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Change-Id: Id4294f30faced84d3e6fd6d5e61e1111bf287a37
diff --git a/mcu/interface/protocol/l2_c2k/evdo/ParRlp.h b/mcu/interface/protocol/l2_c2k/evdo/ParRlp.h
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+/*****************************************************************************
+* Copyright Statement:
+* --------------------
+* This software is protected by Copyright and the information contained
+* herein is confidential. The software may not be copied and the information
+* contained herein may not be used or disclosed except with the written
+* permission of MediaTek Inc. (C) 2016
+*
+* BY OPENING THIS FILE, BUYER HEREBY UNEQUIVOCALLY ACKNOWLEDGES AND AGREES
+* THAT THE SOFTWARE/FIRMWARE AND ITS DOCUMENTATIONS ("MEDIATEK SOFTWARE")
+* RECEIVED FROM MEDIATEK AND/OR ITS REPRESENTATIVES ARE PROVIDED TO BUYER ON
+* AN "AS-IS" BASIS ONLY. MEDIATEK EXPRESSLY DISCLAIMS ANY AND ALL WARRANTIES,
+* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES OF
+* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT.
+* NEITHER DOES MEDIATEK PROVIDE ANY WARRANTY WHATSOEVER WITH RESPECT TO THE
+* SOFTWARE OF ANY THIRD PARTY WHICH MAY BE USED BY, INCORPORATED IN, OR
+* SUPPLIED WITH THE MEDIATEK SOFTWARE, AND BUYER AGREES TO LOOK ONLY TO SUCH
+* THIRD PARTY FOR ANY WARRANTY CLAIM RELATING THERETO. MEDIATEK SHALL ALSO
+* NOT BE RESPONSIBLE FOR ANY MEDIATEK SOFTWARE RELEASES MADE TO BUYER'S
+* SPECIFICATION OR TO CONFORM TO A PARTICULAR STANDARD OR OPEN FORUM.
+*
+* BUYER'S SOLE AND EXCLUSIVE REMEDY AND MEDIATEK'S ENTIRE AND CUMULATIVE
+* LIABILITY WITH RESPECT TO THE MEDIATEK SOFTWARE RELEASED HEREUNDER WILL BE,
+* AT MEDIATEK'S OPTION, TO REVISE OR REPLACE THE MEDIATEK SOFTWARE AT ISSUE,
+* OR REFUND ANY SOFTWARE LICENSE FEES OR SERVICE CHARGE PAID BY BUYER TO
+* MEDIATEK FOR SUCH MEDIATEK SOFTWARE AT ISSUE.
+*
+* THE TRANSACTION CONTEMPLATED HEREUNDER SHALL BE CONSTRUED IN ACCORDANCE
+* WITH THE LAWS OF THE STATE OF CALIFORNIA, USA, EXCLUDING ITS CONFLICT OF
+* LAWS PRINCIPLES. ANY DISPUTES, CONTROVERSIES OR CLAIMS ARISING THEREOF AND
+* RELATED THERETO SHALL BE SETTLED BY ARBITRATION IN SAN FRANCISCO, CA, UNDER
+* THE RULES OF THE INTERNATIONAL CHAMBER OF COMMERCE (ICC).
+*
+*****************************************************************************/
+/*************************************************************
+*
+* This Software is the property of VIA Telecom, Inc. and may only be used pursuant to a license from VIA Telecom, Inc.
+*
+* Any unauthorized use inconsistent with the terms of such license is strictly prohibited.
+*
+* Copyright (c) 2006-2010 VIA Telecom, Inc. All rights reserved.
