*******************************************************************************/
/* This file contains all EGTP related functionality */
-
-#include <stdio.h>
+#include "common_def.h"
+#include "lrg.h"
+#include "lkw.x"
+#include "lrg.x"
+#include "cm_inet.h"
+#include "legtp.h"
+#include "cm_inet.x"
+#include "du_app_mac_inf.h"
+#include "du_cfg.h"
#include "du_egtp.h"
-#include "du_ue_mgr.h"
+#include "du_utils.h"
/* Global variable declaration */
EgtpGlobalCb egtpCb;
* @return ROK - success
* RFAILED - failure
***************************************************************************/
-S16 egtpActvInit(Ent entity, Inst inst, Region region, Reason reason)
+uint8_t egtpActvInit(Ent entity, Inst inst, Region region, Reason reason)
{
DU_LOG("\n\nEGTP : Initializing");
- cmMemset ((U8 *)&egtpCb, 0, sizeof(EgtpGlobalCb));
+ memset (&egtpCb, 0, sizeof(EgtpGlobalCb));
protType = CM_INET_PROTO_UDP;
return ROK;
* RFAILED - failure
*
***************************************************************************/
-S16 egtpActvTsk(Pst *pst, Buffer *mBuf)
+uint8_t egtpActvTsk(Pst *pst, Buffer *mBuf)
{
- S16 ret = ROK;
+ uint8_t ret = ROK;
switch(pst->srcEnt)
{
case EVTSLOTIND:
{
ret = unpackEgtpSlotInd(egtpSlotInd, pst, mBuf);
- SPutMsg(mBuf);
+ ODU_PUT_MSG_BUF(mBuf);
break;
}
default:
{
DU_LOG("\nEGTP : Invalid event %d", pst->event);
- SPutMsg(mBuf);
+ ODU_PUT_MSG_BUF(mBuf);
ret = RFAILED;
}
}
break;
}
- case ENTKW:
+ case ENTRLC:
{
switch(pst->event)
{
ret = RFAILED;
}
}
- SExitTsk();
+ ODU_EXIT_TASK();
return ret;
}
* RFAILED - failure
*
* ***********************************************************************/
-S16 egtpCfgReq(Pst *pst, EgtpConfig egtpCfg)
+uint8_t egtpCfgReq(Pst *pst, EgtpConfig egtpCfg)
{
- U8 ret; /* Return value */
+ uint8_t ret; /* Return value */
Pst rspPst; /* Response Pst structure */
CmStatus cfgCfm; /* Configuration Confirm */
- cmMemcpy((U8 *)&egtpCb.egtpCfg, (U8 *)&egtpCfg, (PTR)sizeof(EgtpConfig));
+ memcpy(&egtpCb.egtpCfg, &egtpCfg, sizeof(EgtpConfig));
egtpCb.recvTptSrvr.addr.address = CM_INET_NTOH_U32(egtpCb.egtpCfg.localIp.ipV4Addr);
egtpCb.recvTptSrvr.addr.port = EGTP_DFLT_PORT;
*
*
* ***********************************************************************/
-S16 egtpFillRspPst(Pst *pst, Pst *rspPst)
+uint8_t egtpFillRspPst(Pst *pst, Pst *rspPst)
{
- cmMemset((U8 *)rspPst, 0, sizeof(Pst));
+ memset(rspPst, 0, sizeof(Pst));
rspPst->srcEnt = pst->dstEnt;
rspPst->srcInst = pst->dstInst;
rspPst->srcProcId = pst->dstProcId;
rspPst->dstEnt = pst->srcEnt;
rspPst->dstInst = pst->srcInst;
rspPst->dstProcId = pst->srcProcId;
- rspPst->selector = DU_SELECTOR_LC;
