/* * 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 "vnd.h" #define BATCH_DISABLE 1 static inline bool vnodeIsMsgBlock(tmsg_t type) { return (type == TDMT_VND_CREATE_TABLE) || (type == TDMT_VND_CREATE_TABLE) || (type == TDMT_VND_CREATE_TABLE) || (type == TDMT_VND_ALTER_TABLE) || (type == TDMT_VND_DROP_TABLE) || (type == TDMT_VND_UPDATE_TAG_VAL) || (type == TDMT_VND_ALTER_REPLICA); } static inline bool vnodeIsMsgWeak(tmsg_t type) { return false; } static inline void vnodeWaitBlockMsg(SVnode *pVnode, const SRpcMsg *pMsg) { if (vnodeIsMsgBlock(pMsg->msgType)) { const STraceId *trace = &pMsg->info.traceId; vGTrace("vgId:%d, msg:%p wait block, type:%s", pVnode->config.vgId, pMsg, TMSG_INFO(pMsg->msgType)); tsem_wait(&pVnode->syncSem); } } static inline void vnodePostBlockMsg(SVnode *pVnode, const SRpcMsg *pMsg) { if (vnodeIsMsgBlock(pMsg->msgType)) { const STraceId *trace = &pMsg->info.traceId; vGTrace("vgId:%d, msg:%p post block, type:%s", pVnode->config.vgId, pMsg, TMSG_INFO(pMsg->msgType)); tsem_post(&pVnode->syncSem); } } static int32_t vnodeSetStandBy(SVnode *pVnode) { vInfo("vgId:%d, start to set standby", TD_VID(pVnode)); if (syncSetStandby(pVnode->sync) == 0) { vInfo("vgId:%d, set standby success", TD_VID(pVnode)); return 0; } else if (terrno != TSDB_CODE_SYN_IS_LEADER) { vError("vgId:%d, failed to set standby since %s", TD_VID(pVnode), terrstr()); return -1; } vInfo("vgId:%d, start to transfer leader", TD_VID(pVnode)); if (syncLeaderTransfer(pVnode->sync) != 0) { vError("vgId:%d, failed to transfer leader since:%s", TD_VID(pVnode), terrstr()); return -1; } else { vInfo("vgId:%d, transfer leader success", TD_VID(pVnode)); } if (syncSetStandby(pVnode->sync) == 0) { vInfo("vgId:%d, set standby success", TD_VID(pVnode)); return 0; } else { vError("vgId:%d, failed to set standby after leader transfer since %s", TD_VID(pVnode), terrstr()); return -1; } } static int32_t vnodeProcessAlterReplicaReq(SVnode *pVnode, SRpcMsg *pMsg) { SAlterVnodeReq req = {0}; if (tDeserializeSAlterVnodeReq((char *)pMsg->pCont + sizeof(SMsgHead), pMsg->contLen - sizeof(SMsgHead), &req) != 0) { terrno = TSDB_CODE_INVALID_MSG; return TSDB_CODE_INVALID_MSG; } const STraceId *trace = &pMsg->info.traceId; vGTrace("vgId:%d, start to alter vnode replica to %d, handle:%p", TD_VID(pVnode), req.replica, pMsg->info.handle); SSyncCfg cfg = {.replicaNum = req.replica, .myIndex = req.selfIndex}; for (int32_t r = 0; r < req.replica; ++r) { SNodeInfo *pNode = &cfg.nodeInfo[r]; tstrncpy(pNode->nodeFqdn, req.replicas[r].fqdn, sizeof(pNode->nodeFqdn)); pNode->nodePort = req.replicas[r].port; vInfo("vgId:%d, replica:%d %s:%u", TD_VID(pVnode), r, pNode->nodeFqdn, pNode->nodePort); } SRpcMsg rpcMsg = {.info = pMsg->info}; if (syncReconfigBuild(pVnode->sync, &cfg, &rpcMsg) != 0) { vError("vgId:%d, failed to build reconfig msg since %s", TD_VID(pVnode), terrstr()); return -1; } int32_t code = syncPropose(pVnode->sync, &rpcMsg, false); if (code != 0) { if (terrno != 0) code = terrno; vInfo("vgId:%d, failed to propose reconfig msg since %s", TD_VID(pVnode), terrstr()); if (terrno == TSDB_CODE_SYN_IS_LEADER) { if (syncLeaderTransfer(pVnode->sync) != 0) { vError("vgId:%d, failed to transfer leader since %s", TD_VID(pVnode), terrstr()); } else { vInfo("vgId:%d, transfer leader success", TD_VID(pVnode)); } } } terrno = code; return code; } void vnodeRedirectRpcMsg(SVnode *pVnode, SRpcMsg *pMsg) { SEpSet newEpSet = {0}; syncGetRetryEpSet(pVnode->sync, &newEpSet); const STraceId *trace = &pMsg->info.traceId; vGTrace("vgId:%d, msg:%p is redirect since not leader, numOfEps:%d inUse:%d", pVnode->config.vgId, pMsg, newEpSet.numOfEps, newEpSet.inUse); for (int32_t i = 0; i < newEpSet.numOfEps; ++i) { vGTrace("vgId:%d, msg:%p redirect:%d ep:%s:%u", pVnode->config.vgId, pMsg, i, newEpSet.eps[i].fqdn, newEpSet.eps[i].port); } pMsg->info.hasEpSet = 1; SRpcMsg rsp = {.code = TSDB_CODE_RPC_REDIRECT, .info = pMsg->info, .msgType = pMsg->msgType + 1}; tmsgSendRedirectRsp(&rsp, &newEpSet); } static void inline vnodeHandleWriteMsg(SVnode *pVnode, SRpcMsg *pMsg) { SRpcMsg rsp = {.code = pMsg->code, .info = pMsg->info}; if (vnodeProcessWriteMsg(pVnode, pMsg, pMsg->info.conn.applyIndex, &rsp) < 0) { rsp.code = terrno; const STraceId *trace = &pMsg->info.traceId; vGError("vgId:%d, msg:%p failed to apply right now since %s", pVnode->config.vgId, pMsg, terrstr()); } if (rsp.info.handle != NULL) { tmsgSendRsp(&rsp); } } static void vnodeHandleProposeError(SVnode *pVnode, SRpcMsg *pMsg, int32_t code) { if (code == TSDB_CODE_SYN_NOT_LEADER) { vnodeRedirectRpcMsg(pVnode, pMsg); } else { const STraceId *trace = &pMsg->info.traceId; vGError("vgId:%d, msg:%p failed to propose since %s, code:0x%x", pVnode->config.vgId, pMsg, tstrerror(code), code); SRpcMsg rsp = {.code = code, .info = pMsg->info}; if (rsp.info.handle != NULL) { tmsgSendRsp(&rsp); } } } static void vnodeHandleAlterReplicaReq(SVnode *pVnode, SRpcMsg *pMsg) { int32_t code = vnodeProcessAlterReplicaReq(pVnode, pMsg); if (code > 0) { ASSERT(0); } else if (code == 0) { vnodeWaitBlockMsg(pVnode, pMsg); } else { if (terrno != 0) code = terrno; vnodeHandleProposeError(pVnode, pMsg, code); } const STraceId *trace = &pMsg->info.traceId; vGTrace("vgId:%d, msg:%p is freed, code:0x%x", pVnode->config.vgId, pMsg, code); rpcFreeCont(pMsg->pCont); taosFreeQitem(pMsg); } static void inline vnodeProposeBatchMsg(SVnode *pVnode, SRpcMsg **pMsgArr, bool *pIsWeakArr, int32_t *arrSize) { if (*arrSize <= 0) return; #if BATCH_DISABLE int32_t code = syncPropose(pVnode->sync, pMsgArr[0], pIsWeakArr[0]); #else int32_t code = syncProposeBatch(pVnode->sync, pMsgArr, pIsWeakArr, *arrSize); #endif if (code > 0) { for (int32_t i = 0; i < *arrSize; ++i) { vnodeHandleWriteMsg(pVnode, pMsgArr[i]); } } else if (code == 0) { vnodeWaitBlockMsg(pVnode, pMsgArr[*arrSize - 1]); } else { if (terrno != 0) code = terrno; for (int32_t i = 0; i < *arrSize; ++i) { vnodeHandleProposeError(pVnode, pMsgArr[i], code); } } for (int32_t i = 0; i < *arrSize; ++i) { SRpcMsg *pMsg = pMsgArr[i]; const STraceId *trace = &pMsg->info.traceId; vGTrace("vgId:%d, msg:%p is freed, code:0x%x", pVnode->config.vgId, pMsg, code); rpcFreeCont(pMsg->pCont); taosFreeQitem(pMsg); } *arrSize = 0; } void vnodeProposeWriteMsg(SQueueInfo *pInfo, STaosQall *qall, int32_t numOfMsgs) { SVnode *pVnode = pInfo->ahandle; int32_t vgId = pVnode->config.vgId; int32_t code = 0; SRpcMsg *pMsg = NULL; int32_t arrayPos = 0; SRpcMsg **pMsgArr = taosMemoryCalloc(numOfMsgs, sizeof(SRpcMsg *)); bool *pIsWeakArr = taosMemoryCalloc(numOfMsgs, sizeof(bool)); vTrace("vgId:%d, get %d msgs from vnode-write queue", vgId, numOfMsgs); for (int32_t msg = 0; msg < numOfMsgs; msg++) { if (taosGetQitem(qall, (void **)&pMsg) == 0) continue; bool isWeak = vnodeIsMsgWeak(pMsg->msgType); bool isBlock = vnodeIsMsgBlock(pMsg->msgType); const STraceId *trace = &pMsg->info.traceId; vGTrace("vgId:%d, msg:%p get from vnode-write queue, weak:%d block:%d msg:%d:%d pos:%d, handle:%p", vgId, pMsg, isWeak, isBlock, msg, numOfMsgs, arrayPos, pMsg->info.handle); if (!pVnode->restored) { vGError("vgId:%d, msg:%p failed to process since not leader", vgId, pMsg); terrno = TSDB_CODE_APP_NOT_READY; vnodeHandleProposeError(pVnode, pMsg, TSDB_CODE_APP_NOT_READY); rpcFreeCont(pMsg->pCont); taosFreeQitem(pMsg); continue; } if (pMsgArr == NULL || pIsWeakArr == NULL) { vGError("vgId:%d, msg:%p failed to process since out of memory", vgId, pMsg); terrno = TSDB_CODE_OUT_OF_MEMORY; vnodeHandleProposeError(pVnode, pMsg, terrno); rpcFreeCont(pMsg->pCont); taosFreeQitem(pMsg); continue; } code = vnodePreProcessWriteMsg(pVnode, pMsg); if (code != 0) { vGError("vgId:%d, msg:%p failed to pre-process since %s", vgId, pMsg, terrstr()); rpcFreeCont(pMsg->pCont); taosFreeQitem(pMsg); continue; } if (pMsg->msgType == TDMT_VND_ALTER_REPLICA) { vnodeHandleAlterReplicaReq(pVnode, pMsg); continue; } if (isBlock || BATCH_DISABLE) { vnodeProposeBatchMsg(pVnode, pMsgArr, pIsWeakArr, &arrayPos); } pMsgArr[arrayPos] = pMsg; pIsWeakArr[arrayPos] = isWeak; arrayPos++; if (isBlock || msg == numOfMsgs - 1 || BATCH_DISABLE) { vnodeProposeBatchMsg(pVnode, pMsgArr, pIsWeakArr, &arrayPos); } } taosMemoryFree(pMsgArr); taosMemoryFree(pIsWeakArr); } void vnodeApplyWriteMsg(SQueueInfo *pInfo, STaosQall *qall, int32_t numOfMsgs) { SVnode *pVnode = pInfo->ahandle; int32_t vgId = pVnode->config.vgId; int32_t code = 0; SRpcMsg *pMsg = NULL; for (int32_t i = 0; i < numOfMsgs; ++i) { if (taosGetQitem(qall, (void **)&pMsg) == 0) continue; const STraceId *trace = &pMsg->info.traceId; vGInfo("vgId:%d, msg:%p get from vnode-apply queue, type:%s handle:%p index:%ld", vgId, pMsg, TMSG_INFO(pMsg->msgType), pMsg->info.handle, pMsg->info.conn.applyIndex); SRpcMsg rsp = {.code = pMsg->code, .info = pMsg->info}; if (rsp.code == 0) { if (vnodeProcessWriteMsg(pVnode, pMsg, pMsg->info.conn.applyIndex, &rsp) < 0) { rsp.code = terrno; vError("vgId:%d, msg:%p