrUr; /* vr(ur) */
+ RlcSn *vrUx; /* vr(ux) */
+ uint16_t curSn; /* Current Sequence Number */
+ uint32_t pduCount; /* PDU count */
+ uint32_t count; /* Loop counter */
+ RlcUmRecBuf **recBuf; /* UM Reception Buffer */
+ bool tmrRunning; /* Boolean for checking Tmr */
count = 0;
while (count < pduCount)
{
- KwSn ur;
- KwSn uh;
- KwSn seqNum;
+ RlcSn ur;
+ RlcSn uh;
+ RlcSn seqNum;
Buffer *pdu = pduInfo->mBuf[count];
- KwUmRecBuf *tmpRecBuf;
+ RlcUmRecBuf *tmpRecBuf;
gCb->genSts.pdusRecv++;
#ifndef RGL_SPECIFIC_CHANGES
#ifndef TENB_ACC
#ifndef LTE_PAL_ENB
- extern U32 ulrate_rgu;
+ extern uint32_t ulrate_rgu;
MsgLen len;
- SFndLenMsg(pdu, &len);
+ ODU_GET_MSG_LEN(pdu, &len);
ulrate_rgu += len;
#endif
#endif
#endif
/* create a buffer to be later inserted into the reception buffer */
- KW_ALLOC_WC(gCb, tmpRecBuf, sizeof(KwUmRecBuf));
+ RLC_ALLOC_WC(gCb, tmpRecBuf, sizeof(RlcUmRecBuf));
#if (ERRCLASS & ERRCLS_ADD_RES)
if (tmpRecBuf == NULLP)
{
- RLOG_ARG2(L_FATAL, DBG_RBID,rbCb->rlcId.rbId,
- "Memory allocation failed UEID:%d CELLID:%d",
- rbCb->rlcId.ueId,
- rbCb->rlcId.cellId);
- SPutMsg(pdu);
-
- RETVOID;
+ DU_LOG("\nRLC : rlcUmmProcessPdus: Memory allocation failed UEID:%d CELLID:%d",\
+ rbCb->rlcId.ueId, rbCb->rlcId.cellId);
+ ODU_PUT_MSG_BUF(pdu);
+ return;
}
#endif /* ERRCLASS & ERRCLS_ADD_RES */
/* ccpu00142274 - UL memory based flow control*/
#ifndef LTE_PAL_ENB
/* Changed the condition to TRUE from ROK */
#ifndef XEON_SPECIFIC_CHANGES
- if(isMemThreshReached(kwCb[0]->init.region) == TRUE)
+ if(isMemThreshReached(rlcCb[0]->init.region) == TRUE)
{
- extern U32 rlculdrop;
+ extern uint32_t rlculdrop;
rlculdrop++;
- KW_FREE_BUF(pdu);
- KW_FREE_WC(gCb, tmpRecBuf, sizeof(KwUmRecBuf));
+ RLC_FREE_BUF(pdu);
+ RLC_FREE_WC(gCb, tmpRecBuf, sizeof(RlcUmRecBuf));
/*Fix for CR ccpu00144030: If threshhold is hit then also count
*should be incrmented */
count++;
#endif
#endif
/* get the pdu header */
- if (kwUmmExtractHdr(gCb, rbCb, pdu, &(tmpRecBuf->umHdr)))
+ if (rlcUmmExtractHdr(gCb, rbCb, pdu, &(tmpRecBuf->umHdr)))
{
- RLOG_ARG2(L_ERROR,DBG_RBID,rbCb->rlcId.rbId,
- "Header Extraction Failed UEID:%d CELLID:%d",
- rbCb->rlcId.ueId,
- rbCb->rlcId.cellId);
+ DU_LOG("\nRLC : rlcUmmProcessPdus: Header Extraction Failed UEID:%d CELLID:%d",\
+ rbCb->rlcId.ueId, rbCb->rlcId.cellId);
/* Header extraction is a problem.
