/* * Copyright (c) 2019 TAOS Data, Inc. * * 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 . */ #include "syncRaftLog.h" #include "syncRaftCfg.h" #include "syncRaftStore.h" #include "wal.h" // refactor, log[0 .. n] ==> log[m .. n] static int32_t raftLogSetBeginIndex(struct SSyncLogStore* pLogStore, SyncIndex beginIndex); static SyncIndex raftLogBeginIndex(struct SSyncLogStore* pLogStore); static SyncIndex raftLogEndIndex(struct SSyncLogStore* pLogStore); static SyncIndex raftLogWriteIndex(struct SSyncLogStore* pLogStore); static bool raftLogIsEmpty(struct SSyncLogStore* pLogStore); static int32_t raftLogEntryCount(struct SSyncLogStore* pLogStore); static bool raftLogInRange(struct SSyncLogStore* pLogStore, SyncIndex index); static SyncIndex raftLogLastIndex(struct SSyncLogStore* pLogStore); static SyncTerm raftLogLastTerm(struct SSyncLogStore* pLogStore); static int32_t raftLogAppendEntry(struct SSyncLogStore* pLogStore, SSyncRaftEntry* pEntry); static int32_t raftLogGetEntry(struct SSyncLogStore* pLogStore, SyncIndex index, SSyncRaftEntry** ppEntry); static int32_t raftLogTruncate(struct SSyncLogStore* pLogStore, SyncIndex fromIndex); static int32_t raftLogGetLastEntry(SSyncLogStore* pLogStore, SSyncRaftEntry** ppLastEntry); //------------------------------- static SSyncRaftEntry* logStoreGetLastEntry(SSyncLogStore* pLogStore); static SyncIndex logStoreLastIndex(SSyncLogStore* pLogStore); static SyncTerm logStoreLastTerm(SSyncLogStore* pLogStore); static SSyncRaftEntry* logStoreGetEntry(SSyncLogStore* pLogStore, SyncIndex index); static int32_t logStoreAppendEntry(SSyncLogStore* pLogStore, SSyncRaftEntry* pEntry); static int32_t logStoreTruncate(SSyncLogStore* pLogStore, SyncIndex fromIndex); static int32_t logStoreUpdateCommitIndex(SSyncLogStore* pLogStore, SyncIndex index); static SyncIndex logStoreGetCommitIndex(SSyncLogStore* pLogStore); // refactor, log[0 .. n] ==> log[m .. n] static int32_t raftLogSetBeginIndex(struct SSyncLogStore* pLogStore, SyncIndex beginIndex) { sTrace("raftLogSetBeginIndex beginIndex:%ld", beginIndex); // if beginIndex == 0, donot need call this funciton ASSERT(beginIndex > 0); SSyncLogStoreData* pData = pLogStore->data; SWal* pWal = pData->pWal; pData->beginIndex = beginIndex; walRestoreFromSnapshot(pWal, beginIndex - 1); return 0; } int32_t raftLogResetBeginIndex(struct SSyncLogStore* pLogStore) { return 0; } static SyncIndex raftLogBeginIndex(struct SSyncLogStore* pLogStore) { SSyncLogStoreData* pData = pLogStore->data; SWal* pWal = pData->pWal; return pData->beginIndex; } static SyncIndex raftLogEndIndex(struct SSyncLogStore* pLogStore) { return raftLogLastIndex(pLogStore); } static bool raftLogIsEmpty(struct SSyncLogStore* pLogStore) { SyncIndex beginIndex = raftLogBeginIndex(pLogStore); SyncIndex endIndex = raftLogEndIndex(pLogStore); return (endIndex < beginIndex); } static int32_t raftLogEntryCount(struct SSyncLogStore* pLogStore) { SyncIndex beginIndex = raftLogBeginIndex(pLogStore); SyncIndex endIndex = raftLogEndIndex(pLogStore); int32_t count = endIndex - beginIndex + 1; return count > 0 ? count : 0; } static bool raftLogInRange(struct SSyncLogStore* pLogStore, SyncIndex index) { SyncIndex beginIndex = raftLogBeginIndex(pLogStore); SyncIndex endIndex = raftLogEndIndex(pLogStore); if (index >= beginIndex && index <= endIndex) { return true; } else { return false; } } static SyncIndex raftLogLastIndex(struct SSyncLogStore* pLogStore) { SyncIndex lastIndex; SSyncLogStoreData* pData = pLogStore->data; SWal* pWal = pData->pWal; SyncIndex lastVer = walGetLastVer(pWal); SyncIndex firstVer = walGetFirstVer(pWal); if (lastVer < firstVer) { // no record lastIndex = -1; } else { if (firstVer >= 0) { lastIndex = lastVer; } else if (firstVer == -1) { lastIndex = -1; } else { ASSERT(0); } } return lastIndex; } static SyncIndex raftLogWriteIndex(struct SSyncLogStore* pLogStore) { SSyncLogStoreData* pData = pLogStore->data; SWal* pWal = pData->pWal; SyncIndex lastVer = walGetLastVer(pWal); return lastVer + 1; } static SyncTerm raftLogLastTerm(struct SSyncLogStore* pLogStore) { SyncTerm lastTerm = 0; if (raftLogEntryCount(pLogStore) == 0) { lastTerm = 0; } else { SSyncRaftEntry* pLastEntry; int32_t code = raftLogGetLastEntry(pLogStore, &pLastEntry); ASSERT(code == 0); if (pLastEntry != NULL) { lastTerm = pLastEntry->term; taosMemoryFree(pLastEntry); } } return lastTerm; } static int32_t raftLogAppendEntry(struct SSyncLogStore* pLogStore, SSyncRaftEntry* pEntry) { SSyncLogStoreData* pData = pLogStore->data; SWal* pWal = pData->pWal; SyncIndex writeIndex = raftLogWriteIndex(pLogStore); ASSERT(pEntry->index == writeIndex); int code = 0; SSyncLogMeta syncMeta; syncMeta.isWeek = pEntry->isWeak; syncMeta.seqNum = pEntry->seqNum; syncMeta.term = pEntry->term; code = walWriteWithSyncInfo(pWal, pEntry->index, pEntry->originalRpcType, syncMeta, pEntry->data, pEntry->dataLen); if (code != 0) { int32_t err = terrno; const char* errStr = tstrerror(err); int32_t linuxErr = errno; const char* linuxErrMsg = strerror(errno); sError("raftLogAppendEntry error, err:%d %X, msg:%s, linuxErr:%d, linuxErrMsg:%s", err, err, errStr, linuxErr, linuxErrMsg); ASSERT(0); } walFsync(pWal, true); sDebug( "vgId:%d sync event %s commitIndex:%ld currentTerm:%lu write index:%ld, isStandBy:%d, msgType:%s,%d, " "originalRpcType:%s,%d", pData->pSyncNode->vgId, syncUtilState2String(pData->pSyncNode->state), pData->pSyncNode->commitIndex, pData->pSyncNode->pRaftStore->currentTerm, pEntry->index, pData->pSyncNode->pRaftCfg->isStandBy, TMSG_INFO(pEntry->msgType), pEntry->msgType, TMSG_INFO(pEntry->originalRpcType), pEntry->originalRpcType); return code; } static int32_t raftLogGetEntry(struct SSyncLogStore* pLogStore, SyncIndex index, SSyncRaftEntry** ppEntry) { SSyncLogStoreData* pData = pLogStore->data; SWal* pWal = pData->pWal; int32_t code; *ppEntry = NULL; if (raftLogInRange(pLogStore, index)) { SWalReadHandle* pWalHandle = walOpenReadHandle(pWal); ASSERT(pWalHandle != NULL); code = walReadWithHandle(pWalHandle, index); if (code != 0) { int32_t err = terrno; const char* errStr = tstrerror(err); int32_t linuxErr = errno; const char* linuxErrMsg = strerror(errno); sError("raftLogGetEntry error, err:%d %X, msg:%s, linuxErr:%d, linuxErrMsg:%s", err, err, errStr, linuxErr, linuxErrMsg); ASSERT(0); walCloseReadHandle(pWalHandle); return code; } *ppEntry = syncEntryBuild(pWalHandle->pHead->head.bodyLen); ASSERT(*ppEntry != NULL); (*ppEntry)->msgType = TDMT_SYNC_CLIENT_REQUEST; (*ppEntry)->originalRpcType = pWalHandle->pHead->head.msgType; (*ppEntry)->seqNum = pWalHandle->pHead->head.syncMeta.seqNum; (*ppEntry)->isWeak = pWalHandle->pHead->head.syncMeta.isWeek; (*ppEntry)->term = pWalHandle->pHead->head.syncMeta.term; (*ppEntry)->index = index; ASSERT((*ppEntry)->dataLen == pWalHandle->pHead->head.bodyLen); memcpy((*ppEntry)->data, pWalHandle->pHead->head.body, pWalHandle->pHead->head.bodyLen); // need to hold, do not new every time!! walCloseReadHandle(pWalHandle); } else { // index not in range code = 0; } return code; } static int32_t raftLogTruncate(struct SSyncLogStore* pLogStore, SyncIndex fromIndex) { SSyncLogStoreData* pData = pLogStore->data; SWal* pWal = pData->pWal; int32_t code = walRollback(pWal, fromIndex); if (code != 0) { int32_t err = terrno; const char* errStr = tstrerror(err); int32_t linuxErr = errno; const char* linuxErrMsg = strerror(errno); sError("raftLogTruncate error, err:%d %X, msg:%s, linuxErr:%d, linuxErrMsg:%s", err, err, errStr, linuxErr, linuxErrMsg); ASSERT(0); } return code; } static int32_t raftLogGetLastEntry(SSyncLogStore* pLogStore, SSyncRaftEntry** ppLastEntry) { *ppLastEntry = NULL; if (raftLogEntryCount(pLogStore) == 0) { return 0; } SyncIndex lastIndex = raftLogLastIndex(pLogStore); int32_t code = raftLogGetEntry(pLogStore, lastIndex, ppLastEntry); return code; } //------------------------------- SSyncLogStore* logStoreCreate(SSyncNode* pSyncNode) { SSyncLogStore* pLogStore = taosMemoryMalloc(sizeof(SSyncLogStore)); assert(pLogStore != NULL); pLogStore->data = taosMemoryMalloc(sizeof(SSyncLogStoreData)); assert(pLogStore->data != NULL); SSyncLogStoreData* pData = pLogStore->data; pData->pSyncNode = pSyncNode; pData->pWal = pSyncNode->pWal; SyncIndex firstVer = walGetFirstVer(pData->pWal); SyncIndex lastVer = walGetLastVer(pData->pWal); if (firstVer >= 0) { pData->beginIndex = firstVer; } else if (firstVer == -1) { pData->beginIndex = lastVer + 1; } else { ASSERT(0); } pLogStore->appendEntry = logStoreAppendEntry; pLogStore->getEntry = logStoreGetEntry; pLogStore->truncate = logStoreTruncate; pLogStore->getLastIndex = logStoreLastIndex; pLogStore->getLastTerm = logStoreLastTerm; pLogStore->updateCommitIndex = logStoreUpdateCommitIndex; pLogStore->getCommitIndex = logStoreGetCommitIndex; pLogStore->syncLogSetBeginIndex = raftLogSetBeginIndex; pLogStore->syncLogBeginIndex = raftLogBeginIndex; pLogStore->syncLogEndIndex = raftLogEndIndex; pLogStore->syncLogIsEmpty = raftLogIsEmpty; pLogStore->syncLogEntryCount = raftLogEntryCount; pLogStore->syncLogInRange = raftLogInRange; pLogStore->syncLogLastIndex = raftLogLastIndex; pLogStore->syncLogLastTerm = raftLogLastTerm; pLogStore->syncLogAppendEntry = raftLogAppendEntry; pLogStore->syncLogGetEntry = raftLogGetEntry; pLogStore->syncLogTruncate = raftLogTruncate; pLogStore->syncLogWriteIndex = raftLogWriteIndex; return pLogStore; } void logStoreDestory(SSyncLogStore* pLogStore) { if (pLogStore != NULL) { taosMemoryFree(pLogStore->data); taosMemoryFree(pLogStore); } } //------------------------------- int32_t logStoreAppendEntry(SSyncLogStore* pLogStore, SSyncRaftEntry* pEntry) { SSyncLogStoreData* pData = pLogStore->data; SWal* pWal = pData->pWal; SyncIndex lastIndex = logStoreLastIndex(pLogStore); assert(pEntry->index == lastIndex + 