X-Git-Url: https://gerrit.o-ran-sc.org/r/gitweb?a=blobdiff_plain;f=src%2F5gnrrlc%2Fkw_umm_ul.c;h=a1c88a32241280892565b08d76ffa39480a52600;hb=refs%2Fchanges%2F91%2F5391%2F11;hp=d316ff957848f86fd50b8538bc0c3e0f7eaa6d1d;hpb=9c8b78da0f4ef42dae5e30a3061463b81327e7a0;p=o-du%2Fl2.git diff --git a/src/5gnrrlc/kw_umm_ul.c b/src/5gnrrlc/kw_umm_ul.c index d316ff957..a1c88a322 100755 --- a/src/5gnrrlc/kw_umm_ul.c +++ b/src/5gnrrlc/kw_umm_ul.c @@ -28,7 +28,7 @@ --rlcUmmQSdu --rlcUmmProcessSdus --rlcUmmProcessPdus - --rlcUmmReAssembleSdus + --rlcUmUlReAssembleSdus --kwUmmReEstablish File: kw_umm_ul.c @@ -65,18 +65,26 @@ #define RLC_MODULE (RLC_DBGMASK_UM | RLC_DBGMASK_UL) -uint8_t rlcUmmExtractHdr ARGS ((RlcCb *gCb, +static uint8_t rlcUmmExtractHdr ARGS ((RlcCb *gCb, RlcUlRbCb *rbCb, Buffer *pdu, RlcUmHdr *umHdr)); -void rlcUmmReAssembleSdus ARGS ((RlcCb *gCb, - RlcUlRbCb *rbCb, - RlcUmRecBuf *umRecBuf)); +uint8_t rlcUmmReAssembleSdus ARGS ((RlcCb *gCb, + RlcUlRbCb *rbCb, + RlcUmRecBuf *umRecBuf)); + +bool rlcUmmAddRcvdSeg ARGS ((RlcCb *gCb, + RlcUlRbCb *rbCb, + RlcUmHdr *umHdr, + Buffer *pdu, + uint16_t pduSz)); + +void rlcUmmRelAllSegs(RlcCb *gCb, RlcUmRecBuf *recBuf); #ifndef TENB_ACC #ifndef LTE_PAL_ENB -extern U32 isMemThreshReached(Region region); +uint32_t isMemThreshReached(Region region); #endif #endif /** @@ -85,34 +93,65 @@ extern U32 isMemThreshReached(Region region); * * @details * Finds the next VR(UR) depending on the passed SN. Updates VR(UR) to - * the SN of the first UMD PDU with SN >= _nextSn that has not been received + * the SN of the first UMD PDU with SN >= _nextSn that has not been reassembled * * @param[in] umUl pointer to Um mode uplink control block * @param[in] nextSn Sequence number after which the VR(UR) is to set to * * @return Void */ -void rlcUmmFindNextVRUR (RlcUmUl* umUl, RlcSn nextSn) +static void rlcUmmFindRxNextReassembly (RlcCb *gCb, RlcUmUl* umUl, RlcSn nextSn) { RlcSn ur = RLC_UM_GET_VALUE(umUl->vrUr, *umUl); - + RlcSn prevRxNextReassembly = umUl->vrUr; + RlcSn nextSnToCompare = RLC_UM_GET_VALUE(nextSn,*umUl); - + RlcUmRecBuf *recBuf = rlcUtlGetUmRecBuf(umUl->recBufLst,nextSn); + RlcUmRecBuf *prevRecBuf = rlcUtlGetUmRecBuf(umUl->recBufLst,prevRxNextReassembly); while (ur < nextSnToCompare) { - if (!(umUl->recBuf[nextSn])) /* if the buffer is empty, SN not received */ + if((ur + 1) == nextSnToCompare) + { + if ((recBuf == NULLP) || (!(recBuf->allSegRcvd))) /* if the buffer is empty, SN not received */ + { + umUl->vrUr = nextSn; + if(prevRecBuf) + { + rlcUmmRelAllSegs(gCb, prevRecBuf); + rlcUtlDelUmRecBuf(gCb, umUl->recBufLst, prevRecBuf); + } + break; + } + else + { + if(prevRecBuf) + { + rlcUmmRelAllSegs(gCb, prevRecBuf); + rlcUtlDelUmRecBuf(gCb, umUl->recBufLst, prevRecBuf); + } + } + prevRecBuf = rlcUtlGetUmRecBuf(umUl->recBufLst,nextSn); + nextSn = (nextSn + 1) & umUl->modBitMask; + nextSnToCompare = RLC_UM_GET_VALUE(nextSn,*umUl); + recBuf = rlcUtlGetUmRecBuf(umUl->recBufLst,nextSn); + } + else { - umUl->vrUr = nextSn; - break; + umUl->vrUr++; + ur = RLC_UM_GET_VALUE(umUl->vrUr, *umUl); + if(prevRecBuf) + { + rlcUmmRelAllSegs(gCb, prevRecBuf); + rlcUtlDelUmRecBuf(gCb, umUl->recBufLst, prevRecBuf); + } + prevRecBuf = rlcUtlGetUmRecBuf(umUl->recBufLst,umUl->vrUr); } - nextSn = (nextSn + 1) & umUl->modBitMask; - nextSnToCompare = RLC_UM_GET_VALUE(nextSn,*umUl); } } /** * @brief Checks whether a sequence number is within the - * re-ordering window or not + * re-assembly window or not * * @param[in] sn Sequence Number to be checked * @param[in] umUl pointer to Um mode uplink control block @@ -123,11 +162,320 @@ void rlcUmmFindNextVRUR (RlcUmUl* umUl, RlcSn nextSn) * * @return Void */ -int16_t rlcUmmCheckSnInReordWindow (RlcSn sn, CONSTANT RlcUmUl* CONSTANT umUl) +static int16_t rlcUmmCheckSnInReassemblyWindow (RlcSn sn, const RlcUmUl* const umUl) { return (RLC_UM_GET_VALUE(sn, *umUl) < RLC_UM_GET_VALUE(umUl->vrUh, *umUl)); } +/** + * @brief Handler to updated expected byte seg + * + * @details + * This function is used to update expected byte segment. The next segment + * expected is indicated by the SO of the segment which is expected. Intially + * the segment with SO 0 is expected and then in order. When all the segments + * are received (which would happen when an expected SO is encountered + * with LSF set) the allRcvd flag is set to TRUE + * + * @param[in] gCb RLC instance control block + * @param[in] umUl AM Uplink Control Block + * @param[in] seg Newly received segment + * + * @return void + * + */ + +void rlcUmmUpdExpByteSeg(RlcCb *gCb, RlcUmUl *umUl, RlcUmSeg *seg) +{ + uint16_t newExpSo; /* The new expected SO */ + RlcSn sn = seg->umHdr.sn; + bool lstRcvd=FALSE; + RlcUmRecBuf *recBuf = NULLP; + + recBuf = rlcUtlGetUmRecBuf(umUl->recBufLst, sn); + if ((recBuf == NULLP) || (recBuf && (seg->umHdr.so != recBuf->expSo))) + { + return; + } + recBuf->noMissingSeg = FALSE; + newExpSo = seg->soEnd + 1; + recBuf->expSo = newExpSo; + if(seg->umHdr.si == RLC_SI_LAST_SEG) + { + lstRcvd = TRUE; + } + RLC_UMM_LLIST_NEXT_SEG(recBuf->segLst, seg); + while(seg) + { + /* keep going ahead as long as the expectedSo match with the header so + else store the expSo for later checking again */ + if(seg->umHdr.si == RLC_SI_LAST_SEG) + { + lstRcvd = TRUE; + } + if (seg->umHdr.so == newExpSo) + { + newExpSo = seg->soEnd + 1; + recBuf->expSo = newExpSo; + RLC_UMM_LLIST_NEXT_SEG(recBuf->segLst, seg); + } + else + { + recBuf->expSo = newExpSo; + return; + } + } + if (lstRcvd == TRUE) + { + recBuf->allSegRcvd = TRUE; + } + recBuf->noMissingSeg = TRUE; + + return; +} +/** + * @brief Private handler to store the received segment + * + * @details + * Private handler invokded by rlcUmmUlPlacePduInRecBuf to add a received + * segment in reception buffer of a RBCB. + * - It is responsible for detecting duplicate segments + * - Adding it at appropriate position in the received buffer + * - Calling ExpByteSeg to set expSo field in the receiver buffer + * + * @param[in] gCb RLC instance control block + * @param[in] rbCb Radio Bearer Contro Block + * @param[in] umHdr UM Header received + * @param[in] pdu Buffer received other than the headers + * @param[in] pduSz size of the PDU buffer received + * + * @return bool + * -#TRUE Successful insertion into the receiver buffer + * -#FALSE Possibly a duplicate segment + */ + +bool rlcUmmAddRcvdSeg(RlcCb *gCb, RlcUlRbCb *rbCb, RlcUmHdr *umHdr, Buffer *pdu, uint16_t pduSz) +{ + RlcUmRecBuf *recBuf = NULLP; + RlcUmSeg *seg; + RlcUmSeg *tseg; + uint16_t soEnd; /* Holds the SoEnd of received segment */ + uint16_t expSo = 0; /* Expected SO */ + + soEnd = umHdr->so + pduSz - 1; + recBuf = rlcUtlGetUmRecBuf(RLC_UMUL.recBufLst, umHdr->sn); + + if (NULLP == recBuf) + { + RLC_ALLOC(gCb,recBuf, sizeof(RlcUmRecBuf)); + if (recBuf == NULLP) + { + DU_LOG("\nERROR --> RLC_UL : Failed to allocate memory to recv buf for UEID:%d CELLID:%d in rlcUmmAddRcvdSeg()", + rbCb->rlcId.ueId, rbCb->rlcId.cellId); + + ODU_PUT_MSG_BUF(pdu); + return FALSE; + } + rlcUtlStoreUmRecBuf(RLC_UMUL.recBufLst, recBuf, umHdr->sn); + } + else + { + if (recBuf->allSegRcvd == TRUE) + { + ODU_PUT_MSG_BUF(pdu); + return FALSE; + } + } + + RLC_UMM_LLIST_FIRST_SEG(recBuf->segLst, seg); + while ((seg != NULLP) && (seg->umHdr.so < umHdr->so)) + { + expSo = seg->umHdr.so + seg->segSz; + RLC_UMM_LLIST_NEXT_SEG(recBuf->segLst, seg); + } + + if (expSo > umHdr->so) + { + DU_LOG("\nDEBUG --> RLC_UL : Received duplicate segment in rlcUmmAddRcvdSeg()"); + /* This is a duplicate segment */ + ODU_PUT_MSG_BUF(pdu); + return FALSE; + } + + if ((seg) && (seg->umHdr.so <= soEnd)) + { + DU_LOG("\nDEBUG --> RLC_UL : Received duplicate segment in rlcUmmAddRcvdSeg()"); + /* This is a duplicate segment */ + ODU_PUT_MSG_BUF(pdu); + return FALSE; + } + + /* If we have come this far, we have to add this segment to the */ + /* reception buffer as we either have eliminated duplicates or */ + /* have found none. */ + RLC_ALLOC_WC(gCb, tseg, sizeof(RlcUmSeg)); + if (tseg == NULLP) + { + DU_LOG("\nERROR --> RLC_UL : Failed to allocate memory to segment for UEID:%d CELLID:%d in rlcUmmAddRcvdSeg()", + rbCb->rlcId.ueId, rbCb->rlcId.cellId); + ODU_PUT_MSG_BUF(pdu); + return FALSE; + } + + tseg->seg = pdu; + tseg->segSz = pduSz; + RLC_MEM_CPY(&tseg->umHdr, umHdr, sizeof(RlcUmHdr)); + RLC_MEM_CPY(&recBuf->umHdr, umHdr, sizeof(RlcUmHdr)); + recBuf->sn = umHdr->sn; + tseg->soEnd = soEnd; + if (seg == NULLP) + { + cmLListAdd2Tail(&recBuf->segLst, &tseg->lstEnt); + } + else + { + recBuf->segLst.crnt = &seg->lstEnt; + cmLListInsCrnt(&recBuf->segLst, &tseg->lstEnt); + } + tseg->lstEnt.node = (PTR)tseg; + rlcUmmUpdExpByteSeg(gCb, &RLC_UMUL, tseg); + return TRUE; +} + +/** + * @brief Private handler to release all stored segments + * + * @details + * Private handler invokded by