/* * 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 "syncSnapshot.h" #include "syncIndexMgr.h" #include "syncRaftCfg.h" #include "syncRaftLog.h" #include "syncRaftStore.h" #include "syncUtil.h" #include "wal.h" //---------------------------------- static void snapshotSenderUpdateProgress(SSyncSnapshotSender *pSender, SyncSnapshotRsp *pMsg); static void snapshotReceiverDoStart(SSyncSnapshotReceiver *pReceiver, SyncSnapshotSend *pBeginMsg); static void snapshotReceiverForceStop(SSyncSnapshotReceiver *pReceiver); static void snapshotReceiverGotData(SSyncSnapshotReceiver *pReceiver, SyncSnapshotSend *pMsg); static int32_t snapshotReceiverFinish(SSyncSnapshotReceiver *pReceiver, SyncSnapshotSend *pMsg); //---------------------------------- 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 = taosMemoryMalloc(sizeof(SSyncSnapshotSender)); ASSERT(pSender != NULL); memset(pSender, 0, sizeof(*pSender)); 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->privateTerm = taosGetTimestampMs() + 100; 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) { syncNodeErrorLog(pSender->pSyncNode, "stop reader error"); } pSender->pReader = NULL; } // free sender taosMemoryFree(pSender); } } bool snapshotSenderIsStart(SSyncSnapshotSender *pSender) { return pSender->start; } // begin send snapshot by param, snapshot, pReader // // action: // 1. assert reader not start // 2. update state // 3. send first snapshot block int32_t snapshotSenderStart(SSyncSnapshotSender *pSender, SSnapshotParam snapshotParam, SSnapshot snapshot, void *pReader) { ASSERT(!snapshotSenderIsStart(pSender)); // init snapshot, parm, reader ASSERT(pSender->pReader == NULL); pSender->pReader = pReader; pSender->snapshot = snapshot; pSender->snapshotParam = snapshotParam; // init current block if (pSender->pCurrentBlock != NULL) { taosMemoryFree(pSender->pCurrentBlock); } pSender->blockLen = 0; // update term pSender->term = pSender->pSyncNode->pRaftStore->currentTerm; ++(pSender->privateTerm); // increase private term // update state pSender->finish = false; pSender->start = true; pSender->seq = SYNC_SNAPSHOT_SEQ_BEGIN; pSender->ack = SYNC_SNAPSHOT_SEQ_INVALID; // init last config if (pSender->snapshot.lastConfigIndex != SYNC_INDEX_INVALID) { int32_t code = 0; SSyncRaftEntry *pEntry = NULL; bool getLastConfig = false; code = pSender->pSyncNode->pLogStore->syncLogGetEntry(pSender->pSyncNode->pLogStore, pSender->snapshot.lastConfigIndex, &pEntry); if (code == 0 && pEntry != NULL) { SRpcMsg rpcMsg; syncEntry2OriginalRpc(pEntry, &rpcMsg); SSyncCfg lastConfig; int32_t ret = syncCfgFromStr(rpcMsg.pCont, &lastConfig); ASSERT(ret == 0); pSender->lastConfig = lastConfig; getLastConfig = true; rpcFreeCont(rpcMsg.pCont); syncEntryDestory(pEntry); } else { if (pSender->snapshot.lastConfigIndex == pSender->pSyncNode->pRaftCfg->lastConfigIndex) { sTrace("vgId:%d, sync sender get cfg from local", pSender->pSyncNode->vgId); pSender->lastConfig = pSender->pSyncNode->pRaftCfg->cfg; getLastConfig = true; } } // last config not found in wal, update to -1 if (!getLastConfig) { SyncIndex oldLastConfigIndex = pSender->snapshot.lastConfigIndex; SyncIndex newLastConfigIndex = SYNC_INDEX_INVALID; pSender->snapshot.lastConfigIndex = SYNC_INDEX_INVALID; memset(&(pSender->lastConfig), 0, sizeof(SSyncCfg)); // event log do { char logBuf[128]; snprintf(logBuf, sizeof(logBuf), "snapshot sender update lcindex from %ld to %ld", oldLastConfigIndex, newLastConfigIndex); char *eventLog = snapshotSender2SimpleStr(pSender, logBuf); syncNodeEventLog(pSender->pSyncNode, eventLog); taosMemoryFree(eventLog); } while (0); } } else { // no last config memset(&(pSender->lastConfig), 0, sizeof(SSyncCfg)); } // build begin msg SyncSnapshotSend *pMsg = syncSnapshotSendBuild(0, pSender->pSyncNode->vgId); 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; // SYNC_SNAPSHOT_SEQ_BEGIN pMsg->privateTerm = pSender->privateTerm; // send msg SRpcMsg rpcMsg; syncSnapshotSend2RpcMsg(pMsg, &rpcMsg); syncNodeSendMsgById(&(pMsg->destId), pSender->pSyncNode, &rpcMsg); syncSnapshotSendDestroy(pMsg); // event log do { char *eventLog = snapshotSender2SimpleStr(pSender, "snapshot sender start"); syncNodeEventLog(pSender->pSyncNode, eventLog); taosMemoryFree(eventLog); } while (0); return 0; } int32_t snapshotSenderStop(SSyncSnapshotSender *pSender, bool finish) { // 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; } // update flag pSender->start = false; pSender->finish = finish; // do not update term, maybe print // event log do { char *eventLog = snapshotSender2SimpleStr(pSender, "snapshot sender stop"); syncNodeEventLog(pSender->pSyncNode, eventLog); taosMemoryFree(eventLog); } while (0); 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 SyncSnapshotSend *pMsg = syncSnapshotSendBuild(pSender->blockLen, pSender->pSyncNode->vgId); 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; memcpy(pMsg->data, pSender->pCurrentBlock, pSender->blockLen); // send msg SRpcMsg rpcMsg; syncSnapshotSend2RpcMsg(pMsg, &rpcMsg); syncNodeSendMsgById(&(pMsg->destId), pSender->pSyncNode, &rpcMsg); syncSnapshotSendDestroy(pMsg); // event log do { char *eventLog = NULL; if (pSender->seq == SYNC_SNAPSHOT_SEQ_END) { eventLog = snapshotSender2SimpleStr(pSender, "snapshot sender finish"); } else { eventLog = snapshotSender2SimpleStr(pSender, "snapshot sender sending"); } syncNodeEventLog(pSender->pSyncNode, eventLog); taosMemoryFree(eventLog); } while (0); return 0; } // send snapshot data from cache int32_t snapshotReSend(SSyncSnapshotSender *pSender) { // send current block data if (pSender->pCurrentBlock != NULL && pSender->blockLen > 0) { // build msg SyncSnapshotSend *pMsg = syncSnapshotSendBuild(pSender->blockLen, pSender->pSyncNode->vgId); 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; memcpy(pMsg->data, pSender->pCurrentBlock, pSender->blockLen); // send msg SRpcMsg rpcMsg; syncSnapshotSend2RpcMsg(pMsg, &rpcMsg); syncNodeSendMsgById(&(pMsg->destId), pSender->pSyncNode, &rpcMsg); syncSnapshotSendDestroy(pMsg); // event log do { char *eventLog = snapshotSender2SimpleStr(pSender, "snapshot sender resend"); syncNodeEventLog(pSender->pSyncNode, eventLog); taosMemoryFree(eventLog); } while (0); } return 0; } static void snapshotSenderUpdateProgress(SSyncSnapshotSender *pSender, SyncSnapshotRsp *pMsg) { ASSERT(pMsg->ack == pSender->seq); pSender->ack = pMsg->ack; ++(pSender->seq); } cJSON *snapshotSender2Json(SSyncSnapshotSender *pSender) { char u64buf[128]; cJSON *pRoot = cJSON_CreateObject(); if (pSender != NULL) { cJSON_AddNumberToObject(pRoot, "start", pSender->start); cJSON_AddNumberToObject(pRoot, "seq", pSender->seq); cJSON_AddNumberToObject(pRoot, "ack", pSender->ack); snprintf(u64buf, sizeof(u64buf), "%p", pSender->pReader); cJSON_AddStringToObject(pRoot, "pReader", u64buf); snprintf(u64buf, sizeof(u64buf), "%p", pSender->pCurrentBlock); cJSON_AddStringToObject(pRoot, "pCurrentBlock", u64buf); cJSON_AddNumberToObject(pRoot, "blockLen", pSender->blockLen); if (pSender->pCurrentBlock != NULL) { char *s; s = syncUtilprintBin((char *)(pSender->pCurrentBlock), pSender->blockLen); cJSON_AddStringToObject(pRoot, "pCurrentBlock", s); taosMemoryFree(s); s = syncUtilprintBin2((char *)(pSender->pCurrentBlock), pSender->blockLen); cJSON_AddStringToObject(pRoot, "pCurrentBlock2", s); taosMemoryFree(s); } cJSON *pSnapshot = cJSON_CreateObject(); snprintf(u64buf, sizeof(u64buf), "%lu", pSender->snapshot.lastApplyIndex); cJSON_AddStringToObject(pSnapshot, "lastApplyIndex", u64buf); snprintf(u64buf, sizeof(u64buf), "%lu", pSender->snapshot.lastApplyTerm); cJSON_AddStringToObject(pSnapshot, "lastApplyTerm", u64buf); cJSON_AddItemToObject(pRoot, "snapshot", pSnapshot); snprintf(u64buf, sizeof(u64buf), "%lu", pSender->sendingMS); cJSON_AddStringToObject(pRoot, "sendingMS", u64buf); snprintf(u64buf, sizeof(u64buf), "%p", pSender->pSyncNode); cJSON_AddStringToObject(pRoot, "pSyncNode", u64buf); cJSON_AddNumberToObject(pRoot, "replicaIndex", pSender->replicaIndex); snprintf(u64buf, sizeof(u64buf), "%lu", pSender->term); cJSON_AddStringToObject(pRoot, "term", u64buf); snprintf(u64buf, sizeof(u64buf), "%lu", pSender->privateTerm); cJSON_AddStringToObject(pRoot, "privateTerm", u64buf); cJSON_AddNumberToObject(pRoot, "finish", pSender->finish); } cJSON *pJson = cJSON_CreateObject(); cJSON_AddItemToObject(pJson, "SSyncSnapshotSender", pRoot); return pJson; } char *snapshotSender2Str(SSyncSnapshotSender *pSender) { cJSON *pJson = snapshotSender2Json(pSender); char *serialized = cJSON_Print(pJson); cJSON_Delete(pJson); return serialized; } char *snapshotSender2SimpleStr(SSyncSnapshotSender *pSender, char *event) { int32_t len = 256; char *s = taosMemoryMalloc(len); SRaftId destId = pSender->pSyncNode->replicasId[pSender->replicaIndex]; char host[64]; uint16_t port; syncUtilU642Addr(destId.addr, host, sizeof(host), &port); snprintf(s, len, "%s {%p s-param:%ld e-param:%ld laindex:%ld laterm:%lu lcindex:%ld seq:%d ack:%d finish:%d pterm:%lu " "replica-index:%d %s:%d}", event, pSender, pSender->snapshotParam.start, pSender->snapshotParam.end, pSender->snapshot.lastApplyIndex, pSender->snapshot.lastApplyTerm, pSender->snapshot.lastConfigIndex, pSender->seq, pSender->ack, pSender->finish, pSender->privateTerm, pSender->replicaIndex, host, port); return s; } // ------------------------------------- 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 = taosMemoryMalloc(sizeof(SSyncSnapshotReceiver)); ASSERT(pReceiver != NULL); memset(pReceiver, 0, sizeof(*pReceiver)); pReceiver->start = false; pReceiver->ack = SYNC_SNAPSHOT_SEQ_BEGIN; pReceiver->pWriter = NULL; pReceiver->pSyncNode = pSyncNode; pReceiver->fromId = fromId; pReceiver->term = pSyncNode->pRaftStore->currentTerm; pReceiver->privateTerm = 0; 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); ASSERT(ret == 0); pReceiver->pWriter = NULL; } // free receiver taosMemoryFree(pReceiver); } } bool snapshotReceiverIsStart(SSyncSnapshotReceiver *pReceiver) { return pReceiver->start; } // static do start by privateTerm, pBeginMsg // receive first snapshot data // write first block data static void snapshotReceiverDoStart(SSyncSnapshotReceiver *pReceiver, SyncSnapshotSend *pBeginMsg) { // update state pReceiver->term = pReceiver->pSyncNode->pRaftStore->currentTerm; pReceiver->privateTerm = pBeginMsg->privateTerm; pReceiver->ack = SYNC_SNAPSHOT_SEQ_BEGIN; pReceiver->fromId = pBeginMsg->srcId; pReceiver->start = true; // 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 do { char *eventLog = snapshotReceiver2SimpleStr(pReceiver, "snapshot receiver start"); syncNodeEventLog(pReceiver->pSyncNode, eventLog); taosMemoryFree(eventLog); } while (0); } // force stop static void snapshotReceiverForceStop(SSyncSnapshotReceiver *pReceiver) { // force close, abandon incomplete data if (pReceiver->pWriter != NULL) { int32_t ret = pReceiver->pSyncNode->pFsm->FpSnapshotStopWrite(pReceiver->pSyncNode->pFsm, pReceiver->pWriter, false); ASSERT(ret == 0); pReceiver->pWriter = NULL; } pReceiver->start = false; // event log do { char *eventLog = snapshotReceiver2SimpleStr(pReceiver, "snapshot receiver force stop"); syncNodeEventLog(pReceiver->pSyncNode, eventLog); taosMemoryFree(eventLog); } while (0); } // if receiver receive msg from seq = SYNC_SNAPSHOT_SEQ_BEGIN, start receiver // if already start, force close, start again int32_t snapshotReceiverStart(SSyncSnapshotReceiver *pReceiver, SyncSnapshotSend *pBeginMsg) { if (!snapshotReceiverIsStart(pReceiver)) { // first start snapshotReceiverDoStart(pReceiver, pBeginMsg); } else { // already start sInfo("vgId:%d, snapshot recv, receiver already start", pReceiver->pSyncNode->vgId); // force close, abandon incomplete data snapshotReceiverForceStop(pReceiver); // start again snapshotReceiverDoStart(pReceiver, pBeginMsg); } 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); ASSERT(ret == 0); pReceiver->pWriter = NULL; } pReceiver->start = false; // event log do { SSnapshot snapshot; pReceiver->pSyncNode->pFsm->FpGetSnapshotInfo(pReceiver->pSyncNode->pFsm, &snapshot); char *eventLog = snapshotReceiver2SimpleStr(pReceiver, "snapshot receiver stop"); syncNodeEventLog(pReceiver->pSyncNode, eventLog); taosMemoryFree(eventLog); } while (0); 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) { syncNodeErrorLog(pReceiver->pSyncNode, "snapshot write error"); return -1; } } // reset wal code = pReceiver->pSyncNode->pLogStore->syncLogRestoreFromSnapshot(pReceiver->pSyncNode->pLogStore, pMsg->lastIndex); if (code != 0) { syncNodeErrorLog(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; } // stop writer, apply data code = pReceiver->pSyncNode->pFsm->FpSnapshotStopWrite(pReceiver->pSyncNode->pFsm, pReceiver->pWriter, true); if (code != 0) { syncNodeErrorLog(pReceiver->pSyncNode, "snapshot stop writer true error"); ASSERT(0); return -1; } pReceiver->pWriter = NULL; // update progress pReceiver->ack = SYNC_SNAPSHOT_SEQ_END; } else { syncNodeErrorLog(pReceiver->pSyncNode, "snapshot stop writer true error"); return -1; } // event log do { SSnapshot snapshot; pReceiver->pSyncNode->pFsm->FpGetSnapshotInfo(pReceiver->pSyncNode->pFsm, &snapshot); char *eventLog = snapshotReceiver2SimpleStr(pReceiver, "snapshot receiver got last data, finish, apply snapshot"); syncNodeEventLog(pReceiver->pSyncNode, eventLog); taosMemoryFree(eventLog); } while (0); 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 do { char *eventLog = snapshotReceiver2SimpleStr(pReceiver, "snapshot receiver receiving"); syncNodeEventLog(pReceiver->pSyncNode, eventLog); taosMemoryFree(eventLog); } while (0); } } cJSON *snapshotReceiver2Json(SSyncSnapshotReceiver *pReceiver) { char u64buf[128]; cJSON *pRoot = cJSON_CreateObject(); if (pReceiver != NULL) { cJSON_AddNumberToObject(pRoot, "start", pReceiver->start); cJSON_AddNumberToObject(pRoot, "ack", pReceiver->ack); snprintf(u64buf, sizeof(u64buf), "%p", pReceiver->pWriter); cJSON_AddStringToObject(pRoot, "pWriter", u64buf); snprintf(u64buf, sizeof(u64buf), "%p", pReceiver->pSyncNode); cJSON_AddStringToObject(pRoot, "pSyncNode", u64buf); cJSON *pFromId = cJSON_CreateObject(); snprintf(u64buf, sizeof(u64buf), "%lu", pReceiver->fromId.addr); cJSON_AddStringToObject(pFromId, "addr", u64buf); { uint64_t u64 = pReceiver->fromId.addr; cJSON *pTmp = pFromId; char host[128] = {0}; uint16_t port; syncUtilU642Addr(u64, host, sizeof(host), &port); cJSON_AddStringToObject(pTmp, "addr_host", host); cJSON_AddNumberToObject(pTmp, "addr_port", port); } cJSON_AddNumberToObject(pFromId, "vgId", pReceiver->fromId.vgId); cJSON_AddItemToObject(pRoot, "fromId", pFromId); snprintf(u64buf, sizeof(u64buf), "%lu", pReceiver->snapshot.lastApplyIndex); cJSON_AddStringToObject(pRoot, "snapshot.lastApplyIndex", u64buf); snprintf(u64buf, sizeof(u64buf), "%lu", pReceiver->snapshot.lastApplyTerm); cJSON_AddStringToObject(pRoot, "snapshot.lastApplyTerm", u64buf); snprintf(u64buf, sizeof(u64buf), "%lu", pReceiver->snapshot.lastConfigIndex); cJSON_AddStringToObject(pRoot, "snapshot.lastConfigIndex", u64buf); snprintf(u64buf, sizeof(u64buf), "%lu", pReceiver->term); cJSON_AddStringToObject(pRoot, "term", u64buf); snprintf(u64buf, sizeof(u64buf), "%lu", pReceiver->privateTerm); cJSON_AddStringToObject(pRoot, "privateTerm", u64buf); } cJSON *pJson = cJSON_CreateObject(); cJSON_AddItemToObject(pJson, "SSyncSnapshotReceiver", pRoot); return pJson; } char *snapshotReceiver2Str(SSyncSnapshotReceiver *pReceiver) { cJSON *pJson = snapshotReceiver2Json(pReceiver); char *serialized = cJSON_Print(pJson); cJSON_Delete(pJson); return serialized; } char *snapshotReceiver2SimpleStr(SSyncSnapshotReceiver *pReceiver, char *event) { int32_t len = 256; char *s = taosMemoryMalloc(len); SRaftId fromId = pReceiver->fromId; char host[128]; uint16_t port; syncUtilU642Addr(fromId.addr, host, sizeof(host), &port); snprintf(s, len, "%s {%p start:%d ack:%d term:%lu pterm:%lu from:%s:%d s-param:%ld e-param:%ld laindex:%ld laterm:%lu " "lcindex:%ld}", event, pReceiver, pReceiver->start, pReceiver->ack, pReceiver->term, pReceiver->privateTerm, host, port, pReceiver->snapshotParam.start, pReceiver->snapshotParam.end, pReceiver->snapshot.lastApplyIndex, pReceiver->snapshot.lastApplyTerm, pReceiver->snapshot.lastConfigIndex); return s; } // receiver on message // // condition 1, recv SYNC_SNAPSHOT_SEQ_BEGIN, start receiver, update privateTerm // condition 2, recv SYNC_SNAPSHOT_SEQ_END, finish receiver(apply snapshot data, update commit index, maybe reconfig) // condition 3, recv SYNC_SNAPSHOT_SEQ_FORCE_CLOSE, force close // condition 4, got data, update ack // int32_t syncNodeOnSnapshotSendCb(SSyncNode *pSyncNode, SyncSnapshotSend *pMsg) { // get receiver SSyncSnapshotReceiver *pReceiver = pSyncNode->pNewNodeReceiver; bool needRsp = false; int32_t code = 0; // state, term, seq/ack if (pSyncNode->state == TAOS_SYNC_STATE_FOLLOWER) { if (pMsg->term == pSyncNode->pRaftStore->currentTerm) { if (pMsg->seq == SYNC_SNAPSHOT_SEQ_BEGIN) { // condition 1 // begin, no data snapshotReceiverStart(pReceiver, pMsg); needRsp = true; } else if (pMsg->seq == SYNC_SNAPSHOT_SEQ_END) { // condition 2 // end, finish FSM code = snapshotReceiverFinish(pReceiver, pMsg); if (code == 0) { snapshotReceiverStop(pReceiver); } needRsp = true; // maybe update lastconfig if (pMsg->lastConfigIndex >= SYNC_INDEX_BEGIN) { SSyncCfg oldSyncCfg = pSyncNode->pRaftCfg->cfg; // update