+*
+*************************************************************/
+#ifndef _PAR_RLP_H_
+#define _PAR_RLP_H_
+
+/*****************************************************************************
+*
+* FILE NAME : ParRlp.h
+*
+* DESCRIPTION : This file contains function prototypes and other definitions
+* for the Reverse RLP protocol
+*
+* HISTORY :
+* See Log at end of file
+*
+*****************************************************************************/
+
+/*----------------------------------------------------------------------------
+* Include Files
+----------------------------------------------------------------------------*/
+#include "sysdefs.h"
+#include "par.h"
+/*----------------------------------------------------------------------------
+Defines And Macros
+----------------------------------------------------------------------------*/
+#define RLP_RETXQ_PRIORITY 60
+#define RLP_TXQ_PRIORITY 70
+
+
+#define PAR_RLP_ABORT_TIMER_INTERVAL 500 /*500 ms for abort timer. */
+#define PAR_RLP_FLUSH_TIMER_INTERVAL 300
+
+
+
+/*----------------------------------------------------------------------------
+structure definitions
+----------------------------------------------------------------------------*/
+typedef enum
+{
+ RESV_CLOSE_ST,
+ RESV_OPEN_ST,
+ RESV_WFR_OPEN_ST,
+ RESV_WFR_CLOSE_ST,
+ RESV_MAX_ST
+}ParResrevationStateT;
+
+typedef enum
+{
+ RESV_OP_NULL,
+ RESV_OP_ONREQ,
+ RESV_OP_OFFREQ
+} ParReservationOperationTypeT;
+
+
+typedef struct
+{
+#if defined (RCP_RI_HRT_DEV)
+ kal_uint32 TimerCb;
+#else
+ kal_timerid TimerCb;
+#endif
+ kal_bool Active;
+} ParRlpFlushTimerT;
+
+#ifdef CBP7_EHRPD
+typedef struct
+{
+ kal_uint32 seq;
+ kal_uint8 RLPHdrLen;
+ kal_uint16 nAvailableBytes;
+} ParRlpNakCheckRecT;
+
+typedef struct
+{
+ kal_uint8 nAppType;
+ kal_uint8 nRLPFlow;
+} ParRlpMaxVsUpdateT;
+
+typedef struct
+{
+ kal_uint32 seq;
+ kal_uint32 range;
+ kal_bool bDeleteWhenSameSeq;
+} ParRlpTxQDeleteCheckT;
+#endif
+typedef struct
+{
+ kal_int32 EVDORevARevMFRLPStatsFlowId;
+ kal_uint32 EVDORevARevMFRLPStatsResetTime;
+ kal_int32 EVDORevARevMFRLPStatsRLPStatsNaksReceived;
+ kal_int32 EVDORevARevMFRLPStatsReXmitsNotFound;
+ kal_int64 EVDORevARevMFRLPStatsANNakBytesRequested;
+ kal_int64 EVDORevARevMFRLPStatsTxReXmitsBytes;
+ kal_int64 EVDORevARevMFRLPStatsTxNewDataBytes;
+ kal_int64 EVDORevARevMFRLPStatsTxTotalBytes;
+ kal_int32 EVDORevARevMFRLPStatsResetCount;
+ kal_int32 EVDORevARevMFRLPStatsATResetRequestCount;
+ kal_int32 EVDORevARevMFRLPStatsANResetAckCount;
+ kal_int32 EVDORevARevMFRLPStatsANResetRequestCount;
+} EVDORevARevMFRLPStatsMeasT;
+
+typedef struct
+{
+ EVDORevARevMFRLPStatsMeasT rlpMeas[MAX_RLP_FLOW_SUPPORTED];
+} EVDORevARevMFRLPStatsEventT;
+
+typedef struct
+{
+ kal_uint32 SysTime;
+ EVDORevARevMFRLPStatsMeasT rlpMeas[MAX_RLP_FLOW_SUPPORTED];
+} ParRlpStatPeekRspMsgT;
+
+/*----------------------------------------------------------------------------
+API Functions
+----------------------------------------------------------------------------*/
+void ParRlpInit(void);
+void ParRlpCommit(AppSubTypeT appType);
+void ParHlpRevDataMsgHandler(ParHlpDataTxMsgT *pMsg);
+void ParRlpAccessFlushTmExpireHandler(kal_uint32 TimerId);
+void ParRlpServiceFlushTmExpireHandler(kal_uint32 TimerId);
+void ParRlpResetTxIndicationAckProc (DsaFwdMsgT *pMsgData, kal_uint8 AppType);