+ rspPst->selector = ODU_SELECTOR_LC;
rspPst->pool= DU_POOL;
return ROK;
*
***************************************************************************/
-S16 egtpSrvOpenReq(Pst *pst)
+uint8_t egtpSrvOpenReq(Pst *pst)
{
- U8 ret; /* Return value */
+ uint8_t ret; /* Return value */
Pst rspPst; /* Response Pst structure */
CmStatus cfm; /* Confirmation status */
- U8 sockType; /* Socket type */
+ uint8_t sockType; /* Socket type */
DU_LOG("\nEGTP : Received EGTP open server request");
*
* ****************************************************************/
-S16 egtpSrvOpenPrc(U8 sockType, EgtpTptSrvr *server)
+uint8_t egtpSrvOpenPrc(uint8_t sockType, EgtpTptSrvr *server)
{
S8 ret=ROK;
ret = cmInetSocket(sockType, &(server->sockFd), protType);
*
* ***************************************************************************/
-S16 egtpTnlMgmtReq(Pst *pst, EgtpTnlEvt tnlEvt)
+uint8_t egtpTnlMgmtReq(Pst *pst, EgtpTnlEvt tnlEvt)
{
S8 ret;
Pst rspPst;
* RFAILED - failure
*
* ***************************************************************************/
-S16 egtpTnlAdd(EgtpTnlEvt tnlEvt)
+uint8_t egtpTnlAdd(EgtpTnlEvt tnlEvt)
{
- S16 ret;
+ uint8_t ret;
EgtpTeIdCb *teidCb; /* Tunnel endpoint control block */
EgtpMsgHdr preDefHdr; /* pre-define header for this tunnel */
DU_LOG("\nEGTP : Tunnel addition : LocalTeid[%d] Remote Teid[%d]", tnlEvt.lclTeid, tnlEvt.remTeid);
- ret = SGetSBuf(DU_APP_MEM_REGION, DU_POOL, (Data **)&teidCb, (Size)sizeof(EgtpTeIdCb));
- if(ret != ROK)
+ DU_ALLOC(teidCb, sizeof(EgtpTeIdCb));
+ if(teidCb == NULLP)
{
DU_LOG("\nEGTP : Memory allocation failed");
return LCM_REASON_MEM_NOAVAIL;
}
- cmMemset((U8 *)teidCb, 0, sizeof(EgtpTeIdCb));
+ memset(teidCb, 0, sizeof(EgtpTeIdCb));
teidCb->teId = tnlEvt.lclTeid;
teidCb->remTeId = tnlEvt.remTeid;
- ret = cmHashListInsert(&(egtpCb.dstCb.teIdLst), (PTR)teidCb, (U8 *)&(teidCb->teId), sizeof(U32));
+ ret = cmHashListInsert(&(egtpCb.dstCb.teIdLst), (PTR)teidCb, (uint8_t *)&(teidCb->teId), sizeof(uint32_t));
if(ret != ROK)
{
DU_LOG("\nEGTP : Failed to insert in hash list");
- SPutSBuf(DU_APP_MEM_REGION, DU_POOL, (Data *)teidCb, (Size)sizeof(EgtpTeIdCb));
+ DU_FREE(teidCb, sizeof(EgtpTeIdCb));
return LCM_REASON_HASHING_FAILED;
}
egtpCb.dstCb.numTunn++;
/* Encoding pre-defined header */
- cmMemset((U8*)&preDefHdr, 0, sizeof(EgtpMsgHdr));
+ memset(&preDefHdr, 0, sizeof(EgtpMsgHdr));
preDefHdr.msgType = EGTPU_MSG_GPDU;
preDefHdr.teId = teidCb->remTeId;
preDefHdr.extHdr.pdcpNmb.pres = FALSE;
preDefHdr.extHdr.udpPort.pres = FALSE;
preDefHdr.nPdu.pres = FALSE;
- egtpEncodeHdr((U8 *)teidCb->preEncodedHdr.hdr, &preDefHdr, &(teidCb->preEncodedHdr.cnt));
