syncPipeline.c 38.6 KB
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/*
 * Copyright (c) 2019 TAOS Data, Inc. <jhtao@taosdata.com>
 *
 * This program is free software: you can use, redistribute, and/or modify
 * it under the terms of the GNU Affero General Public License, version 3
 * or later ("AGPL"), as published by the Free Software Foundation.
 *
 * This program is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.
 *
 * You should have received a copy of the GNU Affero General Public License
 * along with this program. If not, see <http://www.gnu.org/licenses/>.
 */

#define _DEFAULT_SOURCE

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#include "syncPipeline.h"
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#include "syncCommit.h"
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#include "syncIndexMgr.h"
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#include "syncInt.h"
#include "syncRaftEntry.h"
#include "syncRaftStore.h"
#include "syncReplication.h"
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#include "syncRespMgr.h"
#include "syncSnapshot.h"
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#include "syncUtil.h"

int64_t syncLogBufferGetEndIndex(SSyncLogBuffer* pBuf) {
  taosThreadMutexLock(&pBuf->mutex);
  int64_t index = pBuf->endIndex;
  taosThreadMutexUnlock(&pBuf->mutex);
  return index;
}

int32_t syncLogBufferAppend(SSyncLogBuffer* pBuf, SSyncNode* pNode, SSyncRaftEntry* pEntry) {
  taosThreadMutexLock(&pBuf->mutex);
  syncLogBufferValidate(pBuf);
  SyncIndex index = pEntry->index;

  if (index - pBuf->startIndex >= pBuf->size) {
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    sError("vgId:%d, failed to append due to sync log buffer full. index:%" PRId64 "", pNode->vgId, index);
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    goto _out;
  }

  ASSERT(index == pBuf->endIndex);

  SSyncRaftEntry* pExist = pBuf->entries[index % pBuf->size].pItem;
  ASSERT(pExist == NULL);

  // initial log buffer with at least one item, e.g. commitIndex
  SSyncRaftEntry* pMatch = pBuf->entries[(index - 1 + pBuf->size) % pBuf->size].pItem;
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  ASSERT(pMatch != NULL && "no matched log entry");
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  ASSERT(pMatch->index + 1 == index);

  SSyncLogBufEntry tmp = {.pItem = pEntry, .prevLogIndex = pMatch->index, .prevLogTerm = pMatch->term};
  pBuf->entries[index % pBuf->size] = tmp;
  pBuf->endIndex = index + 1;

  syncLogBufferValidate(pBuf);
  taosThreadMutexUnlock(&pBuf->mutex);
  return 0;

_out:
  syncLogBufferValidate(pBuf);
  syncEntryDestroy(pEntry);
  taosThreadMutexUnlock(&pBuf->mutex);
  return -1;
}

SyncTerm syncLogReplMgrGetPrevLogTerm(SSyncLogReplMgr* pMgr, SSyncNode* pNode, SyncIndex index) {
  SSyncLogBuffer* pBuf = pNode->pLogBuf;
  SSyncRaftEntry* pEntry = NULL;
  SyncIndex       prevIndex = index - 1;
  SyncTerm        prevLogTerm = -1;
  terrno = TSDB_CODE_SUCCESS;

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  if (prevIndex == -1 && pNode->pLogStore->syncLogBeginIndex(pNode->pLogStore) == 0) return 0;
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  if (prevIndex > pBuf->matchIndex) {
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    terrno = TSDB_CODE_WAL_LOG_NOT_EXIST;
    return -1;
  }

  ASSERT(index - 1 == prevIndex);

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  if (prevIndex >= pBuf->startIndex) {
    pEntry = pBuf->entries[(prevIndex + pBuf->size) % pBuf->size].pItem;
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    ASSERT(pEntry != NULL && "no log entry found");
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    prevLogTerm = pEntry->term;
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    return prevLogTerm;
  }

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  if (pMgr && pMgr->startIndex <= prevIndex && prevIndex < pMgr->endIndex) {
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    int64_t timeMs = pMgr->states[(prevIndex + pMgr->size) % pMgr->size].timeMs;
    ASSERT(timeMs != 0 && "no log entry found");
    prevLogTerm = pMgr->states[(prevIndex + pMgr->size) % pMgr->size].term;
    ASSERT(prevIndex == 0 || prevLogTerm != 0);
    return prevLogTerm;
  }

  SSnapshot snapshot;
  if (pNode->pFsm->FpGetSnapshotInfo(pNode->pFsm, &snapshot) == 0 && prevIndex == snapshot.lastApplyIndex) {
    return snapshot.lastApplyTerm;
  }

  if (pNode->pLogStore->syncLogGetEntry(pNode->pLogStore, prevIndex, &pEntry) == 0) {
    prevLogTerm = pEntry->term;
    syncEntryDestroy(pEntry);
    pEntry = NULL;
    return prevLogTerm;
  }

  sError("vgId:%d, failed to get log term since %s. index: %" PRId64 "", pNode->vgId, terrstr(), prevIndex);
  terrno = TSDB_CODE_WAL_LOG_NOT_EXIST;
  return -1;
}

SSyncRaftEntry* syncEntryBuildDummy(SyncTerm term, SyncIndex index, int32_t vgId) {
  return syncEntryBuildNoop(term, index, vgId);
}

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int32_t syncLogValidateAlignmentOfCommit(SSyncNode* pNode, SyncIndex commitIndex) {
  SyncIndex firstVer = pNode->pLogStore->syncLogBeginIndex(pNode->pLogStore);
  if (firstVer > commitIndex + 1) {
    sError("vgId:%d, firstVer of WAL log greater than tsdb commit version + 1. firstVer: %" PRId64
           ", tsdb commit version: %" PRId64 "",
           pNode->vgId, firstVer, commitIndex);
    return -1;
  }

  SyncIndex lastVer = pNode->pLogStore->syncLogLastIndex(pNode->pLogStore);
  if (lastVer < commitIndex) {
    sError("vgId:%d, lastVer of WAL log less than tsdb commit version. lastVer: %" PRId64
           ", tsdb commit version: %" PRId64 "",
           pNode->vgId, lastVer, commitIndex);
    return -1;
  }

  return 0;
}

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int32_t syncLogBufferInitWithoutLock(SSyncLogBuffer* pBuf, SSyncNode* pNode) {
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  ASSERT(pNode->pLogStore != NULL && "log store not created");
  ASSERT(pNode->pFsm != NULL && "pFsm not registered");
  ASSERT(pNode->pFsm->FpGetSnapshotInfo != NULL && "FpGetSnapshotInfo not registered");

  SSnapshot snapshot;
  if (pNode->pFsm->FpGetSnapshotInfo(pNode->pFsm, &snapshot) < 0) {
    sError("vgId:%d, failed to get snapshot info since %s", pNode->vgId, terrstr());
    goto _err;
  }
  SyncIndex commitIndex = snapshot.lastApplyIndex;
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  SyncTerm  commitTerm = TMAX(snapshot.lastApplyTerm, 0);
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  if (syncLogValidateAlignmentOfCommit(pNode, commitIndex)) {
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    terrno = TSDB_CODE_WAL_LOG_INCOMPLETE;
    goto _err;
  }