+void ParRlpResetRxIndicationProc (DsaFwdMsgT *pMsgData, kal_uint8 AppType);
+void ParMfpaRlpNakProc (DsaFwdMsgT *pMsgData, kal_uint8 AppType);
+void ParDpaRlpNakProc (DsaFwdMsgT *pMsgData, ParRlpInstanceT *pRlpInst);
+void ParRlpResetProc (kal_uint16 ProtocolType,ParRlpInstanceT *pRlpInst);
+void ParRlpResetAckProc (kal_uint16 ProtocolType,ParRlpInstanceT *pRlpInst);
+void ParRlpInitialize(ParRlpInstanceT* pInst);
+void ParRlpStateSet(ParRlpInstanceT *pRlpInst, ParRlpStateT rlpState);
+ParRlpStateT ParRlpStateGet(ParRlpInstanceT *pRlpInst);
+void ParReservationAcceptMsgProc(kal_uint8* pData);
+void ParReservationRejectMsgProc(kal_uint8* pData);
+void ParRevReservationOnMsgProc(kal_uint8* pData);
+void ParRevReservationOffMsgProc(kal_uint8* pData);
+void ParFwdReservationOnMsgProc(kal_uint8* pData);
+void ParFwdReservationOffMsgProc(kal_uint8* pData);
+void ParRlpReservTmExpireMsgProc(void);
+void ParPafRlpResetReqMsgHandler(ParPafRlpResetReqMsgT *pMsg);
+void ParHlpRevDataSig(void);
+void ParHlpRevData2Sig(void);
+kal_bool ParRlpInsertRec2RetxQ(RetxInfoT* pInfo, ParRlpInstanceT *pRlpInst);
+kal_bool Compare2Seq(kal_uint32 Seq1, kal_uint32 Seq2, kal_uint32 SeqRange);
+kal_bool ParRlpTxQManage(ParRlpInstanceT* pInst);
+kal_bool ParDpaAccessGetMaxPriority(BestPktInfoT* pBestPkt,kal_uint8 subStreamNum);
+kal_bool ParDpaServiceGetMaxPriority(BestPktInfoT* pBestPkt,kal_uint8 subStreamNum);
+kal_uint16 ParDpaAccessGrant(DatapktlistGT* pPktList, kal_uint16 grantSize, kal_uint8 revMacId,kal_uint8 subStreamNum);
+kal_uint16 ParDpaServiceGrant(DatapktlistGT* pPktList, kal_uint16 grantSize, kal_uint8 revMacId,kal_uint8 subStreamNum);
+void ParDpaAccessPktSent(kal_uint8 revMacId,kal_uint8 subStreamNum);
+void ParMfpaAccessPktSent(kal_uint8 revMacId,kal_uint8 subStreamNum);
+void ParDpaServicePktSent(kal_uint8 revMacId,kal_uint8 subStreamNum);
+void ParMfpaServicePktSent(kal_uint8 revMacId,kal_uint8 subStreamNum);
+void ParDpaAccessPktNotSent(kal_uint8 revMacId,kal_uint8 subStreamNum);
+void ParMfpaAccessPktNotSent(kal_uint8 revMacId,kal_uint8 subStreamNum);
+void ParDpaServicePktNotSent(kal_uint8 revMacId,kal_uint8 subStreamNum);
+void ParMfpaServicePktNotSent(kal_uint8 revMacId,kal_uint8 subStreamNum);
+void ParDpaAccessPktPhyTrafficMissed(kal_uint8 revMacId,kal_uint8 subStreamNum);
+void ParMfpaAccessPktPhyTrafficMissed(kal_uint8 revMacId,kal_uint8 subStreamNum);
+void ParDpaServicePktPhyTrafficMissed(kal_uint8 revMacId,kal_uint8 subStreamNum);
+void ParMfpaServicePktPhyTrafficMissed(kal_uint8 revMacId,kal_uint8 subStreamNum);
+void ParDpaAccessPktPhyTrafficAcked(kal_uint8 revMacId,kal_uint8 subStreamNum);
+void ParMfpaAccessPktPhyTrafficAcked(kal_uint8 revMacId,kal_uint8 subStreamNum);
+void ParDpaServicePktPhyTrafficAcked(kal_uint8 revMacId,kal_uint8 subStreamNum);
+void ParMfpaServicePktPhyTrafficAcked(kal_uint8 revMacId,kal_uint8 subStreamNum);
+kal_uint16 ParMfpaAccessGrant(DatapktlistGT* pPktList, kal_uint16 grantSize, kal_uint8 revMacId,kal_uint8 subStreamNum);
+kal_bool ParMfpaAccessGetMaxPriority(BestPktInfoT* pBestPkt,kal_uint8 subStreamNum);
+kal_bool ParMfpaServiceGetMaxPriority(BestPktInfoT* pBestPkt,kal_uint8 subStreamNum);
+kal_uint16 ParMfpaServiceGrant(DatapktlistGT* pPktList, kal_uint16 grantSize, kal_uint8 revMacId,kal_uint8 subStreamNum);