+ egtpEncodeHdr((uint8_t *)teidCb->preEncodedHdr.hdr, &preDefHdr, &(teidCb->preEncodedHdr.cnt));
return ROK;
} /* egtpTnlAdd */
* RFAILED - failure
*
* ***************************************************************************/
-S16 egtpTnlMod(EgtpTnlEvt tnlEvt)
+uint8_t egtpTnlMod(EgtpTnlEvt tnlEvt)
{
#if 0
- S16 ret;
+ uint8_t ret;
EgtpTeIdCb *teidCb = NULLP;
printf("\nTunnel modification : LocalTeid[%d] Remote Teid[%d]", tnlEvt.lclTeid, tnlEvt.remTeid);
- cmHashListFind(&(egtpCb.dstCb.teIdLst), (U8 *)&(tnlEvt.teId), sizeof(U32), 0, (PTR *)&teidCb);
+ cmHashListFind(&(egtpCb.dstCb.teIdLst), (uint8_t *)&(tnlEvt.teId), sizeof(uint32_t), 0, (PTR *)&teidCb);
if(teidCb == NULLP)
{
printf("\nTunnel id not found");
- RETVALUE(RFAILED);
+ return RFAILED;
}
teidCb->teId = tnlEvt.lclTeid;
* RFAILED - failure
*
* ***************************************************************************/
-S16 egtpTnlDel(EgtpTnlEvt tnlEvt)
+uint8_t egtpTnlDel(EgtpTnlEvt tnlEvt)
{
EgtpTeIdCb *teidCb = NULLP;
DU_LOG("\nEGTP : Tunnel deletion : Local Teid[%d] Remote Teid[%d]", tnlEvt.lclTeid, tnlEvt.remTeid);
- cmHashListFind(&(egtpCb.dstCb.teIdLst), (U8 *)&(tnlEvt.lclTeid), sizeof(U32), 0, (PTR *)&teidCb);
+ cmHashListFind(&(egtpCb.dstCb.teIdLst), (uint8_t *)&(tnlEvt.lclTeid), sizeof(uint32_t), 0, (PTR *)&teidCb);
if(teidCb == NULLP)
{
DU_LOG("\nEGTP : Tunnel id[%d] not configured", tnlEvt.lclTeid);
}
cmHashListDelete(&(egtpCb.dstCb.teIdLst), (PTR)teidCb);
- SPutSBuf(DU_APP_MEM_REGION, DU_POOL, (Data *)teidCb, (Size)sizeof(EgtpTeIdCb));
+ DU_FREE(teidCb, sizeof(EgtpTeIdCb));
egtpCb.dstCb.numTunn--;
return ROK;
* RFAILED - failure
*
* ****************************************************************/
-S16 egtpHdlDatInd(EgtpMsg egtpMsg)
+uint8_t egtpHdlDatInd(EgtpMsg egtpMsg)
{
EgtpTeIdCb *teidCb = NULLP;
- MsgLen tPduSize;
- U8 hdrLen;
- U32 msgLen;
+ uint16_t tPduSize;
+ uint8_t hdrLen;
+ uint32_t msgLen;
EgtpMsgHdr *msgHdr;
DU_LOG("\nEGTP : Received Data Indication");
- cmHashListFind(&(egtpCb.dstCb.teIdLst), (U8 *)&(egtpMsg.msgHdr.teId), sizeof(U32), 0, (PTR *)&teidCb);
+ cmHashListFind(&(egtpCb.dstCb.teIdLst), (uint8_t *)&(egtpMsg.msgHdr.teId), sizeof(uint32_t), 0, (PTR *)&teidCb);
if(teidCb == NULLP)
{
DU_LOG("\nEGTP : Tunnel id[%d] not configured", egtpMsg.msgHdr.teId);
teidCb->preEncodedHdr.hdr[EGTP_MAX_HDR_LEN - 1] &= ~(EGTP_MASK_BIT3);
}
- SFndLenMsg(egtpMsg.msg, &tPduSize);
+ ODU_GET_MSG_LEN(egtpMsg.msg, (int16_t *)&tPduSize);
/*Adjust the header to fill the correct length*/
msgLen = tPduSize + (EGTP_MAX_HDR_LEN - hdrLen) - 0x08;
/***********************************************
* Fill the length field of the message header *