* log an error and free the allocated memory */
/* ccpu00136940 */
- KW_FREE_WC(gCb, tmpRecBuf, sizeof(KwUmRecBuf));
- SPutMsg(pdu);
+ RLC_FREE_WC(gCb, tmpRecBuf, sizeof(RlcUmRecBuf));
+ ODU_PUT_MSG_BUF(pdu);
count++;
/* kw005.201 ccpu00117318, updating the statistics */
gCb->genSts.errorPdusRecv++;
curSn = tmpRecBuf->umHdr.sn;
/* Check if the PDU should be discarded or not */
- ur = KW_UM_GET_VALUE(KW_UMUL.vrUr, KW_UMUL);
- uh = KW_UM_GET_VALUE(KW_UMUL.vrUh, KW_UMUL);
- seqNum = KW_UM_GET_VALUE(curSn, KW_UMUL);
+ ur = RLC_UM_GET_VALUE(RLC_UMUL.vrUr, RLC_UMUL);
+ uh = RLC_UM_GET_VALUE(RLC_UMUL.vrUh, RLC_UMUL);
+ seqNum = RLC_UM_GET_VALUE(curSn, RLC_UMUL);
- if (((ur < seqNum) && (seqNum < uh) && (KW_UMUL.recBuf[curSn])) ||
+ if (((ur < seqNum) && (seqNum < uh) && (RLC_UMUL.recBuf[curSn])) ||
(seqNum < ur))
{
/* PDU needs to be discarded */
- RLOG_ARG3(L_DEBUG,DBG_RBID,rbCb->rlcId.rbId,
- "Received a duplicate pdu with sn %d UEID:%d CELLID:%d",
- curSn,
- rbCb->rlcId.ueId,
- rbCb->rlcId.cellId);
-
- KW_FREE_BUF(pdu);
- KW_FREE_WC(gCb, tmpRecBuf, sizeof(KwUmRecBuf));
+ DU_LOG("\nRLC : rlcUmmProcessPdus: Received a duplicate pdu with sn %d \
+ UEID:%d CELLID:%d", curSn, rbCb->rlcId.ueId, rbCb->rlcId.cellId);
+
+ RLC_FREE_BUF(pdu);
+ RLC_FREE_WC(gCb, tmpRecBuf, sizeof(RlcUmRecBuf));
count++;
/* kw005.201 ccpu00117318, updating the statistics */
gCb->genSts.unexpPdusRecv++;
#ifdef LTE_L2_MEAS
/* kw006.201 ccpu00120058, reduced code complexity by adding new function */
- kwUtlCalUlIpThrPut(gCb,rbCb, pdu, ttiCnt);
+ rlcUtlCalUlIpThrPut(gCb,rbCb, pdu, ttiCnt);
#endif
recBuf[curSn] = tmpRecBuf;
recBuf[curSn]->pdu = pdu;
- SFndLenMsg(pdu,&(recBuf[curSn]->pduSz));
+ ODU_GET_MSG_LEN(pdu,&(recBuf[curSn]->pduSz));
/* kw005.201 ccpu00117318, updating the statistics */
gCb->genSts.bytesRecv += recBuf[curSn]->pduSz;
- if (!kwUmmCheckSnInReordWindow(curSn,&KW_UMUL))
+ if (!rlcUmmCheckSnInReordWindow(curSn,&RLC_UMUL))
{ /* currSn is outside re-ordering window */
- *vrUh = (curSn + 1) & KW_UMUL.modBitMask;
+ *vrUh = (curSn + 1) & RLC_UMUL.modBitMask;
/* re-assemble all pdus outside the modified re-ordering window */
/* the first SN is VR(UR) */
- if (!kwUmmCheckSnInReordWindow(*vrUr,&KW_UMUL))
+ if (!rlcUmmCheckSnInReordWindow(*vrUr,&RLC_UMUL))
{
/* TODO : should it be VR(UR) + 1 ?... check, earlier it was so */
- KwSn sn = *vrUr; /* SN's which need to be re-assembled */
- KwSn lowerEdge; /* to hold the lower-edge of the
+ RlcSn sn = *vrUr; /* SN's which need to be re-assembled */
+ RlcSn lowerEdge; /* to hold the lower-edge of the
re-ordering window */
/* The new value ov VR(UR) is the lower end of the window i