new config myIndex SSyncCfg newSyncCfg = pMsg->lastConfig; syncNodeUpdateNewConfigIndex(pSyncNode, &newSyncCfg); // do config change syncNodeDoConfigChange(pSyncNode, &newSyncCfg, pMsg->lastConfigIndex); } } else if (pMsg->seq == SYNC_SNAPSHOT_SEQ_FORCE_CLOSE) { // condition 3 // force close snapshotReceiverForceStop(pReceiver); needRsp = false; } else if (pMsg->seq > SYNC_SNAPSHOT_SEQ_BEGIN && pMsg->seq < SYNC_SNAPSHOT_SEQ_END) { // condition 4 // transfering if (pMsg->seq == pReceiver->ack + 1) { snapshotReceiverGotData(pReceiver, pMsg); } needRsp = true; } else { // error log do { char logBuf[96]; snprintf(logBuf, sizeof(logBuf), "snapshot receiver recv error seq:%d, my ack:%d", pMsg->seq, pReceiver->ack); char *eventLog = snapshotReceiver2SimpleStr(pReceiver, logBuf); syncNodeErrorLog(pSyncNode, eventLog); taosMemoryFree(eventLog); } while (0); return -1; } // send ack if (needRsp) { // build msg SyncSnapshotRsp *pRspMsg = syncSnapshotRspBuild(pSyncNode->vgId); pRspMsg->srcId = pSyncNode->myRaftId; pRspMsg->destId = pMsg->srcId; pRspMsg->term = pSyncNode->pRaftStore->currentTerm; pRspMsg->lastIndex = pMsg->lastIndex; pRspMsg->lastTerm = pMsg->lastTerm; pRspMsg->ack = pReceiver->ack; // receiver maybe already closed pRspMsg->code = 0; pRspMsg->privateTerm = pReceiver->privateTerm; // receiver maybe already closed // send msg SRpcMsg rpcMsg; syncSnapshotRsp2RpcMsg(pRspMsg, &rpcMsg); syncNodeSendMsgById(&(pRspMsg->destId), pSyncNode, &rpcMsg); syncSnapshotRspDestroy(pRspMsg); } } else { // error log do { char *eventLog = snapshotReceiver2SimpleStr(pReceiver, "snapshot receiver term not equal"); syncNodeErrorLog(pSyncNode, eventLog); taosMemoryFree(eventLog); } while (0); return -1; } } else { // error log do { char *eventLog = snapshotReceiver2SimpleStr(pReceiver, "snapshot receiver not follower"); syncNodeErrorLog(pSyncNode, eventLog); taosMemoryFree(eventLog); } while (0); return -1; } 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 syncNodeOnSnapshotRspCb(SSyncNode *pSyncNode, SyncSnapshotRsp *pMsg) { // if already drop replica, do not process if (!syncNodeInRaftGroup(pSyncNode, &(pMsg->srcId)) && pSyncNode->state == TAOS_SYNC_STATE_LEADER) { sError("vgId:%d, recv sync-snapshot-rsp, maybe replica already dropped", pSyncNode->vgId); return -1; } // get sender SSyncSnapshotSender *pSender = syncNodeGetSnapshotSender(pSyncNode, &(pMsg->srcId)); ASSERT(pSender != NULL); // state, term, seq/ack if (pSyncNode->state == TAOS_SYNC_STATE_LEADER) { if (pMsg->term == pSyncNode->pRaftStore->currentTerm) { // condition 1 // receive ack is finish, close sender if (pMsg->ack == SYNC_SNAPSHOT_SEQ_END) { snapshotSenderStop(pSender, true); return 0; } // condition 2 // 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 do { char logBuf[96]; snprintf(logBuf, sizeof(logBuf), "snapshot sender recv error ack:%d, my seq:%d", pMsg->ack, pSender->seq); char *eventLog = snapshotSender2SimpleStr(pSender, logBuf); syncNodeErrorLog(pSyncNode, eventLog); taosMemoryFree(eventLog); } while (0); return -1; } } else { // error log do { char *eventLog = snapshotSender2SimpleStr(pSender, "snapshot sender term not equal"); syncNodeErrorLog(pSyncNode, eventLog); taosMemoryFree(eventLog); } while (0); return -1; } } else { // error log do { char *eventLog = snapshotSender2SimpleStr(pSender, "snapshot sender not leader"); syncNodeErrorLog(pSyncNode, eventLog); taosMemoryFree(eventLog); } while (0); return -1; } return 0; }