***********************************************/
- teidCb->preEncodedHdr.hdr[EGTP_MAX_HDR_LEN - 3] = (U8)GetHiByte(msgLen);
- teidCb->preEncodedHdr.hdr[EGTP_MAX_HDR_LEN - 4] = (U8)GetLoByte(msgLen);
+ teidCb->preEncodedHdr.hdr[EGTP_MAX_HDR_LEN - 3] = (uint8_t)GetHiByte(msgLen);
+ teidCb->preEncodedHdr.hdr[EGTP_MAX_HDR_LEN - 4] = (uint8_t)GetLoByte(msgLen);
/*Update the sequence number*/
if(egtpMsg.msgHdr.seqNum.pres)
{
teidCb->preEncodedHdr.hdr[EGTP_MAX_HDR_LEN - 1] |= (EGTP_MASK_BIT2);
- teidCb->preEncodedHdr.hdr[EGTP_MAX_HDR_LEN - 9] = (U8)GetHiByte(egtpMsg.msgHdr.seqNum.val);
- teidCb->preEncodedHdr.hdr[EGTP_MAX_HDR_LEN - 10] = (U8)GetLoByte(egtpMsg.msgHdr.seqNum.val);
+ teidCb->preEncodedHdr.hdr[EGTP_MAX_HDR_LEN - 9] = (uint8_t)GetHiByte(egtpMsg.msgHdr.seqNum.val);
+ teidCb->preEncodedHdr.hdr[EGTP_MAX_HDR_LEN - 10] = (uint8_t)GetLoByte(egtpMsg.msgHdr.seqNum.val);
}
else
{
}
DU_LOG("\nEGTP : UL Data buffer before encoding header");
- SPrntMsg(egtpMsg.msg, 0, 0);
+ ODU_PRINT_MSG(egtpMsg.msg, 0, 0);
- SAddPreMsgMult(&teidCb->preEncodedHdr.hdr[hdrLen], (EGTP_MAX_HDR_LEN - hdrLen), egtpMsg.msg);
+ ODU_ADD_PRE_MSG_MULT(&teidCb->preEncodedHdr.hdr[hdrLen], (EGTP_MAX_HDR_LEN - hdrLen), egtpMsg.msg);
DU_LOG("\nEGTP : UL Data buffer after encoding header");
- SPrntMsg(egtpMsg.msg, 0, 0);
+ ODU_PRINT_MSG(egtpMsg.msg, 0, 0);
/* Send over UDP */
egtpSendMsg(egtpMsg.msg);
- SPutMsg(egtpMsg.msg);
+ ODU_PUT_MSG_BUF(egtpMsg.msg);
return ROK;
}/* EgtpHdlDatInd */
* RFAILED - failure
*
* ****************************************************************/
-S16 egtpEncodeHdr(U8 *preEncodedHdr, EgtpMsgHdr *preDefHdr, U8 *hdrIdx)
+uint8_t egtpEncodeHdr(uint8_t *preEncodedHdr, EgtpMsgHdr *preDefHdr, uint8_t *hdrIdx)
{
- U8 tmpByte = 0; /* Stores one byte of data for enc */
- U8 cnt = EGTP_MAX_HDR_LEN; /* Stores the position */
- Bool extPres = FALSE; /* Flag for indication of S, E or P presense flag */
- U16 nwWord = 0;
+ uint8_t tmpByte = 0; /* Stores one byte of data for enc */
+ uint8_t cnt = EGTP_MAX_HDR_LEN; /* Stores the position */
+ bool extPres = FALSE; /* Flag for indication of S, E or P presense flag */
+ uint16_t nwWord = 0;
/* Encoding header */
tmpByte |= EGTP_MASK_BIT6; /* Setting 6th LSB of 1st byte as version */
/* Encode Tunnel endpoint */
preEncodedHdr[--cnt] = 0;
preEncodedHdr[--cnt] = 0;
- nwWord = (U16)(GetHiWord(preDefHdr->teId));
- preEncodedHdr[--cnt] = (U8)(GetHiByte(nwWord));
- preEncodedHdr[--cnt] = (U8)(GetLoByte(nwWord));
- nwWord = (U16)(GetLoWord(preDefHdr->teId));
- preEncodedHdr[--cnt] = (U8)(GetHiByte(nwWord));
- preEncodedHdr[--cnt] = (U8)(GetLoByte(nwWord));
+ nwWord = (uint16_t)(GetHiWord(preDefHdr->teId));