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  SyncIndex lastVer = pNode->pLogStore->syncLogLastIndex(pNode->pLogStore);
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  ASSERT(lastVer >= commitIndex);
  SyncIndex toIndex = lastVer;
  // update match index
  pBuf->commitIndex = commitIndex;
  pBuf->matchIndex = toIndex;
  pBuf->endIndex = toIndex + 1;

  // load log entries in reverse order
  SSyncLogStore*  pLogStore = pNode->pLogStore;
  SyncIndex       index = toIndex;
  SSyncRaftEntry* pEntry = NULL;
  bool            takeDummy = false;

  while (true) {
    if (index <= pBuf->commitIndex) {
      takeDummy = true;
      break;
    }

    if (pLogStore->syncLogGetEntry(pLogStore, index, &pEntry) < 0) {
      sError("vgId:%d, failed to get log entry since %s. index:%" PRId64 "", pNode->vgId, terrstr(), index);
      break;
    }

    bool taken = false;
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    int  emptySize = 5;
    if (toIndex - index + 1 <= pBuf->size - emptySize) {
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      SSyncLogBufEntry tmp = {.pItem = pEntry, .prevLogIndex = -1, .prevLogTerm = -1};
      pBuf->entries[index % pBuf->size] = tmp;
      taken = true;
    }

    if (index < toIndex) {
      pBuf->entries[(index + 1) % pBuf->size].prevLogIndex = pEntry->index;
      pBuf->entries[(index + 1) % pBuf->size].prevLogTerm = pEntry->term;
    }

    if (!taken) {
      syncEntryDestroy(pEntry);
      pEntry = NULL;
      break;
    }

    index--;
  }

  // put a dummy record at commitIndex if present in log buffer
  if (takeDummy) {
    ASSERT(index == pBuf->commitIndex);

    SSyncRaftEntry* pDummy = syncEntryBuildDummy(commitTerm, commitIndex, pNode->vgId);
    if (pDummy == NULL) {
      terrno = TSDB_CODE_OUT_OF_MEMORY;
      goto _err;
    }
    SSyncLogBufEntry tmp = {.pItem = pDummy, .prevLogIndex = commitIndex - 1, .prevLogTerm = commitTerm};
    pBuf->entries[(commitIndex + pBuf->size) % pBuf->size] = tmp;

    if (index < toIndex) {
      pBuf->entries[(index + 1) % pBuf->size].prevLogIndex = commitIndex;
      pBuf->entries[(index + 1) % pBuf->size].prevLogTerm = commitTerm;
    }
  }

  // update startIndex
  pBuf->startIndex = takeDummy ? index : index + 1;

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  sInfo("vgId:%d, init sync log buffer. buffer: [%" PRId64 " %" PRId64 " %" PRId64 ", %" PRId64 ")", pNode->vgId,
        pBuf->startIndex, pBuf->commitIndex, pBuf->matchIndex, pBuf->endIndex);

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  // validate
  syncLogBufferValidate(pBuf);
  return 0;

_err:
  return -1;
}

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int32_t syncLogBufferInit(SSyncLogBuffer* pBuf, SSyncNode* pNode) {
  taosThreadMutexLock(&pBuf->mutex);
  int32_t ret = syncLogBufferInitWithoutLock(pBuf, pNode);
  taosThreadMutexUnlock(&pBuf->mutex);
  return ret;
}

int32_t syncLogBufferReInit(SSyncLogBuffer* pBuf, SSyncNode* pNode) {
  taosThreadMutexLock(&pBuf->mutex);
  for (SyncIndex index = pBuf->startIndex; index < pBuf->endIndex; index++) {
    SSyncRaftEntry* pEntry = pBuf->entries[(index + pBuf->size) % pBuf->size].pItem;
    if (pEntry == NULL) continue;
    syncEntryDestroy(pEntry);
    pEntry = NULL;
    memset(&pBuf->entries[(index + pBuf->size) % pBuf->size], 0, sizeof(pBuf->entries[0]));
  }
  pBuf->startIndex = pBuf->commitIndex = pBuf->matchIndex = pBuf->endIndex = 0;
  int32_t ret = syncLogBufferInitWithoutLock(pBuf, pNode);
  if (ret < 0) {
    sError("vgId:%d, failed to re-initialize sync log buffer since %s.", pNode->vgId, terrstr());
  }
  taosThreadMutexUnlock(&pBuf->mutex);
  return ret;
}

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FORCE_INLINE SyncTerm syncLogBufferGetLastMatchTerm(SSyncLogBuffer* pBuf) {
  SyncIndex       index = pBuf->matchIndex;
  SSyncRaftEntry* pEntry = pBuf->entries[(index + pBuf->size) % pBuf->size].pItem;
  ASSERT(pEntry != NULL);
  return pEntry->term;
}

int32_t syncLogBufferAccept(SSyncLogBuffer* pBuf, SSyncNode* pNode, SSyncRaftEntry* pEntry, SyncTerm prevTerm) {
  taosThreadMutexLock(&pBuf->mutex);
  syncLogBufferValidate(pBuf);
  int32_t   ret = -1;
  SyncIndex index = pEntry->index;
  SyncIndex prevIndex = pEntry->index - 1;
  SyncTerm  lastMatchTerm = syncLogBufferGetLastMatchTerm(pBuf);

  if (index <= pBuf->commitIndex) {
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    sTrace("vgId:%d, already committed. index: %" PRId64 ", term: %" PRId64 ". log buffer: [%" PRId64 " %" PRId64
           " %" PRId64 ", %" PRId64 ")",
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           pNode->vgId, pEntry->index, pEntry->term, pBuf->startIndex, pBuf->commitIndex, pBuf->matchIndex,
           pBuf->endIndex);
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    SyncTerm term = syncLogReplMgrGetPrevLogTerm(NULL, pNode, index + 1);
    ASSERT(pEntry->term >= 0);
    if (term == pEntry->term) {
      ret = 0;
    }
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    goto _out;
  }

  if (index - pBuf->startIndex >= pBuf->size) {
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    sWarn("vgId:%d, out of buffer range. index: %" PRId64 ", term: %" PRId64 ". log buffer: [%" PRId64 " %" PRId64
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          " %" PRId64 ", %" PRId64 ")",
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          pNode->vgId, pEntry->index, pEntry->term, pBuf->startIndex, pBuf->commitIndex, pBuf->matchIndex,
          pBuf->endIndex);
    goto _out;
  }

  if (index > pBuf->matchIndex && lastMatchTerm != prevTerm) {
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    sWarn("vgId:%d, not ready to accept. index: %" PRId64 ", term: %" PRId64 ": prevterm: %" PRId64
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          " != lastmatch: %" PRId64 ". log buffer: [%" PRId64 " %" PRId64 " %" PRId64 ", %" PRId64 ")",
          pNode->vgId, pEntry->index, pEntry->term, prevTerm, lastMatchTerm, pBuf->startIndex, pBuf->commitIndex,
          pBuf->matchIndex, pBuf->endIndex);
    goto _out;
  }