failed to apply since %s", vgId, pMsg, terrstr()); } } vnodePostBlockMsg(pVnode, pMsg); if (rsp.info.handle != NULL) { tmsgSendRsp(&rsp); } vGTrace("vgId:%d, msg:%p is freed, code:0x%x", vgId, pMsg, rsp.code); rpcFreeCont(pMsg->pCont); taosFreeQitem(pMsg); } } int32_t vnodeProcessSyncMsg(SVnode *pVnode, SRpcMsg *pMsg, SRpcMsg **pRsp) { int32_t code = 0; const STraceId *trace = &pMsg->info.traceId; if (!syncEnvIsStart()) { vGError("vgId:%d, msg:%p failed to process since sync env not start", pVnode->config.vgId); terrno = TSDB_CODE_APP_ERROR; return -1; } SSyncNode *pSyncNode = syncNodeAcquire(pVnode->sync); if (pSyncNode == NULL) { vGError("vgId:%d, msg:%p failed to process since invalid sync node", pVnode->config.vgId); terrno = TSDB_CODE_SYN_INTERNAL_ERROR; return -1; } #if 1 do { char *syncNodeStr = sync2SimpleStr(pVnode->sync); static int64_t vndTick = 0; if (++vndTick % 10 == 1) { vGTrace("vgId:%d, sync trace msg:%s, %s", syncGetVgId(pVnode->sync), TMSG_INFO(pMsg->msgType), syncNodeStr); } taosMemoryFree(syncNodeStr); } while (0); #endif if (syncNodeStrategy(pSyncNode) == SYNC_STRATEGY_NO_SNAPSHOT) { if (pMsg->msgType == TDMT_SYNC_TIMEOUT) { SyncTimeout *pSyncMsg = syncTimeoutFromRpcMsg2(pMsg); ASSERT(pSyncMsg != NULL); code = syncNodeOnTimeoutCb(pSyncNode, pSyncMsg); syncTimeoutDestroy(pSyncMsg); } else if (pMsg->msgType == TDMT_SYNC_PING) { SyncPing *pSyncMsg = syncPingFromRpcMsg2(pMsg); ASSERT(pSyncMsg != NULL); code = syncNodeOnPingCb(pSyncNode, pSyncMsg); syncPingDestroy(pSyncMsg); } else if (pMsg->msgType == TDMT_SYNC_PING_REPLY) { SyncPingReply *pSyncMsg = syncPingReplyFromRpcMsg2(pMsg); ASSERT(pSyncMsg != NULL); code = syncNodeOnPingReplyCb(pSyncNode, pSyncMsg); syncPingReplyDestroy(pSyncMsg); } else if (pMsg->msgType == TDMT_SYNC_CLIENT_REQUEST) { SyncClientRequest *pSyncMsg = syncClientRequestFromRpcMsg2(pMsg); ASSERT(pSyncMsg != NULL); code = syncNodeOnClientRequestCb(pSyncNode, pSyncMsg, NULL); syncClientRequestDestroy(pSyncMsg); } else if (pMsg->msgType == TDMT_SYNC_CLIENT_REQUEST_BATCH) { SyncClientRequestBatch *pSyncMsg = syncClientRequestBatchFromRpcMsg(pMsg); ASSERT(pSyncMsg != NULL); code = syncNodeOnClientRequestBatchCb(pSyncNode, pSyncMsg); syncClientRequestBatchDestroyDeep(pSyncMsg); } else if (pMsg->msgType == TDMT_SYNC_REQUEST_VOTE) { SyncRequestVote *pSyncMsg = syncRequestVoteFromRpcMsg2(pMsg); ASSERT(pSyncMsg != NULL); code = syncNodeOnRequestVoteCb(pSyncNode, pSyncMsg); syncRequestVoteDestroy(pSyncMsg); } else if (pMsg->msgType == TDMT_SYNC_REQUEST_VOTE_REPLY) { SyncRequestVoteReply *pSyncMsg = syncRequestVoteReplyFromRpcMsg2(pMsg); ASSERT(pSyncMsg != NULL); code = syncNodeOnRequestVoteReplyCb(pSyncNode, pSyncMsg); syncRequestVoteReplyDestroy(pSyncMsg); } else if (pMsg->msgType == TDMT_SYNC_APPEND_ENTRIES) { SyncAppendEntries *pSyncMsg = syncAppendEntriesFromRpcMsg2(pMsg); ASSERT(pSyncMsg != NULL); code = syncNodeOnAppendEntriesCb(pSyncNode, pSyncMsg); syncAppendEntriesDestroy(pSyncMsg); } else