+kal_uint32 ParDpaAccessGetPktQueSz(kal_uint8 macFlowId, kal_uint8 subStreamNum);
+kal_uint32 ParDpaServiceGetPktQueSz(kal_uint8 macFlowId, kal_uint8 subStreamNum);
+kal_uint32 ParMfpaAccessGetPktQueSz(kal_uint8 macFlowId, kal_uint8 subStreamNum);
+kal_uint32 ParMfpaServiceGetPktQueSz(kal_uint8 macFlowId, kal_uint8 subStreamNum);
+void ParRlpAccessFlushTimerCallBack(void);
+void ParRlpServiceFlushTimerCallBack(kal_uint32 TimerId);
+#if defined (MTK_PLT_ON_PC)
+void ParRlpStatsResetMsgProc(void);
+void ParRlpStatsPeekMsgProc(void *MsgDataP);
+#endif
+void ParRlpConnOpenMsgProc(void);
+void ParRlpConnCloseMsgProc(void);
+void ParGAUPSetRlpFlowInfo(ParRlpInstanceT* pInst, FlowIdentificationAttribT* pRlpInfo, kal_uint8 FlowNum );
+void ParRlpDsarTxStatusMsgProc(kal_uint8 nAppType);
+void ParRlpCleanUpQueue(void);
+#ifdef CBP7_EHRPD
+void ParEmpaAccessPktSent(kal_uint8 revMacId, kal_uint8 subStreamNum);
+void ParEmpaServicePktSent(kal_uint8 revMacId, kal_uint8 subStreamNum);
+void ParEmpaAccessPktNotSent(kal_uint8 revMacId, kal_uint8 subStreamNum);
+void ParEmpaServicePktNotSent(kal_uint8 revMacId, kal_uint8 subStreamNum);
+void ParEmpaAccessPktPhyTrafficMissed(kal_uint8 revMacId, kal_uint8 subStreamNum);
+void ParEmpaServicePktPhyTrafficMissed(kal_uint8 revMacId, kal_uint8 subStreamNum);
+void ParEmpaAccessPktPhyTrafficAcked(kal_uint8 revMacId, kal_uint8 subStreamNum);
+void ParEmpaServicePktPhyTrafficAcked(kal_uint8 revMacId, kal_uint8 subStreamNum);
+kal_uint16 ParEmpaAccessGrant(DatapktlistGT* pPktList, kal_uint16 grantSize, kal_uint8 revMacId,kal_uint8 subStreamNum);
+kal_uint16 ParEmpaServiceGrant(DatapktlistGT* pPktList, kal_uint16 grantSize, kal_uint8 revMacId,kal_uint8 subStreamNum);
+kal_bool ParEmpaAccessGetMaxPriority(BestPktInfoT* pBestPkt,kal_uint8 subStreamNum);
+kal_bool ParEmpaServiceGetMaxPriority(BestPktInfoT* pBestPkt,kal_uint8 subStreamNum);
+kal_uint32 ParEmpaAccessGetPktQueSz(kal_uint8 macFlowId, kal_uint8 subStreamNum);
+kal_uint32 ParEmpaServiceGetPktQueSz(kal_uint8 macFlowId, kal_uint8 subStreamNum);
+
+kal_uint16 ParRlpSendDataFromTxQ(ParRlpInstanceT *pInst,DatapktlistGT* pPktList, kal_uint16 nBytesAvail);
+kal_uint16 ParRlpSendDataFromRetxQ(ParRlpInstanceT *pInst,DatapktlistGT* pPktList, kal_uint16 nBytesAvail);
+kal_uint16 ParEmpaRlpOctetOctetSendFromTxQ(ParRlpInstanceT *pInst,DatapktlistGT* pPktList, kal_uint16 nBytesAvail);
+kal_uint16 ParEmpaRlpOctetPacketSendFromTxQ(ParRlpInstanceT *pInst,DatapktlistGT* pPktList, kal_uint16 nBytesAvail);
+kal_uint16 ParEmpaRlpPacketPacketSendFromTxQ(ParRlpInstanceT *pInst,DatapktlistGT* pPktList, kal_uint16 nBytesAvail);
+kal_uint16 ParEmpaRlpOctetOctetSendFromRetxQ(ParRlpInstanceT *pInst,DatapktlistGT* pPktList, kal_uint16 nBytesAvail);
+kal_uint16 ParEmpaRlpOctetPacketSendFromRetxQ(ParRlpInstanceT *pInst,DatapktlistGT* pPktList, kal_uint16 nBytesAvail);
+kal_uint16 ParEmpaRlpPacketPacketSendFromRetxQ(ParRlpInstanceT *pInst,DatapktlistGT* pPktList, kal_uint16 nBytesAvail);
+
+void ParEmpaRlpNakProc (DsaFwdMsgT *pMsgData, kal_uint8 AppType);
+kal_bool ParEmpaRlpPacketPacketFlushCheckHdl(void *pList,void *pRecNew, void *pRecOld);
+#endif
+
+/*****************************************************************************
+* End of File
+*****************************************************************************/
+#endif
+
+