  // check current in buffer
  SSyncRaftEntry* pExist = pBuf->entries[index % pBuf->size].pItem;
  if (pExist != NULL) {
    ASSERT(pEntry->index == pExist->index);

    if (pEntry->term != pExist->term) {
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      (void)syncLogBufferRollback(pBuf, pNode, index);
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    } else {
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      sTrace("vgId:%d, duplicate log entry received. index: %" PRId64 ", term: %" PRId64 ". log buffer: [%" PRId64
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             " %" PRId64 " %" PRId64 ", %" PRId64 ")",
             pNode->vgId, pEntry->index, pEntry->term, pBuf->startIndex, pBuf->commitIndex, pBuf->matchIndex,
             pBuf->endIndex);
      SyncTerm existPrevTerm = pBuf->entries[index % pBuf->size].prevLogTerm;
      ASSERT(pEntry->term == pExist->term && prevTerm == existPrevTerm);
      ret = 0;
      goto _out;
    }
  }

  // update
  SSyncLogBufEntry tmp = {.pItem = pEntry, .prevLogIndex = prevIndex, .prevLogTerm = prevTerm};
  pEntry = NULL;
  pBuf->entries[index % pBuf->size] = tmp;

  // update end index
  pBuf->endIndex = TMAX(index + 1, pBuf->endIndex);

  // success
  ret = 0;

_out:
  syncEntryDestroy(pEntry);
  syncLogBufferValidate(pBuf);
  taosThreadMutexUnlock(&pBuf->mutex);
  return ret;
}

int32_t syncLogStorePersist(SSyncLogStore* pLogStore, SSyncRaftEntry* pEntry) {
  ASSERT(pEntry->index >= 0);
  SyncIndex lastVer = pLogStore->syncLogLastIndex(pLogStore);
  if (lastVer >= pEntry->index && pLogStore->syncLogTruncate(pLogStore, pEntry->index) < 0) {
    sError("failed to truncate log store since %s. from index:%" PRId64 "", terrstr(), pEntry->index);
    return -1;
  }
  lastVer = pLogStore->syncLogLastIndex(pLogStore);
  ASSERT(pEntry->index == lastVer + 1);

  if (pLogStore->syncLogAppendEntry(pLogStore, pEntry) < 0) {
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    sError("failed to append sync log entry since %s. index:%" PRId64 ", term:%" PRId64 "", terrstr(), pEntry->index,
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           pEntry->term);
    return -1;
  }

  lastVer = pLogStore->syncLogLastIndex(pLogStore);
  ASSERT(pEntry->index == lastVer);
  return 0;
}

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int64_t syncLogBufferProceed(SSyncLogBuffer* pBuf, SSyncNode* pNode, SyncTerm* pMatchTerm) {
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  taosThreadMutexLock(&pBuf->mutex);
  syncLogBufferValidate(pBuf);

  SSyncLogStore* pLogStore = pNode->pLogStore;
  int64_t        matchIndex = pBuf->matchIndex;

  while (pBuf->matchIndex + 1 < pBuf->endIndex) {
    int64_t index = pBuf->matchIndex + 1;
    ASSERT(index >= 0);

    // try to proceed
    SSyncLogBufEntry* pBufEntry = &pBuf->entries[index % pBuf->size];
    SyncIndex         prevLogIndex = pBufEntry->prevLogIndex;
    SyncTerm          prevLogTerm = pBufEntry->prevLogTerm;
    SSyncRaftEntry*   pEntry = pBufEntry->pItem;
    if (pEntry == NULL) {
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      sTrace("vgId:%d, cannot proceed match index in log buffer. no raft entry at next pos of matchIndex:%" PRId64,
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             pNode->vgId, pBuf->matchIndex);
      goto _out;
    }

    ASSERT(index == pEntry->index);

    // match
    SSyncRaftEntry* pMatch = pBuf->entries[(pBuf->matchIndex + pBuf->size) % pBuf->size].pItem;
    ASSERT(pMatch != NULL);
    ASSERT(pMatch->index == pBuf->matchIndex);
    ASSERT(pMatch->index + 1 == pEntry->index);
    ASSERT(prevLogIndex == pMatch->index);

    if (pMatch->term != prevLogTerm) {
      sInfo(
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          "vgId:%d, mismatching sync log entries encountered. "
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          "{ index:%" PRId64 ", term:%" PRId64
          " } "
          "{ index:%" PRId64 ", term:%" PRId64 ", prevLogIndex:%" PRId64 ", prevLogTerm:%" PRId64 " } ",
          pNode->vgId, pMatch->index, pMatch->term, pEntry->index, pEntry->term, prevLogIndex, prevLogTerm);
      goto _out;
    }

    // increase match index
    pBuf->matchIndex = index;

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    sTrace("vgId:%d, log buffer proceed. start index: %" PRId64 ", match index: %" PRId64 ", end index: %" PRId64,
           pNode->vgId, pBuf->startIndex, pBuf->matchIndex, pBuf->endIndex);
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    // replicate on demand
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    (void)syncNodeReplicateWithoutLock(pNode);
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    // persist
    if (syncLogStorePersist(pLogStore, pEntry) < 0) {
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      sError("vgId:%d, failed to persist sync log entry from buffer since %s. index:%" PRId64, pNode->vgId, terrstr(),
             pEntry->index);
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      goto _out;
    }
    ASSERT(pEntry->index == pBuf->matchIndex);

    // update my match index
    matchIndex = pBuf->matchIndex;
    syncIndexMgrSetIndex(pNode->pMatchIndex, &pNode->myRaftId, pBuf->matchIndex);
  }  // end of while

_out:
  pBuf->matchIndex = matchIndex;
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  if (pMatchTerm) {
    *pMatchTerm = pBuf->entries[(matchIndex + pBuf->size) % pBuf->size].pItem->term;
  }
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  syncLogBufferValidate(pBuf);
  taosThreadMutexUnlock(&pBuf->mutex);
  return matchIndex;
}

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int32_t syncLogFsmExecute(SSyncNode* pNode, SSyncFSM* pFsm, ESyncState role, SyncTerm term, SSyncRaftEntry* pEntry) {
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  ASSERT(pFsm->FpCommitCb != NULL && "No commit cb registered for the FSM");

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  if ((pNode->replicaNum == 1) && pNode->restoreFinish && pNode->vgId != 1) {
    return 0;
  }

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  if (pNode->vgId != 1 && vnodeIsMsgBlock(pEntry->originalRpcType)) {
    sTrace("vgId:%d, blocking msg ready to execute. index:%" PRId64 ", term: %" PRId64 ", type: %s", pNode->vgId,
           pEntry->index, pEntry->term, TMSG_INFO(pEntry->originalRpcType));
  }

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  SRpcMsg rpcMsg = {0};
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  syncEntry2OriginalRpc(pEntry, &rpcMsg);

