/** 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 "osMemory.h" #include "transComm.h" #include "tutil.h" typedef struct SConnList { queue conns; int32_t size; } SConnList; typedef struct { queue wq; int32_t len; int connMax; int connCnt; int batchLenLimit; int sending; char* dst; char* ip; uint16_t port; } SCliBatchList; typedef struct { queue wq; queue listq; int32_t wLen; int32_t batchSize; // int32_t batch; SCliBatchList* pList; } SCliBatch; typedef struct SCliConn { T_REF_DECLARE() uv_connect_t connReq; uv_stream_t* stream; queue wreqQueue; uv_timer_t* timer; // read timer, forbidden void* hostThrd; SConnBuffer readBuf; STransQueue cliMsgs; queue q; SConnList* list; STransCtx ctx; bool broken; // link broken or not ConnStatus status; // SCliBatch* pBatch; SDelayTask* task; char* ip; char src[32]; char dst[32]; int64_t refId; } SCliConn; typedef struct SCliMsg { STransConnCtx* ctx; STransMsg msg; queue q; STransMsgType type; int64_t refId; uint64_t st; int sent; //(0: no send, 1: alread sent) } SCliMsg; typedef struct SCliThrd { TdThread thread; // tid int64_t pid; // pid uv_loop_t* loop; SAsyncPool* asyncPool; uv_prepare_t* prepare; void* pool; // conn pool // timer handles SArray* timerList; // msg queue queue msg; TdThreadMutex msgMtx; SDelayQueue* delayQueue; SDelayQueue* timeoutQueue; uint64_t nextTimeout; // next timeout void* pTransInst; // int connCount; void (*destroyAhandleFp)(void* ahandle); SHashObj* fqdn2ipCache; SCvtAddr cvtAddr; SHashObj* failFastCache; SHashObj* connLimitCache; SHashObj* batchCache; SCliMsg* stopMsg; bool quit; } SCliThrd; typedef struct SCliObj { char label[TSDB_LABEL_LEN]; int32_t index; int numOfThreads; SCliThrd** pThreadObj; } SCliObj; typedef struct { int32_t reinit; int64_t timestamp; int32_t count; int32_t threshold; int64_t interval; } SFailFastItem; // conn pool // add expire timeout and capacity limit static void* createConnPool(int size); static void* destroyConnPool(void* pool); static SCliConn* getConnFromPool(void* pool, char* ip, uint32_t port); static void addConnToPool(void* pool, SCliConn* conn); static void doCloseIdleConn(void* param); // register conn timer static void cliConnTimeout(uv_timer_t* handle); // register timer for read static void cliReadTimeoutCb(uv_timer_t* handle); // register timer in each thread to clear expire conn // static void cliTimeoutCb(uv_timer_t* handle); // alloc buffer for recv static FORCE_INLINE void cliAllocRecvBufferCb(uv_handle_t* handle, size_t suggested_size, uv_buf_t* buf); // callback after recv nbytes from socket static void cliRecvCb(uv_stream_t* cli, ssize_t nread, const uv_buf_t* buf); // callback after send data to socket static void cliSendCb(uv_write_t* req, int status); // callback after conn to server static void cliConnCb(uv_connect_t* req, int status); static void cliAsyncCb(uv_async_t* handle); static void cliIdleCb(uv_idle_t* handle); static void cliPrepareCb(uv_prepare_t* handle); static void cliHandleBatchReq(SCliBatch* pBatch, SCliThrd* pThrd); static void cliSendBatchCb(uv_write_t* req, int status); SCliBatch* cliGetHeadFromList(SCliBatchList* pList); static bool cliRecvReleaseReq(SCliConn* conn, STransMsgHead* pHead); static int32_t allocConnRef(SCliConn* conn, bool update); static int cliAppCb(SCliConn* pConn, STransMsg* pResp, SCliMsg* pMsg); static SCliConn* cliCreateConn(SCliThrd* thrd); static void cliDestroyConn(SCliConn* pConn, bool clear /*clear tcp handle or not*/); static void cliDestroy(uv_handle_t* handle); static void cliSend(SCliConn* pConn); static void cliSendBatch(SCliConn* pConn); static void cliDestroyConnMsgs(SCliConn* conn, bool destroy); static int32_t cliPreCheckSessionLimit(SCliThrd* pThrd, char* ip, uint16_t port); // cli util func static FORCE_INLINE bool cliIsEpsetUpdated(int32_t code, STransConnCtx* pCtx); static FORCE_INLINE void cliMayCvtFqdnToIp(SEpSet* pEpSet, SCvtAddr* pCvtAddr); static FORCE_INLINE int32_t cliBuildExceptResp(SCliMsg* pMsg, STransMsg* resp); static FORCE_INLINE uint32_t cliGetIpFromFqdnCache(SHashObj* cache, char* fqdn); static FORCE_INLINE void cliUpdateFqdnCache(SHashObj* cache, char* fqdn); // process data read from server, add decompress etc later static void cliHandleResp(SCliConn* conn); // handle except about conn static void cliHandleExcept(SCliConn* conn); static void cliReleaseUnfinishedMsg(SCliConn* conn); static void cliHandleFastFail(SCliConn* pConn, int status); // handle req from app static void cliHandleReq(SCliMsg* pMsg, SCliThrd* pThrd); static void cliHandleQuit(SCliMsg* pMsg, SCliThrd* pThrd); static void cliHandleRelease(SCliMsg* pMsg, SCliThrd* pThrd); static void cliHandleUpdate(SCliMsg* pMsg, SCliThrd* pThrd); static void (*cliAsyncHandle[])(SCliMsg* pMsg, SCliThrd* pThrd) = {cliHandleReq, cliHandleQuit, cliHandleRelease, NULL, cliHandleUpdate}; /// static void (*cliAsyncHandle[])(SCliMsg* pMsg, SCliThrd* pThrd) = {cliHandleReq, cliHandleQuit, cliHandleRelease, /// NULL,cliHandleUpdate}; static FORCE_INLINE void destroyUserdata(STransMsg* userdata); static FORCE_INLINE void destroyCmsg(void* cmsg); static FORCE_INLINE void destroyCmsgAndAhandle(void* cmsg); static FORCE_INLINE int cliRBChoseIdx(STrans* pTransInst); static FORCE_INLINE void transDestroyConnCtx(STransConnCtx* ctx); // thread obj static SCliThrd* createThrdObj(void* trans); static void destroyThrdObj(SCliThrd* pThrd); static void cliWalkCb(uv_handle_t* handle, void* arg); #define CLI_RELEASE_UV(loop) \ do { \ uv_walk(loop, cliWalkCb, NULL); \ uv_run(loop, UV_RUN_DEFAULT); \ uv_loop_close(loop); \ } while (0); // snprintf may cause performance problem #define CONN_CONSTRUCT_HASH_KEY(key, ip, port) \ do { \ char* t = key; \ int16_t len = strlen(ip); \ if (ip != NULL) memcpy(t, ip, len); \ t[len] = ':'; \ titoa(port, 10, &t[len + 1]); \ } while (0) #define CONN_PERSIST_TIME(para) ((para) <= 90000 ? 90000 : (para)) #define CONN_GET_INST_LABEL(conn) (((STrans*)(((SCliThrd*)(conn)->hostThrd)->pTransInst))->label) #define CONN_GET_MSGCTX_BY_AHANDLE(conn, ahandle) \ do { \ int i = 0, sz = transQueueSize(&conn->cliMsgs); \ for (; i < sz; i++) { \ pMsg = transQueueGet(&conn->cliMsgs, i); \ if (pMsg->ctx != NULL && (uint64_t)pMsg->ctx->ahandle == ahandle) { \ break; \ } \ } \ if (i == sz) { \ pMsg = NULL; \ tDebug("msg not found, %" PRIu64 "", ahandle); \ } else { \ pMsg = transQueueRm(&conn->cliMsgs, i); \ tDebug("msg found, %" PRIu64 "", ahandle); \ } \ } while (0) #define CONN_GET_NEXT_SENDMSG(conn) \ do { \ int i = 0; \ do { \ pCliMsg = transQueueGet(&conn->cliMsgs, i++); \ if (pCliMsg && 0 == pCliMsg->sent) { \ break; \ } \ } while (pCliMsg != NULL); \ if (pCliMsg == NULL) { \ goto _RETURN; \ } \ } while (0) #define CONN_SET_PERSIST_BY_APP(conn) \ do { \ if (conn->status == ConnNormal) { \ conn->status = ConnAcquire; \ transRefCliHandle(conn); \ } \ } while (0) #define CONN_NO_PERSIST_BY_APP(conn) \ (((conn)->status == ConnNormal || (conn)->status == ConnInPool) && T_REF_VAL_GET(conn) == 1) #define CONN_RELEASE_BY_SERVER(conn) \ (((conn)->status == ConnRelease || (conn)->status == ConnInPool) && T_REF_VAL_GET(conn) == 1) #define REQUEST_NO_RESP(msg) ((msg)->info.noResp == 1) #define REQUEST_PERSIS_HANDLE(msg) ((msg)->info.persistHandle == 1) #define REQUEST_RELEASE_HANDLE(cmsg) ((cmsg)->type == Release) #define EPSET_IS_VALID(epSet) ((epSet) != NULL && (epSet)->numOfEps >= 0 && (epSet)->inUse >= 0) #define EPSET_GET_SIZE(epSet) (epSet)->numOfEps #define EPSET_GET_INUSE_IP(epSet) ((epSet)->eps[(epSet)->inUse].fqdn) #define EPSET_GET_INUSE_PORT(epSet) ((epSet)->eps[(epSet)->inUse].port) #define EPSET_FORWARD_INUSE(epSet) \ do { \ if ((epSet)->numOfEps != 0) { \ ++((epSet)->inUse); \ (epSet)->inUse = ((epSet)->inUse) % ((epSet)->numOfEps); \ } \ } while (0) #define EPSET_DEBUG_STR(epSet, tbuf) \ do { \ int len = snprintf(tbuf, sizeof(tbuf), "epset:{"); \ for (int i = 0; i < (epSet)->numOfEps; i++) { \ if (i == (epSet)->numOfEps - 1) { \ len += snprintf(tbuf + len, sizeof(tbuf) - len, "%d. %s:%d", i, (epSet)->eps[i].fqdn, (epSet)->eps[i].port); \ } else { \ len += snprintf(tbuf + len, sizeof(tbuf) - len, "%d. %s:%d, ", i, (epSet)->eps[i].fqdn, (epSet)->eps[i].port); \ } \ } \ len += snprintf(tbuf + len, sizeof(tbuf) - len, "}, inUse:%d", (epSet)->inUse); \ } while (0); static void* cliWorkThread(void* arg); static void cliReleaseUnfinishedMsg(SCliConn* conn) { SCliThrd* pThrd = conn->hostThrd; for (int i = 0; i < transQueueSize(&conn->cliMsgs); i++) { SCliMsg* msg = transQueueGet(&conn->cliMsgs, i); if (msg != NULL && msg->ctx != NULL && msg->ctx->ahandle != (void*)0x9527) { if (conn->ctx.freeFunc != NULL && msg->ctx->ahandle != NULL) { conn->ctx.freeFunc(msg->ctx->ahandle); } else if (msg->ctx->ahandle != NULL && pThrd->destroyAhandleFp != NULL) { tDebug("%s conn %p destroy unfinished ahandle %p", CONN_GET_INST_LABEL(conn), conn, msg->ctx->ahandle); pThrd->destroyAhandleFp(msg->ctx->ahandle); } } destroyCmsg(msg); } transQueueClear(&conn->cliMsgs); memset(&conn->ctx, 0, sizeof(conn->ctx)); } bool cliMaySendCachedMsg(SCliConn* conn) { if (!transQueueEmpty(&conn->cliMsgs)) { SCliMsg* pCliMsg = NULL; CONN_GET_NEXT_SENDMSG(conn); cliSend(conn); return true; } return false; _RETURN: return false; } void cliHandleResp(SCliConn* conn) { SCliThrd* pThrd = conn->hostThrd; STrans* pTransInst = pThrd->pTransInst; if (conn->timer) { if (uv_is_active((uv_handle_t*)conn->timer)) { tDebug("%s conn %p stop timer", CONN_GET_INST_LABEL(conn), conn); uv_timer_stop(conn->timer); } taosArrayPush(pThrd->timerList, &conn->timer); conn->timer->data = NULL; conn->timer = NULL; } STransMsgHead* pHead = NULL; int32_t msgLen = transDumpFromBuffer(&conn->readBuf, (char**)&pHead); if (msgLen <= 0) { taosMemoryFree(pHead); tDebug("%s conn %p recv invalid packet ", CONN_GET_INST_LABEL(conn), conn); return; } if (transDecompressMsg((char**)&pHead, msgLen) < 0) { tDebug("%s conn %p recv invalid packet, failed to decompress", CONN_GET_INST_LABEL(conn), conn); } pHead->code = htonl(pHead->code); pHead->msgLen = htonl(pHead->msgLen); if (cliRecvReleaseReq(conn, pHead)) { return; } STransMsg transMsg = {0}; transMsg.contLen = transContLenFromMsg(pHead->msgLen); transMsg.pCont = transContFromHead((char*)pHead); transMsg.code = pHead->code; transMsg.msgType = pHead->msgType; transMsg.info.ahandle = NULL; transMsg.info.traceId = pHead->traceId; transMsg.info.hasEpSet = pHead->hasEpSet; SCliMsg* pMsg = NULL; STransConnCtx* pCtx = NULL; if (CONN_NO_PERSIST_BY_APP(conn)) { pMsg = transQueuePop(&conn->cliMsgs); pCtx = pMsg ? pMsg->ctx : NULL; transMsg.info.ahandle = pCtx ? pCtx->ahandle : NULL; tDebug("%s conn %p get ahandle %p, persist: 0", CONN_GET_INST_LABEL(conn), conn, transMsg.info.ahandle); } else { uint64_t ahandle = (uint64_t)pHead->ahandle; CONN_GET_MSGCTX_BY_AHANDLE(conn, ahandle); if (pMsg == NULL) { transMsg.info.ahandle = transCtxDumpVal(&conn->ctx, transMsg.msgType); tDebug("%s conn %p construct ahandle %p by %s, persist: 1", CONN_GET_INST_LABEL(conn), conn, transMsg.info.ahandle, TMSG_INFO(transMsg.msgType)); if (!CONN_RELEASE_BY_SERVER(conn) && transMsg.info.ahandle == NULL) { transMsg.code = TSDB_CODE_RPC_BROKEN_LINK; transMsg.info.ahandle = transCtxDumpBrokenlinkVal(&conn->ctx, (int32_t*)&(transMsg.msgType)); tDebug("%s conn %p construct ahandle %p due brokenlink, persist: 1", CONN_GET_INST_LABEL(conn), conn, transMsg.info.ahandle); } } else { pCtx = pMsg->ctx; transMsg.info.ahandle = pCtx ? pCtx->ahandle : NULL; tDebug("%s conn %p get ahandle %p, persist: 1", CONN_GET_INST_LABEL(conn), conn, transMsg.info.ahandle); } } // buf's mem alread translated to transMsg.pCont if (!CONN_NO_PERSIST_BY_APP(conn)) { transMsg.info.handle = (void*)conn->refId; tDebug("%s conn %p ref by app", CONN_GET_INST_LABEL(conn), conn); } STraceId* trace = &transMsg.info.traceId; tGDebug("%s conn %p %s received from %s, local info:%s, len:%d, code str:%s", CONN_GET_INST_LABEL(conn), conn, TMSG_INFO(pHead->msgType), conn->dst, conn->src, pHead->msgLen, tstrerror(transMsg.code)); if (pCtx == NULL && CONN_NO_PERSIST_BY_APP(conn)) { tDebug("%s except, conn %p read while cli ignore it", CONN_GET_INST_LABEL(conn), conn); transFreeMsg(transMsg.pCont); return; } if (CONN_RELEASE_BY_SERVER(conn) && transMsg.info.ahandle == NULL) { tDebug("%s except, conn %p read while cli ignore it", CONN_GET_INST_LABEL(conn), conn); transFreeMsg(transMsg.pCont); return; } if (pMsg == NULL || (pMsg && pMsg->type != Release)) { if (cliAppCb(conn, &transMsg, pMsg) != 0) { return; } } destroyCmsg(pMsg); if (cliMaySendCachedMsg(conn) == true) { return; } if (CONN_NO_PERSIST_BY_APP(conn)) { return addConnToPool(pThrd->pool, conn); } uv_read_start((uv_stream_t*)conn->stream, cliAllocRecvBufferCb, cliRecvCb); } void cliHandleExceptImpl(SCliConn* pConn, int32_t code) { if (transQueueEmpty(&pConn->cliMsgs)) { if (pConn->broken == true && CONN_NO_PERSIST_BY_APP(pConn)) { tTrace("%s conn %p handle except, persist:0", CONN_GET_INST_LABEL(pConn), pConn); transUnrefCliHandle(pConn); return; } } SCliThrd* pThrd = pConn->hostThrd; STrans* pTransInst = pThrd->pTransInst; bool once = false; do { SCliMsg* pMsg = transQueuePop(&pConn->cliMsgs); if (pMsg == NULL && once) { break; } if (pMsg != NULL && REQUEST_NO_RESP(&pMsg->msg)) { destroyCmsg(pMsg); break; } STransConnCtx* pCtx = pMsg ? pMsg->ctx : NULL; STransMsg transMsg = {0}; transMsg.code = code == -1 ? (pConn->broken ? TSDB_CODE_RPC_BROKEN_LINK : TSDB_CODE_RPC_NETWORK_UNAVAIL) : code; transMsg.msgType = pMsg ? pMsg->msg.msgType + 1 : 0; transMsg.info.ahandle = NULL; if (pMsg == NULL && !CONN_NO_PERSIST_BY_APP(pConn)) { transMsg.info.ahandle = transCtxDumpVal(&pConn->ctx, transMsg.msgType); tDebug("%s conn %p construct ahandle %p by %s", CONN_GET_INST_LABEL(pConn), pConn, transMsg.info.ahandle, TMSG_INFO(transMsg.msgType)); if (transMsg.info.ahandle == NULL) { int32_t msgType = 0; transMsg.info.ahandle = transCtxDumpBrokenlinkVal(&pConn->ctx, &msgType); transMsg.msgType = msgType; tDebug("%s conn %p construct ahandle %p due to brokenlink", CONN_GET_INST_LABEL(pConn), pConn, transMsg.info.ahandle); } } else { transMsg.info.ahandle = (pMsg != NULL && pMsg->type != Release && pCtx) ? pCtx->ahandle : NULL; } if (pCtx == NULL || pCtx->pSem == NULL) { if (transMsg.info.ahandle == NULL) { if (pMsg == NULL || REQUEST_NO_RESP(&pMsg->msg) || pMsg->type == Release) { destroyCmsg(pMsg); once = true; continue; } } } if (pMsg == NULL || (pMsg && pMsg->type != Release)) { if (cliAppCb(pConn, &transMsg, pMsg) != 0) { return; } } destroyCmsg(pMsg); tTrace("%s conn %p start to destroy, ref:%d", CONN_GET_INST_LABEL(pConn), pConn, T_REF_VAL_GET(pConn)); } while (!transQueueEmpty(&pConn->cliMsgs)); transUnrefCliHandle(pConn); } void cliHandleExcept(SCliConn* conn) { tTrace("%s conn %p except ref:%d", CONN_GET_INST_LABEL(conn), conn, T_REF_VAL_GET(conn)); cliHandleExceptImpl(conn, -1); } void cliConnTimeout(uv_timer_t* handle) { SCliConn* conn = handle->data; SCliThrd* pThrd = conn->hostThrd; tTrace("%s conn %p conn timeout, ref:%d", CONN_GET_INST_LABEL(conn), conn, T_REF_VAL_GET(conn)); uv_timer_stop(handle); handle->data = NULL; taosArrayPush(pThrd->timerList, &conn->timer); conn->timer = NULL; cliHandleFastFail(conn, UV_ECANCELED); } void cliReadTimeoutCb(uv_timer_t* handle) { // set up timeout cb SCliConn* conn = handle->data; tTrace("%s conn %p timeout, ref:%d", CONN_GET_INST_LABEL(conn), conn, T_REF_VAL_GET(conn)); uv_read_stop(conn->stream); cliHandleExceptImpl(conn, TSDB_CODE_RPC_TIMEOUT); } void* createConnPool(int size) { // thread local, no lock return taosHashInit(size, taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY), false, HASH_NO_LOCK); } void* destroyConnPool(void* pool) { SConnList* connList = taosHashIterate((SHashObj*)pool, NULL); while (connList != NULL) { while (!QUEUE_IS_EMPTY(&connList->conns)) { queue* h = QUEUE_HEAD(&connList->conns); SCliConn* c = QUEUE_DATA(h, SCliConn, q); cliDestroyConn(c, true); } connList = taosHashIterate((SHashObj*)pool, connList); } taosHashCleanup(pool); return NULL; } static SCliConn* getConnFromPool(void* pool, char* ip, uint32_t