/* * 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 . */ #define _DEFAULT_SOURCE #include "syncSnapshot.h" #include "syncIndexMgr.h" #include "syncPipeline.h" #include "syncRaftCfg.h" #include "syncRaftLog.h" #include "syncRaftStore.h" #include "syncReplication.h" #include "syncUtil.h" SSyncSnapshotSender *snapshotSenderCreate(SSyncNode *pSyncNode, int32_t replicaIndex) { bool condition = (pSyncNode->pFsm->FpSnapshotStartRead != NULL) && (pSyncNode->pFsm->FpSnapshotStopRead != NULL) && (pSyncNode->pFsm->FpSnapshotDoRead != NULL); SSyncSnapshotSender *pSender = NULL; if (condition) { pSender = taosMemoryCalloc(1, sizeof(SSyncSnapshotSender)); if (pSender == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return NULL; } pSender->start = false; pSender->seq = SYNC_SNAPSHOT_SEQ_INVALID; pSender->ack = SYNC_SNAPSHOT_SEQ_INVALID; pSender->pReader = NULL; pSender->pCurrentBlock = NULL; pSender->blockLen = 0; pSender->sendingMS = SYNC_SNAPSHOT_RETRY_MS; pSender->pSyncNode = pSyncNode; pSender->replicaIndex = replicaIndex; pSender->term = pSyncNode->pRaftStore->currentTerm; pSender->startTime = 0; pSender->endTime = 0; pSender->pSyncNode->pFsm->FpGetSnapshotInfo(pSender->pSyncNode->pFsm, &(pSender->snapshot)); pSender->finish = false; } else { sError("vgId:%d, cannot create snapshot sender", pSyncNode->vgId); } return pSender; } void snapshotSenderDestroy(SSyncSnapshotSender *pSender) { if (pSender != NULL) { // free current block if (pSender->pCurrentBlock != NULL) { taosMemoryFree(pSender->pCurrentBlock); pSender->pCurrentBlock = NULL; } // close reader if (pSender->pReader != NULL) { int32_t ret = pSender->pSyncNode->pFsm->FpSnapshotStopRead(pSender->pSyncNode->pFsm, pSender->pReader); if (ret != 0) { sNError(pSender->pSyncNode, "stop reader error"); } pSender->pReader = NULL; } // free sender taosMemoryFree(pSender); } } bool snapshotSenderIsStart(SSyncSnapshotSender *pSender) { return pSender->start; } int32_t snapshotSenderStart(SSyncSnapshotSender *pSender) { ASSERT(!snapshotSenderIsStart(pSender)); pSender->start = true; pSender->seq = SYNC_SNAPSHOT_SEQ_BEGIN; pSender->ack = SYNC_SNAPSHOT_SEQ_INVALID; pSender->pReader = NULL; pSender->pCurrentBlock = NULL; pSender->blockLen = 0; pSender->snapshotParam.start = SYNC_INDEX_INVALID; pSender->snapshotParam.end = SYNC_INDEX_INVALID; pSender->snapshot.data = NULL; pSender->snapshotParam.end = SYNC_INDEX_INVALID; pSender->snapshot.lastApplyIndex = SYNC_INDEX_INVALID; pSender->snapshot.lastApplyTerm = SYNC_TERM_INVALID; pSender->snapshot.lastConfigIndex = SYNC_INDEX_INVALID; memset(&(pSender->lastConfig), 0, sizeof(pSender->lastConfig)); pSender->sendingMS = 0; pSender->term = pSender->pSyncNode->pRaftStore->currentTerm; pSender->startTime = taosGetTimestampMs(); pSender->lastSendTime = pSender->startTime; pSender->finish = false; // build begin msg SRpcMsg rpcMsg = {0}; (void)syncBuildSnapshotSend(&rpcMsg, 0, pSender->pSyncNode->vgId); SyncSnapshotSend *pMsg = rpcMsg.pCont; pMsg->srcId = pSender->pSyncNode->myRaftId; pMsg->destId = (pSender->pSyncNode->replicasId)[pSender->replicaIndex]; pMsg->term = pSender->pSyncNode->pRaftStore->currentTerm; pMsg->beginIndex = pSender->snapshotParam.start; pMsg->lastIndex = pSender->snapshot.lastApplyIndex; pMsg->lastTerm = pSender->snapshot.lastApplyTerm; pMsg->lastConfigIndex = pSender->snapshot.lastConfigIndex; pMsg->lastConfig = pSender->lastConfig; pMsg->startTime = pSender->startTime; pMsg->seq = SYNC_SNAPSHOT_SEQ_PRE_SNAPSHOT; // send msg syncNodeSendMsgById(&pMsg->destId, pSender->pSyncNode, &rpcMsg); syncLogSendSyncSnapshotSend(pSender->pSyncNode, pMsg, ""); // event log sSTrace(pSender, "snapshot sender start"); return 0; } int32_t snapshotSenderStop(SSyncSnapshotSender *pSender, bool finish) { // update flag pSender->start = false; pSender->finish = finish; pSender->endTime = taosGetTimestampMs(); // close reader if (pSender->pReader != NULL) { int32_t ret = pSender->pSyncNode->pFsm->FpSnapshotStopRead(pSender->pSyncNode->pFsm, pSender->pReader); ASSERT(ret == 0); pSender->pReader = NULL; } // free current block if (pSender->pCurrentBlock != NULL) { taosMemoryFree(pSender->pCurrentBlock); pSender->pCurrentBlock = NULL; pSender->blockLen = 0; } // event log sSTrace(pSender, "snapshot sender stop"); return 0; } // when sender receive ack, call this function to send msg from seq // seq = ack + 1, already updated int32_t snapshotSend(SSyncSnapshotSender *pSender) { // free memory last time (current seq - 1) if (pSender->pCurrentBlock != NULL) { taosMemoryFree(pSender->pCurrentBlock); pSender->pCurrentBlock = NULL; pSender->blockLen = 0; } // read data int32_t ret = pSender->pSyncNode->pFsm->FpSnapshotDoRead(pSender->pSyncNode->pFsm, pSender->pReader, &(pSender->pCurrentBlock), &(pSender->blockLen)); ASSERT(ret == 0); if (pSender->blockLen > 0) { // has read data } else { // read finish, update seq to end pSender->seq = SYNC_SNAPSHOT_SEQ_END; } // build msg SRpcMsg rpcMsg = {0}; (void)syncBuildSnapshotSend(&rpcMsg, pSender->blockLen, pSender->pSyncNode->vgId); SyncSnapshotSend *pMsg = rpcMsg.pCont; pMsg->srcId = pSender->pSyncNode->myRaftId; pMsg->destId = (pSender->pSyncNode->replicasId)[pSender->replicaIndex]; pMsg->term = pSender->pSyncNode->pRaftStore->currentTerm; pMsg->beginIndex = pSender->snapshotParam.start; pMsg->lastIndex = pSender->snapshot.lastApplyIndex; pMsg->lastTerm = pSender->snapshot.lastApplyTerm; pMsg->lastConfigIndex = pSender->snapshot.lastConfigIndex; pMsg->lastConfig = pSender->lastConfig; pMsg->seq = pSender->seq; // pMsg->privateTerm = pSender->privateTerm; if (pSender->pCurrentBlock != NULL) { memcpy(pMsg->data, pSender->pCurrentBlock, pSender->blockLen); } // send msg syncNodeSendMsgById(&pMsg->destId, pSender->pSyncNode, &rpcMsg); syncLogSendSyncSnapshotSend(pSender->pSyncNode, pMsg, ""); pSender->lastSendTime = taosGetTimestampMs(); // event log if (pSender->seq == SYNC_SNAPSHOT_SEQ_END) { sSTrace(pSender, "snapshot sender finish"); } else { sSTrace(pSender, "snapshot sender sending"); } return 0; } // send snapshot data from cache int32_t snapshotReSend(SSyncSnapshotSender *pSender) { // send current block data // build msg SRpcMsg rpcMsg = {0}; (void)syncBuildSnapshotSend(&rpcMsg, pSender->blockLen, pSender->pSyncNode->vgId); SyncSnapshotSend *pMsg = rpcMsg.pCont; pMsg->srcId = pSender->pSyncNode->myRaftId; pMsg->destId = (pSender->pSyncNode->replicasId)[pSender->replicaIndex]; pMsg->term = pSender->pSyncNode->pRaftStore->currentTerm; pMsg->beginIndex = pSender->snapshotParam.start; pMsg->lastIndex = pSender->snapshot.lastApplyIndex; pMsg->lastTerm = pSender->snapshot.lastApplyTerm; pMsg->lastConfigIndex = pSender->snapshot.lastConfigIndex; pMsg->lastConfig = pSender->lastConfig; pMsg->seq = pSender->seq; if (pSender->pCurrentBlock != NULL && pSender->blockLen > 0) { // pMsg->privateTerm = pSender->privateTerm; memcpy(pMsg->data, pSender->pCurrentBlock, pSender->blockLen); } // send msg syncNodeSendMsgById(&pMsg->destId, pSender->pSyncNode, &rpcMsg); syncLogSendSyncSnapshotSend(pSender->pSyncNode, pMsg, ""); pSender->lastSendTime = taosGetTimestampMs(); // event log sSTrace(pSender, "snapshot sender resend"); return 0; } static void snapshotSenderUpdateProgress(SSyncSnapshotSender *pSender, SyncSnapshotRsp *pMsg) { ASSERT(pMsg->ack == pSender->seq); pSender->ack = pMsg->ack; ++(pSender->seq); } // return 0, start ok // return 1, last snapshot finish ok // return -1, error int32_t syncNodeStartSnapshot(SSyncNode *pSyncNode, SRaftId *pDestId) { sNTrace(pSyncNode, "starting snapshot ..."); SSyncSnapshotSender *pSender = syncNodeGetSnapshotSender(pSyncNode, pDestId); if (pSender == NULL) { sNError(pSyncNode, "start snapshot error, sender is null"); return -1; } int32_t code = 0; if (snapshotSenderIsStart(pSender)) { sNTrace(pSyncNode, "snapshot sender already start, ignore"); return 0; } if (!snapshotSenderIsStart(pSender) && pSender->finish && taosGetTimestampMs() - pSender->endTime < SNAPSHOT_WAIT_MS) { sNTrace(pSyncNode, "snapshot sender too frequently, ignore"); return 1; } char host[64]; uint16_t port; syncUtilU642Addr(pDestId->addr, host, sizeof(host), &port); sInfo("vgId:%d, start snapshot for peer: %s:%d", pSyncNode->vgId, host, port); code = snapshotSenderStart(pSender); if (code != 0) { sNError(pSyncNode, "snapshot sender start error"); return -1; } return 0; } SSyncSnapshotReceiver *snapshotReceiverCreate(SSyncNode *pSyncNode, SRaftId fromId) { bool condition = (pSyncNode->pFsm->FpSnapshotStartWrite != NULL) && (pSyncNode->pFsm->FpSnapshotStopWrite != NULL) && (pSyncNode->pFsm->FpSnapshotDoWrite != NULL); SSyncSnapshotReceiver *pReceiver = NULL; if (condition) { pReceiver = taosMemoryCalloc(1, sizeof(SSyncSnapshotReceiver)); if (pReceiver == NULL) { terrno = TSDB_CODE_OUT_OF_MEMORY; return NULL; } pReceiver->start = false; pReceiver->ack = SYNC_SNAPSHOT_SEQ_BEGIN; pReceiver->pWriter = NULL; pReceiver->pSyncNode = pSyncNode; pReceiver->fromId = fromId; pReceiver->term = pSyncNode->pRaftStore->currentTerm; pReceiver->snapshot.data = NULL; pReceiver->snapshot.lastApplyIndex = SYNC_INDEX_INVALID; pReceiver->snapshot.lastApplyTerm = 0; pReceiver->snapshot.lastConfigIndex = SYNC_INDEX_INVALID; } else { sError("vgId:%d, cannot create snapshot receiver", pSyncNode->vgId); } return pReceiver; } void snapshotReceiverDestroy(SSyncSnapshotReceiver *pReceiver) { if (pReceiver != NULL) { // close writer if (pReceiver->pWriter != NULL) { int32_t ret = pReceiver->pSyncNode->pFsm->FpSnapshotStopWrite(pReceiver->pSyncNode->pFsm, pReceiver->pWriter, false, &(pReceiver->snapshot)); ASSERT(ret == 0); pReceiver->pWriter = NULL; } // free receiver taosMemoryFree(pReceiver); } } bool snapshotReceiverIsStart(SSyncSnapshotReceiver *pReceiver) { return pReceiver->start; } // force stop void snapshotReceiverForceStop(SSyncSnapshotReceiver *pReceiver) { // force close, abandon incomplete data if (pReceiver->pWriter != NULL) { // event log sRTrace(pReceiver, "snapshot