  SFsmCbMeta cbMeta = {0};
  cbMeta.index = pEntry->index;
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  cbMeta.lastConfigIndex = syncNodeGetSnapshotConfigIndex(pNode, pEntry->index);
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  cbMeta.isWeak = pEntry->isWeak;
  cbMeta.code = 0;
  cbMeta.state = role;
  cbMeta.seqNum = pEntry->seqNum;
  cbMeta.term = pEntry->term;
  cbMeta.currentTerm = term;
  cbMeta.flag = -1;

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  (void)syncRespMgrGetAndDel(pNode->pSyncRespMgr, cbMeta.seqNum, &rpcMsg.info);
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  int32_t code = pFsm->FpCommitCb(pFsm, &rpcMsg, &cbMeta);
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  ASSERT(rpcMsg.pCont == NULL);
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  return code;
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}

int32_t syncLogBufferValidate(SSyncLogBuffer* pBuf) {
  ASSERT(pBuf->startIndex <= pBuf->matchIndex);
  ASSERT(pBuf->commitIndex <= pBuf->matchIndex);
  ASSERT(pBuf->matchIndex < pBuf->endIndex);
  ASSERT(pBuf->endIndex - pBuf->startIndex <= pBuf->size);
  ASSERT(pBuf->entries[(pBuf->matchIndex + pBuf->size) % pBuf->size].pItem);
  return 0;
}

int32_t syncLogBufferCommit(SSyncLogBuffer* pBuf, SSyncNode* pNode, int64_t commitIndex) {
  taosThreadMutexLock(&pBuf->mutex);
  syncLogBufferValidate(pBuf);

  SSyncLogStore*  pLogStore = pNode->pLogStore;
  SSyncFSM*       pFsm = pNode->pFsm;
  ESyncState      role = pNode->state;
  SyncTerm        term = pNode->pRaftStore->currentTerm;
  SyncGroupId     vgId = pNode->vgId;
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  int32_t         ret = -1;
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  int64_t         upperIndex = TMIN(commitIndex, pBuf->matchIndex);
  SSyncRaftEntry* pEntry = NULL;
  bool            inBuf = false;

  if (commitIndex <= pBuf->commitIndex) {
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    sDebug("vgId:%d, stale commit index. current:%" PRId64 ", notified:%" PRId64 "", vgId, pBuf->commitIndex,
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           commitIndex);
    ret = 0;
    goto _out;
  }

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  sTrace("vgId:%d, commit. log buffer: [%" PRId64 " %" PRId64 " %" PRId64 ", %" PRId64 "), role: %d, term: %" PRId64,
         pNode->vgId, pBuf->startIndex, pBuf->commitIndex, pBuf->matchIndex, pBuf->endIndex, role, term);
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  // execute in fsm
  for (int64_t index = pBuf->commitIndex + 1; index <= upperIndex; index++) {
    // get a log entry
    pEntry = syncLogBufferGetOneEntry(pBuf, pNode, index, &inBuf);
    if (pEntry == NULL) {
      goto _out;
    }

    // execute it
    if (!syncUtilUserCommit(pEntry->originalRpcType)) {
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      sInfo("vgId:%d, commit sync barrier. index: %" PRId64 ", term:%" PRId64 ", type: %s", vgId, pEntry->index,
515
            pEntry->term, TMSG_INFO(pEntry->originalRpcType));
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    }
517

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    if (syncLogFsmExecute(pNode, pFsm, role, term, pEntry) != 0) {
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      sError("vgId:%d, failed to execute sync log entry. index:%" PRId64 ", term:%" PRId64
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             ", role: %d, current term: %" PRId64,
             vgId, pEntry->index, pEntry->term, role, term);
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      goto _out;
    }
    pBuf->commitIndex = index;

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    sTrace("vgId:%d, committed index: %" PRId64 ", term: %" PRId64 ", role: %d, current term: %" PRId64 "", pNode->vgId,
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           pEntry->index, pEntry->term, role, term);

    if (!inBuf) {
      syncEntryDestroy(pEntry);
      pEntry = NULL;
    }
  }

  // recycle
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  SyncIndex until = pBuf->commitIndex - (pBuf->size >> 4);
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  for (SyncIndex index = pBuf->startIndex; index < until; index++) {
    SSyncRaftEntry* pEntry = pBuf->entries[(index + pBuf->size) % pBuf->size].pItem;
    ASSERT(pEntry != NULL);
    syncEntryDestroy(pEntry);
    memset(&pBuf->entries[(index + pBuf->size) % pBuf->size], 0, sizeof(pBuf->entries[0]));
    pBuf->startIndex = index + 1;
  }

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  ret = 0;
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_out:
  // mark as restored if needed
  if (!pNode->restoreFinish && pBuf->commitIndex >= pNode->commitIndex) {
    pNode->pFsm->FpRestoreFinishCb(pNode->pFsm);
    pNode->restoreFinish = true;
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    sInfo("vgId:%d, restore finished. log buffer: [%" PRId64 " %" PRId64 " %" PRId64 ", %" PRId64 ")", pNode->vgId,
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          pBuf->startIndex, pBuf->commitIndex, pBuf->matchIndex, pBuf->endIndex);
  }

  if (!inBuf) {
    syncEntryDestroy(pEntry);
    pEntry = NULL;
  }
  syncLogBufferValidate(pBuf);
  taosThreadMutexUnlock(&pBuf->mutex);
  return ret;
}

564
int32_t syncLogReplMgrReset(SSyncLogReplMgr* pMgr) {
565 566 567 568 569 570 571 572 573 574 575 576 577 578 579 580 581
  ASSERT(pMgr->startIndex >= 0);
  for (SyncIndex index = pMgr->startIndex; index < pMgr->endIndex; index++) {
    memset(&pMgr->states[index % pMgr->size], 0, sizeof(pMgr->states[0]));
  }
  pMgr->startIndex = 0;
  pMgr->matchIndex = 0;
  pMgr->endIndex = 0;
  pMgr->restored = false;
  pMgr->retryBackoff = 0;
  return 0;
}

int32_t syncLogReplMgrRetryOnNeed(SSyncLogReplMgr* pMgr, SSyncNode* pNode) {
  if (pMgr->endIndex <= pMgr->startIndex) {
    return 0;
  }

582 583 584 585 586 587 588 589
  SRaftId* pDestId = &pNode->replicasId[pMgr->peerId];
  if (pMgr->retryBackoff == SYNC_MAX_RETRY_BACKOFF) {
    syncLogReplMgrReset(pMgr);
    sWarn("vgId:%d, reset sync log repl mgr since retry backoff exceeding limit. peer: %" PRIx64, pNode->vgId,
          pDestId->addr);
    return -1;
  }

590 591 592
  int32_t ret = -1;
  bool    retried = false;
  int64_t retryWaitMs = syncLogGetRetryBackoffTimeMs(pMgr);
593 594 595 596
  int64_t  nowMs = taosGetMonoTimestampMs();
  int      count = 0;
  int64_t  firstIndex = -1;
  SyncTerm term = -1;
597 598 599 600

  for (SyncIndex index = pMgr->startIndex; index < pMgr->endIndex; index++) {
    int64_t pos = index % pMgr->size;
    ASSERT(!pMgr->states[pos].barrier || (index == pMgr->startIndex || index + 1 == pMgr->endIndex));
601

