* -# RFAILED
*/
-#ifdef ANSI
S16 rlcUlUdxBndCfm
(
Pst *pst,
SuId suId,
uint8_t status
)
-#else
-S16 rlcUlUdxBndCfm (pst, suId, status)
-Pst *pst;
-SuId suId;
-uint8_t status;
-#endif
{
uint16_t event;
uint16_t cause;
{
case RLC_SAP_BINDING:
{
- if(TRUE == rlcChkTmr(tRlcCb,(PTR)udxSap,RLC_EVT_WAIT_BNDCFM))
+ if(TRUE == rlcChkTmr(tRlcCb,(PTR)udxSap,EVENT_RLC_WAIT_BNDCFM))
{
- rlcStopTmr (tRlcCb,(PTR)udxSap, RLC_EVT_WAIT_BNDCFM);
+ rlcStopTmr (tRlcCb,(PTR)udxSap, EVENT_RLC_WAIT_BNDCFM);
}
udxSap->retryCnt = 0;
* -# ROK
* -# RFAILED
*/
-#ifdef ANSI
S16 rlcUlUdxCfgCfm
(
Pst *pst,
SuId suId,
RlcCfgCfmInfo *cfmInfo
)
-#else
-S16 rlcUlUdxCfgCfm (pst, suId, cfmInfo)
-Pst *pst;
-SuId suId;
-RlcCfgCfmInfo *cfmInfo;
-#endif
{
RlcCb *tRlcCb;
RlcCfgCfmInfo *cfgCfm;
* -# RFAILED
*/
-#ifdef ANSI
S16 rlcUlUdxUeIdChgCfm
(
Pst *pst,
uint32_t transId,
CmStatus status
)
-#else
-S16 rlcUlUdxUeIdChgCfm (pst, suId, cfmInfo)
-Pst *pst;
-SuId suId;
-uint32_t transId;
-CmStatus status;
-#endif
{
RlcCb *tRlcCb;
RlcUlCfgTmpData *cfgTmpData;
/* only newUeInfo needs to be freed here, ueInfo would be freed at the
interface or by he receipient in case of tight coupling */
RLC_PST_FREE(pst->region, pst->pool, cfgTmpData->newUeInfo, sizeof(CkwUeInfo));
- RLC_FREE_WC(tRlcCb, cfgTmpData, sizeof (RlcUlCfgTmpData));
+ RLC_FREE(tRlcCb, cfgTmpData, sizeof (RlcUlCfgTmpData));
return ROK;
}
}
/* Start staProhTmr */
- rlcStartTmr(tRlcCb,(PTR)rbCb, RLC_EVT_AMUL_STA_PROH_TMR);
+ rlcStartTmr(tRlcCb,(PTR)rbCb, EVENT_RLC_AMUL_STA_PROH_TMR);
return (ROK);
}
* -# ROK
* -# RFAILED
*/
-#ifdef ANSI
S16 rlcHdlCrlcUlCfgReq
(
RlcCb *gCb,
RlcCfgCfmInfo *cfmInfo,
RlcCfgCfmInfo *cfgCfm
)
-#else
-S16 rlcHdlCrlcUlCfgReq(gCb,cfgTmpData,cfmInfo,cfmInfo)
-RlcCb *gCb;
-RlcUlCfgTmpData *cfgTmpData;
-RlcCfgCfmInfo *cfmInfo;
-RlcCfgCfmInfo *cfgCfm;
-#endif
{
RlcCfgInfo *cfg;
uint32_t idx;