receiver force stop"); int32_t ret = pReceiver->pSyncNode->pFsm->FpSnapshotStopWrite(pReceiver->pSyncNode->pFsm, pReceiver->pWriter, false, &(pReceiver->snapshot)); ASSERT(ret == 0); pReceiver->pWriter = NULL; } pReceiver->start = false; // event log // sRTrace(pReceiver, "snapshot receiver force stop"); } int32_t snapshotReceiverStartWriter(SSyncSnapshotReceiver *pReceiver, SyncSnapshotSend *pBeginMsg) { ASSERT(snapshotReceiverIsStart(pReceiver)); // update ack pReceiver->ack = SYNC_SNAPSHOT_SEQ_BEGIN; // update snapshot pReceiver->snapshot.lastApplyIndex = pBeginMsg->lastIndex; pReceiver->snapshot.lastApplyTerm = pBeginMsg->lastTerm; pReceiver->snapshot.lastConfigIndex = pBeginMsg->lastConfigIndex; pReceiver->snapshotParam.start = pBeginMsg->beginIndex; pReceiver->snapshotParam.end = pBeginMsg->lastIndex; // start writer ASSERT(pReceiver->pWriter == NULL); int32_t ret = pReceiver->pSyncNode->pFsm->FpSnapshotStartWrite(pReceiver->pSyncNode->pFsm, &(pReceiver->snapshotParam), &(pReceiver->pWriter)); ASSERT(ret == 0); // event log sRTrace(pReceiver, "snapshot receiver start writer"); return 0; } int32_t snapshotReceiverStart(SSyncSnapshotReceiver *pReceiver, SyncSnapshotSend *pPreMsg) { if (snapshotReceiverIsStart(pReceiver)) { sWarn("vgId:%d, snapshot receiver has started.", pReceiver->pSyncNode->vgId); return 0; } pReceiver->start = true; pReceiver->ack = SYNC_SNAPSHOT_SEQ_PRE_SNAPSHOT; pReceiver->term = pReceiver->pSyncNode->pRaftStore->currentTerm; pReceiver->fromId = pPreMsg->srcId; pReceiver->startTime = pPreMsg->startTime; // event log sRTrace(pReceiver, "snapshot receiver start"); return 0; } // just set start = false // FpSnapshotStopWrite should not be called, assert writer == NULL int32_t snapshotReceiverStop(SSyncSnapshotReceiver *pReceiver) { if (pReceiver->pWriter != NULL) { int32_t ret = pReceiver->pSyncNode->pFsm->FpSnapshotStopWrite(pReceiver->pSyncNode->pFsm, pReceiver->pWriter, false, &(pReceiver->snapshot)); ASSERT(ret == 0); pReceiver->pWriter = NULL; } pReceiver->start = false; // event log sRTrace(pReceiver, "snapshot receiver stop"); return 0; } // when recv last snapshot block, apply data into snapshot static int32_t snapshotReceiverFinish(SSyncSnapshotReceiver *pReceiver, SyncSnapshotSend *pMsg) { ASSERT(pMsg->seq == SYNC_SNAPSHOT_SEQ_END); int32_t code = 0; if (pReceiver->pWriter != NULL) { // write data if (pMsg->dataLen > 0) { code = pReceiver->pSyncNode->pFsm->FpSnapshotDoWrite(pReceiver->pSyncNode->pFsm, pReceiver->pWriter, pMsg->data, pMsg->dataLen); if (code != 0) { sNError(pReceiver->pSyncNode, "snapshot write error"); return -1; } } // reset wal code = pReceiver->pSyncNode->pLogStore->syncLogRestoreFromSnapshot(pReceiver->pSyncNode->pLogStore, pMsg->lastIndex); if (code != 0) { sNError(pReceiver->pSyncNode, "wal restore from snapshot error"); return -1; } // update commit index if (pReceiver->snapshot.lastApplyIndex > pReceiver->pSyncNode->commitIndex) { pReceiver->pSyncNode->commitIndex = pReceiver->snapshot.lastApplyIndex; } // maybe update term if (pReceiver->snapshot.lastApplyTerm > pReceiver->pSyncNode->pRaftStore->currentTerm) { pReceiver->pSyncNode->pRaftStore->currentTerm = pReceiver->snapshot.lastApplyTerm; raftStorePersist(pReceiver->pSyncNode->pRaftStore); } // stop writer, apply data code = pReceiver->pSyncNode->pFsm->FpSnapshotStopWrite(pReceiver->pSyncNode->pFsm, pReceiver->pWriter, true, &(pReceiver->snapshot)); if (code != 0) { sNError(pReceiver->pSyncNode, "snapshot stop writer true error"); return -1; } pReceiver->pWriter = NULL; // update progress pReceiver->ack = SYNC_SNAPSHOT_SEQ_END; } else { sNError(pReceiver->pSyncNode, "snapshot stop writer true error"); return -1; } // event log sRTrace(pReceiver, "snapshot receiver got last data, finish, apply snapshot"); return 0; } // apply data block // update progress static void snapshotReceiverGotData(SSyncSnapshotReceiver *pReceiver, SyncSnapshotSend *pMsg) { ASSERT(pMsg->seq == pReceiver->ack + 1); if (pReceiver->pWriter != NULL) { if (pMsg->dataLen > 0) { // apply data block int32_t code = pReceiver->pSyncNode->pFsm->FpSnapshotDoWrite(pReceiver->pSyncNode->pFsm, pReceiver->pWriter, pMsg->data, pMsg->dataLen); ASSERT(code == 0); } // update progress pReceiver->ack = pMsg->seq; // event log sRTrace(pReceiver, "snapshot receiver receiving"); } } SyncIndex syncNodeGetSnapBeginIndex(SSyncNode *ths) { SyncIndex snapStart = SYNC_INDEX_INVALID; if (syncNodeIsMnode(ths)) { snapStart = SYNC_INDEX_BEGIN; } else { SSyncLogStoreData *pData = ths->pLogStore->data; SWal *pWal = pData->pWal; bool isEmpty = ths->pLogStore->syncLogIsEmpty(ths->pLogStore); int64_t walCommitVer = walGetCommittedVer(pWal); if (!isEmpty && ths->commitIndex != walCommitVer) { sNError(ths, "commit not same, wal-commit:%" PRId64 ", commit:%" PRId64 ", ignore", walCommitVer, ths->commitIndex); snapStart = walCommitVer + 1; } else { snapStart = ths->commitIndex + 1; } } return snapStart; } static int32_t syncNodeOnSnapshotPre(SSyncNode *pSyncNode, SyncSnapshotSend *pMsg) { SSyncSnapshotReceiver *pReceiver = pSyncNode->pNewNodeReceiver; if (snapshotReceiverIsStart(pReceiver)) { // already start if (pMsg->startTime > pReceiver->startTime) { goto _START_RECEIVER; } else if (pMsg->startTime == pReceiver->startTime) { goto _SEND_REPLY; } else { // ignore return 0; } } else { // start new goto _START_RECEIVER; } _START_RECEIVER: if (taosGetTimestampMs() - pMsg->startTime > SNAPSHOT_MAX_CLOCK_SKEW_MS) { sNError(pSyncNode, "snapshot receiver time skew too much"); return -1; } else { // waiting for clock match int64_t timeNow = taosGetTimestampMs(); while (timeNow < pMsg->startTime) { sNTrace(pSyncNode, "snapshot receiver pre waitting for true time, now:%" PRId64 ", stime:%" PRId64, timeNow, pMsg->startTime); taosMsleep(10); timeNow = taosGetTimestampMs(); } if (snapshotReceiverIsStart(pReceiver)) { snapshotReceiverForceStop(pReceiver); } snapshotReceiverStart(pReceiver, pMsg); // set start-time same with sender } _SEND_REPLY: // build msg ; // make complier happy SRpcMsg rpcMsg = {0}; (void)syncBuildSnapshotSendRsp(&rpcMsg, pSyncNode->vgId); SyncSnapshotRsp *pRspMsg = rpcMsg.pCont; pRspMsg->srcId = pSyncNode->myRaftId; pRspMsg->destId = pMsg->srcId; pRspMsg->term = pSyncNode->pRaftStore->currentTerm; pRspMsg->lastIndex = pMsg->lastIndex; pRspMsg->lastTerm = pMsg->lastTerm; pRspMsg->startTime = pReceiver->startTime; pRspMsg->ack = pMsg->seq; // receiver maybe already closed pRspMsg->code = 0; pRspMsg->snapBeginIndex = syncNodeGetSnapBeginIndex(pSyncNode); // send msg syncNodeSendMsgById(&pRspMsg->destId, pSyncNode, &rpcMsg); syncLogSendSyncSnapshotRsp(pSyncNode, pRspMsg, ""); return 