602 603 604 605
    if (nowMs < pMgr->states[pos].timeMs + retryWaitMs) {
      break;
    }

606 607 608 609 610
    if (pMgr->states[pos].acked) {
      continue;
    }

    bool barrier = false;
611
    if (syncLogBufferReplicateOneTo(pMgr, pNode, index, &term, pDestId, &barrier) < 0) {
612
      sError("vgId:%d, failed to replicate sync log entry since %s. index: %" PRId64 ", dest: %" PRIx64 "", pNode->vgId,
613 614 615 616 617 618 619
             terrstr(), index, pDestId->addr);
      goto _out;
    }
    ASSERT(barrier == pMgr->states[pos].barrier);
    pMgr->states[pos].timeMs = nowMs;
    pMgr->states[pos].term = term;
    pMgr->states[pos].acked = false;
620

621
    retried = true;
622 623
    if (firstIndex == -1) firstIndex = index;
    count++;
624 625 626 627 628 629
  }

  ret = 0;
_out:
  if (retried) {
    pMgr->retryBackoff = syncLogGetNextRetryBackoff(pMgr);
630
    sInfo("vgId:%d, resent %d sync log entries. dest: %" PRIx64 ", indexes: %" PRId64 " ..., terms: ... %" PRId64
631
          ", retryWaitMs: %" PRId64 ", repl mgr: [%" PRId64 " %" PRId64 ", %" PRId64 ")",
632 633
          pNode->vgId, count, pDestId->addr, firstIndex, term, retryWaitMs, pMgr->startIndex, pMgr->matchIndex,
          pMgr->endIndex);
634 635 636 637 638 639 640 641 642 643 644
  }
  return ret;
}

int32_t syncLogReplMgrProcessReplyInRecoveryMode(SSyncLogReplMgr* pMgr, SSyncNode* pNode,
                                                 SyncAppendEntriesReply* pMsg) {
  SSyncLogBuffer* pBuf = pNode->pLogBuf;
  SRaftId         destId = pMsg->srcId;
  ASSERT(pMgr->restored == false);
  char     host[64];
  uint16_t port;
645
  syncUtilU642Addr(destId.addr, host, sizeof(host), &port);
646 647 648 649 650 651

  if (pMgr->endIndex == 0) {
    ASSERT(pMgr->startIndex == 0);
    ASSERT(pMgr->matchIndex == 0);
    if (pMsg->matchIndex < 0) {
      pMgr->restored = true;
652 653
      sInfo("vgId:%d, sync log repl mgr restored. peer: %s:%d (%" PRIx64 "), mgr: rs(%d) [%" PRId64 " %" PRId64
            ", %" PRId64 "), buffer: [%" PRId64 " %" PRId64 " %" PRId64 ", %" PRId64 ")",
654
            pNode->vgId, host, port, destId.addr, pMgr->restored, pMgr->startIndex, pMgr->matchIndex, pMgr->endIndex,
655 656 657 658 659 660 661 662 663 664 665
            pBuf->startIndex, pBuf->commitIndex, pBuf->matchIndex, pBuf->endIndex);
      return 0;
    }
  } else {
    if (pMsg->lastSendIndex < pMgr->startIndex || pMsg->lastSendIndex >= pMgr->endIndex) {
      syncLogReplMgrRetryOnNeed(pMgr, pNode);
      return 0;
    }

    pMgr->states[pMsg->lastSendIndex % pMgr->size].acked = true;

666
    if (pMsg->success && pMsg->matchIndex == pMsg->lastSendIndex) {
667
      pMgr->matchIndex = pMsg->matchIndex;
668
      pMgr->restored = true;
669 670
      sInfo("vgId:%d, sync log repl mgr restored. peer: %s:%d (%" PRIx64 "), mgr: rs(%d) [%" PRId64 " %" PRId64
            ", %" PRId64 "), buffer: [%" PRId64 " %" PRId64 " %" PRId64 ", %" PRId64 ")",
671
            pNode->vgId, host, port, destId.addr, pMgr->restored, pMgr->startIndex, pMgr->matchIndex, pMgr->endIndex,
672 673 674 675
            pBuf->startIndex, pBuf->commitIndex, pBuf->matchIndex, pBuf->endIndex);
      return 0;
    }

676
    if (pMsg->success == false && pMsg->matchIndex >= pMsg->lastSendIndex) {
677 678
      sWarn("vgId:%d, failed to rollback match index. peer: %s:%d, match index: %" PRId64 ", last sent: %" PRId64,
            pNode->vgId, host, port, pMsg->matchIndex, pMsg->lastSendIndex);
679 680 681 682
      if (syncNodeStartSnapshot(pNode, &destId) < 0) {
        sError("vgId:%d, failed to start snapshot for peer %s:%d", pNode->vgId, host, port);
        return -1;
      }
683
      sInfo("vgId:%d, snapshot replication to peer %s:%d", pNode->vgId, host, port);
684 685
      return 0;
    }
686 687
  }

688 689
  // check last match term
  SyncTerm  term = -1;
690
  SyncIndex firstVer = pNode->pLogStore->syncLogBeginIndex(pNode->pLogStore);
691 692 693 694 695 696 697 698
  SyncIndex index = TMIN(pMsg->matchIndex, pNode->pLogBuf->matchIndex);

  if (pMsg->matchIndex < pNode->pLogBuf->matchIndex) {
    term = syncLogReplMgrGetPrevLogTerm(pMgr, pNode, index + 1);
    if (term < 0 || (term != pMsg->lastMatchTerm && (index + 1 == firstVer || index == firstVer))) {
      ASSERT(term >= 0 || terrno == TSDB_CODE_WAL_LOG_NOT_EXIST);
      if (syncNodeStartSnapshot(pNode, &destId) < 0) {
        sError("vgId:%d, failed to start snapshot for peer %s:%d", pNode->vgId, host, port);
699
        return -1;
700
      }
701
      sInfo("vgId:%d, snapshot replication to peer %s:%d", pNode->vgId, host, port);
702 703 704 705 706 707 708 709 710 711
      return 0;
    }

    ASSERT(index + 1 >= firstVer);

    if (term == pMsg->lastMatchTerm) {
      index = index + 1;
      ASSERT(index <= pNode->pLogBuf->matchIndex);
    } else {
      ASSERT(index > firstVer);
712 713 714
    }
  }