* and SN's still this value need to be re-assembled */
- *vrUr = (*vrUh - KW_UMUL.umWinSz) & KW_UMUL.modBitMask;
- lowerEdge = KW_UM_GET_VALUE(*vrUr ,KW_UMUL);
+ *vrUr = (*vrUh - RLC_UMUL.umWinSz) & RLC_UMUL.modBitMask;
+ lowerEdge = RLC_UM_GET_VALUE(*vrUr ,RLC_UMUL);
- while (KW_UM_GET_VALUE(sn, KW_UMUL) < lowerEdge)
+ while (RLC_UM_GET_VALUE(sn, RLC_UMUL) < lowerEdge)
{
if (recBuf[sn])
{
- kwUmmReAssembleSdus(gCb,rbCb,recBuf[sn]);
- KW_FREE_WC(gCb,recBuf[sn],sizeof(KwUmRecBuf));
+ rlcUmmReAssembleSdus(gCb,rbCb,recBuf[sn]);
+ RLC_FREE_WC(gCb,recBuf[sn],sizeof(RlcUmRecBuf));
recBuf[sn] = NULLP;
}
- sn = (sn + 1) & KW_UMUL.modBitMask;
+ sn = (sn + 1) & RLC_UMUL.modBitMask;
}
}
}
if (recBuf[*vrUr])
{
- KwSn sn = *vrUr;
- KwSn tSn = KW_UM_GET_VALUE(sn,KW_UMUL);
- KwSn tVrUr;
+ RlcSn sn = *vrUr;
+ RlcSn tSn = RLC_UM_GET_VALUE(sn,RLC_UMUL);
+ RlcSn tVrUr;
/* set VR(UR) to next SN > current VR(UR) which is not received */
- KwSn nextVrUr = (*vrUr + 1) & KW_UMUL.modBitMask;
- kwUmmFindNextVRUR(&KW_UMUL, nextVrUr);
+ RlcSn nextVrUr = (*vrUr + 1) & RLC_UMUL.modBitMask;
+ rlcUmmFindNextVRUR(&RLC_UMUL, nextVrUr);
/* re-assemble SDUs with SN < Vr(UR) */
- tVrUr = KW_UM_GET_VALUE(*vrUr,KW_UMUL);
+ tVrUr = RLC_UM_GET_VALUE(*vrUr,RLC_UMUL);
while (recBuf[sn] && tSn < tVrUr)
{
- kwUmmReAssembleSdus(gCb,rbCb,recBuf[sn]);
- KW_FREE_WC(gCb,recBuf[sn],sizeof(KwUmRecBuf));
+ rlcUmmReAssembleSdus(gCb,rbCb,recBuf[sn]);
+ RLC_FREE_WC(gCb,recBuf[sn],sizeof(RlcUmRecBuf));
recBuf[sn] = NULLP;
- sn = (sn + 1) & KW_UMUL.modBitMask;
- tSn = KW_UM_GET_VALUE(sn, KW_UMUL);
+ sn = (sn + 1) & RLC_UMUL.modBitMask;
+ tSn = RLC_UM_GET_VALUE(sn, RLC_UMUL);
}
}
- tmrRunning = kwChkTmr(gCb,(PTR)rbCb, KW_EVT_UMUL_REORD_TMR);
+ tmrRunning = rlcChkTmr(gCb,(PTR)rbCb, RLC_EVT_UMUL_REORD_TMR);
if (tmrRunning)
{
- KwSn tVrUx = KW_UM_GET_VALUE(*vrUx, KW_UMUL);
- KwSn tVrUr = KW_UM_GET_VALUE(*vrUr ,KW_UMUL);
+ RlcSn tVrUx = RLC_UM_GET_VALUE(*vrUx, RLC_UMUL);
+ RlcSn tVrUr = RLC_UM_GET_VALUE(*vrUr ,RLC_UMUL);
- KwSn tVrUh = KW_UM_GET_VALUE(*vrUh, KW_UMUL);
+ RlcSn tVrUh = RLC_UM_GET_VALUE(*vrUh, RLC_UMUL);
- S16 ret = kwUmmCheckSnInReordWindow(*vrUx, &KW_UMUL);
+ S16 ret = rlcUmmCheckSnInReordWindow(*vrUx, &RLC_UMUL);
if ( (tVrUx <= tVrUr) || ((!ret) && (tVrUx != tVrUh)))
{
- kwStopTmr(gCb,(PTR)rbCb,KW_EVT_UMUL_REORD_TMR);
+ rlcStopTmr(gCb,(PTR)rbCb,RLC_EVT_UMUL_REORD_TMR);
tmrRunning = FALSE;
}
}
if (!tmrRunning)
{
- if (KW_UM_GET_VALUE(*vrUh, KW_UMUL) > KW_UM_GET_VALUE(*vrUr, KW_UMUL))
+ if (RLC_UM_GET_VALUE(*vrUh, RLC_UMUL) > RLC_UM_GET_VALUE(*vrUr, RLC_UMUL))
{
- kwStartTmr(gCb,(PTR)rbCb,KW_EVT_UMUL_REORD_TMR);
+ rlcStartTmr(gCb,(PTR)rbCb,RLC_EVT_UMUL_REORD_TMR);
*vrUx = *vrUh;
}
}
count++;