0; } static int32_t syncNodeOnSnapshotBegin(SSyncNode *pSyncNode, SyncSnapshotSend *pMsg) { // condition 1 SSyncSnapshotReceiver *pReceiver = pSyncNode->pNewNodeReceiver; if (!snapshotReceiverIsStart(pReceiver)) { sNError(pSyncNode, "snapshot receiver not start"); return -1; } if (pReceiver->startTime != pMsg->startTime) { sNError(pSyncNode, "snapshot receiver time not equal"); return -1; } // start writer snapshotReceiverStartWriter(pReceiver, pMsg); // build msg SRpcMsg rpcMsg = {0}; (void)syncBuildSnapshotSendRsp(&rpcMsg, pSyncNode->vgId); SyncSnapshotRsp *pRspMsg = rpcMsg.pCont; pRspMsg->srcId = pSyncNode->myRaftId; pRspMsg->destId = pMsg->srcId; pRspMsg->term = pSyncNode->pRaftStore->currentTerm; pRspMsg->lastIndex = pMsg->lastIndex; pRspMsg->lastTerm = pMsg->lastTerm; pRspMsg->startTime = pReceiver->startTime; pRspMsg->ack = pReceiver->ack; // receiver maybe already closed pRspMsg->code = 0; pRspMsg->snapBeginIndex = pReceiver->snapshotParam.start; // send msg syncNodeSendMsgById(&pRspMsg->destId, pSyncNode, &rpcMsg); syncLogSendSyncSnapshotRsp(pSyncNode, pRspMsg, ""); return 0; } static int32_t syncNodeOnSnapshotTransfering(SSyncNode *pSyncNode, SyncSnapshotSend *pMsg) { // condition 4 // transfering SSyncSnapshotReceiver *pReceiver = pSyncNode->pNewNodeReceiver; // waiting for clock match int64_t timeNow = taosGetTimestampMs(); while (timeNow < pMsg->startTime) { sNTrace(pSyncNode, "snapshot receiver transfering waitting for true time, now:%" PRId64 ", stime:%" PRId64, timeNow, pMsg->startTime); taosMsleep(10); } if (pMsg->seq == pReceiver->ack + 1) { snapshotReceiverGotData(pReceiver, pMsg); } // build msg SRpcMsg rpcMsg = {0}; (void)syncBuildSnapshotSendRsp(&rpcMsg, pSyncNode->vgId); SyncSnapshotRsp *pRspMsg = rpcMsg.pCont; pRspMsg->srcId = pSyncNode->myRaftId; pRspMsg->destId = pMsg->srcId; pRspMsg->term = pSyncNode->pRaftStore->currentTerm; pRspMsg->lastIndex = pMsg->lastIndex; pRspMsg->lastTerm = pMsg->lastTerm; pRspMsg->startTime = pReceiver->startTime; pRspMsg->ack = pReceiver->ack; // receiver maybe already closed pRspMsg->code = 0; pRspMsg->snapBeginIndex = pReceiver->snapshotParam.start; // send msg syncNodeSendMsgById(&pRspMsg->destId, pSyncNode, &rpcMsg); syncLogSendSyncSnapshotRsp(pSyncNode, pRspMsg, ""); return 0; } static int32_t syncNodeOnSnapshotEnd(SSyncNode *pSyncNode, SyncSnapshotSend *pMsg) { // condition 2 // end, finish FSM SSyncSnapshotReceiver *pReceiver = pSyncNode->pNewNodeReceiver; // waiting for clock match int64_t timeNow = taosGetTimestampMs(); while (timeNow < pMsg->startTime) { sNTrace(pSyncNode, "snapshot receiver finish waitting for true time, now:%" PRId64 ", stime:%" PRId64, timeNow, pMsg->startTime); taosMsleep(10); timeNow = taosGetTimestampMs(); } int32_t code = snapshotReceiverFinish(pReceiver, pMsg); if (code == 0) { snapshotReceiverStop(pReceiver); } // build msg SRpcMsg rpcMsg = {0}; (void)syncBuildSnapshotSendRsp(&rpcMsg, pSyncNode->vgId); SyncSnapshotRsp *pRspMsg = rpcMsg.pCont; pRspMsg->srcId = pSyncNode->myRaftId; pRspMsg->destId = pMsg->srcId; pRspMsg->term = pSyncNode->pRaftStore->currentTerm; pRspMsg->lastIndex = pMsg->lastIndex; pRspMsg->lastTerm = pMsg->lastTerm; pRspMsg->startTime = pReceiver->startTime; pRspMsg->ack = pReceiver->ack; // receiver maybe already closed