rlcUmmRelAllSegs to release the + * stored segements in case a complete PDU is received later. + * + * @param[in] gCb RLC instance control block + * @param[in] recBuf Buffer that stores a received PDU or segments + * + * @return void + * + */ +void rlcUmmRelAllSegs(RlcCb *gCb, RlcUmRecBuf *recBuf) +{ + RlcUmSeg *seg; + + RLC_UMM_LLIST_FIRST_SEG(recBuf->segLst, seg); + while (seg != NULLP) + { + ODU_PUT_MSG_BUF(seg->seg); + cmLListDelFrm(&(recBuf->segLst), &(seg->lstEnt)); + RLC_FREE(gCb, seg, sizeof(RlcUmSeg)); + RLC_UMM_LLIST_FIRST_SEG(recBuf->segLst, seg); + } + + return; +} + +/** + * @brief Private handler to reassemble from a segment or a PDU + * + * @details + * Private handler invokded by rlcUmmReAssembleSdus with either a + * PDU or a segment of a PDU. This is also called in the case of + * reestablishment and hence out of sequence joining is also to + * be supported + * + * + * @param[in] gCb RLC instance control block + * @param[in] rbCb Uplink RB control block + * @param[in] umHdr UM header received for this segment/PDU + * @param[in] pdu PDU to be reassembled + * + * @return ROK/RFILED + * + */ + +uint8_t rlcUmmProcSeg(RlcCb *gCb, RlcUlRbCb *rbCb, RlcUmHdr *umHdr, Buffer *pdu) +{ + + if ((RLC_UMUL.expSn != umHdr->sn) || (RLC_UMUL.expSo != umHdr->so)) + { + /* Release the existing SDU as we have PDUs or */ + /* segments that are out of sequence */ + DU_LOG("\nDEBUG --> RLC_UL : Received Segments are out of sequence in rlcUmmProcSeg()"); + ODU_PUT_MSG_BUF(RLC_UMUL.assembleSdu); + return RFAILED; + } + + if (umHdr->si == RLC_SI_FIRST_SEG) + {/* first Segment of the SDU */ + if (RLC_UMUL.assembleSdu != NULLP) + { /* Some old SDU may be present */ + ODU_PUT_MSG_BUF(RLC_UMUL.assembleSdu); + } + RLC_UMUL.assembleSdu = pdu; + pdu = NULLP; + } + else if(umHdr->si == RLC_SI_MID_SEG) + {/* Middle Segment of the SDU */ + ODU_CAT_MSG(RLC_UMUL.assembleSdu,pdu, M1M2); + ODU_PUT_MSG_BUF(pdu); + pdu = NULLP; + } + else if(umHdr->si == RLC_SI_LAST_SEG) + { + ODU_CAT_MSG(pdu, RLC_UMUL.assembleSdu, M2M1); + ODU_PUT_MSG_BUF(RLC_UMUL.assembleSdu); + } + + if (pdu != NULLP) + { + RLC_UMUL.assembleSdu = NULLP; + rlcUtlSendUlDataToDu(gCb,rbCb, pdu); + } + + return ROK; +} +/** + * + * @brief Private handler to reassemble SDUs + * + * @details + * Private handler invokded by rlcUmmProcessPdus with the PDU + * from the reception buffer in sequence to reassemble SDUs and + * send it to PDCP. + * + * - With the stored header info, FI and LSF segment / concatenate + * PDUs or byte segments of PDUs to get the associated SDU. + * + * @param[in] rbCb RB control block + * @param[in] pdu PDU to be reassembled + * + * @return uint8_t + * -# ROK + * -# RFAILED + * + */ +uint8_t rlcUmmReAssembleSdus(RlcCb *gCb, RlcUlRbCb *rbCb, RlcUmRecBuf *recBuf) +{ + RlcUmSeg *seg; + + /* This is a set of segments */ + RLC_UMM_LLIST_FIRST_SEG(recBuf->segLst, seg); + RLC_UMUL.expSn = recBuf->sn; + RLC_UMUL.expSo = 0; + while(seg) + { + if(rlcUmmProcSeg(gCb, rbCb, &seg->umHdr, seg->seg) == RFAILED) + { + rlcUmmRelAllSegs(gCb, recBuf); + break; + } + RLC_UMUL.expSo = seg->soEnd + 1; + cmLListDelFrm(&(recBuf->segLst),&(seg->lstEnt)); + RLC_FREE(gCb, seg, sizeof(RlcSeg)); + RLC_UMM_LLIST_FIRST_SEG(recBuf->segLst, seg); + } + RLC_UMUL.expSn = (recBuf->umHdr.sn + 1) & (RLC_UMUL.modBitMask); + RLC_UMUL.expSo = 0; + return ROK; +} + /** * @brief Handler to process the Data Indication from the lower layer * and send the PDUs to re-assembly unit. @@ -156,9 +504,13 @@ void rlcUmmProcessPdus(RlcCb *gCb, RlcUlRbCb *rbCb, KwPduInfo *pduInfo) 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 */ + RlcUmRecBuf *recBuf; /* UM Reception Buffer */ + RlcUmHdr umHdr; /* Um header*/ + bool tmrRunning; /* Boolean for checking Tmr */ + MsgLen pduSz; /* Pdu Size */ + RlcSn tRxNextReassembly; + RlcSn tRxNextReassemblyNxt; + RlcSn tRxNextHighest; count = 0; @@ -168,37 +520,24 @@ void rlcUmmProcessPdus(RlcCb *gCb, RlcUlRbCb *rbCb, KwPduInfo *pduInfo) vrUh = &(rbCb->m.umUl.vrUh); vrUr = &(rbCb->m.umUl.vrUr); vrUx = &(rbCb->m.umUl.vrUx); - recBuf = (rbCb->m.umUl.recBuf); while (count < pduCount) { RlcSn ur; - RlcSn uh; RlcSn seqNum; - Buffer *pdu = pduInfo->mBuf[count]; - RlcUmRecBuf *tmpRecBuf; + Buffer *pdu = pduInfo->mBuf[count]; + gCb->genSts.pdusRecv++; #ifndef RGL_SPECIFIC_CHANGES #ifndef TENB_ACC #ifndef LTE_PAL_ENB - extern uint32_t ulrate_rgu; + uint32_t ulrate_rgu; MsgLen