}/* end while count < pduCount */
#ifdef LTE_L2_MEAS
- kwUtlCalUlIpThrPutIncTTI(gCb, rbCb,ttiCnt);
+ rlcUtlCalUlIpThrPutIncTTI(gCb, rbCb,ttiCnt);
#endif /* LTE_L2_MEAS */
- RETVOID;
+ return;
}
/**
*
* @return Void
*/
-#ifdef ANSI
-PRIVATE Void kwUmmReAssembleSdus
-(
-KwCb *gCb,
-KwUlRbCb *rbCb,
-KwUmRecBuf *umRecBuf
-)
-#else
-PRIVATE Void kwUmmReAssembleSdus(gCb,rbCb,umRecBuf)
-KwCb *gCb;
-KwUlRbCb *rbCb;
-KwUmRecBuf *umRecBuf;
-#endif
+void rlcUmmReAssembleSdus(RlcCb *gCb, RlcUlRbCb *rbCb, RlcUmRecBuf *umRecBuf)
{
- U32 liCount; /* LI count */
- U32 count; /* Loop counter */
- U8 fi; /* Framing Info */
- U16 sn; /* Sequence Number of current PDU */
- MsgLen len; /* PDU Length */
- Buffer *sdu; /* SDU to be sent to upper layer */
- Buffer *remPdu; /* Remaining PDU */
- Buffer **partialSdu; /* Partial SDU */
-
- TRC2(kwUmmReAssembleSdus)
-
+ uint32_t liCount; /* LI count */
+ uint32_t count; /* Loop counter */
+ uint8_t fi; /* Framing Info */
+ uint16_t sn; /* Sequence Number of current PDU */
+ MsgLen len; /* PDU Length */
+ Buffer *sdu; /* SDU to be sent to upper layer */
+ Buffer *remPdu; /* Remaining PDU */
+ Buffer **partialSdu; /* Partial SDU */
liCount = umRecBuf->umHdr.numLi;
fi = umRecBuf->umHdr.fi;
{
if (!(umRecBuf->pdu))
{
- RETVOID;
+ return;
}
- SFndLenMsg(umRecBuf->pdu,&len);
+ ODU_GET_MSG_LEN(umRecBuf->pdu,&len);
}
/* get the sdu out of the pdu */
- SSegMsg(umRecBuf->pdu,len,&remPdu);
+ ODU_SEGMENT_MSG(umRecBuf->pdu,len,&remPdu);
sdu = umRecBuf->pdu;
umRecBuf->pdu = remPdu;
if ((*partialSdu) &&
(sn == ((rbCb->m.umUl.sn + 1) & rbCb->m.umUl.modBitMask)))
{
- SCatMsg(*partialSdu,sdu,M1M2);
- KW_FREE_BUF(sdu);
+ ODU_CAT_MSG(*partialSdu,sdu,M1M2);
+ RLC_FREE_BUF(sdu);
if (liCount > 0 || !(fi & 1))
{
- kwUtlSndDatInd(gCb,rbCb,*partialSdu);
+ rlcUtlSendUlDataToDu(gCb,rbCb,*partialSdu);
*partialSdu = NULLP;
}
}
/* Partial Sdu stored is not valid now.So free it */
if (*partialSdu)
{
- KW_FREE_BUF(*partialSdu);
+ RLC_FREE_BUF(*partialSdu);
*partialSdu = NULLP;
}
- KW_FREE_BUF(sdu);
+ RLC_FREE_BUF(sdu);
sdu = NULLP;
}
}
{
if (*partialSdu)
{
- KW_FREE_BUF(*partialSdu); /* RLC mem leak fix */
+ RLC_FREE_BUF(*partialSdu); /* RLC mem leak fix */
*partialSdu = NULLP;
}
if (liCount > 0 || !( fi & 1))
{
- kwUtlSndDatInd(gCb,rbCb,sdu);
+ rlcUtlSendUlDataToDu(gCb,rbCb,sdu);
}
else
{
}
else
{
- kwUtlSndDatInd(gCb, rbCb, sdu);
+ rlcUtlSendUlDataToDu(gCb, rbCb, sdu);
}
}
/*
just send the SDU to the upper layer */
else
{
- kwUtlSndDatInd(gCb, rbCb, sdu);
+ rlcUtlSendUlDataToDu(gCb, rbCb, sdu);
}
}
rbCb->m.umUl.sn = sn;
- RETVOID;
+ return;
}
/**
* - If direction of the RB is downlink :
* Remove all the SDUs in the SDU queue.