+ preEncodedHdr[--cnt] = (uint8_t)(GetHiByte(nwWord));
+ preEncodedHdr[--cnt] = (uint8_t)(GetLoByte(nwWord));
+ nwWord = (uint16_t)(GetLoWord(preDefHdr->teId));
+ preEncodedHdr[--cnt] = (uint8_t)(GetHiByte(nwWord));
+ preEncodedHdr[--cnt] = (uint8_t)(GetLoByte(nwWord));
/* Encode sequence number */
if(preDefHdr->seqNum.pres)
* RFAILED - failure
*
* ****************************************************************/
-S16 egtpSendMsg(Buffer *mBuf)
+uint8_t egtpSendMsg(Buffer *mBuf)
{
- S16 ret;
- MsgLen txLen;
+ uint8_t ret;
+ uint16_t txLen;
CmInetMemInfo info;
CmInetAddr dstAddr;
dstAddr.port = EGTP_DFLT_PORT;
dstAddr.address = egtpCb.dstCb.dstIp;
- ret = cmInetSendMsg(&(egtpCb.dstCb.sendTptSrvr.sockFd), &dstAddr, &info, mBuf, &txLen, CM_INET_NO_FLAG);
+ ret = cmInetSendMsg(&(egtpCb.dstCb.sendTptSrvr.sockFd), &dstAddr, &info, \
+ mBuf, (int16_t *)&txLen, CM_INET_NO_FLAG);
if(ret != ROK && ret != RWOULDBLOCK)
{
DU_LOG("\nEGTP : Failed sending the message");
* RFAILED - failure
*
* ****************************************************************/
-S16 egtpSlotInd()
+uint8_t egtpSlotInd()
{
egtpRecvMsg();
return ROK;
*
* ****************************************************************/
-S16 egtpRecvMsg()
+uint8_t egtpRecvMsg()
{
- U8 ret; /* Return value */
- U8 nMsg; /* Number of messages to read from UDP socked */
- MsgLen bufLen; /* Length of received buffer */
+ uint8_t ret; /* Return value */
+ uint8_t nMsg; /* Number of messages to read from UDP socked */
+ uint16_t bufLen; /* Length of received buffer */
Buffer *recvBuf; /* Received buffer */
CmInetAddr fromAddr; /* Egtp data sender address */
CmInetMemInfo memInfo; /* Buffer allocation info */
while(nMsg < EGTP_MAX_MSG_RECV)
{
bufLen = -1;
- ret = cmInetRecvMsg(&(egtpCb.recvTptSrvr.sockFd), &fromAddr, &memInfo, &recvBuf, &bufLen, CM_INET_NO_FLAG);
+ ret = cmInetRecvMsg(&(egtpCb.recvTptSrvr.sockFd), &fromAddr, &memInfo, \
+ &recvBuf, (int16_t *)&bufLen, CM_INET_NO_FLAG);
if(ret == ROK && recvBuf != NULLP)
{
DU_LOG("\nEGTP : Received DL Message[%d]\n", nMsg+1);
- SPrntMsg(recvBuf, 0 ,0);
+ ODU_PRINT_MSG(recvBuf, 0 ,0);
egtpHdlRecvData(recvBuf);
}
nMsg++;
return ROK;
}
-S16 egtpHdlRecvData(Buffer *mBuf)
+uint8_t egtpHdlRecvData(Buffer *mBuf)
{
EgtpMsg egtpMsg;
return ROK;
}
-S16 egtpDecodeHdr(Buffer *mBuf, EgtpMsg *egtpMsg)
+uint8_t egtpDecodeHdr(Buffer *mBuf, EgtpMsg *egtpMsg)
{
- U8 tmpByte[5]; /* Holds 5 byte of data after Decoding */
- U8 version = 0; /* Holds the version type, decoded */
- MsgLen msgLen = 0; /* Holds the msgLen from the Hdr */
- MsgLen bufLen = 0; /* Holds the total buffer length */