port) { char key[TSDB_FQDN_LEN + 64] = {0}; CONN_CONSTRUCT_HASH_KEY(key, ip, port); SConnList* plist = taosHashGet((SHashObj*)pool, key, strlen(key)); if (plist == NULL) { SConnList list = {0}; taosHashPut((SHashObj*)pool, key, strlen(key), (void*)&list, sizeof(list)); plist = taosHashGet((SHashObj*)pool, key, strlen(key)); if (plist == NULL) return NULL; QUEUE_INIT(&plist->conns); } if (QUEUE_IS_EMPTY(&plist->conns)) { return NULL; } plist->size -= 1; queue* h = QUEUE_HEAD(&plist->conns); SCliConn* conn = QUEUE_DATA(h, SCliConn, q); conn->status = ConnNormal; QUEUE_REMOVE(&conn->q); QUEUE_INIT(&conn->q); if (conn->task != NULL) { transDQCancel(((SCliThrd*)conn->hostThrd)->timeoutQueue, conn->task); conn->task = NULL; } return conn; } static void addConnToPool(void* pool, SCliConn* conn) { if (conn->status == ConnInPool) { return; } allocConnRef(conn, true); SCliThrd* thrd = conn->hostThrd; if (conn->timer != NULL) { uv_timer_stop(conn->timer); taosArrayPush(thrd->timerList, &conn->timer); conn->timer->data = NULL; conn->timer = NULL; } if (T_REF_VAL_GET(conn) > 1) { transUnrefCliHandle(conn); } cliDestroyConnMsgs(conn, false); conn->status = ConnInPool; if (conn->list == NULL) { tTrace("%s conn %p added to conn pool, read buf cap:%d", CONN_GET_INST_LABEL(conn), conn, conn->readBuf.cap); conn->list = taosHashGet((SHashObj*)pool, conn->ip, strlen(conn->ip)); } else { tTrace("%s conn %p added to conn pool, read buf cap:%d", CONN_GET_INST_LABEL(conn), conn, conn->readBuf.cap); } QUEUE_PUSH(&conn->list->conns, &conn->q); conn->list->size += 1; if (conn->list->size >= 250) { STaskArg* arg = taosMemoryCalloc(1, sizeof(STaskArg)); arg->param1 = conn; arg->param2 = thrd; STrans* pTransInst = thrd->pTransInst; conn->task = transDQSched(thrd->timeoutQueue, doCloseIdleConn, arg, CONN_PERSIST_TIME(pTransInst->idleTime)); } } static int32_t allocConnRef(SCliConn* conn, bool update) { if (update) { transReleaseExHandle(transGetRefMgt(), conn->refId); transRemoveExHandle(transGetRefMgt(), conn->refId); conn->refId = -1; } SExHandle* exh = taosMemoryCalloc(1, sizeof(SExHandle)); exh->handle = conn; exh->pThrd = conn->hostThrd; exh->refId = transAddExHandle(transGetRefMgt(), exh); conn->refId = exh->refId; if (conn->refId == -1) { taosMemoryFree(exh); } return 0; } static int32_t specifyConnRef(SCliConn* conn, bool update, int64_t handle) { if (update) { transReleaseExHandle(transGetRefMgt(), conn->refId); transRemoveExHandle(transGetRefMgt(), conn->refId); conn->refId = -1; } SExHandle* exh = transAcquireExHandle(transGetRefMgt(), handle); if (exh == NULL) { return -1; } exh->handle = conn; exh->pThrd = conn->hostThrd; conn->refId = exh->refId; transReleaseExHandle(transGetRefMgt(), handle); return 0; } static void cliAllocRecvBufferCb(uv_handle_t* handle, size_t suggested_size, uv_buf_t* buf) { SCliConn* conn = handle->data; SConnBuffer* pBuf = &conn->readBuf; tDebug("%s conn %p alloc read buf", CONN_GET_INST_LABEL(conn), conn); transAllocBuffer(pBuf, buf); } static void cliRecvCb(uv_stream_t* handle, ssize_t nread, const uv_buf_t* buf) { // impl later if (handle->data == NULL) { return; } SCliConn* conn = handle->data; SConnBuffer* pBuf = &conn->readBuf; if (nread > 0) { pBuf->len += nread; while (transReadComplete(pBuf)) { tDebug("%s conn %p read complete", CONN_GET_INST_LABEL(conn), conn); if (pBuf->invalid) { cliHandleExcept(conn); break; } else { cliHandleResp(conn); } } return; } if (nread == 0) { // ref http://docs.libuv.org/en/v1.x/stream.html?highlight=uv_read_start#c.uv_read_cb // nread might be 0, which does not indicate an error or EOF. This is equivalent to EAGAIN or EWOULDBLOCK under // read(2). tTrace("%s conn %p read empty", CONN_GET_INST_LABEL(conn), conn); return; } if (nread < 0) { tWarn("%s conn %p read error:%s, ref:%d", CONN_GET_INST_LABEL(conn), conn, uv_err_name(nread), T_REF_VAL_GET(conn)); conn->broken = true; cliHandleExcept(conn); } } static SCliConn* cliCreateConn(SCliThrd* pThrd) { SCliConn* conn = taosMemoryCalloc(1, sizeof(SCliConn)); // read/write stream handle conn->stream = (uv_stream_t*)taosMemoryMalloc(sizeof(uv_tcp_t)); uv_tcp_init(pThrd->loop, (uv_tcp_t*)(conn->stream)); conn->stream->data = conn; uv_timer_t* timer = taosArrayGetSize(pThrd->timerList) > 0 ? *(uv_timer_t**)taosArrayPop(pThrd->timerList) : NULL; if (timer == NULL) { timer = taosMemoryCalloc(1, sizeof(uv_timer_t)); tDebug("no available timer, create a timer %p", timer); uv_timer_init(pThrd->loop, timer); } timer->data = conn; conn->timer = timer; conn->connReq.data = conn; transReqQueueInit(&conn->wreqQueue); transQueueInit(&conn->cliMsgs, NULL); transInitBuffer(&conn->readBuf); QUEUE_INIT(&conn->q); conn->hostThrd = pThrd; conn->status = ConnNormal; conn->broken = false; transRefCliHandle(conn); atomic_add_fetch_32(&pThrd->connCount, 1); allocConnRef(conn, false); return conn; } static void cliDestroyConn(SCliConn* conn, bool clear) { SCliThrd* pThrd = conn->hostThrd; tTrace("%s conn %p remove from conn pool", CONN_GET_INST_LABEL(conn), conn); QUEUE_REMOVE(&conn->q); QUEUE_INIT(&conn->q); transReleaseExHandle(transGetRefMgt(), conn->refId); transRemoveExHandle(transGetRefMgt(), conn->refId); conn->refId = -1; if (conn->task != NULL) { transDQCancel(pThrd->timeoutQueue, conn->task); conn->task = NULL; } if (conn->timer != NULL) { uv_timer_stop(conn->timer); conn->timer->data = NULL; taosArrayPush(pThrd->timerList, &conn->timer); conn->timer = NULL; } if (clear) { if (!uv_is_closing((uv_handle_t*)conn->stream)) { uv_read_stop(conn->stream); uv_close((uv_handle_t*)conn->stream, cliDestroy); } } } static void cliDestroy(uv_handle_t* handle) { if (uv_handle_get_type(handle) != UV_TCP || handle->data == NULL) { return; } SCliConn* conn = handle->data; SCliThrd* pThrd = conn->hostThrd; if (conn->timer != NULL) { uv_timer_stop(conn->timer); taosArrayPush(pThrd->timerList, &conn->timer); conn->timer->data = NULL; conn->timer = NULL; } int32_t* oVal = taosHashGet(pThrd->connLimitCache, conn->ip, strlen(conn->ip)); int32_t nVal = oVal == NULL ? 0 : (*oVal) - 1; taosHashPut(pThrd->connLimitCache, conn->ip, strlen(conn->ip), &nVal, sizeof(nVal)); atomic_sub_fetch_32(&pThrd->connCount, 1); transReleaseExHandle(transGetRefMgt(), conn->refId); transRemoveExHandle(transGetRefMgt(), conn->refId); taosMemoryFree(conn->ip); taosMemoryFree(conn->stream); cliDestroyConnMsgs(conn, true); tTrace("%s conn %p destroy successfully", CONN_GET_INST_LABEL(conn), conn); transReqQueueClear(&conn->wreqQueue); transDestroyBuffer(&conn->readBuf); taosMemoryFree(conn); } static bool cliHandleNoResp(SCliConn* conn) { bool res = false; if (!transQueueEmpty(&conn->cliMsgs)) { SCliMsg* pMsg = transQueueGet(&conn->cliMsgs, 0); if (REQUEST_NO_RESP(&pMsg->msg)) { transQueuePop(&conn->cliMsgs); destroyCmsg(pMsg); res = true; } if (res == true) { if (cliMaySendCachedMsg(conn) == false) { SCliThrd* thrd = conn->hostThrd; addConnToPool(thrd->pool, conn); res = false; } else { res = true; } } } return res; } static void cliSendCb(uv_write_t* req, int status) { SCliConn* pConn = transReqQueueRemove(req); if (pConn == NULL) return; SCliMsg* pMsg = !transQueueEmpty(&pConn->cliMsgs) ? transQueueGet(&pConn->cliMsgs, 0) : NULL; if (pMsg != NULL) { int64_t cost = taosGetTimestampUs() - pMsg->st; if (cost > 1000 * 20) { tWarn("%s conn %p send cost:%dus, send exception", CONN_GET_INST_LABEL(pConn), pConn, (int)cost); } } if (status == 0) { tTrace("%s conn %p data already was written out", CONN_GET_INST_LABEL(pConn), pConn); } else { if (!uv_is_closing((uv_handle_t*)&pConn->stream)) { tError("%s conn %p failed to write:%s", CONN_GET_INST_LABEL(pConn), pConn, uv_err_name(status)); cliHandleExcept(pConn); } return; } if (cliHandleNoResp(pConn) == true) { tTrace("%s conn %p no resp required", CONN_GET_INST_LABEL(pConn), pConn); return; } uv_read_start((uv_stream_t*)pConn->stream, cliAllocRecvBufferCb, cliRecvCb); } void cliSendBatch(SCliConn* pConn) { SCliThrd* pThrd = pConn->hostThrd; STrans* pTransInst = pThrd->pTransInst; SCliBatch* pBatch = pConn->pBatch; SCliBatchList* pList = pBatch->pList; pList->connCnt += 1; int32_t wLen = pBatch->wLen; uv_buf_t* wb = taosMemoryCalloc(wLen, sizeof(uv_buf_t)); int i = 0; queue* h = NULL; QUEUE_FOREACH(h, &pBatch->wq) { SCliMsg* pCliMsg = QUEUE_DATA(h, SCliMsg, q); STransConnCtx* pCtx = pCliMsg->ctx; STransMsg* pMsg = (STransMsg*)(&pCliMsg->msg); if (pMsg->pCont == 0) { pMsg->pCont = (void*)rpcMallocCont(0); pMsg->contLen = 0; } int msgLen = transMsgLenFromCont(pMsg->contLen); STransMsgHead* pHead = transHeadFromCont(pMsg->pCont); if (pHead->comp == 0) { pHead->ahandle = pCtx != NULL ? (uint64_t)pCtx->ahandle : 0; pHead->noResp = REQUEST_NO_RESP(pMsg) ? 