715
  // attempt to replicate the raft log at index
716 717
  (void)syncLogReplMgrReset(pMgr);
  return syncLogReplMgrReplicateProbeOnce(pMgr, pNode, index);
718 719 720 721 722 723
}

int32_t syncLogReplMgrProcessHeartbeatReply(SSyncLogReplMgr* pMgr, SSyncNode* pNode, SyncHeartbeatReply* pMsg) {
  SSyncLogBuffer* pBuf = pNode->pLogBuf;
  taosThreadMutexLock(&pBuf->mutex);
  if (pMsg->startTime != 0 && pMsg->startTime != pMgr->peerStartTime) {
724 725
    sInfo("vgId:%d, reset sync log repl mgr in heartbeat. peer: %" PRIx64 ", start time:%" PRId64 ", old:%" PRId64 "",
          pNode->vgId, pMsg->srcId.addr, pMsg->startTime, pMgr->peerStartTime);
726
    syncLogReplMgrReset(pMgr);
727 728 729 730 731 732 733 734 735 736
    pMgr->peerStartTime = pMsg->startTime;
  }
  taosThreadMutexUnlock(&pBuf->mutex);
  return 0;
}

int32_t syncLogReplMgrProcessReply(SSyncLogReplMgr* pMgr, SSyncNode* pNode, SyncAppendEntriesReply* pMsg) {
  SSyncLogBuffer* pBuf = pNode->pLogBuf;
  taosThreadMutexLock(&pBuf->mutex);
  if (pMsg->startTime != pMgr->peerStartTime) {
737 738
    sInfo("vgId:%d, reset sync log repl mgr in appendlog reply. peer: %" PRIx64 ", start time:%" PRId64
          ", old:%" PRId64,
739
          pNode->vgId, pMsg->srcId.addr, pMsg->startTime, pMgr->peerStartTime);
740
    syncLogReplMgrReset(pMgr);
741 742 743 744 745 746 747 748 749 750 751 752
    pMgr->peerStartTime = pMsg->startTime;
  }

  if (pMgr->restored) {
    (void)syncLogReplMgrProcessReplyInNormalMode(pMgr, pNode, pMsg);
  } else {
    (void)syncLogReplMgrProcessReplyInRecoveryMode(pMgr, pNode, pMsg);
  }
  taosThreadMutexUnlock(&pBuf->mutex);
  return 0;
}

753
int32_t syncLogReplMgrReplicateOnce(SSyncLogReplMgr* pMgr, SSyncNode* pNode) {
754 755 756
  if (pMgr->restored) {
    (void)syncLogReplMgrReplicateAttemptedOnce(pMgr, pNode);
  } else {
757
    (void)syncLogReplMgrReplicateProbeOnce(pMgr, pNode, pNode->pLogBuf->matchIndex);
758 759 760 761
  }
  return 0;
}

762
int32_t syncLogReplMgrReplicateProbeOnce(SSyncLogReplMgr* pMgr, SSyncNode* pNode, SyncIndex index) {
763
  ASSERT(!pMgr->restored);
764 765 766 767 768 769 770 771 772 773
  ASSERT(pMgr->startIndex >= 0);
  int64_t retryMaxWaitMs = SYNC_LOG_REPL_RETRY_WAIT_MS * (1 << SYNC_MAX_RETRY_BACKOFF);
  int64_t nowMs = taosGetMonoTimestampMs();

  if (pMgr->endIndex > pMgr->startIndex &&
      nowMs < pMgr->states[pMgr->startIndex % pMgr->size].timeMs + retryMaxWaitMs) {
    return 0;
  }
  (void)syncLogReplMgrReset(pMgr);

774 775 776 777 778 779 780 781 782
  SRaftId*  pDestId = &pNode->replicasId[pMgr->peerId];
  bool      barrier = false;
  SyncTerm  term = -1;
  if (syncLogBufferReplicateOneTo(pMgr, pNode, index, &term, pDestId, &barrier) < 0) {
    sError("vgId:%d, failed to replicate log entry since %s. index: %" PRId64 ", dest: 0x%016" PRIx64 "", pNode->vgId,
           terrstr(), index, pDestId->addr);
    return -1;
  }

783 784 785 786 787 788 789 790 791
  ASSERT(index >= 0);
  pMgr->states[index % pMgr->size].barrier = barrier;
  pMgr->states[index % pMgr->size].timeMs = nowMs;
  pMgr->states[index % pMgr->size].term = term;
  pMgr->states[index % pMgr->size].acked = false;

  pMgr->startIndex = index;
  pMgr->endIndex = index + 1;

792
  SSyncLogBuffer* pBuf = pNode->pLogBuf;
793
  sTrace("vgId:%d, attempted to probe the %d'th peer with msg of index:%" PRId64 " term: %" PRId64
794 795 796 797 798 799 800 801 802 803 804 805 806
         ". pMgr(rs:%d): [%" PRId64 " %" PRId64 ", %" PRId64 "), pBuf: [%" PRId64 " %" PRId64 " %" PRId64 ", %" PRId64
         ")",
         pNode->vgId, pMgr->peerId, index, term, pMgr->restored, pMgr->startIndex, pMgr->matchIndex, pMgr->endIndex,
         pBuf->startIndex, pBuf->commitIndex, pBuf->matchIndex, pBuf->endIndex);
  return 0;
}

int32_t syncLogReplMgrReplicateAttemptedOnce(SSyncLogReplMgr* pMgr, SSyncNode* pNode) {
  ASSERT(pMgr->restored);
  SRaftId* pDestId = &pNode->replicasId[pMgr->peerId];
  int32_t  batchSize = TMAX(1, pMgr->size / 20);
  int32_t  count = 0;
  int64_t  nowMs = taosGetMonoTimestampMs();
807
  int64_t  limit = pMgr->size >> 1;
808 809

  for (SyncIndex index = pMgr->endIndex; index <= pNode->pLogBuf->matchIndex; index++) {
810
    if (batchSize < count++ || limit <= index - pMgr->startIndex) {
811 812 813 814 815 816 817 818 819 820 821 822 823 824 825 826 827 828 829 830 831
      break;
    }
    if (pMgr->startIndex + 1 < index && pMgr->states[(index - 1) % pMgr->size].barrier) {
      break;
    }
    int64_t  pos = index % pMgr->size;
    SRaftId* pDestId = &pNode->replicasId[pMgr->peerId];
    bool     barrier = false;
    SyncTerm term = -1;
    if (syncLogBufferReplicateOneTo(pMgr, pNode, index, &term, pDestId, &barrier) < 0) {
      sError("vgId:%d, failed to replicate log entry since %s. index: %" PRId64 ", dest: 0x%016" PRIx64 "", pNode->vgId,
             terrstr(), index, pDestId->addr);
      return -1;
    }
    pMgr->states[pos].barrier = barrier;
    pMgr->states[pos].timeMs = nowMs;
    pMgr->states[pos].term = term;
    pMgr->states[pos].acked = false;

    pMgr->endIndex = index + 1;
    if (barrier) {
832 833 834 835
      sInfo("vgId:%d, replicated sync barrier to dest: %" PRIx64 ". index: %" PRId64 ", term: %" PRId64
            ", repl mgr: rs(%d) [%" PRId64 " %" PRId64 ", %" PRId64 ")",
            pNode->vgId, pDestId->addr, index, term, pMgr->restored, pMgr->startIndex, pMgr->matchIndex,
            pMgr->endIndex);
836 837 838 839
      break;
    }
  }

840 841
  syncLogReplMgrRetryOnNeed(pMgr, pNode);