* - If direction of the RB is uplink :
- * Call kwUmmReAssembleSdus() for each PDU with SN < VR(UH)
+ * Call rlcUmmReAssembleSdus() for each PDU with SN < VR(UH)
*
* @param[in] gCb RLC Instance control block
* @param[in] rlcID Identity of the RLC entity for which
* @return Void
*/
#ifdef ANSI
-PUBLIC Void kwUmmUlReEstablish
+Void rlcUmmUlReEstablish
(
-KwCb *gCb,
+RlcCb *gCb,
CmLteRlcId *rlcId,
-KwUlRbCb *rbCb
+RlcUlRbCb *rbCb
)
#else
-PUBLIC Void kwUmmUlReEstablish(gCb, rlcId, rbCb)
-KwCb *gCb;
+Void rlcUmmUlReEstablish(gCb, rlcId, rbCb)
+RlcCb *gCb;
CmLteRlcId *rlcId;
-KwUlRbCb *rbCb;
+RlcUlRbCb *rbCb;
#endif
{
- KwSn curSn;
- KwSn vrUh;
- KwUmRecBuf **recBuf; /* UM Reception Buffer */
- KwKwuSapCb *kwKwSap; /* KWU SAP Information */
-
- TRC2(kwUmmUlReEstablish)
-
+ RlcSn curSn;
+ RlcSn vrUh;
+ RlcUmRecBuf **recBuf; /* UM Reception Buffer */
+ RlcKwuSapCb *rlcKwSap; /* KWU SAP Information */
curSn = rbCb->m.umUl.vrUr;
- vrUh = KW_UM_GET_VALUE(rbCb->m.umUl.vrUh,rbCb->m.umUl);
+ vrUh = RLC_UM_GET_VALUE(rbCb->m.umUl.vrUh,rbCb->m.umUl);
recBuf = rbCb->m.umUl.recBuf;
- if(TRUE == kwChkTmr(gCb,(PTR)rbCb,KW_EVT_UMUL_REORD_TMR))
+ if(TRUE == rlcChkTmr(gCb,(PTR)rbCb,RLC_EVT_UMUL_REORD_TMR))
{
- kwStopTmr(gCb,(PTR)rbCb,KW_EVT_UMUL_REORD_TMR);
+ rlcStopTmr(gCb,(PTR)rbCb,RLC_EVT_UMUL_REORD_TMR);
}
- while (KW_UM_GET_VALUE(curSn,rbCb->m.umUl) < vrUh)
+ while (RLC_UM_GET_VALUE(curSn,rbCb->m.umUl) < vrUh)
{
if ( recBuf[curSn] != NULLP )
{
- kwUmmReAssembleSdus(gCb,rbCb,recBuf[curSn]);
- KW_FREE_WC(gCb,recBuf[curSn],sizeof(KwUmRecBuf));
+ rlcUmmReAssembleSdus(gCb,rbCb,recBuf[curSn]);
+ RLC_FREE_WC(gCb,recBuf[curSn],sizeof(RlcUmRecBuf));
recBuf[curSn] = NULLP;
}
curSn = (curSn + 1) & rbCb->m.umUl.modBitMask;
rbCb->m.umUl.vrUh = 0;
rbCb->m.umUl.vrUx = 0;
- kwKwSap = gCb->u.ulCb->kwuUlSap + KW_UI_PDCP;
+ rlcKwSap = gCb->u.ulCb->rlcKwuUlSap + RLC_UI_PDCP;
/* In the UM Mode always send reestablish-indication to Upper Latyer*/
- KwUiKwuReEstCmpInd(&kwKwSap->pst, kwKwSap->suId, *rlcId);
+ RlcUiKwuReEstCmpInd(&rlcKwSap->pst, rlcKwSap->suId, *rlcId);
RETVOID;
}
* -# TRUE
* -# FALSE
*/
-#ifdef ANSI
-PRIVATE S16 kwUmmExtractHdr
-(
-KwCb *gCb,
-KwUlRbCb *rbCb,
-Buffer *pdu,
-KwUmHdr *umHdr
-)
-#else
-PRIVATE S16 kwUmmExtractHdr(gCb, rbCb, pdu, umHdr)
-KwCb *gCb;
-KwUlRbCb *rbCb;
-Buffer *pdu;
-KwUmHdr *umHdr;
-#endif
+uint8_t rlcUmmExtractHdr(RlcCb *gCb, RlcUlRbCb *rbCb, Buffer *pdu, RlcUmHdr *umHdr)
{
- U8 e; /* Extension Bit */
+ uint8_t e; /* Extension Bit */
Data dst[2]; /* Destination Buffer */
- S32 totalSz; /* Sum of LIs */
+ int32_t totalSz; /* Sum of LIs */
MsgLen pduSz; /* PDU size */
#if (ERRCLASS & ERRCLS_DEBUG)
- S16 ret; /* Return Value */