len; ODU_GET_MSG_LEN(pdu, &len); ulrate_rgu += len; #endif #endif #endif - /* create a buffer to be later inserted into the reception buffer */ - RLC_ALLOC_WC(gCb, tmpRecBuf, sizeof(RlcUmRecBuf)); -#if (ERRCLASS & ERRCLS_ADD_RES) - if (tmpRecBuf == NULLP) - { - 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 RGL_SPECIFIC_CHANGES #ifndef TENB_ACC @@ -207,12 +546,9 @@ void rlcUmmProcessPdus(RlcCb *gCb, RlcUlRbCb *rbCb, KwPduInfo *pduInfo) #ifndef XEON_SPECIFIC_CHANGES if(isMemThreshReached(rlcCb[0]->init.region) == TRUE) { - extern uint32_t rlculdrop; + uint32_t rlculdrop; rlculdrop++; - 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 */ + ODU_PUT_MSG_BUF(pdu); count++; continue; } @@ -221,285 +557,167 @@ void rlcUmmProcessPdus(RlcCb *gCb, RlcUlRbCb *rbCb, KwPduInfo *pduInfo) #endif #endif /* get the pdu header */ - if (rlcUmmExtractHdr(gCb, rbCb, pdu, &(tmpRecBuf->umHdr))) + if (rlcUmmExtractHdr(gCb, rbCb, pdu, &umHdr)) { - DU_LOG("\nRLC : rlcUmmProcessPdus: Header Extraction Failed UEID:%d CELLID:%d",\ + DU_LOG("\nERROR --> RLC_UL: 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 */ - RLC_FREE_WC(gCb, tmpRecBuf, sizeof(RlcUmRecBuf)); ODU_PUT_MSG_BUF(pdu); count++; - /* kw005.201 ccpu00117318, updating the statistics */ gCb->genSts.errorPdusRecv++; continue; } - curSn = tmpRecBuf->umHdr.sn; + + /* Check if the PDU should be delivered to upper layer */ + if(umHdr.si == 0) + { + rlcUtlSendUlDataToDu(gCb, rbCb, pdu); + ODU_PUT_MSG_BUF(pdu); + count++; + continue; + } + + curSn = umHdr.sn; /* Check if the PDU should be discarded or not */ 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) && (RLC_UMUL.recBuf[curSn])) || - (seqNum < ur)) + if (seqNum < ur) { /* PDU needs to be discarded */ - DU_LOG("\nRLC : rlcUmmProcessPdus: Received a duplicate pdu with sn %d \ + DU_LOG("\nINFO --> RLC_UL: rlcUmmProcessPdus: Received an unexpected 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)); + ODU_PUT_MSG_BUF(pdu); count++; - /* kw005.201 ccpu00117318, updating the statistics */ gCb->genSts.unexpPdusRecv++; continue; } - /* kw005.201 added support for L2 Measurement */ #ifdef LTE_L2_MEAS - - /* kw006.201 ccpu00120058, reduced code complexity by adding new function */ rlcUtlCalUlIpThrPut(gCb,rbCb, pdu, ttiCnt); - #endif - recBuf[curSn] = tmpRecBuf; - - recBuf[curSn]->pdu = pdu; - ODU_GET_MSG_LEN(pdu,&(recBuf[curSn]->pduSz)); - /* kw005.201 ccpu00117318, updating the statistics */ - gCb->genSts.bytesRecv += recBuf[curSn]->pduSz; - - if (!rlcUmmCheckSnInReordWindow(curSn,&RLC_UMUL)) - { /* currSn is outside re-ordering window */ - *vrUh = (curSn + 1) & RLC_UMUL.modBitMask; - - /* re-assemble all pdus outside the modified re-ordering window */ - /* the first SN is VR(UR) */ - if (!rlcUmmCheckSnInReordWindow(*vrUr,&RLC_UMUL)) - { - /* TODO : should it be VR(UR) + 1 ?... check, earlier it was so */ - 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 - RLC_UMUL.umWinSz) & RLC_UMUL.modBitMask; - lowerEdge = RLC_UM_GET_VALUE(*vrUr ,RLC_UMUL); - - while (RLC_UM_GET_VALUE(sn, RLC_UMUL) < lowerEdge) - { - if (recBuf[sn]) - { - rlcUmmReAssembleSdus(gCb,rbCb,recBuf[sn]); - RLC_FREE_WC(gCb,recBuf[sn],sizeof(RlcUmRecBuf)); - recBuf[sn] = NULLP; - } - sn = (sn + 1) & RLC_UMUL.modBitMask; - } - } - } - if (recBuf[*vrUr]) + ODU_GET_MSG_LEN(pdu, &pduSz); + /* Place sdu segment into recption buffer */ + if(rlcUmmAddRcvdSeg(gCb, rbCb, &umHdr, pdu, pduSz) == TRUE) { - 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 */ - RlcSn nextVrUr = (*vrUr + 1) & RLC_UMUL.modBitMask; - rlcUmmFindNextVRUR(&RLC_UMUL, nextVrUr); - - /* re-assemble SDUs with SN < Vr(UR) */ - tVrUr = RLC_UM_GET_VALUE(*vrUr,RLC_UMUL); - while (recBuf[sn] && tSn < tVrUr) + recBuf = rlcUtlGetUmRecBuf(RLC_UMUL.recBufLst, umHdr.sn); + if (recBuf == NULLP) { - rlcUmmReAssembleSdus(gCb,rbCb,recBuf[sn]); - RLC_FREE_WC(gCb,recBuf[sn],sizeof(RlcUmRecBuf)); - recBuf[sn] = NULLP; - sn = (sn + 1) & RLC_UMUL.modBitMask; - tSn = RLC_UM_GET_VALUE(sn, RLC_UMUL); - } - } - - tmrRunning = rlcChkTmr(gCb,(PTR)rbCb, RLC_EVT_UMUL_REORD_TMR); - - if (tmrRunning) - { - RlcSn tVrUx = RLC_UM_GET_VALUE(*vrUx, RLC_UMUL); - RlcSn tVrUr = RLC_UM_GET_VALUE(*vrUr ,RLC_UMUL); - - RlcSn tVrUh = RLC_UM_GET_VALUE(*vrUh, RLC_UMUL); - - S16 ret = rlcUmmCheckSnInReordWindow(*vrUx, &RLC_UMUL); - - if ( (tVrUx <= tVrUr) || ((!ret) && (tVrUx != tVrUh))) - { - rlcStopTmr(gCb,(PTR)rbCb,RLC_EVT_UMUL_REORD_TMR); - tmrRunning = FALSE; + DU_LOG("\nERROR --> RLC_UL: rlcUmmProcessPdus: recBuf is NULLP UEID:%d CELLID:%d", \ + rbCb->rlcId.ueId, rbCb->rlcId.cellId); + ODU_PUT_MSG_BUF(pdu); + count++; + continue; } - } - if (!tmrRunning) - { - if (RLC_UM_GET_VALUE(*vrUh, RLC_UMUL) > RLC_UM_GET_VALUE(*vrUr, RLC_UMUL)) + /* If all bytes segments of curSn are received, deliver assembled SDU to upper layer */ + if(recBuf != NULLP && recBuf->allSegRcvd) { - rlcStartTmr(gCb,(PTR)rbCb,RLC_EVT_UMUL_REORD_TMR); - *vrUx = *vrUh; - } - } - count++; - }/* end while count < pduCount */ -#ifdef LTE_L2_MEAS - rlcUtlCalUlIpThrPutIncTTI(gCb, rbCb,ttiCnt); -#endif /* LTE_L2_MEAS */ - return; -} + rlcUmmReAssembleSdus(gCb, rbCb, recBuf); + DU_LOG("\nDEBUG --> RLC_UL: rlcUmmProcessPdus: Assembled the Sdus for sn = %d UEID:%d CELLID:%d",\ + umHdr.sn, rbCb->rlcId.ueId, rbCb->rlcId.cellId); -/** - * @brief Handler to reassemble the SDUs and send them to the upper layer. - * - * @details - * This function processes the received in-sequence PDU and - * re-assembles the SDUs and sends them to the upper layer. - * - * @param[in] gCb RLC Instance control block - * @param[in] rbCb RB control block - * @param[in] umRecBuf Reception Buffer to be Re-Assembled - * - * @return Void -*/ -void rlcUmmReAssembleSdus(RlcCb *gCb, RlcUlRbCb *rbCb, RlcUmRecBuf *umRecBuf) -{ - 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; - sn = umRecBuf->umHdr.sn; - - for (count = 0; (count <= liCount);count++) - { - if (count < liCount ) - len = umRecBuf->umHdr.li[count]; - else - { - if (!(umRecBuf->pdu)) - { - return; - } - ODU_GET_MSG_LEN(umRecBuf->pdu,&len); - } - - /* get the sdu out of the pdu */ - ODU_SEGMENT_MSG(umRecBuf->pdu,len,&remPdu); - sdu = umRecBuf->pdu; - umRecBuf->pdu = remPdu; - - partialSdu = &(rbCb->m.umUl.partialSdu); - /* While re-assembling the SDUs, consider the first LI and perform - * the following steps. - -# If the first bit of FI(Framing Info of 2 bits) is set => - -# The current Data field in the PDU is a segment. - So form a SDU only if the - rbCb->m.um.umUl.partialSdu exists and the SNs are - in-sequence. - -# If there are no LIs and the second bit of LI is 1 - then a partial SDU is formed which would not be sent - to the upper layer. - -# else - -# If rbCb->partialSdu is not NULL then flush it off. - -# If LI count > 0 or LI count is 0 and second bit - of FI is not 1 - The SDU is complete.So send it to upper layer. - -# else - The SDU is partial and is placed - in rbCb->m.um.umUl.partialSdu; - */ - - if (0 == count ) - { - if (fi & 2) - { - if ((*partialSdu) && - (sn == ((rbCb->m.umUl.sn + 1) & rbCb->m.umUl.modBitMask))) + /* if curSn is same as the RX_NEXT_Reassembly */ + if (seqNum == ur) { - ODU_CAT_MSG(*partialSdu,sdu,M1M2); - RLC_FREE_BUF(sdu); - if (liCount > 0 || !(fi & 1)) - { - rlcUtlSendUlDataToDu(gCb,rbCb,*partialSdu); - *partialSdu = NULLP; - } + /* set RX_NEXT_Reassembly to next SN > current RX_NEXT_Reassembly which is not reassembled yet */ + RlcSn nextVrUr = (*vrUr + 1) & RLC_UMUL.modBitMask; + rlcUmmFindRxNextReassembly(gCb, &RLC_UMUL, nextVrUr); } - else + } + /* If curSn is outside re-assembly window */ + else if (!rlcUmmCheckSnInReassemblyWindow(curSn,&RLC_UMUL)) + { + DU_LOG("\nDEBUG --> RLC_UL: rlcUmmProcessPdus: curent sn is outSide the re-Assembly window. \ + sn = %d UEID:%d CELLID:%d", umHdr.sn, rbCb->rlcId.ueId, rbCb->rlcId.cellId); + + /* update RX_NEXT_Highest */ + *vrUh = (curSn + 1) & RLC_UMUL.modBitMask; + + /* Discard all pdus outside the modified re-assembly window */ + if (!rlcUmmCheckSnInReassemblyWindow(*vrUr,&RLC_UMUL)) { - /* Partial Sdu stored is not valid now.So free it */ - if (*partialSdu) + RlcSn sn = *vrUr; /* Stores SNs which need to be discarded. First SN is VR(UR) */ + RlcSn lowerEdge; /* to hold the lower-edge of the re-assembly window */ + RlcSn packetCount; + + /* Set RX_NEXT_Reassembly to next SN >= (RX_NEXT_Highest - windowSize) that has not been reassembled yet */ + *vrUr = (*vrUh - RLC_UMUL.umWinSz) & RLC_UMUL.modBitMask; + lowerEdge = *vrUr; + packetCount = (lowerEdge - sn) & RLC_UMUL.modBitMask; + + while (packetCount) { - RLC_FREE_BUF(*partialSdu); - *partialSdu = NULLP; + recBuf = rlcUtlGetUmRecBuf(RLC_UMUL.recBufLst, sn); + if (recBuf) + { + rlcUmmRelAllSegs(gCb, recBuf); + rlcUtlDelUmRecBuf(gCb, RLC_UMUL.recBufLst, recBuf); + } + sn = (sn + 1) & RLC_UMUL.modBitMask; + packetCount--; } - - RLC_FREE_BUF(sdu); - sdu = NULLP; + recBuf = rlcUtlGetUmRecBuf(RLC_UMUL.recBufLst, *vrUr); + if (recBuf != NULLP && recBuf->allSegRcvd) + { + /* set rxNextReassembly to next SN > current rxNextReassembly which is not received */ + RlcSn nextRxNextReassembly = (*vrUr + 1) & RLC_UMUL.modBitMask; + rlcUmmFindRxNextReassembly(gCb ,&RLC_UMUL, nextRxNextReassembly); + } } } - else - { - if (*partialSdu) - { - RLC_FREE_BUF(*partialSdu); /* RLC mem leak fix */ - *partialSdu = NULLP; - } - - if (liCount > 0 || !