1); int code = 0; SSyncLogMeta syncMeta; syncMeta.isWeek = pEntry->isWeak; syncMeta.seqNum = pEntry->seqNum; syncMeta.term = pEntry->term; code = walWriteWithSyncInfo(pWal, pEntry->index, pEntry->originalRpcType, syncMeta, pEntry->data, pEntry->dataLen); if (code != 0) { int32_t err = terrno; const char* errStr = tstrerror(err); int32_t linuxErr = errno; const char* linuxErrMsg = strerror(errno); sError("walWriteWithSyncInfo error, err:%d %X, msg:%s, linuxErr:%d, linuxErrMsg:%s", err, err, errStr, linuxErr, linuxErrMsg); ASSERT(0); } // assert(code == 0); walFsync(pWal, true); sDebug( "vgId:%d sync event %s commitIndex:%ld currentTerm:%lu old write index:%ld, isStandBy:%d, msgType:%s,%d, " "originalRpcType:%s,%d", pData->pSyncNode->vgId, syncUtilState2String(pData->pSyncNode->state), pData->pSyncNode->commitIndex, pData->pSyncNode->pRaftStore->currentTerm, pEntry->index, pData->pSyncNode->pRaftCfg->isStandBy, TMSG_INFO(pEntry->msgType), pEntry->msgType, TMSG_INFO(pEntry->originalRpcType), pEntry->originalRpcType); return code; } SSyncRaftEntry* logStoreGetEntry(SSyncLogStore* pLogStore, SyncIndex index) { SSyncLogStoreData* pData = pLogStore->data; SWal* pWal = pData->pWal; if (index >= SYNC_INDEX_BEGIN && index <= logStoreLastIndex(pLogStore)) { SWalReadHandle* pWalHandle = walOpenReadHandle(pWal); ASSERT(pWalHandle != NULL); int32_t code = walReadWithHandle(pWalHandle, index); if (code != 0) { int32_t err = terrno; const char* errStr = tstrerror(err); int32_t linuxErr = errno; const char* linuxErrMsg = strerror(errno); sError("walReadWithHandle error, err:%d %X, msg:%s, linuxErr:%d, linuxErrMsg:%s", err, err, errStr, linuxErr, linuxErrMsg); ASSERT(0); } // assert(walReadWithHandle(pWalHandle, index) == 0); SSyncRaftEntry* pEntry = syncEntryBuild(pWalHandle->pHead->head.bodyLen); assert(pEntry != NULL); pEntry->msgType = TDMT_SYNC_CLIENT_REQUEST; pEntry->originalRpcType = pWalHandle->pHead->head.msgType; pEntry->seqNum = pWalHandle->pHead->head.syncMeta.seqNum; pEntry->isWeak = pWalHandle->pHead->head.syncMeta.isWeek; pEntry->term = pWalHandle->pHead->head.syncMeta.term; pEntry->index = index; assert(pEntry->dataLen == pWalHandle->pHead->head.bodyLen); memcpy(pEntry->data, pWalHandle->pHead->head.body, pWalHandle->pHead->head.bodyLen); // need to hold, do not new every time!! walCloseReadHandle(pWalHandle); return pEntry; } else { return NULL; } } int32_t logStoreTruncate(SSyncLogStore* pLogStore, SyncIndex fromIndex) { SSyncLogStoreData* pData = pLogStore->data; SWal* pWal = pData->pWal; // assert(walRollback(pWal, fromIndex) == 0); int32_t code = walRollback(pWal, fromIndex); if (code != 0) { int32_t err = terrno; const char* errStr = tstrerror(err); int32_t linuxErr = errno; const char* linuxErrMsg = strerror(errno); sError("walRollback error, err:%d %X, msg:%s, linuxErr:%d, linuxErrMsg:%s", err, err, errStr, linuxErr, linuxErrMsg); ASSERT(0); } return 0; } SyncIndex logStoreLastIndex(SSyncLogStore* pLogStore) { SSyncLogStoreData* pData = pLogStore->data; SWal* pWal = pData->pWal; SyncIndex lastIndex = walGetLastVer(pWal); return lastIndex; } SyncTerm logStoreLastTerm(SSyncLogStore* pLogStore) { SyncTerm lastTerm = 0; SSyncRaftEntry* pLastEntry = logStoreGetLastEntry(pLogStore); if (pLastEntry != NULL) { lastTerm = pLastEntry->term; taosMemoryFree(pLastEntry); } return lastTerm; } int32_t logStoreUpdateCommitIndex(SSyncLogStore* pLogStore, SyncIndex index) { /* SSyncLogStoreData* pData = pLogStore->data; SWal* pWal = pData->pWal; // assert(walCommit(pWal, index) == 0); int32_t code = walCommit(pWal, index); if (code != 0) { int32_t err = terrno; const char* errStr = tstrerror(err); int32_t linuxErr = errno; const char* linuxErrMsg = strerror(errno); sError("walCommit error, err:%d %X, msg:%s, linuxErr:%d, linuxErrMsg:%s", err, err, errStr, linuxErr, linuxErrMsg); ASSERT(0); } */ return 0; } SyncIndex logStoreGetCommitIndex(SSyncLogStore* pLogStore) { SSyncLogStoreData* pData = pLogStore->data; return pData->pSyncNode->commitIndex; } SSyncRaftEntry* logStoreGetLastEntry(SSyncLogStore* pLogStore) { SSyncLogStoreData* pData = pLogStore->data; SWal* pWal = pData->pWal; SyncIndex lastIndex = walGetLastVer(pWal); SSyncRaftEntry* pEntry = NULL; if (lastIndex > 0) { pEntry = logStoreGetEntry(pLogStore, lastIndex); } return pEntry; } cJSON* logStore2Json(SSyncLogStore* pLogStore) { char u64buf[128] = {0}; SSyncLogStoreData* pData = (SSyncLogStoreData*)pLogStore->data; cJSON* pRoot = cJSON_CreateObject(); if (pData != NULL && pData->pWal != NULL) { snprintf(u64buf, sizeof(u64buf), "%p", pData->pSyncNode); cJSON_AddStringToObject(pRoot, "pSyncNode", u64buf); snprintf(u64buf, sizeof(u64buf), "%p", pData->pWal); cJSON_AddStringToObject(pRoot, "pWal", u64buf); snprintf(u64buf, sizeof(u64buf), "%ld", pData->beginIndex); cJSON_AddStringToObject(pRoot, "beginIndex", u64buf); SyncIndex endIndex = raftLogEndIndex(pLogStore); snprintf(u64buf, sizeof(u64buf), "%ld", endIndex); cJSON_AddStringToObject(pRoot, "endIndex", u64buf); int32_t count = raftLogEntryCount(pLogStore); cJSON_AddNumberToObject(pRoot, "entryCount", count); snprintf(u64buf, sizeof(u64buf), "%ld", raftLogWriteIndex(pLogStore)); cJSON_AddStringToObject(pRoot, "WriteIndex", u64buf); snprintf(u64buf, sizeof(u64buf), "%d", raftLogIsEmpty(pLogStore)); cJSON_AddStringToObject(pRoot, "IsEmpty", u64buf); snprintf(u64buf, sizeof(u64buf), "%ld", raftLogLastIndex(pLogStore)); cJSON_AddStringToObject(pRoot, "LastIndex", u64buf); snprintf(u64buf, sizeof(u64buf), "%lu", raftLogLastTerm(pLogStore)); cJSON_AddStringToObject(pRoot, "LastTerm", u64buf); cJSON* pEntries = cJSON_CreateArray(); cJSON_AddItemToObject(pRoot, "pEntries", pEntries); for (SyncIndex i = pData->beginIndex; i <= endIndex; ++i) { SSyncRaftEntry* pEntry = logStoreGetEntry(pLogStore, i); cJSON_AddItemToArray(pEntries, syncEntry2Json(pEntry)); syncEntryDestory(pEntry); } } cJSON* pJson = cJSON_CreateObject(); cJSON_AddItemToObject(pJson, "SSyncLogStore", pRoot); return pJson; } char* logStore2Str(SSyncLogStore* pLogStore) { cJSON* pJson = logStore2Json(pLogStore); char* serialized = cJSON_Print(pJson); cJSON_Delete(pJson); return serialized; } cJSON* logStoreSimple2Json(SSyncLogStore* pLogStore) { char u64buf[128] = {0}; SSyncLogStoreData* pData = (SSyncLogStoreData*)pLogStore->data; cJSON* pRoot = cJSON_CreateObject(); if (pData != NULL && pData->pWal != NULL) { snprintf(u64buf, sizeof(u64buf), "%p", pData->pSyncNode); cJSON_AddStringToObject(pRoot, "pSyncNode", u64buf); snprintf(u64buf, sizeof(u64buf), "%p", pData->pWal); cJSON_AddStringToObject(pRoot, "pWal", u64buf); snprintf(u64buf, sizeof(u64buf), "%ld", pData->beginIndex); cJSON_AddStringToObject(pRoot, "beginIndex", u64buf); SyncIndex endIndex = raftLogEndIndex(pLogStore); snprintf(u64buf, sizeof(u64buf), "%ld", endIndex); cJSON_AddStringToObject(pRoot, "endIndex", u64buf); int32_t count = raftLogEntryCount(pLogStore); cJSON_AddNumberToObject(pRoot, "entryCount", count); snprintf(u64buf, sizeof(u64buf), "%ld", raftLogWriteIndex(pLogStore)); cJSON_AddStringToObject(pRoot, "WriteIndex", u64buf); snprintf(u64buf, sizeof(u64buf), "%d", raftLogIsEmpty(pLogStore)); cJSON_AddStringToObject(pRoot, "IsEmpty", u64buf); snprintf(u64buf, sizeof(u64buf), "%ld", raftLogLastIndex(pLogStore)); cJSON_AddStringToObject(pRoot, "LastIndex", u64buf); snprintf(u64buf, sizeof(u64buf), "%lu", raftLogLastTerm(pLogStore)); cJSON_AddStringToObject(pRoot, "LastTerm", u64buf); } cJSON* pJson = cJSON_CreateObject(); cJSON_AddItemToObject(pJson, "SSyncLogStoreSimple", pRoot); return pJson; } char* logStoreSimple2Str(SSyncLogStore* pLogStore) { cJSON* pJson = logStoreSimple2Json(pLogStore); char* serialized = cJSON_Print(pJson); cJSON_Delete(pJson); return serialized; } SyncIndex logStoreFirstIndex(SSyncLogStore* pLogStore) { SSyncLogStoreData* pData = pLogStore->data; SWal* pWal = pData->pWal; return walGetFirstVer(pWal); } // for debug ----------------- void logStorePrint(SSyncLogStore* pLogStore) { char* serialized = logStore2Str(pLogStore); printf("logStorePrint | len:%lu | %s \n", strlen(serialized), serialized); fflush(NULL); taosMemoryFree(serialized); } void logStorePrint2(char* s, SSyncLogStore* pLogStore) { char* serialized = logStore2Str(pLogStore); printf("logStorePrint2 | len:%lu | %s | %s \n", strlen(serialized), s, serialized); fflush(NULL); taosMemoryFree(serialized); } void logStoreLog(SSyncLogStore* pLogStore) { if (gRaftDetailLog) { char* serialized = logStore2Str(pLogStore); sTraceLong("logStoreLog | len:%lu | %s", strlen(serialized), serialized); taosMemoryFree(serialized); } } void logStoreLog2(char* s, SSyncLogStore* pLogStore) { if (gRaftDetailLog) { char* serialized = logStore2Str(pLogStore); sTraceLong("logStoreLog2 | len:%lu | %s | %s", strlen(serialized), s, serialized); taosMemoryFree(serialized); } } // for debug ----------------- void logStoreSimplePrint(SSyncLogStore* pLogStore) { char* serialized = logStoreSimple2Str(pLogStore); printf("logStoreSimplePrint | len:%lu | %s \n", strlen(serialized), serialized); fflush(NULL); taosMemoryFree(serialized); } void logStoreSimplePrint2(char* s, SSyncLogStore* pLogStore) { char* serialized = logStoreSimple2Str(pLogStore); printf("logStoreSimplePrint2 | len:%lu | %s | %s \n", strlen(serialized), s, serialized); fflush(NULL); taosMemoryFree(serialized); } void logStoreSimpleLog(SSyncLogStore* pLogStore) { char* serialized = logStoreSimple2Str(pLogStore); sTrace("logStoreSimpleLog | len:%lu | %s", strlen(serialized), serialized); taosMemoryFree(serialized); } void logStoreSimpleLog2(char* s, SSyncLogStore* pLogStore) { if (gRaftDetailLog) { char* serialized = logStoreSimple2Str(pLogStore); sTrace("logStoreSimpleLog2 | len:%lu | %s | %s", strlen(serialized), s, serialized); taosMemoryFree(serialized); } }