+ uint8_t ret; /* Return Value */
#endif
- TRC3(kwUmmExtractHdr)
-
-
- SFndLenMsg(pdu,&pduSz);
+ ODU_GET_MSG_LEN(pdu,&pduSz);
if ( rbCb->m.umUl.snLen == 1)
{
#if (ERRCLASS & ERRCLS_DEBUG)
- ret = SRemPreMsg(dst,pdu);
+ ret = ODU_REM_PRE_MSG(dst,pdu);
if (ret != ROK)
{
- RLOG_ARG2(L_ERROR,DBG_RBID,rbCb->rlcId.rbId,
- "SRemPreMsg Failed for 5 bit SN UEID:%d CELLID:%d",
- rbCb->rlcId.ueId,
- rbCb->rlcId.cellId);
-
- RETVALUE(RFAILED);
+ DU_LOG("\nRLC : rlcUmmExtractHdr : ODU_REM_PRE_MSG Failed for 5 bit SN \
+ UEID:%d CELLID:%d", rbCb->rlcId.ueId, rbCb->rlcId.cellId);
+ return RFAILED;
}
#else
- SRemPreMsg(dst,pdu);
+ ODU_REM_PRE_MSG(dst,pdu);
#endif
pduSz--;
umHdr->sn = (dst[0]) & 0x1F;
{
/* snLen - sequnce length will be 10 bits requiring 2 bytes */
#if (ERRCLASS & ERRCLS_DEBUG)
- ret = SRemPreMsgMult(dst,2,pdu);
+ ret = ODU_REM_PRE_MSG_MULT(dst,2,pdu);
if (ret != ROK)
{
- RLOG_ARG2(L_ERROR,DBG_RBID,rbCb->rlcId.rbId,
- "SRemPreMsgMult Failed for 10 bits SN UEID:%d CELLID:%d",
- rbCb->rlcId.ueId,
- rbCb->rlcId.cellId);
- RETVALUE(RFAILED);
+ DU_LOG("\nRLC : rlcUmmExtractHdr : ODU_REM_PRE_MSG_MULT Failed for 10 bits SN \
+ UEID:%d CELLID:%d", rbCb->rlcId.ueId, rbCb->rlcId.cellId);
+ return RFAILED;
}
#else
- SRemPreMsgMult(dst,2,pdu);
+ ODU_REM_PRE_MSG_MULT(dst,2,pdu);
#endif
pduSz -= 2;
umHdr->numLi = 0;
totalSz = 0;
- while(e && umHdr->numLi < KW_MAX_UL_LI )
+ while(e && umHdr->numLi < RLC_MAX_UL_LI )
{
#if (ERRCLASS & ERRCLS_DEBUG)
- ret = SRemPreMsgMult(dst,2,pdu);
+ ret = ODU_REM_PRE_MSG_MULT(dst,2,pdu);
if (ret != ROK)
{
- RLOG_ARG2(L_ERROR,DBG_RBID,rbCb->rlcId.rbId,
- "SRemPreMsgMult Failed UEID:%d CELLID:%d",
- rbCb->rlcId.ueId,
- rbCb->rlcId.cellId);
- RETVALUE(RFAILED);
+ DU_LOG("\nRLC : rlcUmmExtractHdr : ODU_REM_PRE_MSG_MULT Failed UEID:%d CELLID:%d",\
+ rbCb->rlcId.ueId, rbCb->rlcId.cellId);
+ return RFAILED;
}
#else
- SRemPreMsgMult(dst,2,pdu);
+ ODU_REM_PRE_MSG_MULT(dst,2,pdu);
#endif
umHdr->li[umHdr->numLi] = ((dst[0]) & 0x7F) << 4;
umHdr->li[umHdr->numLi] |= dst[1] >> 4;
if ( 0 == umHdr->li[umHdr->numLi] )
{
- RLOG_ARG2(L_ERROR,DBG_RBID,rbCb->rlcId.rbId,
- "Received LI as 0 UEID:%d CELLID:%d",
- rbCb->rlcId.ueId,
- rbCb->rlcId.cellId);
- RETVALUE(RFAILED);
+ DU_LOG("\nRLC : rlcUmmExtractHdr : Received LI as 0 UEID:%d CELLID:%d",
+ rbCb->rlcId.ueId, rbCb->rlcId.cellId);
+ return RFAILED;
}
totalSz += umHdr->li[umHdr->numLi];
if ( pduSz <= totalSz )
{
- RLOG_ARG3(L_ERROR,DBG_RBID,rbCb->rlcId.rbId,
- "SN [%d]: UEID:%d CELLID:%d",
- umHdr->sn,
- rbCb->rlcId.ueId,
- rbCb->rlcId.cellId);
- RLOG_ARG4(L_ERROR,DBG_RBID,rbCb->rlcId.rbId,
- "Corrupted PDU as TotSz[%lu] PduSz[%lu] UEID:%d CELLID:%d ",
- totalSz,
- pduSz,
- rbCb->rlcId.ueId,