if (pMsg->msgType == TDMT_SYNC_APPEND_ENTRIES_REPLY) { SyncAppendEntriesReply *pSyncMsg = syncAppendEntriesReplyFromRpcMsg2(pMsg); ASSERT(pSyncMsg != NULL); code = syncNodeOnAppendEntriesReplyCb(pSyncNode, pSyncMsg); syncAppendEntriesReplyDestroy(pSyncMsg); } else if (pMsg->msgType == TDMT_SYNC_SET_VNODE_STANDBY) { code = vnodeSetStandBy(pVnode); if (code != 0 && terrno != 0) code = terrno; SRpcMsg rsp = {.code = code, .info = pMsg->info}; tmsgSendRsp(&rsp); } else { vGError("vgId:%d, msg:%p failed to process since error msg type:%d", pVnode->config.vgId, pMsg->msgType); code = -1; } } else if (syncNodeStrategy(pSyncNode) == SYNC_STRATEGY_WAL_FIRST) { // use wal first strategy if (pMsg->msgType == TDMT_SYNC_TIMEOUT) { SyncTimeout *pSyncMsg = syncTimeoutFromRpcMsg2(pMsg); ASSERT(pSyncMsg != NULL); code = syncNodeOnTimeoutCb(pSyncNode, pSyncMsg); syncTimeoutDestroy(pSyncMsg); } else if (pMsg->msgType == TDMT_SYNC_PING) { SyncPing *pSyncMsg = syncPingFromRpcMsg2(pMsg); ASSERT(pSyncMsg != NULL); code = syncNodeOnPingCb(pSyncNode, pSyncMsg); syncPingDestroy(pSyncMsg); } else if (pMsg->msgType == TDMT_SYNC_PING_REPLY) { SyncPingReply *pSyncMsg = syncPingReplyFromRpcMsg2(pMsg); ASSERT(pSyncMsg != NULL); code = syncNodeOnPingReplyCb(pSyncNode, pSyncMsg); syncPingReplyDestroy(pSyncMsg); } else if (pMsg->msgType == TDMT_SYNC_CLIENT_REQUEST) { SyncClientRequest *pSyncMsg = syncClientRequestFromRpcMsg2(pMsg); ASSERT(pSyncMsg != NULL); code = syncNodeOnClientRequestCb(pSyncNode, pSyncMsg, NULL); syncClientRequestDestroy(pSyncMsg); } else if (pMsg->msgType == TDMT_SYNC_CLIENT_REQUEST_BATCH) { SyncClientRequestBatch *pSyncMsg = syncClientRequestBatchFromRpcMsg(pMsg); ASSERT(pSyncMsg != NULL); code = syncNodeOnClientRequestBatchCb(pSyncNode, pSyncMsg); syncClientRequestBatchDestroyDeep(pSyncMsg); } else if (pMsg->msgType == TDMT_SYNC_REQUEST_VOTE) { SyncRequestVote *pSyncMsg = syncRequestVoteFromRpcMsg2(pMsg); ASSERT(pSyncMsg != NULL); code = syncNodeOnRequestVoteSnapshotCb(pSyncNode, pSyncMsg); syncRequestVoteDestroy(pSyncMsg); } else if (pMsg->msgType == TDMT_SYNC_REQUEST_VOTE_REPLY) { SyncRequestVoteReply *pSyncMsg = syncRequestVoteReplyFromRpcMsg2(pMsg); ASSERT(pSyncMsg != NULL); code = syncNodeOnRequestVoteReplySnapshotCb(pSyncNode, pSyncMsg); syncRequestVoteReplyDestroy(pSyncMsg); } else if (pMsg->msgType == TDMT_SYNC_APPEND_ENTRIES_BATCH) { SyncAppendEntriesBatch *pSyncMsg = syncAppendEntriesBatchFromRpcMsg2(pMsg); ASSERT(pSyncMsg != NULL); code = syncNodeOnAppendEntriesSnapshot2Cb(pSyncNode, pSyncMsg); syncAppendEntriesBatchDestroy(pSyncMsg); } else if (pMsg->msgType == TDMT_SYNC_APPEND_ENTRIES_REPLY) { SyncAppendEntriesReply *pSyncMsg = syncAppendEntriesReplyFromRpcMsg2(pMsg); ASSERT(pSyncMsg != NULL); code = syncNodeOnAppendEntriesReplySnapshot2Cb(pSyncNode, pSyncMsg); syncAppendEntriesReplyDestroy(pSyncMsg); } else if (pMsg->msgType == TDMT_SYNC_SNAPSHOT_SEND) { SyncSnapshotSend *pSyncMsg = syncSnapshotSendFromRpcMsg2(pMsg); code = syncNodeOnSnapshotSendCb(pSyncNode, pSyncMsg); syncSnapshotSendDestroy(pSyncMsg); } else if (pMsg->msgType == TDMT_SYNC_SNAPSHOT_RSP) { SyncSnapshotRsp *pSyncMsg = syncSnapshotRspFromRpcMsg2(pMsg); code = syncNodeOnSnapshotRspCb(pSyncNode, pSyncMsg); syncSnapshotRspDestroy(pSyncMsg); } else if (pMsg->msgType == TDMT_SYNC_SET_VNODE_STANDBY) { code = vnodeSetStandBy(pVnode); if (code != 0 && terrno != 0) code = terrno; SRpcMsg rsp = {.code = code, .info = pMsg->info}; tmsgSendRsp(&rsp); } else { vGError("vgId:%d, msg:%p failed to process since error msg type:%d", pVnode->config.vgId, pMsg->msgType); code = -1; } } syncNodeRelease(pSyncNode); if (code != 0 && terrno == 0) { terrno = TSDB_CODE_SYN_INTERNAL_ERROR; } return code; } static int32_t vnodeSyncEqMsg(const SMsgCb *msgcb, SRpcMsg *pMsg) { int32_t code = tmsgPutToQueue(msgcb, SYNC_QUEUE, pMsg); if (code != 0) { rpcFreeCont(pMsg->pCont); pMsg->pCont = NULL; } return code; } static int32_t vnodeSyncSendMsg(const SEpSet *pEpSet, SRpcMsg *pMsg) { int32_t code = tmsgSendReq(pEpSet, pMsg); if (code != 0) { rpcFreeCont(pMsg->pCont); pMsg->pCont = NULL; } return code; } static int32_t vnodeSyncGetSnapshot(SSyncFSM *pFsm, SSnapshot *pSnapshot) { vnodeGetSnapshot(pFsm->data, pSnapshot); return 0; } static void vnodeSyncReconfig(struct SSyncFSM *pFsm, const SRpcMsg *pMsg, SReConfigCbMeta cbMeta) { SVnode *pVnode = pFsm->data; SRpcMsg rpcMsg = {.msgType = pMsg->msgType, .contLen = pMsg->contLen}; syncGetAndDelRespRpc(pVnode->sync, cbMeta.newCfgSeqNum, &rpcMsg.info); rpcMsg.info.conn.applyIndex = cbMeta.index; const STraceId *trace = (STraceId *)&pMsg->info.traceId; vGTrace("vgId:%d, alter vnode replica is confirmed, type:%s contLen:%d seq:%" PRIu64 " handle:%p", TD_VID(pVnode), TMSG_INFO(pMsg->msgType), pMsg->contLen, cbMeta.seqNum, rpcMsg.info.handle); if (rpcMsg.info.handle != NULL) { tmsgSendRsp(&rpcMsg); } vnodePostBlockMsg(pVnode, pMsg); } static void vnodeSyncCommitMsg(SSyncFSM *pFsm, const SRpcMsg *pMsg, SFsmCbMeta cbMeta) { if (cbMeta.isWeak == 0) { SVnode *pVnode = pFsm->data; if (cbMeta.code == 0) { SRpcMsg rpcMsg = {.msgType = pMsg->msgType, .contLen = pMsg->contLen}; rpcMsg.pCont = rpcMallocCont(rpcMsg.contLen); memcpy(rpcMsg.pCont, pMsg->pCont, pMsg->contLen); syncGetAndDelRespRpc(pVnode->sync, cbMeta.seqNum, &rpcMsg.info); rpcMsg.info.conn.applyIndex = cbMeta.index; rpcMsg.info.conn.applyTerm = cbMeta.term; vInfo("vgId:%d, commit-cb is excuted, fsm:%p, index:%" PRId64 ", term:%" PRIu64 ", msg-index:%" PRId64 ", isWeak:%d, code:%d, state:%d %s, msgtype:%d %s", syncGetVgId(pVnode->sync), pFsm, cbMeta.index, cbMeta.term, rpcMsg.info.conn.applyIndex, cbMeta.isWeak, cbMeta.code, cbMeta.state, syncUtilState2String(cbMeta.state), pMsg->msgType, TMSG_INFO(pMsg->msgType)); tmsgPutToQueue(&pVnode->msgCb, APPLY_QUEUE, &rpcMsg); } else { SRpcMsg rsp = {.code = cbMeta.code, .info = pMsg->info}; vError("vgId:%d, sync commit