( fi & 1)) + + tmrRunning = rlcChkTmr(gCb,(PTR)rbCb, EVENT_RLC_UMUL_REASSEMBLE_TMR); + tRxNextReassembly = RLC_UM_GET_VALUE(*vrUr ,RLC_UMUL); + tRxNextReassemblyNxt = (*vrUr + 1) & rbCb->m.umUl.modBitMask; + tRxNextHighest = RLC_UM_GET_VALUE(*vrUh, RLC_UMUL); + tRxNextReassemblyNxt = RLC_UM_GET_VALUE(tRxNextReassemblyNxt ,RLC_UMUL); + + /* If reassemby timer is running */ + if (tmrRunning) + { + RlcSn tRxTimerTigger = RLC_UM_GET_VALUE(*vrUx, RLC_UMUL); + uint8_t ret = rlcUmmCheckSnInReassemblyWindow(*vrUx, &RLC_UMUL); + recBuf = rlcUtlGetUmRecBuf(RLC_UMUL.recBufLst,*vrUr); + + if ((tRxTimerTigger <= tRxNextReassembly) || ((!ret) && (tRxTimerTigger != tRxNextHighest)) || + (tRxNextHighest == tRxNextReassemblyNxt && recBuf && recBuf->noMissingSeg)) { - rlcUtlSendUlDataToDu(gCb,rbCb,sdu); + rlcStopTmr(gCb,(PTR)rbCb, EVENT_RLC_UMUL_REASSEMBLE_TMR); + tmrRunning = FALSE; + DU_LOG("\nINFO --> RLC_UL: rlcUmmProcessPdus: Stopped ReAssembly Timer rxTimerTigger = %d \ + rxNextReassembly = %d rxNextHighest = %d ", tRxTimerTigger, tRxNextReassembly, tRxNextHighest); } - else + } + + /* If Reassembly timer is not running */ + if (!tmrRunning) + { + recBuf = rlcUtlGetUmRecBuf(RLC_UMUL.recBufLst, curSn); + if ((tRxNextHighest > tRxNextReassemblyNxt) || ((tRxNextHighest == tRxNextReassemblyNxt) + && (recBuf && (!recBuf->noMissingSeg)))) { - *partialSdu = sdu; + DU_LOG("\nDEBUG --> RLC_UL: rlcUmmProcessPdus: Start ReAssembly Timer tRxNextReassemblyNxt = %d \ + tRxNextHighest %d", tRxNextReassemblyNxt, tRxNextHighest); + rlcStartTmr(gCb, (PTR)rbCb, EVENT_RLC_UMUL_REASSEMBLE_TMR); + *vrUx = *vrUh; } - } + } } - /* - If the SDU pointer has the last Data field of the PDU - -# If FI is 1,place the SDU in rbCb->m.um.umDl.partialSdu - -# else send the SDU to upper layer. - */ - else if (count == liCount) - { - if (fi & 1) - { - *partialSdu = sdu; - } - else - { - rlcUtlSendUlDataToDu(gCb, rbCb, sdu); - } - } - /* - If the LI is something other than the first one, - just send the SDU to the upper layer */ else { - rlcUtlSendUlDataToDu(gCb, rbCb, sdu); - } - } - rbCb->m.umUl.sn = sn; + DU_LOG("\nERROR --> RLC_UL: rlcUmmProcessPdus:Failed to assemble the PDU for SN = %d UEID:%d CELLID:%d",\ + umHdr.sn, rbCb->rlcId.ueId, rbCb->rlcId.cellId); - return; + } + count++; + }/* end while count < pduCount */ +#ifdef LTE_L2_MEAS + rlcUtlCalUlIpThrPutIncTTI(gCb, rbCb,ttiCnt); +#endif /* LTE_L2_MEAS */ + return; } /** @@ -511,7 +729,7 @@ void rlcUmmReAssembleSdus(RlcCb *gCb, RlcUlRbCb *rbCb, RlcUmRecBuf *umRecBuf) * - If direction of the RB is downlink : * Remove all the SDUs in the SDU queue. * - If direction of the RB is uplink : - * Call rlcUmmReAssembleSdus() for each PDU with SN < VR(UH) + * Call rlcUmUlReAssembleSdus() for each PDU with SN < VR(UH) * * @param[in] gCb RLC Instance control block * @param[in] rlcID Identity of the RLC entity for which @@ -521,41 +739,46 @@ void rlcUmmReAssembleSdus(RlcCb *gCb, RlcUlRbCb *rbCb, RlcUmRecBuf *umRecBuf) * * @return Void */ -#ifdef ANSI Void rlcUmmUlReEstablish ( RlcCb *gCb, CmLteRlcId *rlcId, RlcUlRbCb *rbCb ) -#else -Void rlcUmmUlReEstablish(gCb, rlcId, rbCb) -RlcCb *gCb; -CmLteRlcId *rlcId; -RlcUlRbCb *rbCb; -#endif { RlcSn curSn; RlcSn vrUh; - RlcUmRecBuf **recBuf; /* UM Reception Buffer */ + RlcUmRecBuf *recBuf; /* UM Reception Buffer */ RlcKwuSapCb *rlcKwSap; /* KWU SAP Information */ curSn = rbCb->m.umUl.vrUr; vrUh = RLC_UM_GET_VALUE(rbCb->m.umUl.vrUh,rbCb->m.umUl); - recBuf = rbCb->m.umUl.recBuf; - if(TRUE == rlcChkTmr(gCb,(PTR)rbCb,RLC_EVT_UMUL_REORD_TMR)) + if(TRUE == rlcChkTmr(gCb,(PTR)rbCb,EVENT_RLC_UMUL_REASSEMBLE_TMR)) { - rlcStopTmr(gCb,(PTR)rbCb,RLC_EVT_UMUL_REORD_TMR); + rlcStopTmr(gCb,(PTR)rbCb,EVENT_RLC_UMUL_REASSEMBLE_TMR); } - while (RLC_UM_GET_VALUE(curSn,rbCb->m.umUl) < vrUh) + while (RLC_UM_GET_VALUE(curSn, rbCb->m.umUl) < vrUh) { - if ( recBuf[curSn] != NULLP ) + recBuf = rlcUtlGetUmRecBuf(RLC_UMUL.recBufLst, curSn); + if ( recBuf != NULLP ) { - rlcUmmReAssembleSdus(gCb,rbCb,recBuf[curSn]); - RLC_FREE_WC(gCb,recBuf[curSn],sizeof(RlcUmRecBuf)); - recBuf[curSn] = NULLP; + if(recBuf->allRcvd == TRUE) + { + rlcUmmReAssembleSdus(gCb,rbCb,recBuf); + } + else + { + /* Remove PDU and segments */ + if(recBuf->pdu) + { + ODU_PUT_MSG_BUF(recBuf->pdu); + } + /* Release all the segments*/ + rlcUmmRelAllSegs(gCb,recBuf); + } + rlcUtlDelUmRecBuf(gCb, RLC_UMUL.recBufLst, recBuf); } curSn = (curSn + 1) & rbCb->m.umUl.modBitMask; } @@ -568,7 +791,7 @@ RlcUlRbCb *rbCb; /* In the UM Mode always send reestablish-indication to Upper Latyer*/ RlcUiKwuReEstCmpInd(&rlcKwSap->pst, rlcKwSap->suId, *rlcId); - RETVOID; + return; } /** @@ -576,8 +799,8 @@ RlcUlRbCb *rbCb; * * @details * This function is used to extract the header of a PDU and store it - * along with the PDU buffer.The sequence number,framing info - * and LIs are extracted by this function. + * along with the PDU buffer.The sequence number, segmentation info + * and segmentation offset are extracted by this function. * * @param[in] gCb RLC Instance control block * @param[in] rbCb Rb Control block for which the pdu is received @@ -588,197 +811,94 @@ RlcUlRbCb *rbCb; * -# TRUE * -# FALSE */ -uint8_t rlcUmmExtractHdr(RlcCb *gCb, RlcUlRbCb *rbCb, Buffer *pdu, RlcUmHdr *umHdr) +static uint8_t rlcUmmExtractHdr(RlcCb *gCb, RlcUlRbCb *rbCb, Buffer *pdu, RlcUmHdr *umHdr) { - uint8_t e; /* Extension Bit */ Data dst[2]; /* Destination Buffer */ - int32_t totalSz; /* Sum of LIs */ - MsgLen pduSz; /* PDU size */ -#if (ERRCLASS & ERRCLS_DEBUG) uint8_t ret; /* Return Value */ -#endif - ODU_GET_MSG_LEN(pdu,&pduSz); - - if ( rbCb->m.umUl.snLen == 1) + memset(umHdr, 0, sizeof(RlcUmHdr)); + + ret = ODU_REM_PRE_MSG(dst,pdu); + if (ret != ROK) { -#if (ERRCLASS & ERRCLS_DEBUG) - ret = ODU_REM_PRE_MSG(dst,pdu); - if (ret != ROK) - { - 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 - ODU_REM_PRE_MSG(dst,pdu); -#endif - pduSz--; - umHdr->sn = (dst[0]) & 0x1F; - umHdr->fi = (dst[0]) >> 6; - e = (dst[0]>>5) & 0x01; + DU_LOG("\nERROR --> RLC_UL: rlcUmmExtractHdr : ODU_REM_PRE_MSG Failed for SI\ + UEID:%d CELLID:%d", rbCb->rlcId.ueId, rbCb->rlcId.cellId); + return RFAILED; + } + umHdr->si = (dst[0]) >> 6; + + /* If SI = 0, the RLC PDU contains complete RLC SDU. Header extraction complete. + * No other fields present in header */ + if(umHdr->si == 0) + return ROK; + + /* If SI != 0, one SDU segment is present in RLC PDU. Hence extracting SN */ + if (rbCb->m.umUl.snLen == RLC_UM_CFG_6BIT_SN_LEN) + { + /* Extractin 6-bit SN */ + umHdr->sn = (dst[0]) & 0x3F; } else { - /* snLen - sequnce length will be 10 bits requiring 2 bytes */ -#if (ERRCLASS & ERRCLS_DEBUG) - ret = ODU_REM_PRE_MSG_MULT(dst,2,pdu); + /* Extracting 12 bits SN */ + umHdr->sn = (dst[0]) & 0x0F; + ret = ODU_REM_PRE_MSG(dst,pdu); if (ret != ROK) { - 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; + DU_LOG("\nERROR --> RLC_UL: rlcUmmExtractHdr : ODU_REM_PRE_MSG Failed for SN\ + UEID:%d CELLID:%d", rbCb->rlcId.ueId, rbCb->rlcId.cellId); + return RFAILED; } -#else - ODU_REM_PRE_MSG_MULT(dst,2,pdu); -#endif - pduSz -= 2; - - /* kw005.201 R9 Upgrade 3gpp spec 36.322 ver9.3.0 CR0082 * - * Removed the "if" condition for checking the reserved field * - * Added mask 0x03 for extracting the FI field. */ - - umHdr->fi = ( (dst[0] ) >> 3) & 0x03; - e = ( (dst[0] ) >> 2) & 0x01; - umHdr->sn = ( dst[0] & 0x03) << 8; - umHdr->sn |= dst[1]; + umHdr->sn = (umHdr->sn << 8) | dst[0]; } - umHdr->numLi = 0; - - totalSz = 0; - while(e && umHdr->numLi < RLC_MAX_UL_LI ) + /* SO field is present for middle and last segments of SDU, not present for first segment */ + if((umHdr->si == RLC_SI_LAST_SEG) || (umHdr->si == RLC_SI_MID_SEG)) { -#if (ERRCLASS & ERRCLS_DEBUG) ret = ODU_REM_PRE_MSG_MULT(dst,2,pdu); if (ret != ROK) { - DU_LOG("\nRLC : rlcUmmExtractHdr : ODU_REM_PRE_MSG_MULT Failed UEID:%d CELLID:%d",\ - rbCb->rlcId.ueId, rbCb->rlcId.cellId); + DU_LOG("\nERROR --> RLC_UL: rlcUmmExtractHdr : ODU_REM_PRE_MSG_MULT Failed for 16 bits SO \ + UEID:%d CELLID:%d", rbCb->rlcId.ueId, rbCb->rlcId.cellId); return RFAILED; } -#else - 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] ) - { - 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 ) - { - 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*/ - } - umHdr->numLi++; - pduSz -= 2; - - e = ((dst[0]) & 0x80) >> 7; - - 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 = ODU_REM_PRE_MSG(dst,pdu); - if (ret != ROK) - { - DU_LOG("\nRLC : rlcUmmExtractHdr : ODU_REM_PRE_MSG Failed UEID:%d CELLID:%d", - rbCb->rlcId.ueId, rbCb->rlcId.cellId); - return RFAILED; - } -#else - 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] ) - { - 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--; - umHdr->numLi++; - - if (pduSz < totalSz) - { - 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 < RLC_MAX_LI ) */ - if (e) - { - /* PDU was constructed with LIs that exceeded RLC_MAX_LI */ - return RFAILED; + umHdr->so = dst[0]; + umHdr->so = (umHdr->so << 8) | dst[1]; } return ROK; } /** - * @brief Handles expiry of re-ordering timer + * @brief Handles expiry of re-assembly timer * * @param[in] gCb RLC Instance control block - * @param[in] rbCb Rb Control block for which re-order timer expired + * @param[in] rbCb Rb Control block for which re-assembly timer expired * * @return Void */ -#ifdef ANSI -Void rlcUmmReOrdTmrExp +void rlcUmmReAsmblTmrExp ( RlcCb *gCb, RlcUlRbCb *rbCb ) -#else -Void rlcUmmReOrdTmrExp(gCb, rbCb) -RlcCb *gCb; -RlcUlRbCb *rbCb; -#endif { - RlcSn prevVrUr; /* prevVrUr */ - prevVrUr = RLC_UMUL.vrUr; + RlcSn tRxNextHighest; + RlcSn tRxNextReassembly; + RlcUmRecBuf *recBuf; - /* set VR(UR) to SN >= VR(UX) that has not been received */ - rlcUmmFindNextVRUR(&RLC_UMUL, RLC_UMUL.vrUx); + DU_LOG("\nINFO --> RLC_UL: rlcUmmReAsmblTmrExp: UM Re-assembly timer expired"); - while (RLC_UM_GET_VALUE(prevVrUr,RLC_UMUL) < - RLC_UM_GET_VALUE(RLC_UMUL.vrUr,RLC_UMUL)) - { - if (RLC_UMUL.recBuf[prevVrUr]) - { - rlcUmmReAssembleSdus(gCb, rbCb, RLC_UMUL.recBuf[prevVrUr]); - if(RLC_UMUL.recBuf[prevVrUr]->pdu != NULLP) /* RLC mem leak fix */ - { - RLC_FREE_BUF(RLC_UMUL.recBuf[prevVrUr]->pdu); - } - RLC_FREE_WC(gCb, RLC_UMUL.recBuf[prevVrUr], sizeof(RlcUmRecBuf)); - RLC_UMUL.recBuf[prevVrUr] = NULLP; - } - - prevVrUr = (prevVrUr + 1) & rbCb->m.umUl.modBitMask; - } + /* set VR(UR) to SN >= VR(UX) that has not been reassembled */ + rlcUmmFindRxNextReassembly(gCb, &RLC_UMUL, RLC_UMUL.vrUx); - if (RLC_UM_GET_VALUE(RLC_UMUL.vrUh, RLC_UMUL) > - RLC_UM_GET_VALUE(RLC_UMUL.vrUr, RLC_UMUL)) + tRxNextHighest = RLC_UM_GET_VALUE(RLC_UMUL.vrUh, RLC_UMUL); + tRxNextReassembly = (RLC_UMUL.vrUr + 1) & rbCb->m.umUl.modBitMask; + tRxNextReassembly = RLC_UM_GET_VALUE(tRxNextReassembly, RLC_UMUL); + recBuf = rlcUtlGetUmRecBuf(RLC_UMUL.recBufLst,RLC_UMUL.vrUr); + if ((tRxNextHighest > tRxNextReassembly) || ((tRxNextHighest == tRxNextReassembly) && + ((recBuf) && !(recBuf->noMissingSeg)))) { - rlcStartTmr(gCb,(PTR)rbCb,RLC_EVT_UMUL_REORD_TMR); + rlcStartTmr(gCb, (PTR)rbCb, EVENT_RLC_UMUL_REASSEMBLE_TMR); RLC_UMUL.vrUx = RLC_UMUL.vrUh; } } @@ -797,47 +917,45 @@ RlcUlRbCb *rbCb; * @return void */ -#ifdef ANSI Void rlcUmmFreeUlRbCb ( RlcCb *gCb, RlcUlRbCb *rbCb ) -#else -Void rlcUmmFreeUlRbCb(gCb,rbCb) -RlcCb *gCb; -RlcUlRbCb *rbCb; -#endif { - 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; + RlcSn curSn = 0; /* Sequence number of PDU */ + RlcUmRecBuf *recBuf = NULLP; - if(TRUE == rlcChkTmr(gCb,(PTR)rbCb,RLC_EVT_UMUL_REORD_TMR)) + if(TRUE == rlcChkTmr(gCb,(PTR)rbCb,EVENT_RLC_UMUL_REASSEMBLE_TMR)) { - rlcStopTmr(gCb,(PTR)rbCb,RLC_EVT_UMUL_REORD_TMR); + rlcStopTmr(gCb,(PTR)rbCb, EVENT_RLC_UMUL_REASSEMBLE_TMR); } - while (curSn < windSz) + + do { - if (umRecBuf[curSn] != NULLP) + recBuf = rlcUtlGetUmRecBuf(rbCb->m.umUl.recBufLst, curSn); + if ( recBuf != NULLP ) { - RLC_FREE_BUF_WC(umRecBuf[curSn]->pdu); - umRecBuf[curSn]->pdu = NULLP; - - RLC_FREE_WC(gCb, umRecBuf[curSn], sizeof(RlcUmRecBuf)); - umRecBuf[curSn] = NULLP; + if (recBuf->pdu != NULLP) + { + ODU_PUT_MSG_BUF(recBuf->pdu); + } + /* Release all the segments */ + rlcUmmRelAllSegs(gCb,recBuf); + rlcUtlDelUmRecBuf(gCb, rbCb->m.umUl.recBufLst, recBuf); } curSn++; - } - RLC_FREE_WC(gCb,rbCb->m.umUl.recBuf, (windSz ) * sizeof(RlcUmRecBuf*)); - rbCb->m.umUl.recBuf = NULLP; - RETVOID; -} + }while ( curSn < RLC_RCV_BUF_BIN_SIZE); + RLC_FREE(gCb,rbCb->m.umUl.recBufLst, (RLC_RCV_BUF_BIN_SIZE * sizeof(CmLListCp))); + rbCb->m.umUl.recBufLst = NULLP; + + if(rbCb->m.umUl.assembleSdu != NULLP) + { + ODU_PUT_MSG_BUF(rbCb->m.umUl.assembleSdu); + } + return; +} /* rlcAmmFreeUlRbCb */ /********************************************************************30** End of file