#include #include #include "syncEnv.h" #include "syncIO.h" #include "syncInt.h" #include "syncMessage.h" #include "syncRaftEntry.h" #include "syncRaftLog.h" #include "syncRaftStore.h" #include "syncUtil.h" void logTest() { sTrace("--- sync log test: trace"); sDebug("--- sync log test: debug"); sInfo("--- sync log test: info"); sWarn("--- sync log test: warn"); sError("--- sync log test: error"); sFatal("--- sync log test: fatal"); } uint16_t ports[] = {7010, 7110, 7210, 7310, 7410}; int32_t replicaNum = 3; int32_t myIndex = 0; SRaftId ids[TSDB_MAX_REPLICA]; SSyncInfo syncInfo; SSyncFSM * pFsm; SWal * pWal; SSyncNode *gSyncNode; void CommitCb(struct SSyncFSM *pFsm, const SRpcMsg *pBuf, SyncIndex index, bool isWeak, int32_t code) { printf("==CommitCb== pFsm:%p, index:%ld, isWeak:%d, code:%d \n", pFsm, index, isWeak, code); syncRpcMsgPrint2((char *)"==CommitCb==", (SRpcMsg *)pBuf); } void PreCommitCb(struct SSyncFSM *pFsm, const SRpcMsg *pBuf, SyncIndex index, bool isWeak, int32_t code) { printf("==PreCommitCb== pFsm:%p, index:%ld, isWeak:%d, code:%d \n", pFsm, index, isWeak, code); syncRpcMsgPrint2((char *)"==PreCommitCb==", (SRpcMsg *)pBuf); } void RollBackCb(struct SSyncFSM *pFsm, const SRpcMsg *pBuf, SyncIndex index, bool isWeak, int32_t code) { printf("==RollBackCb== pFsm:%p, index:%ld, isWeak:%d, code:%d \n", pFsm, index, isWeak, code); syncRpcMsgPrint2((char *)"==RollBackCb==", (SRpcMsg *)pBuf); } void initFsm() { pFsm = (SSyncFSM *)malloc(sizeof(SSyncFSM)); pFsm->FpCommitCb = CommitCb; pFsm->FpPreCommitCb = PreCommitCb; pFsm->FpRollBackCb = RollBackCb; } SSyncNode *syncNodeInit() { syncInfo.vgId = 1234; syncInfo.rpcClient = gSyncIO->clientRpc; syncInfo.FpSendMsg = syncIOSendMsg; syncInfo.queue = gSyncIO->pMsgQ; syncInfo.FpEqMsg = syncIOEqMsg; syncInfo.pFsm = pFsm; snprintf(syncInfo.path, sizeof(syncInfo.path), "./replicate_test_%d", myIndex); int code = walInit(); assert(code == 0); SWalCfg walCfg; memset(&walCfg, 0, sizeof(SWalCfg)); walCfg.vgId = syncInfo.vgId; walCfg.fsyncPeriod = 1000; walCfg.retentionPeriod = 1000; walCfg.rollPeriod = 1000; walCfg.retentionSize = 1000; walCfg.segSize = 1000; walCfg.level = TAOS_WAL_FSYNC; char tmpdir[128]; snprintf(tmpdir, sizeof(tmpdir), "./replicate_test_wal_%d", myIndex); pWal = walOpen(tmpdir, &walCfg); assert(pWal != NULL); syncInfo.pWal = pWal; SSyncCfg *pCfg = &syncInfo.syncCfg; pCfg->myIndex = myIndex; pCfg->replicaNum = replicaNum; for (int i = 0; i < replicaNum; ++i) { pCfg->nodeInfo[i].nodePort = ports[i]; snprintf(pCfg->nodeInfo[i].nodeFqdn, sizeof(pCfg->nodeInfo[i].nodeFqdn), "%s", "127.0.0.1"); // taosGetFqdn(pCfg->nodeInfo[0].nodeFqdn); } SSyncNode *pSyncNode = syncNodeOpen(&syncInfo); assert(pSyncNode != NULL); gSyncIO->FpOnSyncPing = pSyncNode->FpOnPing; gSyncIO->FpOnSyncClientRequest = pSyncNode->FpOnClientRequest; gSyncIO->FpOnSyncPingReply = pSyncNode->FpOnPingReply; gSyncIO->FpOnSyncRequestVote = pSyncNode->FpOnRequestVote; gSyncIO->FpOnSyncRequestVoteReply = pSyncNode->FpOnRequestVoteReply; gSyncIO->FpOnSyncAppendEntries = pSyncNode->FpOnAppendEntries; gSyncIO->FpOnSyncAppendEntriesReply = pSyncNode->FpOnAppendEntriesReply; gSyncIO->FpOnSyncTimeout = pSyncNode->FpOnTimeout; gSyncIO->pSyncNode = pSyncNode; return pSyncNode; } SSyncNode *syncInitTest() { return syncNodeInit(); } void initRaftId(SSyncNode *pSyncNode) { for (int i = 0; i < replicaNum; ++i) { ids[i] = pSyncNode->replicasId[i]; char *s = syncUtilRaftId2Str(&ids[i]); printf("raftId[%d] : %s\n", i, s); free(s); } } SRpcMsg *step0(int i) { SRpcMsg *pMsg = (SRpcMsg *)malloc(sizeof(SRpcMsg)); memset(pMsg, 0, sizeof(SRpcMsg)); pMsg->msgType = 9999; pMsg->contLen = 32; pMsg->pCont = malloc(pMsg->contLen); snprintf((char *)(pMsg->pCont), pMsg->contLen, "value-%u-%d", ports[myIndex], i); return pMsg; } SyncClientRequest *step1(const SRpcMsg *pMsg) { SyncClientRequest *pRetMsg = syncClientRequestBuild2(pMsg, 123, true); return pRetMsg; } int main(int argc, char **argv) { // taosInitLog((char *)"syncTest.log", 100000, 10); tsAsyncLog = 0; sDebugFlag = 143 + 64; void logTest(); myIndex = 0; if (argc >= 2) { myIndex = atoi(argv[1]); } int32_t ret = syncIOStart((char *)"127.0.0.1", ports[myIndex]); assert(ret == 0); ret = syncEnvStart(); assert(ret == 0); taosRemoveDir("./wal_test"); initFsm(); gSyncNode = syncInitTest(); assert(gSyncNode != NULL); syncNodePrint2((char *)"", gSyncNode); initRaftId(gSyncNode); for (int i = 0; i < 30; ++i) { // step0 SRpcMsg *pMsg0 = step0(i); syncRpcMsgPrint2((char *)"==step0==", pMsg0); // step1 SyncClientRequest *pMsg1 = step1(pMsg0); syncClientRequestPrint2((char *)"==step1==", pMsg1); SyncClientRequest *pSyncClientRequest = pMsg1; SRpcMsg rpcMsg; syncClientRequest2RpcMsg(pSyncClientRequest, &rpcMsg); gSyncNode->FpEqMsg(gSyncNode->queue, &rpcMsg); taosMsleep(1000); sTrace("replicate sleep, state: %d, %s, electTimerLogicClock:%lu, electTimerLogicClockUser:%lu, electTimerMS:%d", gSyncNode->state, syncUtilState2String(gSyncNode->state), gSyncNode->electTimerLogicClock, gSyncNode->electTimerLogicClockUser, gSyncNode->electTimerMS); } while (1) { sTrace("while 1 sleep, state: %d, %s, electTimerLogicClock:%lu, electTimerLogicClockUser:%lu, electTimerMS:%d", gSyncNode->state, syncUtilState2String(gSyncNode->state), gSyncNode->electTimerLogicClock, gSyncNode->electTimerLogicClockUser, gSyncNode->electTimerMS); taosMsleep(1000); } return 0; }