- U8 extHdrType = 0; /* Holds the Extension hdr type */
- U8 extHdrLen = 0; /* Extension hdr length */
- Bool extPres = FALSE; /* Flag for indication of S, E or P presense flag */
+ uint8_t tmpByte[5]; /* Holds 5 byte of data after Decoding */
+ uint8_t version = 0; /* Holds the version type, decoded */
+ uint16_t msgLen = 0; /* Holds the msgLen from the Hdr */
+ uint16_t bufLen = 0; /* Holds the total buffer length */
+ uint8_t extHdrType = 0; /* Holds the Extension hdr type */
+ uint8_t extHdrLen = 0; /* Extension hdr length */
+ bool extPres = FALSE; /* Flag for indication of S, E or P presense flag */
- SFndLenMsg(mBuf, &bufLen);
+ ODU_GET_MSG_LEN(mBuf, (int16_t *)&bufLen);
/* Decode first byte and storing in temporary variable */
- SRemPreMsg(&tmpByte[0], mBuf);
+ ODU_REM_PRE_MSG(&tmpByte[0], mBuf);
/* Extracting version fro 1st byte */
version = tmpByte[0] >> 5;
DU_LOG("\nEGTP : Version %d", version);
/* Decode message type */
- SRemPreMsg((Data*)&(egtpMsg->msgHdr.msgType), mBuf);
+ ODU_REM_PRE_MSG((Data*)&(egtpMsg->msgHdr.msgType), mBuf);
DU_LOG("\nEGTP : msgType %d", egtpMsg->msgHdr.msgType);
/****************************************************************************
* Message length param is 2 bytes. So decode next 2 bytes from msg hdr and
* performing OR operation on these two bytes to calculate message length
***************************************************************************/
- SRemPreMsg(&tmpByte[1], mBuf);
- SRemPreMsg(&tmpByte[2], mBuf);
+ ODU_REM_PRE_MSG(&tmpByte[1], mBuf);
+ ODU_REM_PRE_MSG(&tmpByte[2], mBuf);
msgLen = (tmpByte[1] << 8) | tmpByte[2];
DU_LOG("\nEGTP : msgLen %d", msgLen);
* Tunnel id param is 4 bytes. So decode next 4 bytes from msg hdr and
* perform OR operation on these 4 bytes to calculate tunnel id
***************************************************************************/
- SRemPreMsg(&tmpByte[1], mBuf);
- SRemPreMsg(&tmpByte[2], mBuf);
- SRemPreMsg(&tmpByte[3], mBuf);
- SRemPreMsg(&tmpByte[4], mBuf);
+ ODU_REM_PRE_MSG(&tmpByte[1], mBuf);
+ ODU_REM_PRE_MSG(&tmpByte[2], mBuf);
+ ODU_REM_PRE_MSG(&tmpByte[3], mBuf);
+ ODU_REM_PRE_MSG(&tmpByte[4], mBuf);
egtpMsg->msgHdr.teId = (tmpByte[1] << 24) | (tmpByte[2] << 16) | (tmpByte[3] << 8) | tmpByte[4];
DU_LOG("\nEGTP : teId %d",egtpMsg->msgHdr.teId);
* perform OR operation on them
************************************************************************/
egtpMsg->msgHdr.seqNum.pres = TRUE;
- SRemPreMsg(&tmpByte[1], mBuf);
- SRemPreMsg(&tmpByte[2], mBuf);
+ ODU_REM_PRE_MSG(&tmpByte[1], mBuf);
+ ODU_REM_PRE_MSG(&tmpByte[2], mBuf);
egtpMsg->msgHdr.seqNum.val = (tmpByte[1] << 8) | tmpByte[2];
}