842
  SSyncLogBuffer* pBuf = pNode->pLogBuf;
843
  sTrace("vgId:%d, attempted to replicate %d msgs to the %d'th peer. pMgr(rs:%d): [%" PRId64 " %" PRId64 ", %" PRId64
844 845 846 847 848 849 850 851 852
         "), pBuf: [%" PRId64 " %" PRId64 " %" PRId64 ", %" PRId64 ")",
         pNode->vgId, count, pMgr->peerId, pMgr->restored, pMgr->startIndex, pMgr->matchIndex, pMgr->endIndex,
         pBuf->startIndex, pBuf->commitIndex, pBuf->matchIndex, pBuf->endIndex);
  return 0;
}

int32_t syncLogReplMgrProcessReplyInNormalMode(SSyncLogReplMgr* pMgr, SSyncNode* pNode, SyncAppendEntriesReply* pMsg) {
  ASSERT(pMgr->restored == true);
  if (pMgr->startIndex <= pMsg->lastSendIndex && pMsg->lastSendIndex < pMgr->endIndex) {
853 854 855 856 857 858 859 860
     if (pMgr->startIndex < pMgr->matchIndex && pMgr->retryBackoff > 0) {
        int64_t firstSentMs = pMgr->states[pMgr->startIndex % pMgr->size].timeMs;
        int64_t lastSentMs = pMgr->states[(pMgr->endIndex - 1) % pMgr->size].timeMs;
        int64_t timeDiffMs = lastSentMs - firstSentMs;
        if (timeDiffMs > 0 && timeDiffMs < (SYNC_LOG_REPL_RETRY_WAIT_MS << (pMgr->retryBackoff - 1))) {
            pMgr->retryBackoff -= 1;
        }
    }
861 862 863 864 865 866 867 868 869 870 871 872 873 874 875 876 877 878 879 880 881 882 883 884 885 886 887 888 889 890 891 892 893 894 895 896 897 898 899 900 901 902 903 904 905 906 907 908 909 910 911 912 913 914 915 916 917 918 919 920 921 922 923 924 925
    pMgr->states[pMsg->lastSendIndex % pMgr->size].acked = true;
    pMgr->matchIndex = TMAX(pMgr->matchIndex, pMsg->matchIndex);
    for (SyncIndex index = pMgr->startIndex; index < pMgr->matchIndex; index++) {
      memset(&pMgr->states[index % pMgr->size], 0, sizeof(pMgr->states[0]));
    }
    pMgr->startIndex = pMgr->matchIndex;
  }

  return syncLogReplMgrReplicateAttemptedOnce(pMgr, pNode);
}

SSyncLogReplMgr* syncLogReplMgrCreate() {
  SSyncLogReplMgr* pMgr = taosMemoryCalloc(1, sizeof(SSyncLogReplMgr));
  if (pMgr == NULL) {
    terrno = TSDB_CODE_OUT_OF_MEMORY;
    return NULL;
  }

  pMgr->size = sizeof(pMgr->states) / sizeof(pMgr->states[0]);

  ASSERT(pMgr->size == TSDB_SYNC_LOG_BUFFER_SIZE);

  return pMgr;

_err:
  taosMemoryFree(pMgr);
  return NULL;
}

void syncLogReplMgrDestroy(SSyncLogReplMgr* pMgr) {
  if (pMgr == NULL) {
    return;
  }
  (void)taosMemoryFree(pMgr);
  return;
}

int32_t syncNodeLogReplMgrInit(SSyncNode* pNode) {
  for (int i = 0; i < TSDB_MAX_REPLICA; i++) {
    ASSERT(pNode->logReplMgrs[i] == NULL);
    pNode->logReplMgrs[i] = syncLogReplMgrCreate();
    pNode->logReplMgrs[i]->peerId = i;
    ASSERT(pNode->logReplMgrs[i] != NULL && "Out of memory.");
  }
  return 0;
}

void syncNodeLogReplMgrDestroy(SSyncNode* pNode) {
  for (int i = 0; i < TSDB_MAX_REPLICA; i++) {
    syncLogReplMgrDestroy(pNode->logReplMgrs[i]);
    pNode->logReplMgrs[i] = NULL;
  }
}

SSyncLogBuffer* syncLogBufferCreate() {
  SSyncLogBuffer* pBuf = taosMemoryCalloc(1, sizeof(SSyncLogBuffer));
  if (pBuf == NULL) {
    terrno = TSDB_CODE_OUT_OF_MEMORY;
    return NULL;
  }

  pBuf->size = sizeof(pBuf->entries) / sizeof(pBuf->entries[0]);

  ASSERT(pBuf->size == TSDB_SYNC_LOG_BUFFER_SIZE);

926 927 928 929 930 931 932 933 934 935 936 937 938
  if (taosThreadMutexAttrInit(&pBuf->attr) < 0) {
    sError("failed to init log buffer mutexattr due to %s", strerror(errno));
    terrno = TAOS_SYSTEM_ERROR(errno);
    goto _err;
  }

  if (taosThreadMutexAttrSetType(&pBuf->attr, PTHREAD_MUTEX_RECURSIVE) < 0) {
    sError("failed to set log buffer mutexattr type due to %s", strerror(errno));
    terrno = TAOS_SYSTEM_ERROR(errno);
    goto _err;
  }

  if (taosThreadMutexInit(&pBuf->mutex, &pBuf->attr) < 0) {
939 940 941 942
    sError("failed to init log buffer mutex due to %s", strerror(errno));
    terrno = TAOS_SYSTEM_ERROR(errno);
    goto _err;
  }
943

944 945 946 947 948 949 950
  return pBuf;

_err:
  taosMemoryFree(pBuf);
  return NULL;
}

951 952 953 954 955 956 957 958 959 960 961 962 963
void syncLogBufferClear(SSyncLogBuffer* pBuf) {
  taosThreadMutexLock(&pBuf->mutex);
  for (SyncIndex index = pBuf->startIndex; index < pBuf->endIndex; index++) {
    SSyncRaftEntry* pEntry = pBuf->entries[(index + pBuf->size) % pBuf->size].pItem;
    if (pEntry == NULL) continue;
    syncEntryDestroy(pEntry);
    pEntry = NULL;
    memset(&pBuf->entries[(index + pBuf->size) % pBuf->size], 0, sizeof(pBuf->entries[0]));
  }
  pBuf->startIndex = pBuf->commitIndex = pBuf->matchIndex = pBuf->endIndex = 0;
  taosThreadMutexUnlock(&pBuf->mutex);
}

964 965 966 967
void syncLogBufferDestroy(SSyncLogBuffer* pBuf) {
  if (pBuf == NULL) {
    return;
  }
968
  syncLogBufferClear(pBuf);
969
  (void)taosThreadMutexDestroy(&pBuf->mutex);
970
  (void)taosThreadMutexAttrDestroy(&pBuf->attr);
971 972 973 974
  (void)taosMemoryFree(pBuf);
  return;
}

975
int32_t syncLogBufferRollback(SSyncLogBuffer* pBuf, SSyncNode* pNode, SyncIndex toIndex) {
976 977
  ASSERT(pBuf->commitIndex < toIndex && toIndex <= pBuf->endIndex);