- rbCb->rlcId.cellId);
- RETVALUE(RFAILED); /* the situation where in the PDU size
+ DU_LOG("\nRLC : rlcUmmExtractHdr : SN [%d]: UEID:%d CELLID:%d",\
+ umHdr->sn, rbCb->rlcId.ueId, rbCb->rlcId.cellId);
+ DU_LOG("\nRLC : rlcUmmExtractHdr : Corrupted PDU as TotSz[%d] PduSz[%d] \
+ UEID:%d CELLID:%d ", totalSz, pduSz, rbCb->rlcId.ueId, rbCb->rlcId.cellId);
+ return RFAILED; /* the situation where in the PDU size
is something that does not match with
the size in LIs*/
}
e = ((dst[0]) & 0x80) >> 7;
- if ( e && umHdr->numLi < KW_MAX_UL_LI)
+ if ( e && umHdr->numLi < RLC_MAX_UL_LI)
{
U8 tmp = ((dst[1]) & 0x08) >> 3;
umHdr->li[umHdr->numLi] = ( dst[1] & 0x07) << 8;
#if (ERRCLASS & ERRCLS_DEBUG)
- ret = SRemPreMsg(dst,pdu);
+ ret = ODU_REM_PRE_MSG(dst,pdu);
if (ret != ROK)
{
- RLOG_ARG2(L_ERROR,DBG_RBID,rbCb->rlcId.rbId,
- "SRemPreMsg Failed UEID:%d CELLID:%d",
- rbCb->rlcId.ueId,
- rbCb->rlcId.cellId);
- RETVALUE(RFAILED);
+ DU_LOG("\nRLC : rlcUmmExtractHdr : ODU_REM_PRE_MSG Failed UEID:%d CELLID:%d",
+ rbCb->rlcId.ueId, rbCb->rlcId.cellId);
+ return RFAILED;
}
#else
- SRemPreMsg(dst,pdu);
+ ODU_REM_PRE_MSG(dst,pdu);
#endif
umHdr->li[umHdr->numLi] |= ( dst[0] ); /* The first byte lies in
the first 8 bits.We want
them in the last 8 bits */
if ( 0 == umHdr->li[umHdr->numLi] )
{
- RLOG_ARG2(L_ERROR,DBG_RBID,rbCb->rlcId.rbId,
- "Received LI as 0 UEID:%d CELLID:%d",
- rbCb->rlcId.ueId,
- rbCb->rlcId.cellId);
- RETVALUE(RFAILED);
+ DU_LOG("\nRLC : rlcUmmExtractHdr :Received LI as 0 UEID:%d CELLID:%d",
+ rbCb->rlcId.ueId, rbCb->rlcId.cellId);
+ return RFAILED;
}
totalSz += umHdr->li[umHdr->numLi];
pduSz--;
if (pduSz < totalSz)
{
- RETVALUE(RFAILED); /* the situation where in the PDU size is
+ return RFAILED; /* the situation where in the PDU size is
something that does not match with the
size in LIs*/
}
e = tmp;
}
- } /* while(e && umHdr->numLi < KW_MAX_LI ) */
+ } /* while(e && umHdr->numLi < RLC_MAX_LI ) */
if (e)
{
- /* PDU was constructed with LIs that exceeded KW_MAX_LI */
- RETVALUE(RFAILED);
+ /* PDU was constructed with LIs that exceeded RLC_MAX_LI */
+ return RFAILED;
}
- RETVALUE(ROK);
+ return ROK;
}
/**
* @return Void
*/
#ifdef ANSI
-PUBLIC Void kwUmmReOrdTmrExp
+Void rlcUmmReOrdTmrExp
(
-KwCb *gCb,
-KwUlRbCb *rbCb
+RlcCb *gCb,
+RlcUlRbCb *rbCb
)
#else
-PUBLIC Void kwUmmReOrdTmrExp(gCb, rbCb)
-KwCb *gCb;
-KwUlRbCb *rbCb;
+Void rlcUmmReOrdTmrExp(gCb, rbCb)
+RlcCb *gCb;
+RlcUlRbCb *rbCb;
#endif
{
- KwSn prevVrUr; /* prevVrUr */
-
- TRC3(kwUmmReOrdTmrExp)
-
-
- prevVrUr = KW_UMUL.vrUr;
+ RlcSn prevVrUr; /* prevVrUr */
+ prevVrUr = RLC_UMUL.vrUr;
/* set VR(UR) to SN >= VR(UX) that has not been received */
- kwUmmFindNextVRUR(&KW_UMUL, KW_UMUL.vrUx);