error, msgtype:%d,%s, index:%ld, error:0x%X, errmsg:%s", syncGetVgId(pVnode->sync), pMsg->msgType, TMSG_INFO(pMsg->msgType), cbMeta.index, cbMeta.code, tstrerror(cbMeta.code)); if (rsp.info.handle != NULL) { tmsgSendRsp(&rsp); } } } } static void vnodeSyncPreCommitMsg(SSyncFSM *pFsm, const SRpcMsg *pMsg, SFsmCbMeta cbMeta) { if (cbMeta.isWeak == 1) { SVnode *pVnode = pFsm->data; vTrace("vgId:%d, pre-commit-cb is excuted, fsm:%p, index:%" PRId64 ", isWeak:%d, code:%d, state:%d %s, msgtype:%d %s", syncGetVgId(pVnode->sync), pFsm, cbMeta.index, cbMeta.isWeak, cbMeta.code, cbMeta.state, syncUtilState2String(cbMeta.state), pMsg->msgType, TMSG_INFO(pMsg->msgType)); if (cbMeta.code == 0) { SRpcMsg rpcMsg = {.msgType = pMsg->msgType, .contLen = pMsg->contLen}; rpcMsg.pCont = rpcMallocCont(rpcMsg.contLen); memcpy(rpcMsg.pCont, pMsg->pCont, pMsg->contLen); syncGetAndDelRespRpc(pVnode->sync, cbMeta.seqNum, &rpcMsg.info); rpcMsg.info.conn.applyIndex = cbMeta.index; rpcMsg.info.conn.applyTerm = cbMeta.term; tmsgPutToQueue(&pVnode->msgCb, APPLY_QUEUE, &rpcMsg); } else { SRpcMsg rsp = {.code = cbMeta.code, .info = pMsg->info}; vError("vgId:%d, sync pre-commit error, msgtype:%d,%s, error:0x%X, errmsg:%s", syncGetVgId(pVnode->sync), pMsg->msgType, TMSG_INFO(pMsg->msgType), cbMeta.code, tstrerror(cbMeta.code)); if (rsp.info.handle != NULL) { tmsgSendRsp(&rsp); } } } } static void vnodeSyncRollBackMsg(SSyncFSM *pFsm, const SRpcMsg *pMsg, SFsmCbMeta cbMeta) { SVnode *pVnode = pFsm->data; vTrace("vgId:%d, rollback-cb is excuted, fsm:%p, index:%" PRId64 ", isWeak:%d, code:%d, state:%d %s, msgtype:%d %s", syncGetVgId(pVnode->sync), pFsm, cbMeta.index, cbMeta.isWeak, cbMeta.code, cbMeta.state, syncUtilState2String(cbMeta.state), pMsg->msgType, TMSG_INFO(pMsg->msgType)); } #define USE_TSDB_SNAPSHOT static int32_t vnodeSnapshotStartRead(struct SSyncFSM *pFsm, void *pParam, void **ppReader) { #ifdef USE_TSDB_SNAPSHOT SVnode *pVnode = pFsm->data; SSnapshotParam *pSnapshotParam = pParam; int32_t code = vnodeSnapReaderOpen(pVnode, pSnapshotParam->start, pSnapshotParam->end, (SVSnapReader **)ppReader); return code; #else *ppReader = taosMemoryMalloc(32); return 0; #endif } static int32_t vnodeSnapshotStopRead(struct SSyncFSM *pFsm, void *pReader) { #ifdef USE_TSDB_SNAPSHOT SVnode *pVnode = pFsm->data; int32_t code = vnodeSnapReaderClose(pReader); return code; #else taosMemoryFree(pReader); return 0; #endif } static int32_t vnodeSnapshotDoRead(struct SSyncFSM *pFsm, void *pReader, void **ppBuf, int32_t *len) { #ifdef USE_TSDB_SNAPSHOT SVnode *pVnode = pFsm->data; int32_t code = vnodeSnapRead(pReader, (uint8_t **)ppBuf, len); return code; #else static int32_t times = 0; if (times++ < 5) { *len = 64; *ppBuf = taosMemoryMalloc(*len); snprintf(*ppBuf, *len, "snapshot block %d", times); } else { *len = 0; *ppBuf = NULL; } return 0; #endif } static int32_t vnodeSnapshotStartWrite(struct SSyncFSM *pFsm, void *pParam, void **ppWriter) { #ifdef USE_TSDB_SNAPSHOT SVnode *pVnode = pFsm->data; SSnapshotParam *pSnapshotParam = pParam; int32_t code = vnodeSnapWriterOpen(pVnode, pSnapshotParam->start, pSnapshotParam->end, (SVSnapWriter **)ppWriter); return code; #else *ppWriter = taosMemoryMalloc(32); return 0; #endif } static int32_t vnodeSnapshotStopWrite(struct SSyncFSM *pFsm, void *pWriter, bool isApply, SSnapshot *pSnapshot) { #ifdef USE_TSDB_SNAPSHOT SVnode *pVnode = pFsm->data; int32_t code = vnodeSnapWriterClose(pWriter, !isApply, pSnapshot); return code; #else taosMemoryFree(pWriter); return 0; #endif } static int32_t vnodeSnapshotDoWrite(struct SSyncFSM *pFsm, void *pWriter, void *pBuf, int32_t len) { #ifdef USE_TSDB_SNAPSHOT SVnode *pVnode = pFsm->data; int32_t code = vnodeSnapWrite(pWriter, pBuf, len); return code; #else return 0; #endif } static void vnodeLeaderTransfer(struct SSyncFSM *pFsm, const SRpcMsg *pMsg, SFsmCbMeta cbMeta) { SVnode *pVnode = pFsm->data; } static void vnodeRestoreFinish(struct SSyncFSM *pFsm) { SVnode *pVnode = pFsm->data; pVnode->restored = true; vDebug("vgId:%d, sync restore finished", pVnode->config.vgId); } static SSyncFSM *vnodeSyncMakeFsm(SVnode *pVnode) { SSyncFSM *pFsm = taosMemoryCalloc(1, sizeof(SSyncFSM)); pFsm->data = pVnode; pFsm->FpCommitCb = vnodeSyncCommitMsg; pFsm->FpPreCommitCb = vnodeSyncPreCommitMsg; pFsm->FpRollBackCb = vnodeSyncRollBackMsg; pFsm->FpGetSnapshotInfo = vnodeSyncGetSnapshot; pFsm->FpRestoreFinishCb = vnodeRestoreFinish; pFsm->FpLeaderTransferCb = vnodeLeaderTransfer; pFsm->FpReConfigCb = vnodeSyncReconfig; pFsm->FpSnapshotStartRead = vnodeSnapshotStartRead; pFsm->FpSnapshotStopRead = vnodeSnapshotStopRead; pFsm->FpSnapshotDoRead = vnodeSnapshotDoRead; pFsm->FpSnapshotStartWrite = vnodeSnapshotStartWrite; pFsm->FpSnapshotStopWrite = vnodeSnapshotStopWrite; pFsm->FpSnapshotDoWrite = vnodeSnapshotDoWrite; return pFsm; } int32_t vnodeSyncOpen(SVnode *pVnode, char *path) { SSyncInfo syncInfo = { .snapshotStrategy = SYNC_STRATEGY_WAL_FIRST, //.snapshotStrategy = SYNC_STRATEGY_NO_SNAPSHOT, .batchSize = 10, .vgId = pVnode->config.vgId, .isStandBy = pVnode->config.standby, .syncCfg = pVnode->config.syncCfg, .pWal = pVnode->pWal, .msgcb = NULL, .FpSendMsg = vnodeSyncSendMsg, .FpEqMsg = vnodeSyncEqMsg, }; snprintf(syncInfo.path, sizeof(syncInfo.path), "%s%ssync", path, TD_DIRSEP); syncInfo.pFsm = vnodeSyncMakeFsm(pVnode); pVnode->sync = syncOpen(&syncInfo); if (pVnode->sync <= 0) { vError("vgId:%d, failed to open sync since %s", pVnode->config.vgId, terrstr()); return -1; } setPingTimerMS(pVnode->sync, 5000); setElectTimerMS(pVnode->sync, 1300); setHeartbeatTimerMS(pVnode->sync, 900); return 0; } void vnodeSyncStart(SVnode *pVnode) { syncSetMsgCb(pVnode->sync, &pVnode->msgCb); syncStart(pVnode->sync); } void vnodeSyncClose(SVnode *pVnode) { syncStop(pVnode->sync); } bool vnodeIsLeader(SVnode *pVnode) { if (!syncIsReady(pVnode->sync)) { return false; } if (!pVnode->restored) { terrno = TSDB_CODE_APP_NOT_READY; return false; } return true; }