/****************************************************************************
* perform OR operation on them
************************************************************************/
egtpMsg->msgHdr.seqNum.pres = 0;
- SRemPreMsg(&tmpByte[1], mBuf);
- SRemPreMsg(&tmpByte[2], mBuf);
+ ODU_REM_PRE_MSG(&tmpByte[1], mBuf);
+ ODU_REM_PRE_MSG(&tmpByte[2], mBuf);
egtpMsg->msgHdr.seqNum.val = (tmpByte[1] << 8) | tmpByte[2];
}
if (tmpByte[0] & EGTP_MASK_BIT1)
{
egtpMsg->msgHdr.nPdu.pres = TRUE;
- SRemPreMsg(&(egtpMsg->msgHdr.nPdu.val), mBuf);
+ ODU_REM_PRE_MSG(&(egtpMsg->msgHdr.nPdu.val), mBuf);
}
/****************************************************************************
* If extPres is true, but PN bit is not set, implies, either of S or E bit
else if(extPres)
{
egtpMsg->msgHdr.nPdu.pres = TRUE;
- SRemPreMsg(&(egtpMsg->msgHdr.nPdu.val), mBuf);
+ ODU_REM_PRE_MSG(&(egtpMsg->msgHdr.nPdu.val), mBuf);
}
/* If E flag is set in first byte, decode extension header */
if(tmpByte[0] & EGTP_MASK_BIT3)
{
- SRemPreMsg(&extHdrType, mBuf);
+ ODU_REM_PRE_MSG(&extHdrType, mBuf);
while( 0 != extHdrType)
{
switch (extHdrType)
{
case EGTP_EXT_HDR_UDP_TYPE:
{
- SRemPreMsg(&extHdrLen, mBuf);
+ ODU_REM_PRE_MSG(&extHdrLen, mBuf);
if(extHdrLen == 0x01)
{
/************************************************************
* and perform OR operation on them
*************************************************************/
egtpMsg->msgHdr.extHdr.udpPort.pres = TRUE;
- SRemPreMsg(&tmpByte[1], mBuf);
- SRemPreMsg(&tmpByte[2], mBuf);
+ ODU_REM_PRE_MSG(&tmpByte[1], mBuf);
+ ODU_REM_PRE_MSG(&tmpByte[2], mBuf);
egtpMsg->msgHdr.extHdr.udpPort.val = (tmpByte[1] << 8) | tmpByte[2];
}
break;
case EGTP_EXT_HDR_PDCP_TYPE:
{
- SRemPreMsg(&extHdrLen, mBuf);
+ ODU_REM_PRE_MSG(&extHdrLen, mBuf);
if(extHdrLen == 0x01)
{
/*************************************************************
* and perform OR operation on them
************************************************************/
egtpMsg->msgHdr.extHdr.pdcpNmb.pres = TRUE;
- SRemPreMsg(&tmpByte[1], mBuf);
- SRemPreMsg(&tmpByte[2], mBuf);
+ ODU_REM_PRE_MSG(&tmpByte[1], mBuf);
+ ODU_REM_PRE_MSG(&tmpByte[2], mBuf);
egtpMsg->msgHdr.extHdr.pdcpNmb.val = (tmpByte[1] << 8) | tmpByte[2];
}
break;
}
} /* End of switch */
- SRemPreMsg(&extHdrType, mBuf);
+ ODU_REM_PRE_MSG(&extHdrType, mBuf);
} /* End of while */
}
***************************************************************************/
else if(extPres)
{
- SRemPreMsg(&extHdrType, mBuf);
+ ODU_REM_PRE_MSG(&extHdrType, mBuf);
}
egtpMsg->msg = mBuf;
DU_LOG("\nEGTP : DL Data Buffer after decoding header ");
- SPrntMsg(mBuf, 0, 0);
+ ODU_PRINT_MSG(mBuf, 0, 0);
/* Forward the data to duApp/RLC */