978 979 980 981
  sInfo("vgId:%d, rollback sync log buffer. toindex: %" PRId64 ", buffer: [%" PRId64 " %" PRId64 " %" PRId64
        ", %" PRId64 ")",
        pNode->vgId, toIndex, pBuf->startIndex, pBuf->commitIndex, pBuf->matchIndex, pBuf->endIndex);

982
  // trunc buffer
983 984 985 986
  SyncIndex index = pBuf->endIndex - 1;
  while (index >= toIndex) {
    SSyncRaftEntry* pEntry = pBuf->entries[index % pBuf->size].pItem;
    if (pEntry != NULL) {
987
      (void)syncEntryDestroy(pEntry);
988 989 990 991 992 993 994 995
      pEntry = NULL;
      memset(&pBuf->entries[index % pBuf->size], 0, sizeof(pBuf->entries[0]));
    }
    index--;
  }
  pBuf->endIndex = toIndex;
  pBuf->matchIndex = TMIN(pBuf->matchIndex, index);
  ASSERT(index + 1 == toIndex);
996 997 998 999 1000 1001 1002 1003 1004 1005 1006

  // trunc wal
  SyncIndex lastVer = pNode->pLogStore->syncLogLastIndex(pNode->pLogStore);
  if (lastVer >= toIndex && pNode->pLogStore->syncLogTruncate(pNode->pLogStore, toIndex) < 0) {
    sError("vgId:%d, failed to truncate log store since %s. from index:%" PRId64 "", pNode->vgId, terrstr(), toIndex);
    return -1;
  }
  lastVer = pNode->pLogStore->syncLogLastIndex(pNode->pLogStore);
  ASSERT(toIndex == lastVer + 1);

  syncLogBufferValidate(pBuf);
1007 1008 1009 1010 1011 1012 1013 1014 1015
  return 0;
}

int32_t syncLogBufferReset(SSyncLogBuffer* pBuf, SSyncNode* pNode) {
  taosThreadMutexLock(&pBuf->mutex);
  SyncIndex lastVer = pNode->pLogStore->syncLogLastIndex(pNode->pLogStore);
  ASSERT(lastVer == pBuf->matchIndex);
  SyncIndex index = pBuf->endIndex - 1;

1016
  (void)syncLogBufferRollback(pBuf, pNode, pBuf->matchIndex + 1);
1017

1018
  sInfo("vgId:%d, reset sync log buffer. buffer: [%" PRId64 " %" PRId64 " %" PRId64 ", %" PRId64 ")", pNode->vgId,
1019 1020 1021 1022 1023 1024 1025
        pBuf->startIndex, pBuf->commitIndex, pBuf->matchIndex, pBuf->endIndex);

  pBuf->endIndex = pBuf->matchIndex + 1;

  // reset repl mgr
  for (int i = 0; i < pNode->replicaNum; i++) {
    SSyncLogReplMgr* pMgr = pNode->logReplMgrs[i];
1026
    syncLogReplMgrReset(pMgr);
1027 1028 1029 1030 1031 1032 1033 1034 1035 1036 1037 1038 1039 1040 1041 1042 1043 1044 1045 1046 1047 1048 1049 1050 1051 1052 1053 1054 1055 1056 1057 1058 1059 1060
  }
  taosThreadMutexUnlock(&pBuf->mutex);
  return 0;
}

SSyncRaftEntry* syncLogBufferGetOneEntry(SSyncLogBuffer* pBuf, SSyncNode* pNode, SyncIndex index, bool* pInBuf) {
  SSyncRaftEntry* pEntry = NULL;
  if (index >= pBuf->endIndex) {
    return NULL;
  }
  if (index > pBuf->startIndex) {  // startIndex might be dummy
    *pInBuf = true;
    pEntry = pBuf->entries[index % pBuf->size].pItem;
  } else {
    *pInBuf = false;
    if (pNode->pLogStore->syncLogGetEntry(pNode->pLogStore, index, &pEntry) < 0) {
      sError("vgId:%d, failed to get log entry since %s. index:%" PRId64 "", pNode->vgId, terrstr(), index);
    }
  }
  return pEntry;
}

int32_t syncLogBufferReplicateOneTo(SSyncLogReplMgr* pMgr, SSyncNode* pNode, SyncIndex index, SyncTerm* pTerm,
                                    SRaftId* pDestId, bool* pBarrier) {
  SSyncRaftEntry* pEntry = NULL;
  SRpcMsg         msgOut = {0};
  bool            inBuf = false;
  int32_t         ret = -1;
  SyncTerm        prevLogTerm = -1;
  SSyncLogBuffer* pBuf = pNode->pLogBuf;

  pEntry = syncLogBufferGetOneEntry(pBuf, pNode, index, &inBuf);
  if (pEntry == NULL) {
    sError("vgId:%d, failed to get raft entry for index: %" PRId64 "", pNode->vgId, index);
1061 1062 1063
    if (terrno == TSDB_CODE_WAL_LOG_NOT_EXIST) {
      SSyncLogReplMgr* pMgr = syncNodeGetLogReplMgr(pNode, pDestId);
      if (pMgr) {
1064
        sInfo("vgId:%d, reset sync log repl mgr of peer: %" PRIx64 " since %s. index: %" PRId64, pNode->vgId,
1065
              pDestId->addr, terrstr(), index);
1066 1067 1068
        (void)syncLogReplMgrReset(pMgr);
      }
    }
1069 1070 1071 1072 1073 1074 1075 1076 1077 1078 1079
    goto _err;
  }
  *pBarrier = syncLogIsReplicationBarrier(pEntry);

  prevLogTerm = syncLogReplMgrGetPrevLogTerm(pMgr, pNode, index);
  if (prevLogTerm < 0) {
    sError("vgId:%d, failed to get prev log term since %s. index: %" PRId64 "", pNode->vgId, terrstr(), index);
    goto _err;
  }
  if (pTerm) *pTerm = pEntry->term;

1080
  int32_t code = syncBuildAppendEntriesFromRaftLog(pNode, pEntry, prevLogTerm, &msgOut);
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  if (code < 0) {
    sError("vgId:%d, failed to get append entries for index:%" PRId64 "", pNode->vgId, index);
    goto _err;
  }

  (void)syncNodeSendAppendEntries(pNode, pDestId, &msgOut);
  ret = 0;

1089 1090
  sTrace("vgId:%d, replicate one msg index: %" PRId64 " term: %" PRId64 " prevterm: %" PRId64 " to dest: 0x%016" PRIx64,
         pNode->vgId, pEntry->index, pEntry->term, prevLogTerm, pDestId->addr);
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  if (!inBuf) {
    syncEntryDestroy(pEntry);
    pEntry = NULL;
  }
  return 0;

_err:
  rpcFreeCont(msgOut.pCont);
  msgOut.pCont = NULL;
  if (!inBuf) {
    syncEntryDestroy(pEntry);
    pEntry = NULL;
  }
  return -1;
}