+ rlcUmmFindNextVRUR(&RLC_UMUL, RLC_UMUL.vrUx);
- while (KW_UM_GET_VALUE(prevVrUr,KW_UMUL) <
- KW_UM_GET_VALUE(KW_UMUL.vrUr,KW_UMUL))
+ while (RLC_UM_GET_VALUE(prevVrUr,RLC_UMUL) <
+ RLC_UM_GET_VALUE(RLC_UMUL.vrUr,RLC_UMUL))
{
- if (KW_UMUL.recBuf[prevVrUr])
+ if (RLC_UMUL.recBuf[prevVrUr])
{
- kwUmmReAssembleSdus(gCb, rbCb, KW_UMUL.recBuf[prevVrUr]);
- if(KW_UMUL.recBuf[prevVrUr]->pdu != NULLP) /* RLC mem leak fix */
+ rlcUmmReAssembleSdus(gCb, rbCb, RLC_UMUL.recBuf[prevVrUr]);
+ if(RLC_UMUL.recBuf[prevVrUr]->pdu != NULLP) /* RLC mem leak fix */
{
- KW_FREE_BUF(KW_UMUL.recBuf[prevVrUr]->pdu);
+ RLC_FREE_BUF(RLC_UMUL.recBuf[prevVrUr]->pdu);
}
- KW_FREE_WC(gCb, KW_UMUL.recBuf[prevVrUr], sizeof(KwUmRecBuf));
- KW_UMUL.recBuf[prevVrUr] = NULLP;
+ RLC_FREE_WC(gCb, RLC_UMUL.recBuf[prevVrUr], sizeof(RlcUmRecBuf));
+ RLC_UMUL.recBuf[prevVrUr] = NULLP;
}
prevVrUr = (prevVrUr + 1) & rbCb->m.umUl.modBitMask;
}
- if (KW_UM_GET_VALUE(KW_UMUL.vrUh, KW_UMUL) >
- KW_UM_GET_VALUE(KW_UMUL.vrUr, KW_UMUL))
+ if (RLC_UM_GET_VALUE(RLC_UMUL.vrUh, RLC_UMUL) >
+ RLC_UM_GET_VALUE(RLC_UMUL.vrUr, RLC_UMUL))
{
- kwStartTmr(gCb,(PTR)rbCb,KW_EVT_UMUL_REORD_TMR);
- KW_UMUL.vrUx = KW_UMUL.vrUh;
+ rlcStartTmr(gCb,(PTR)rbCb,RLC_EVT_UMUL_REORD_TMR);
+ RLC_UMUL.vrUx = RLC_UMUL.vrUh;
}
}
*/
#ifdef ANSI
-PUBLIC Void kwUmmFreeUlRbCb
+Void rlcUmmFreeUlRbCb
(
-KwCb *gCb,
-KwUlRbCb *rbCb
+RlcCb *gCb,
+RlcUlRbCb *rbCb
)
#else
-PUBLIC Void kwUmmFreeUlRbCb(gCb,rbCb)
-KwCb *gCb;
-KwUlRbCb *rbCb;
+Void rlcUmmFreeUlRbCb(gCb,rbCb)
+RlcCb *gCb;
+RlcUlRbCb *rbCb;
#endif
{
- KwSn curSn = 0; /* sequence number of PDU */
- KwSn windSz; /* PDU window size */
- KwUmRecBuf **umRecBuf; /* UM module receive buffer */
-
- TRC2(kwUmmFreeUlRbCb)
-
+ RlcSn curSn = 0; /* sequence number of PDU */
+ RlcSn windSz; /* PDU window size */
+ RlcUmRecBuf **umRecBuf; /* UM module receive buffer */
windSz = rbCb->m.umUl.umWinSz << 1;
umRecBuf = rbCb->m.umUl.recBuf;
- if(TRUE == kwChkTmr(gCb,(PTR)rbCb,KW_EVT_UMUL_REORD_TMR))
+ if(TRUE == rlcChkTmr(gCb,(PTR)rbCb,RLC_EVT_UMUL_REORD_TMR))
{
- kwStopTmr(gCb,(PTR)rbCb,KW_EVT_UMUL_REORD_TMR);
+ rlcStopTmr(gCb,(PTR)rbCb,RLC_EVT_UMUL_REORD_TMR);
}
while (curSn < windSz)
{
if (umRecBuf[curSn] != NULLP)
{
- KW_FREE_BUF_WC(umRecBuf[curSn]->pdu);
+ RLC_FREE_BUF_WC(umRecBuf[curSn]->pdu);
umRecBuf[curSn]->pdu = NULLP;
- KW_FREE_WC(gCb, umRecBuf[curSn], sizeof(KwUmRecBuf));
+ RLC_FREE_WC(gCb, umRecBuf[curSn], sizeof(RlcUmRecBuf));
umRecBuf[curSn] = NULLP;
}
curSn++;
}
- KW_FREE_WC(gCb,rbCb->m.umUl.recBuf, (windSz ) * sizeof(KwUmRecBuf*));
+ RLC_FREE_WC(gCb,rbCb->m.umUl.recBuf, (windSz ) * sizeof(RlcUmRecBuf*));
rbCb->m.umUl.recBuf = NULLP;
RETVOID;
}