pRspMsg->code = 0; pRspMsg->snapBeginIndex = pReceiver->snapshotParam.start; // send msg syncNodeSendMsgById(&pRspMsg->destId, pSyncNode, &rpcMsg); syncLogSendSyncSnapshotRsp(pSyncNode, pRspMsg, ""); return 0; } // receiver on message // // condition 1, recv SYNC_SNAPSHOT_SEQ_PRE_SNAPSHOT // if receiver already start // if sender.start-time > receiver.start-time, restart receiver(reply snapshot start) // if sender.start-time = receiver.start-time, maybe duplicate msg // if sender.start-time < receiver.start-time, ignore // else // waiting for clock match // start receiver(reply snapshot start) // // condition 2, recv SYNC_SNAPSHOT_SEQ_BEGIN // a. create writer with // // condition 3, recv SYNC_SNAPSHOT_SEQ_END, finish receiver(apply snapshot data, update commit index, maybe reconfig) // // condition 4, recv SYNC_SNAPSHOT_SEQ_FORCE_CLOSE, force close // // condition 5, got data, update ack // int32_t syncNodeOnSnapshot(SSyncNode *pSyncNode, const SRpcMsg *pRpcMsg) { SyncSnapshotSend *pMsg = pRpcMsg->pCont; // if already drop replica, do not process if (!syncNodeInRaftGroup(pSyncNode, &(pMsg->srcId))) { syncLogRecvSyncSnapshotSend(pSyncNode, pMsg, "not in my config"); return 0; } if (pMsg->term < pSyncNode->pRaftStore->currentTerm) { syncLogRecvSyncSnapshotSend(pSyncNode, pMsg, "reject, small term"); return 0; } if (pMsg->term > pSyncNode->pRaftStore->currentTerm) { syncNodeStepDown(pSyncNode, pMsg->term); } syncNodeResetElectTimer(pSyncNode); int32_t code = 0; SSyncSnapshotReceiver *pReceiver = pSyncNode->pNewNodeReceiver; syncLogRecvSyncSnapshotSend(pSyncNode, pMsg, ""); // state, term, seq/ack if (pSyncNode->state == TAOS_SYNC_STATE_FOLLOWER) { if (pMsg->term == pSyncNode->pRaftStore->currentTerm) { if (pMsg->seq == SYNC_SNAPSHOT_SEQ_PRE_SNAPSHOT) { syncNodeOnSnapshotPre(pSyncNode, pMsg); } else if (pMsg->seq == SYNC_SNAPSHOT_SEQ_BEGIN) { syncNodeOnSnapshotBegin(pSyncNode, pMsg); } else if (pMsg->seq == SYNC_SNAPSHOT_SEQ_END) { syncNodeOnSnapshotEnd(pSyncNode, pMsg); (void)syncLogBufferReInit(pSyncNode->pLogBuf, pSyncNode); } else if (pMsg->seq == SYNC_SNAPSHOT_SEQ_FORCE_CLOSE) { // force close, no response snapshotReceiverForceStop(pReceiver); } else if (pMsg->seq > SYNC_SNAPSHOT_SEQ_BEGIN && pMsg->seq < SYNC_SNAPSHOT_SEQ_END) { syncNodeOnSnapshotTransfering(pSyncNode, pMsg); } else { // error log sRTrace(pReceiver, "snapshot receiver recv error seq:%d, my ack:%d", pMsg->seq, pReceiver->ack); return -1; } } else { // error log sRTrace(pReceiver, "snapshot receiver term not equal"); return -1; } } else { // error log sRTrace(pReceiver, "snapshot receiver not follower"); return -1; } return 0; } int32_t syncNodeOnSnapshotReplyPre(SSyncNode *pSyncNode, SyncSnapshotRsp *pMsg) { // get sender SSyncSnapshotSender *pSender = syncNodeGetSnapshotSender(pSyncNode, &(pMsg->srcId)); ASSERT(pSender != NULL); SSnapshot snapshot; pSyncNode->pFsm->FpGetSnapshotInfo(pSyncNode->pFsm, &snapshot); // prepare pSender->snapshotParam.start = pMsg->snapBeginIndex; pSender->snapshotParam.end = snapshot.lastApplyIndex; sNTrace(pSyncNode, "prepare snapshot, recv-begin:%" PRId64 ", snapshot.last:%" PRId64 ", snapshot.term:%" PRId64, pMsg->snapBeginIndex, snapshot.lastApplyIndex, snapshot.lastApplyTerm); if (pMsg->snapBeginIndex > snapshot.lastApplyIndex) { sNError(pSyncNode, "snapshot last index too small"); return -1; } // update sender pSender->snapshot = snapshot; // start reader int32_t code = pSyncNode->pFsm->FpSnapshotStartRead(pSyncNode->pFsm, &(pSender->snapshotParam), &(pSender->pReader)); if (code != 0) { sNError(pSyncNode, "create snapshot reader error"); return -1; } // update next index syncIndexMgrSetIndex(pSyncNode->pNextIndex, &pMsg->srcId, snapshot.lastApplyIndex + 1); // update seq pSender->seq = SYNC_SNAPSHOT_SEQ_BEGIN; // build begin msg SRpcMsg rpcMsg = {0}; (void)syncBuildSnapshotSend(&rpcMsg, 0, pSender->pSyncNode->vgId); SyncSnapshotSend *pSendMsg = rpcMsg.pCont; pSendMsg->srcId = pSender->pSyncNode->myRaftId; pSendMsg->destId = (pSender->pSyncNode->replicasId)[pSender->replicaIndex]; pSendMsg->term = pSender->pSyncNode->pRaftStore->currentTerm; pSendMsg->beginIndex = pSender->snapshotParam.start; pSendMsg->lastIndex = pSender->snapshot.lastApplyIndex; pSendMsg->lastTerm = pSender->snapshot.lastApplyTerm; pSendMsg->lastConfigIndex = pSender->snapshot.lastConfigIndex; pSendMsg->lastConfig = pSender->lastConfig; pSendMsg->startTime = pSender->startTime; pSendMsg->seq = SYNC_SNAPSHOT_SEQ_BEGIN; // send msg syncNodeSendMsgById(&pSendMsg->destId, pSender->pSyncNode, &rpcMsg); syncLogSendSyncSnapshotSend(pSyncNode, pSendMsg, ""); return 0; } // sender on message // // condition 1 sender receives SYNC_SNAPSHOT_SEQ_END, close sender // condition 2 sender receives ack, set seq = ack + 1, send msg from seq // condition 3 sender receives error msg, just print error log // int32_t syncNodeOnSnapshotReply(SSyncNode *pSyncNode, const SRpcMsg *pRpcMsg) { SyncSnapshotRsp *pMsg = pRpcMsg->pCont; // if already drop replica, do not process if (!syncNodeInRaftGroup(pSyncNode, &(pMsg->srcId))) { syncLogRecvSyncSnapshotRsp(pSyncNode, pMsg, "maybe replica already dropped"); return -1; } // get sender SSyncSnapshotSender *pSender = syncNodeGetSnapshotSender(pSyncNode, &(pMsg->srcId)); ASSERT(pSender != NULL); if (pMsg->startTime != pSender->startTime) { syncLogRecvSyncSnapshotRsp(pSyncNode, pMsg, "sender/receiver start time not match"); return -1; } syncLogRecvSyncSnapshotRsp(pSyncNode, pMsg, ""); // state, term, seq/ack if (pSyncNode->state == TAOS_SYNC_STATE_LEADER) { if (pMsg->term == pSyncNode->pRaftStore->currentTerm) { // prepare , send begin msg if (pMsg->ack == SYNC_SNAPSHOT_SEQ_PRE_SNAPSHOT) { syncNodeOnSnapshotReplyPre(pSyncNode, pMsg); return 0; } if (pMsg->ack == SYNC_SNAPSHOT_SEQ_BEGIN) { snapshotSenderUpdateProgress(pSender, pMsg); snapshotSend(pSender); return 0; } // receive ack is finish, close sender if (pMsg->ack == SYNC_SNAPSHOT_SEQ_END) { snapshotSenderStop(pSender, true); SSyncLogReplMgr *pMgr = syncNodeGetLogReplMgr(pSyncNode, &pMsg->srcId); if (pMgr) { syncLogReplMgrReset(pMgr); } return 0; } // send next msg if (pMsg->ack == pSender->seq) { // update sender ack snapshotSenderUpdateProgress(pSender, pMsg); snapshotSend(pSender); } else if (pMsg->ack == pSender->seq - 1) { // maybe resend snapshotReSend(pSender); } else { // error log sSError(pSender, "snapshot sender recv error ack:%d, my seq:%d", pMsg->ack, pSender->seq); return -1; } } else { // error log sSError(pSender, "snapshot sender term not equal"); return -1; } } else { // error log sSError(pSender, "snapshot sender not leader"); return -1; } return 0; }