1 : 0; pHead->persist = REQUEST_PERSIS_HANDLE(pMsg) ? 1 : 0; pHead->msgType = pMsg->msgType; pHead->msgLen = (int32_t)htonl((uint32_t)msgLen); pHead->release = REQUEST_RELEASE_HANDLE(pCliMsg) ? 1 : 0; memcpy(pHead->user, pTransInst->user, strlen(pTransInst->user)); pHead->traceId = pMsg->info.traceId; pHead->magicNum = htonl(TRANS_MAGIC_NUM); } pHead->timestamp = taosHton64(taosGetTimestampUs()); if (pHead->comp == 0) { if (pTransInst->compressSize != -1 && pTransInst->compressSize < pMsg->contLen) { msgLen = transCompressMsg(pMsg->pCont, pMsg->contLen) + sizeof(STransMsgHead); pHead->msgLen = (int32_t)htonl((uint32_t)msgLen); } } else { msgLen = (int32_t)ntohl((uint32_t)(pHead->msgLen)); } wb[i++] = uv_buf_init((char*)pHead, msgLen); } uv_write_t* req = taosMemoryCalloc(1, sizeof(uv_write_t)); req->data = pConn; tDebug("%s conn %p start to send batch msg, batch size:%d, msgLen:%d", CONN_GET_INST_LABEL(pConn), pConn, pBatch->wLen, pBatch->batchSize); uv_write(req, (uv_stream_t*)pConn->stream, wb, wLen, cliSendBatchCb); taosMemoryFree(wb); } void cliSend(SCliConn* pConn) { SCliThrd* pThrd = pConn->hostThrd; STrans* pTransInst = pThrd->pTransInst; if (transQueueEmpty(&pConn->cliMsgs)) { tError("%s conn %p not msg to send", pTransInst->label, pConn); cliHandleExcept(pConn); return; } SCliMsg* pCliMsg = NULL; CONN_GET_NEXT_SENDMSG(pConn); pCliMsg->sent = 1; STransConnCtx* pCtx = pCliMsg->ctx; STransMsg* pMsg = (STransMsg*)(&pCliMsg->msg); if (pMsg->pCont == 0) { pMsg->pCont = (void*)rpcMallocCont(0); pMsg->contLen = 0; } int msgLen = transMsgLenFromCont(pMsg->contLen); STransMsgHead* pHead = transHeadFromCont(pMsg->pCont); if (pHead->comp == 0) { pHead->ahandle = pCtx != NULL ? (uint64_t)pCtx->ahandle : 0; pHead->noResp = REQUEST_NO_RESP(pMsg) ? 1 : 0; pHead->persist = REQUEST_PERSIS_HANDLE(pMsg) ? 1 : 0; pHead->msgType = pMsg->msgType; pHead->msgLen = (int32_t)htonl((uint32_t)msgLen); pHead->release = REQUEST_RELEASE_HANDLE(pCliMsg) ? 1 : 0; memcpy(pHead->user, pTransInst->user, strlen(pTransInst->user)); pHead->traceId = pMsg->info.traceId; pHead->magicNum = htonl(TRANS_MAGIC_NUM); } pHead->timestamp = taosHton64(taosGetTimestampUs()); if (pHead->persist == 1) { CONN_SET_PERSIST_BY_APP(pConn); } STraceId* trace = &pMsg->info.traceId; if (pTransInst->startTimer != NULL && pTransInst->startTimer(0, pMsg->msgType)) { uv_timer_t* timer = taosArrayGetSize(pThrd->timerList) > 0 ? *(uv_timer_t**)taosArrayPop(pThrd->timerList) : NULL; if (timer == NULL) { timer = taosMemoryCalloc(1, sizeof(uv_timer_t)); tDebug("no available timer, create a timer %p", timer); uv_timer_init(pThrd->loop, timer); } timer->data = pConn; pConn->timer = timer; tGTrace("%s conn %p start timer for msg:%s", CONN_GET_INST_LABEL(pConn), pConn, TMSG_INFO(pMsg->msgType)); uv_timer_start((uv_timer_t*)pConn->timer, cliReadTimeoutCb, TRANS_READ_TIMEOUT, 0); } if (pHead->comp == 0) { if (pTransInst->compressSize != -1 && pTransInst->compressSize < pMsg->contLen) { msgLen = transCompressMsg(pMsg->pCont, pMsg->contLen) + sizeof(STransMsgHead); pHead->msgLen = (int32_t)htonl((uint32_t)msgLen); } } else { msgLen = (int32_t)ntohl((uint32_t)(pHead->msgLen)); } tGDebug("%s conn %p %s is sent to %s, local info %s, len:%d", CONN_GET_INST_LABEL(pConn), pConn, TMSG_INFO(pHead->msgType), pConn->dst, pConn->src, msgLen); uv_buf_t wb = uv_buf_init((char*)pHead, msgLen); uv_write_t* req = transReqQueuePush(&pConn->wreqQueue); int status = uv_write(req, (uv_stream_t*)pConn->stream, &wb, 1, cliSendCb); if (status != 0) { tGError("%s conn %p failed to send msg:%s, errmsg:%s", CONN_GET_INST_LABEL(pConn), pConn, TMSG_INFO(pMsg->msgType), uv_err_name(status)); cliHandleExcept(pConn); } return; _RETURN: return; } static void cliDestroyBatch(SCliBatch* pBatch) { if (pBatch == NULL) return; while (!QUEUE_IS_EMPTY(&pBatch->wq)) { queue* h = QUEUE_HEAD(&pBatch->wq); QUEUE_REMOVE(h); SCliMsg* p = QUEUE_DATA(h, SCliMsg, q); destroyCmsg(p); } SCliBatchList* p = pBatch->pList; p->sending -= 1; taosMemoryFree(pBatch); } static void cliHandleBatchReq(SCliBatch* pBatch, SCliThrd* pThrd) { if (pThrd->quit == true) { cliDestroyBatch(pBatch); return; } if (pBatch == NULL || pBatch->wLen == 0 || QUEUE_IS_EMPTY(&pBatch->wq)) { return; } STrans* pTransInst = pThrd->pTransInst; SCliBatchList* pList = pBatch->pList; SCliConn* conn = getConnFromPool(pThrd->pool, pList->ip, pList->port); if (conn == NULL && 0 != cliPreCheckSessionLimit(pThrd, pList->ip, pList->port)) { tError("%s failed to send batch msg, batch size:%d, msgLen: %d", pTransInst->label, pBatch->wLen, pBatch->batchSize); cliDestroyBatch(pBatch); return; } if (conn == NULL) { conn = cliCreateConn(pThrd); conn->pBatch = pBatch; conn->ip = taosStrdup(pList->dst); uint32_t ipaddr = cliGetIpFromFqdnCache(pThrd->fqdn2ipCache, pList->ip); if (ipaddr == 0xffffffff) { uv_timer_stop(conn->timer); conn->timer->data = NULL; taosArrayPush(pThrd->timerList, &conn->timer); conn->timer = NULL; cliHandleFastFail(conn, -1); return; } struct sockaddr_in addr; addr.sin_family = AF_INET; addr.sin_addr.s_addr = ipaddr; addr.sin_port = (uint16_t)htons(pList->port); tTrace("%s conn %p try to connect to %s", pTransInst->label, conn, pList->dst); int32_t fd = taosCreateSocketWithTimeout(TRANS_CONN_TIMEOUT * 4); if (fd == -1) { tError("%s conn %p failed to create socket, reason:%s", transLabel(pTransInst), conn, tstrerror(TAOS_SYSTEM_ERROR(errno))); cliHandleFastFail(conn, -1); return; } int ret = uv_tcp_open((uv_tcp_t*)conn->stream, fd); if (ret != 0) { tError("%s conn %p failed to set stream, reason:%s", transLabel(pTransInst), conn, uv_err_name(ret)); cliHandleFastFail(conn, -1); return; } ret = transSetConnOption((uv_tcp_t*)conn->stream); if (ret != 0) { tError("%s conn %p failed to set socket opt, reason:%s", transLabel(pTransInst), conn, uv_err_name(ret)); cliHandleFastFail(conn, -1); return; } ret = uv_tcp_connect(&conn->connReq, (uv_tcp_t*)(conn->stream), (const struct sockaddr*)&addr, cliConnCb); if (ret != 0) { uv_timer_stop(conn->timer); conn->timer->data = NULL; taosArrayPush(pThrd->timerList, &conn->timer); conn->timer = NULL; cliHandleFastFail(conn, -1); return; } uv_timer_start(conn->timer, cliConnTimeout, TRANS_CONN_TIMEOUT, 0); return; } conn->pBatch = pBatch; cliSendBatch(conn); } static void cliSendBatchCb(uv_write_t* req, int status) { SCliConn* conn = req->data; SCliThrd* thrd = conn->hostThrd; SCliBatch* p = conn->pBatch; SCliBatchList* pBatchList = p->pList; SCliBatch* nxtBatch = cliGetHeadFromList(pBatchList); pBatchList->connCnt -= 1; conn->pBatch = NULL; if (status != 0) { tDebug("%s conn %p failed to send batch msg, batch size:%d, msgLen:%d, reason:%s", CONN_GET_INST_LABEL(conn), conn, p->wLen, p->batchSize, uv_err_name(status)); if (!uv_is_closing((uv_handle_t*)&conn->stream)) cliHandleExcept(conn); cliHandleBatchReq(nxtBatch, thrd); } else { tDebug("%s conn %p succ to send batch msg, batch size:%d, msgLen:%d", CONN_GET_INST_LABEL(conn), conn, p->wLen, p->batchSize); if (!uv_is_closing((uv_handle_t*)&conn->stream)) { if (nxtBatch != NULL) { conn->pBatch = nxtBatch; cliSendBatch(conn); } else { addConnToPool(thrd->pool, conn); } } else { cliDestroyBatch(nxtBatch); // conn release by other callback } } cliDestroyBatch(p); taosMemoryFree(req); } static void cliHandleFastFail(SCliConn* pConn, int status) { SCliThrd* pThrd = pConn->hostThrd; STrans* pTransInst = pThrd->pTransInst; if (status == -1) status = ENETUNREACH; if (pConn->pBatch == NULL) { SCliMsg* pMsg = transQueueGet(&pConn->cliMsgs, 0); STraceId* trace = &pMsg->msg.info.traceId; tGError("%s msg %s failed to send, conn %p failed to connect to %s, reason: %s", CONN_GET_INST_LABEL(pConn), TMSG_INFO(pMsg->msg.msgType), pConn, pConn->ip, uv_strerror(status)); if (pMsg != NULL && REQUEST_NO_RESP(&pMsg->msg) && (pTransInst->failFastFp != NULL && pTransInst->failFastFp(pMsg->msg.msgType))) { SFailFastItem* item = taosHashGet(pThrd->failFastCache, pConn->ip, strlen(pConn->ip)); int64_t cTimestamp = taosGetTimestampMs(); if (item != NULL) { int32_t elapse = cTimestamp - item->timestamp; if (elapse >= 0 && elapse <= pTransInst->failFastInterval) { item->count++; } else { item->count = 1; item->timestamp = cTimestamp; } } else { SFailFastItem item = {.count = 1, .timestamp = cTimestamp}; taosHashPut(pThrd->failFastCache, pConn->ip, strlen(pConn->ip), &item, sizeof(SFailFastItem)); } } } else { tError("%s batch msg failed to send, conn %p failed to connect to %s, reason: %s", CONN_GET_INST_LABEL(pConn), pConn, pConn->ip, uv_strerror(status)); cliDestroyBatch(pConn->pBatch); pConn->pBatch = NULL; } cliHandleExcept(pConn); } void cliConnCb(uv_connect_t* req, int status) { SCliConn* pConn = req->data; SCliThrd* pThrd = pConn->hostThrd; bool timeout = false; if (pConn->timer == NULL) { timeout = true; } else { uv_timer_stop(pConn->timer); pConn->timer->data = NULL; taosArrayPush(pThrd->timerList, &pConn->timer); pConn->timer = NULL; } if (status != 0) { if (timeout == false) { cliHandleFastFail(pConn, status); } else if (timeout == true) { // already deal by timeout } return; } int32_t* oVal = taosHashGet(pThrd->connLimitCache, pConn->ip, strlen(pConn->ip)); int32_t nVal = oVal == NULL ? 0 : (*oVal) + 1; taosHashPut(pThrd->connLimitCache, pConn->ip, strlen(pConn->ip), &nVal, sizeof(nVal)); struct sockaddr peername, sockname; int addrlen = sizeof(peername); uv_tcp_getpeername((uv_tcp_t*)pConn->stream, &peername, &addrlen); transSockInfo2Str(&peername, pConn->dst); addrlen = sizeof(sockname); uv_tcp_getsockname((uv_tcp_t*)pConn->stream, &sockname, &addrlen); transSockInfo2Str(&sockname, pConn->src); tTrace("%s conn %p connect to server successfully", CONN_GET_INST_LABEL(pConn), pConn); if (pConn->pBatch != NULL) { cliSendBatch(pConn); } else { cliSend(pConn); } } static void cliHandleQuit(SCliMsg* pMsg, SCliThrd* pThrd) { if (!transAsyncPoolIsEmpty(pThrd->asyncPool)) { pThrd->stopMsg = pMsg; return; } pThrd->stopMsg = NULL; pThrd->quit = true; tDebug("cli work thread %p start to quit", pThrd); destroyCmsg(pMsg); destroyConnPool(pThrd->pool); uv_walk(pThrd->loop, cliWalkCb, NULL); } static void cliHandleRelease(SCliMsg* pMsg, SCliThrd* pThrd) { int64_t refId = (int64_t)(pMsg->msg.info.handle); SExHandle* exh = transAcquireExHandle(transGetRefMgt(), refId); if (exh == NULL) { tDebug("%" PRId64 " already released", refId); destroyCmsg(pMsg); return; } SCliConn* conn = exh->handle; transReleaseExHandle(transGetRefMgt(), refId); tDebug("%s conn %p start to release to inst", CONN_GET_INST_LABEL(conn), conn); if (T_REF_VAL_GET(conn) == 2) { transUnrefCliHandle(conn); if (!transQueuePush(&conn->cliMsgs, pMsg)) { return; } cliSend(conn); } else { tError("%s conn %p already released", CONN_GET_INST_LABEL(conn), conn); destroyCmsg(pMsg); } } static void cliHandleUpdate(SCliMsg* pMsg, SCliThrd* pThrd) { STransConnCtx* pCtx = pMsg->ctx; pThrd->cvtAddr = pCtx->cvtAddr; destroyCmsg(pMsg); } SCliConn* cliGetConn(SCliMsg* pMsg, SCliThrd* pThrd, bool* ignore) { STransConnCtx* pCtx = pMsg->ctx; SCliConn* conn = NULL; int64_t refId = (int64_t)(pMsg->msg.info.handle); if (refId != 0) { SExHandle* exh = transAcquireExHandle(transGetRefMgt(), refId); if (exh == NULL) { tError("failed to get conn, refId: %" PRId64 "", refId); *ignore = true; return NULL; } else { conn = exh->handle; if (conn == NULL) { conn = getConnFromPool(pThrd->pool, EPSET_GET_INUSE_IP(&pCtx->epSet), EPSET_GET_INUSE_PORT(&pCtx->epSet)); if (conn != NULL) specifyConnRef(conn, true, refId); } transReleaseExHandle(transGetRefMgt(), refId); } return conn; }; conn = getConnFromPool(pThrd->pool, EPSET_GET_INUSE_IP(&pCtx->epSet), EPSET_GET_INUSE_PORT(&pCtx->epSet)); if (conn != NULL) { tTrace("%s conn %p get from conn pool:%p", CONN_GET_INST_LABEL(conn), conn, pThrd->pool); } else { tTrace("%s not found conn in conn pool:%p", ((STrans*)pThrd->pTransInst)->label, pThrd->pool); } return conn; } FORCE_INLINE void cliMayCvtFqdnToIp(SEpSet* pEpSet, SCvtAddr* pCvtAddr) { if (pCvtAddr->cvt == false) { return; } if (pEpSet->numOfEps == 1 && strncmp(pEpSet->eps[0].fqdn, pCvtAddr->fqdn, TSDB_FQDN_LEN) == 0) { memset(pEpSet->eps[0].fqdn, 0, TSDB_FQDN_LEN); memcpy(pEpSet->eps[0].fqdn, pCvtAddr->ip, TSDB_FQDN_LEN); } } FORCE_INLINE bool cliIsEpsetUpdated(int32_t code, STransConnCtx* pCtx) { if (code != 0) return false; // if (pCtx->retryCnt == 0) return false; if (transEpSetIsEqual(&pCtx->epSet, &pCtx->origEpSet)) return false; return true; } FORCE_INLINE int32_t cliBuildExceptResp(SCliMsg* pMsg, STransMsg* pResp) { if (pMsg == NULL) return -1; memset(pResp, 0, sizeof(STransMsg)); pResp->code = TSDB_CODE_RPC_BROKEN_LINK; pResp->msgType = pMsg->msg.msgType + 1; pResp->info.ahandle = pMsg->ctx ? pMsg->ctx->ahandle : NULL; pResp->info.traceId = pMsg->msg.info.traceId; return 0; } static FORCE_INLINE uint32_t cliGetIpFromFqdnCache(SHashObj* cache, char* fqdn) { uint32_t addr = 0; uint32_t* v = taosHashGet(cache, fqdn, strlen(fqdn)); if (v == NULL) { addr = taosGetIpv4FromFqdn(fqdn); if (addr == 0xffffffff) { terrno = TAOS_SYSTEM_ERROR(errno); tError("failed to get ip from fqdn:%s since %s", fqdn, terrstr()); return addr; } taosHashPut(cache, fqdn, strlen(fqdn), &addr, sizeof(addr)); } else { addr = *v; } return addr; } static FORCE_INLINE void cliUpdateFqdnCache(SHashObj* cache, char* fqdn) { // impl later return; } static int32_t cliPreCheckSessionLimit(SCliThrd* pThrd, char* ip, uint16_t port) { STrans* pTransInst = pThrd->pTransInst; // STransConnCtx* pCtx = pMsg->ctx; // char* ip = EPSET_GET_INUSE_IP(&pCtx->epSet); // int32_t port = EPSET_GET_INUSE_PORT(&pCtx->epSet); char key[TSDB_FQDN_LEN + 64] = {0}; CONN_CONSTRUCT_HASH_KEY(key, ip, port); int32_t* val = taosHashGet(pThrd->connLimitCache, key, strlen(key)); if (val == NULL) return 0; if (*val >= pTransInst->connLimitNum) { return -1; } return 0; } void cliHandleReq(SCliMsg* pMsg, SCliThrd* pThrd) { STrans* pTransInst = pThrd->pTransInst; STransConnCtx* pCtx = pMsg->ctx; cliMayCvtFqdnToIp(&pCtx->epSet, &pThrd->cvtAddr); STraceId* trace = &pMsg->msg.info.traceId; char* ip = EPSET_GET_INUSE_IP(&pCtx->epSet); uint16_t port = EPSET_GET_INUSE_PORT(&pCtx->epSet); if (!EPSET_IS_VALID(&pCtx->epSet)) { tGError("%s, msg %s sent with invalid epset", pTransInst->label, TMSG_INFO(pMsg->msg.msgType)); destroyCmsg(pMsg); return; } if (REQUEST_NO_RESP(&pMsg->msg) && (pTransInst->failFastFp != NULL && pTransInst->failFastFp(pMsg->msg.msgType))) { char key[TSDB_FQDN_LEN + 64] = {0}; CONN_CONSTRUCT_HASH_KEY(key, ip, port); SFailFastItem* item = taosHashGet(pThrd->failFastCache, key, strlen(key)); if (item != NULL) { int32_t elapse = (int32_t)(taosGetTimestampMs() - item->timestamp); if (item->count >= pTransInst->failFastThreshold && (elapse >= 0 && elapse <= pTransInst->failFastInterval)) { tGTrace("%s, msg %s cancel to send, reason: failed to connect %s:%d: count: %d, at %d", pTransInst->label, TMSG_INFO(pMsg->msg.msgType), ip, port, item->count, elapse); destroyCmsg(pMsg); return; } } } bool ignore = false; SCliConn* conn = cliGetConn(pMsg, pThrd, &ignore); if (ignore == true) { // persist conn already release by server STransMsg resp; cliBuildExceptResp(pMsg, &resp); if (pMsg->type != Release) { pTransInst->cfp(pTransInst->parent, &resp, NULL); } destroyCmsg(pMsg); return; } if (conn == NULL && REQUEST_NO_RESP(&pMsg->msg) && 0 != cliPreCheckSessionLimit(pThrd, ip, port)) { tGTrace("%s, msg %s cancel to send, reason: %s", pTransInst->label, TMSG_INFO(pMsg->msg.msgType), tstrerror(TSDB_CODE_RPC_MAX_SESSIONS)); destroyCmsg(pMsg); return; } if (conn != NULL) { transCtxMerge(&conn->ctx, &pCtx->appCtx); transQueuePush(&conn->cliMsgs, pMsg); cliSend(conn); } else { conn = cliCreateConn(pThrd); int64_t refId = (int64_t)pMsg->msg.info.handle; if (refId != 0) specifyConnRef(conn, true, refId); transCtxMerge(&conn->ctx, &pCtx->appCtx); transQueuePush(&conn->cliMsgs, pMsg); char key[TSDB_FQDN_LEN + 64] = {0}; char* fqdn = EPSET_GET_INUSE_IP(&pCtx->epSet); uint16_t port = EPSET_GET_INUSE_PORT(&pCtx->epSet); CONN_CONSTRUCT_HASH_KEY(key, fqdn, port); conn->ip = taosStrdup(key); uint32_t ipaddr = cliGetIpFromFqdnCache(pThrd->fqdn2ipCache, fqdn); if (ipaddr == 0xffffffff) { uv_timer_stop(conn->timer); conn->timer->data = NULL; taosArrayPush(pThrd->timerList, &conn->timer); conn->timer = NULL; cliHandleExcept(conn); return; } struct sockaddr_in addr; addr.sin_family = AF_INET; addr.sin_addr.s_addr = ipaddr; addr.sin_port = (uint16_t)htons(port); tGTrace("%s conn %p try to connect to %s", pTransInst->label, conn, conn->ip); int32_t fd = taosCreateSocketWithTimeout(TRANS_CONN_TIMEOUT * 4); if (fd == -1) { tGError("%s conn %p failed to create socket, reason:%s", transLabel(pTransInst), conn, tstrerror(TAOS_SYSTEM_ERROR(errno))); cliHandleExcept(conn); errno = 0; return; } int ret = uv_tcp_open((uv_tcp_t*)conn->stream, fd); if (ret != 0) { tGError("%s conn %p failed to set stream, reason:%s", transLabel(pTransInst), conn, uv_err_name(ret)); cliHandleExcept(conn); return; } ret = transSetConnOption((uv_tcp_t*)conn->stream); if (ret != 0) { tGError("%s conn %p failed to set socket opt, reason:%s", transLabel(pTransInst), conn, uv_err_name(ret)); cliHandleExcept(conn); return; } ret = uv_tcp_connect(&conn->connReq, (uv_tcp_t*)(conn->stream), (const struct sockaddr*)&addr, cliConnCb); if (ret != 0) { uv_timer_stop(conn->timer); conn->timer->data = NULL; taosArrayPush(pThrd->timerList, &conn->timer); conn->timer = NULL; cliHandleFastFail(conn, ret); return; } uv_timer_start(conn->timer, cliConnTimeout, TRANS_CONN_TIMEOUT, 0); } tGTrace("%s conn %p ready", pTransInst->label, conn); } static void cliNoBatchDealReq(queue* wq, SCliThrd* pThrd) { int count = 0; while (!QUEUE_IS_EMPTY(wq)) { queue* h = QUEUE_HEAD(wq); QUEUE_REMOVE(h); SCliMsg* pMsg = QUEUE_DATA(h, SCliMsg, q); if (pMsg->type == Quit) { pThrd->stopMsg = pMsg; continue; } (*cliAsyncHandle[pMsg->type])(pMsg, pThrd); count++; } if (count >= 2) { tTrace("cli process batch size:%d", count); } } SCliBatch* cliGetHeadFromList(SCliBatchList* pList) { if (QUEUE_IS_EMPTY(&pList->wq) || pList->connCnt > pList->connMax || pList->sending > pList->connMax) { return NULL; } queue* hr = QUEUE_HEAD(&pList->wq); QUEUE_REMOVE(hr); pList->sending += 1; pList->len -= 1; SCliBatch* batch = QUEUE_DATA(hr, SCliBatch, listq); return batch; } static void cliBatchDealReq(queue* wq, SCliThrd* pThrd) { STrans* pInst = pThrd->pTransInst; int count = 0; while (!QUEUE_IS_EMPTY(wq)) { queue* h = QUEUE_HEAD(wq); QUEUE_REMOVE(h); SCliMsg* pMsg = QUEUE_DATA(h, SCliMsg, q); if (pMsg->type == Quit) { pThrd->stopMsg = pMsg; continue; } if (pMsg->type == Normal && REQUEST_NO_RESP(&pMsg->msg)) { STransConnCtx* pCtx = pMsg->ctx; char* ip = EPSET_GET_INUSE_IP(&pCtx->epSet); uint32_t port = EPSET_GET_INUSE_PORT(&pCtx->epSet); char key[TSDB_FQDN_LEN + 64] = {0}; CONN_CONSTRUCT_HASH_KEY(key, ip, port); // SCliBatch** ppBatch = taosHashGet(pThrd->batchCache, key, sizeof(key)); SCliBatchList** ppBatchList = taosHashGet(pThrd->batchCache, key, sizeof(key)); if (ppBatchList == NULL || *ppBatchList == NULL) { SCliBatchList* pBatchList = taosMemoryCalloc(1, sizeof(SCliBatchList)); QUEUE_INIT(&pBatchList->wq); pBatchList->connMax = pInst->connLimitNum; pBatchList->connCnt = 0; pBatchList->batchLenLimit = pInst->batchSize; pBatchList->len += 1; pBatchList->ip = taosStrdup(ip); pBatchList->dst = taosStrdup(key); pBatchList->port = port; SCliBatch* pBatch = taosMemoryCalloc(1, sizeof(SCliBatch)); QUEUE_INIT(&pBatch->wq); QUEUE_INIT(&pBatch->listq); QUEUE_PUSH(&pBatch->wq, h); pBatch->wLen += 1; pBatch->batchSize += pMsg->msg.contLen; pBatch->pList = pBatchList; QUEUE_PUSH(&pBatchList->wq, &pBatch->listq); taosHashPut(pThrd->batchCache, key, sizeof(key), &pBatchList, sizeof(void*)); } else { if (QUEUE_IS_EMPTY(&(*ppBatchList)->wq)) { SCliBatch* pBatch = taosMemoryCalloc(1, sizeof(SCliBatch)); QUEUE_INIT(&pBatch->wq); QUEUE_INIT(&pBatch->listq); QUEUE_PUSH(&pBatch->wq, h); pBatch->wLen += 1; pBatch->batchSize = pMsg->msg.contLen; pBatch->pList = *ppBatchList; QUEUE_PUSH(&((*ppBatchList)->wq), &pBatch->listq); (*ppBatchList)->len += 1; continue; } queue* hdr = QUEUE_TAIL(&((*ppBatchList)->wq)); SCliBatch* pBatch = QUEUE_DATA(hdr, SCliBatch, listq); if ((pBatch->batchSize + pMsg->msg.contLen) < (*ppBatchList)->batchLenLimit) { QUEUE_PUSH(&pBatch->wq, h); pBatch->batchSize += pMsg->msg.contLen; pBatch->wLen += 1; } else { SCliBatch* pBatch = taosMemoryCalloc(1, sizeof(SCliBatch)); QUEUE_INIT(&pBatch->wq); QUEUE_INIT(&pBatch->listq); QUEUE_PUSH(&pBatch->wq, h); pBatch->wLen += 1; pBatch->batchSize += pMsg->msg.contLen; pBatch->pList = *ppBatchList; QUEUE_PUSH(&((*ppBatchList)->wq), &pBatch->listq); (*ppBatchList)->len += 1; } } continue; } (*cliAsyncHandle[pMsg->type])(pMsg, pThrd); count++; } void** pIter = taosHashIterate(pThrd->batchCache, NULL); while (pIter != NULL) { SCliBatchList* batchList = (SCliBatchList*)(*pIter); SCliBatch* batch = cliGetHeadFromList(batchList); if (batch != NULL) { cliHandleBatchReq(batch, pThrd); } pIter = (void**)taosHashIterate(pThrd->batchCache, pIter); } if (count >= 2) { tTrace("cli process batch size:%d", count); } } static void cliAsyncCb(uv_async_t* handle) { SAsyncItem* item = handle->data; SCliThrd* pThrd = item->pThrd; STrans* pTransInst = pThrd->pTransInst; // batch process to avoid to lock/unlock frequently queue wq; taosThreadMutexLock(&item->mtx); QUEUE_MOVE(&item->qmsg, &wq); taosThreadMutexUnlock(&item->mtx); int8_t supportBatch = pTransInst->supportBatch; if (supportBatch == 0) { cliNoBatchDealReq(&wq, pThrd); } else if (supportBatch == 1) { cliBatchDealReq(&wq, pThrd); } if (pThrd->stopMsg != NULL) cliHandleQuit(pThrd->stopMsg, pThrd); } static void cliPrepareCb(uv_prepare_t* handle) { SCliThrd* thrd = handle->data; tTrace("prepare work start"); SAsyncPool* pool = thrd->asyncPool; for (int i = 0; i < pool->nAsync; i++) { uv_async_t* async = &(pool->asyncs[i]); SAsyncItem* item = async->data; queue wq; taosThreadMutexLock(&item->mtx); QUEUE_MOVE(&item->qmsg, &wq); taosThreadMutexUnlock(&item->mtx); int count = 0; while (!QUEUE_IS_EMPTY(&wq)) { queue* h = QUEUE_HEAD(&wq); QUEUE_REMOVE(h); SCliMsg* pMsg = QUEUE_DATA(h, SCliMsg, q); (*cliAsyncHandle[pMsg->type])(pMsg, thrd); count++; } } tTrace("prepare work end"); if (thrd->stopMsg != NULL) cliHandleQuit(thrd->stopMsg, thrd); } void cliDestroyConnMsgs(SCliConn* conn, bool destroy) { transCtxCleanup(&conn->ctx); cliReleaseUnfinishedMsg(conn); if (destroy == 1) { transQueueDestroy(&conn->cliMsgs); } else { transQueueClear(&conn->cliMsgs); } } void cliIteraConnMsgs(SCliConn* conn) { SCliThrd* pThrd = conn->hostThrd; STrans* pTransInst = pThrd->pTransInst; for (int i = 0; i < transQueueSize(&conn->cliMsgs); i++) { SCliMsg* cmsg = transQueueGet(&conn->cliMsgs, i); if (cmsg->type == Release || REQUEST_NO_RESP(&cmsg->msg) || cmsg->msg.msgType == TDMT_SCH_DROP_TASK) { continue; } STransMsg resp = {0}; if (-1 == cliBuildExceptResp(cmsg, &resp)) { continue; } pTransInst->cfp(pTransInst->parent, &resp, NULL); cmsg->ctx->ahandle = NULL; } } bool cliRecvReleaseReq(SCliConn* conn, STransMsgHead* pHead) { if (pHead->release == 1 && (pHead->msgLen) == sizeof(*pHead)) { uint64_t ahandle = pHead->ahandle; tDebug("ahandle = %" PRIu64 "", ahandle); SCliMsg* pMsg = NULL; CONN_GET_MSGCTX_BY_AHANDLE(conn, ahandle); transClearBuffer(&conn->readBuf); transFreeMsg(transContFromHead((char*)pHead)); for (int i = 0; ahandle == 0 && i < transQueueSize(&conn->cliMsgs); i++) { SCliMsg* cliMsg = transQueueGet(&conn->cliMsgs, i); if (cliMsg->type == Release) { ASSERTS(pMsg == NULL, "trans-cli recv invaid release-req"); return true; } } cliIteraConnMsgs(conn); tDebug("%s conn %p receive release request, refId:%" PRId64 "", CONN_GET_INST_LABEL(conn), conn, conn->refId); destroyCmsg(pMsg); addConnToPool(((SCliThrd*)conn->hostThrd)->pool, conn); return true; } return false; } static void* cliWorkThread(void* arg) { SCliThrd* pThrd = (SCliThrd*)arg; pThrd->pid = taosGetSelfPthreadId(); setThreadName("trans-cli-work"); uv_run(pThrd->loop, UV_RUN_DEFAULT); tDebug("thread quit-thread:%08" PRId64, pThrd->pid); return NULL; } void* transInitClient(uint32_t ip, uint32_t port, char* label, int numOfThreads, void* fp, void* shandle) { SCliObj* cli = taosMemoryCalloc(1, sizeof(SCliObj)); STrans* pTransInst = shandle; memcpy(cli->label, label, TSDB_LABEL_LEN); cli->numOfThreads = numOfThreads; cli->pThreadObj = (SCliThrd**)taosMemoryCalloc(cli->numOfThreads, sizeof(SCliThrd*)); for (int i = 0; i < cli->numOfThreads; i++) { SCliThrd* pThrd = createThrdObj(shandle); if (pThrd == NULL) { goto _err; } int err = taosThreadCreate(&pThrd->thread, NULL, cliWorkThread, (void*)(pThrd)); if (err != 0) { goto _err; } else { tDebug("success to create tranport-cli thread:%d", i); } cli->pThreadObj[i] = pThrd; } return cli; _err: taosMemoryFree(cli->pThreadObj); taosMemoryFree(cli); return NULL; } static FORCE_INLINE void destroyUserdata(STransMsg* userdata) { if (userdata->pCont == NULL) { return; } transFreeMsg(userdata->pCont); userdata->pCont = NULL; } static FORCE_INLINE void destroyCmsg(void* arg) { SCliMsg* pMsg = arg; if (pMsg == NULL) { return; } transDestroyConnCtx(pMsg->ctx); destroyUserdata(&pMsg->msg); taosMemoryFree(pMsg); } static FORCE_INLINE void destroyCmsgAndAhandle(void* param) { if (param == NULL) return; STaskArg* arg = param; SCliMsg* pMsg = arg->param1; SCliThrd* pThrd = arg->param2; tDebug("destroy Ahandle A"); if (pThrd != NULL && pThrd->destroyAhandleFp != NULL) { tDebug("destroy Ahandle B"); pThrd->destroyAhandleFp(pMsg->ctx->ahandle); } tDebug("destroy Ahandle C"); transDestroyConnCtx(pMsg->ctx); destroyUserdata(&pMsg->msg); taosMemoryFree(pMsg); } static SCliThrd* createThrdObj(void* trans) { STrans* pTransInst = trans; SCliThrd* pThrd = (SCliThrd*)taosMemoryCalloc(1, sizeof(SCliThrd)); QUEUE_INIT(&pThrd->msg); taosThreadMutexInit(&pThrd->msgMtx, NULL); pThrd->loop = (uv_loop_t*)taosMemoryMalloc(sizeof(uv_loop_t)); int err = uv_loop_init(pThrd->loop); if (err != 0) { tError("failed to init uv_loop, reason:%s", uv_err_name(err)); taosMemoryFree(pThrd->loop); taosThreadMutexDestroy(&pThrd->msgMtx); taosMemoryFree(pThrd); return NULL; } if (pTransInst->supportBatch) { pThrd->asyncPool = transAsyncPoolCreate(pThrd->loop, 4, pThrd, cliAsyncCb); } else { pThrd->asyncPool = transAsyncPoolCreate(pThrd->loop, 8, pThrd, cliAsyncCb); } if (pThrd->asyncPool == NULL) { tError("failed to init async pool"); uv_loop_close(pThrd->loop); taosMemoryFree(pThrd->loop); taosThreadMutexDestroy(&pThrd->msgMtx); taosMemoryFree(pThrd); return NULL; } pThrd->prepare = taosMemoryCalloc(1, sizeof(uv_prepare_t)); uv_prepare_init(pThrd->loop, pThrd->prepare); pThrd->prepare->data = pThrd; // uv_prepare_start(pThrd->prepare, cliPrepareCb); int32_t timerSize = 64; pThrd->timerList = taosArrayInit(timerSize, sizeof(void*)); for (int i = 0; i < timerSize; i++) { uv_timer_t* timer = taosMemoryCalloc(1, sizeof(uv_timer_t)); uv_timer_init(pThrd->loop, timer); taosArrayPush(pThrd->timerList, &timer); } pThrd->pool = createConnPool(4); transDQCreate(pThrd->loop, &pThrd->delayQueue); transDQCreate(pThrd->loop, &pThrd->timeoutQueue); pThrd->nextTimeout = taosGetTimestampMs() + CONN_PERSIST_TIME(pTransInst->idleTime); pThrd->pTransInst = trans; pThrd->destroyAhandleFp = pTransInst->destroyFp; pThrd->fqdn2ipCache = taosHashInit(4, taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY), true, HASH_NO_LOCK); pThrd->failFastCache = taosHashInit(8, taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY), true, HASH_NO_LOCK); pThrd->connLimitCache = taosHashInit(8, taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY), true, pTransInst->connLimitLock == 0 ? HASH_NO_LOCK : HASH_ENTRY_LOCK); pThrd->batchCache = taosHashInit(8, taosGetDefaultHashFunction(TSDB_DATA_TYPE_BINARY), true, HASH_NO_LOCK); pThrd->quit = false; return pThrd; } static void destroyThrdObj(SCliThrd* pThrd) { if (pThrd == NULL) { return; } taosThreadJoin(pThrd->thread, NULL); CLI_RELEASE_UV(pThrd->loop); taosThreadMutexDestroy(&pThrd->msgMtx); TRANS_DESTROY_ASYNC_POOL_MSG(pThrd->asyncPool, SCliMsg, destroyCmsg); transAsyncPoolDestroy(pThrd->asyncPool); transDQDestroy(pThrd->delayQueue, destroyCmsgAndAhandle); transDQDestroy(pThrd->timeoutQueue, NULL); tDebug("thread destroy %" PRId64, pThrd->pid); for (int i = 0; i < taosArrayGetSize(pThrd->timerList); i++) { uv_timer_t* timer = taosArrayGetP(pThrd->timerList, i); taosMemoryFree(timer); } taosArrayDestroy(pThrd->timerList); taosMemoryFree(pThrd->prepare); taosMemoryFree(pThrd->loop); taosHashCleanup(pThrd->fqdn2ipCache); taosHashCleanup(pThrd->failFastCache); taosHashCleanup(pThrd->connLimitCache); void** pIter = taosHashIterate(pThrd->batchCache, NULL); while (pIter != NULL) { SCliBatchList* pBatchList = (SCliBatchList*)(*pIter); while (!QUEUE_IS_EMPTY(&pBatchList->wq)) { queue* h = QUEUE_HEAD(&pBatchList->wq); QUEUE_REMOVE(h); SCliBatch* pBatch = QUEUE_DATA(h, SCliBatch, listq); cliDestroyBatch(pBatch); } taosMemoryFree(pBatchList->ip); taosMemoryFree(pBatchList->dst); taosMemoryFree(pBatchList); pIter = (void**)taosHashIterate(pThrd->batchCache, pIter); } taosHashCleanup(pThrd->batchCache); taosMemoryFree(pThrd); } static FORCE_INLINE void transDestroyConnCtx(STransConnCtx* ctx) { // taosMemoryFree(ctx); } void cliSendQuit(SCliThrd* thrd) { // cli can stop gracefully SCliMsg* msg = taosMemoryCalloc(1, sizeof(SCliMsg)); msg->type = Quit; transAsyncSend(thrd->asyncPool, &msg->q); atomic_store_8(&thrd->asyncPool->stop, 1); } void cliWalkCb(uv_handle_t* handle, void* arg) { if (!uv_is_closing(handle)) { if (uv_handle_get_type(handle) == UV_TIMER) { // SCliConn* pConn = handle->data; // if (pConn != NULL && pConn->timer != NULL) { // SCliThrd* pThrd = pConn->hostThrd; // uv_timer_stop((uv_timer_t*)handle); // handle->data = NULL; // taosArrayPush(pThrd->timerList, &pConn->timer); // pConn->timer = NULL; // } } else { uv_read_stop((uv_stream_t*)handle); } uv_close(handle, cliDestroy); } } FORCE_INLINE int cliRBChoseIdx(STrans* pTransInst) { int32_t index = pTransInst->index; if (pTransInst->numOfThreads == 0) { return -1; } /* * no lock, and to avoid CPU load imbalance, set limit pTransInst->numOfThreads * 2000; */ if (pTransInst->index++ >= pTransInst->numOfThreads * 2000) { pTransInst->index = 0; } return index % pTransInst->numOfThreads; } static FORCE_INLINE void doDelayTask(void* param) { STaskArg* arg = param; cliHandleReq((SCliMsg*)arg->param1, (SCliThrd*)arg->param2); taosMemoryFree(arg); } static void doCloseIdleConn(void* param) { STaskArg* arg = param; SCliConn* conn = arg->param1; tDebug("%s conn %p idle, close it", CONN_GET_INST_LABEL(conn), conn); conn->task = NULL; cliDestroyConn(conn, true); taosMemoryFree(arg); } static void cliSchedMsgToNextNode(SCliMsg* pMsg, SCliThrd* pThrd) { STrans* pTransInst = pThrd->pTransInst; STransConnCtx* pCtx = pMsg->ctx; STraceId* trace = &pMsg->msg.info.traceId; char tbuf[256] = {0}; EPSET_DEBUG_STR(&pCtx->epSet, tbuf); tGDebug("%s retry on next node,use:%s, step: %d,timeout:%" PRId64 "", transLabel(pThrd->pTransInst), tbuf, pCtx->retryStep, pCtx->retryNextInterval); STaskArg* arg = taosMemoryMalloc(sizeof(STaskArg)); arg->param1 = pMsg; arg->param2 = pThrd; transDQSched(pThrd->delayQueue, doDelayTask, arg, pCtx->retryNextInterval); } FORCE_INLINE void cliCompareAndSwap(int8_t* val, int8_t exp, int8_t newVal) { if (*val != exp) { *val = newVal; } } FORCE_INLINE bool cliTryExtractEpSet(STransMsg* pResp, SEpSet* dst) { if ((pResp == NULL || pResp->info.hasEpSet == 0)) { return false; } // rebuild resp msg SEpSet epset; if (tDeserializeSEpSet(pResp->pCont, pResp->contLen, &epset) < 0) { return false; } int32_t tlen = tSerializeSEpSet(NULL, 0, dst); char* buf = NULL; int32_t len = pResp->contLen - tlen; if (len != 0) { buf = rpcMallocCont(len); memcpy(buf, (char*)pResp->pCont + tlen, len); } rpcFreeCont(pResp->pCont); pResp->pCont = buf; pResp->contLen = len; *dst = epset; return true; } bool cliResetEpset(STransConnCtx* pCtx, STransMsg* pResp, bool hasEpSet) { bool noDelay = true; if (hasEpSet == false) { if (pResp->contLen == 0) { if (pCtx->epsetRetryCnt >= pCtx->epSet.numOfEps) { noDelay = false; } else { EPSET_FORWARD_INUSE(&pCtx->epSet); } } else if (pResp->contLen != 0) { SEpSet epSet; int32_t valid = tDeserializeSEpSet(pResp->pCont, pResp->contLen, &epSet); if (valid < 0) { tDebug("get invalid epset, epset equal, continue"); if (pCtx->epsetRetryCnt >= pCtx->epSet.numOfEps) { noDelay = false; } else { EPSET_FORWARD_INUSE(&pCtx->epSet); } } else { if (!transEpSetIsEqual(&pCtx->epSet, &epSet)) { tDebug("epset not equal, retry new epset"); pCtx->epSet = epSet; noDelay = false; } else { if (pCtx->epsetRetryCnt >= pCtx->epSet.numOfEps) { noDelay = false; } else { tDebug("epset equal, continue"); EPSET_FORWARD_INUSE(&pCtx->epSet); } } } } } else { SEpSet epSet; int32_t valid = tDeserializeSEpSet(pResp->pCont, pResp->contLen, &epSet); if (valid < 0) { tDebug("get invalid epset, epset equal, continue"); if (pCtx->epsetRetryCnt >= pCtx->epSet.numOfEps) { noDelay = false; } else { EPSET_FORWARD_INUSE(&pCtx->epSet); } } else { if (!transEpSetIsEqual(&pCtx->epSet, &epSet)) { tDebug("epset not equal, retry new epset"); pCtx->epSet = epSet; noDelay = false; } else { if (pCtx->epsetRetryCnt >= pCtx->epSet.numOfEps) { noDelay = false; } else { tDebug("epset equal, continue"); EPSET_FORWARD_INUSE(&pCtx->epSet); } } } } return noDelay; } bool cliGenRetryRule(SCliConn* pConn, STransMsg* pResp, SCliMsg* pMsg) { SCliThrd* pThrd = pConn->hostThrd; STrans* pTransInst = pThrd->pTransInst; STransConnCtx* pCtx = pMsg->ctx; int32_t code = pResp->code; bool retry = pTransInst->retry != NULL ? pTransInst->retry(code, pResp->msgType - 1) : false; if (retry == false) { return false; } if (!pCtx->retryInit) { pCtx->retryMinInterval = pTransInst->retryMinInterval; pCtx->retryMaxInterval = pTransInst->retryMaxInterval; pCtx->retryStepFactor = pTransInst->retryStepFactor; pCtx->retryMaxTimeout = pTransInst->retryMaxTimouet; pCtx->retryInitTimestamp = taosGetTimestampMs(); pCtx->retryNextInterval = pCtx->retryMinInterval; pCtx->retryStep = 0; pCtx->retryInit = true; pCtx->retryCode = TSDB_CODE_SUCCESS; // already retry, not use handle specified by app; pMsg->msg.info.handle = 0; } if (-1 != pCtx->retryMaxTimeout && taosGetTimestampMs() - pCtx->retryInitTimestamp >= pCtx->retryMaxTimeout) { return false; } // code, msgType // A: epset, leader, not self // B: epset, not know leader // C: no epset, leader but not serivce bool noDelay = false; if (code == TSDB_CODE_RPC_BROKEN_LINK || code == TSDB_CODE_RPC_NETWORK_UNAVAIL) { tTrace("code str %s, contlen:%d 0", tstrerror(code), pResp->contLen); noDelay = cliResetEpset(pCtx, pResp, false); transFreeMsg(pResp->pCont); transUnrefCliHandle(pConn); } else if (code == TSDB_CODE_SYN_NOT_LEADER || code == TSDB_CODE_SYN_INTERNAL_ERROR || code == TSDB_CODE_SYN_PROPOSE_NOT_READY || code == TSDB_CODE_VND_STOPPED || code == TSDB_CODE_MNODE_NOT_FOUND || code == TSDB_CODE_APP_IS_STARTING || code == TSDB_CODE_APP_IS_STOPPING || code == TSDB_CODE_VND_STOPPED) { tTrace("code str %s, contlen:%d 1", tstrerror(code), pResp->contLen); noDelay = cliResetEpset(pCtx, pResp, true); transFreeMsg(pResp->pCont); addConnToPool(pThrd->pool, pConn); } else if (code == TSDB_CODE_SYN_RESTORING) { tTrace("code str %s, contlen:%d 0", tstrerror(code), pResp->contLen); noDelay = cliResetEpset(pCtx, pResp, true); addConnToPool(pThrd->pool, pConn); transFreeMsg(pResp->pCont); } else { tTrace("code str %s, contlen:%d 0", tstrerror(code), pResp->contLen); noDelay = cliResetEpset(pCtx, pResp, false); addConnToPool(pThrd->pool, pConn); transFreeMsg(pResp->pCont); } if (code != TSDB_CODE_RPC_BROKEN_LINK && code != TSDB_CODE_RPC_NETWORK_UNAVAIL && code != TSDB_CODE_SUCCESS) { // save one internal code pCtx->retryCode = code; } if (noDelay == false) { pCtx->epsetRetryCnt = 1; pCtx->retryStep++; int64_t factor = pow(pCtx->retryStepFactor, pCtx->retryStep - 1); pCtx->retryNextInterval = factor * pCtx->retryMinInterval; if (pCtx->retryNextInterval >= pCtx->retryMaxInterval) { pCtx->retryNextInterval = pCtx->retryMaxInterval; } // if (-1 != pCtx->retryMaxTimeout && taosGetTimestampMs() - pCtx->retryInitTimestamp >= pCtx->retryMaxTimeout) { // return false; // } } else { pCtx->retryNextInterval = 0; pCtx->epsetRetryCnt++; } pMsg->sent = 0; cliSchedMsgToNextNode(pMsg, pThrd); return true; } int cliAppCb(SCliConn* pConn, STransMsg* pResp, SCliMsg* pMsg) { SCliThrd* pThrd = pConn->hostThrd; STrans* pTransInst = pThrd->pTransInst; if (pMsg == NULL || pMsg->ctx == NULL) { tTrace("%s conn %p handle resp", pTransInst->label, pConn); pTransInst->cfp(pTransInst->parent, pResp, NULL); return 0; } STransConnCtx* pCtx = pMsg->ctx; bool retry = cliGenRetryRule(pConn, pResp, pMsg); if (retry == true) { return -1; } if (pCtx->retryCode != TSDB_CODE_SUCCESS) { int32_t code = pResp->code; // return internal code app if (code == TSDB_CODE_RPC_NETWORK_UNAVAIL || code == TSDB_CODE_RPC_BROKEN_LINK || code == TSDB_CODE_RPC_SOMENODE_NOT_CONNECTED) { pResp->code = pCtx->retryCode; } } // check whole vnodes is offline on this vgroup if (pCtx->epsetRetryCnt >= pCtx->epSet.numOfEps || pCtx->retryStep > 0) { if (pResp->code == TSDB_CODE_RPC_NETWORK_UNAVAIL) { pResp->code = TSDB_CODE_RPC_SOMENODE_NOT_CONNECTED; } else if (pResp->code == TSDB_CODE_RPC_BROKEN_LINK) { pResp->code = TSDB_CODE_RPC_SOMENODE_BROKEN_LINK; } } STraceId* trace = &pResp->info.traceId; bool hasEpSet = cliTryExtractEpSet(pResp, &pCtx->epSet); if (hasEpSet) { char tbuf[256] = {0}; EPSET_DEBUG_STR(&pCtx->epSet, tbuf); tGTrace("%s conn %p extract epset from msg", CONN_GET_INST_LABEL(pConn), pConn); } if (pCtx->pSem != NULL) { tGTrace("%s conn %p(sync) handle resp", CONN_GET_INST_LABEL(pConn), pConn); if (pCtx->pRsp == NULL) { tGTrace("%s conn %p(sync) failed to resp, ignore", CONN_GET_INST_LABEL(pConn), pConn); } else { memcpy((char*)pCtx->pRsp, (char*)pResp, sizeof(*pResp)); } tsem_post(pCtx->pSem); pCtx->pRsp = NULL; } else { tGTrace("%s conn %p handle resp", CONN_GET_INST_LABEL(pConn), pConn); if (retry == false && hasEpSet == true) { pTransInst->cfp(pTransInst->parent, pResp, &pCtx->epSet); } else { if (!cliIsEpsetUpdated(pResp->code, pCtx)) { pTransInst->cfp(pTransInst->parent, pResp, NULL); } else { pTransInst->cfp(pTransInst->parent, pResp, &pCtx->epSet); } } } return 0; } void transCloseClient(void* arg) { SCliObj* cli = arg; for (int i = 0; i < cli->numOfThreads; i++) { cliSendQuit(cli->pThreadObj[i]); destroyThrdObj(cli->pThreadObj[i]); } taosMemoryFree(cli->pThreadObj); taosMemoryFree(cli); } void transRefCliHandle(void* handle) { if (handle == NULL) { return; } int ref = T_REF_INC((SCliConn*)handle); tTrace("%s conn %p ref %d", CONN_GET_INST_LABEL((SCliConn*)handle), handle, ref); UNUSED(ref); } void transUnrefCliHandle(void* handle) { if (handle == NULL) { return; } int ref = T_REF_DEC((SCliConn*)handle); tTrace("%s conn %p ref:%d", CONN_GET_INST_LABEL((SCliConn*)handle), handle, ref); if (ref == 0) { cliDestroyConn((SCliConn*)handle, true); } } static FORCE_INLINE SCliThrd* transGetWorkThrdFromHandle(STrans* trans, int64_t handle) { SCliThrd* pThrd = NULL; SExHandle* exh = transAcquireExHandle(transGetRefMgt(), handle); if (exh == NULL) { return NULL; } if (exh->pThrd == NULL && trans != NULL) { int idx = cliRBChoseIdx(trans); if (idx < 0) return NULL; exh->pThrd = ((SCliObj*)trans->tcphandle)->pThreadObj[idx]; } pThrd = exh->pThrd; transReleaseExHandle(transGetRefMgt(), handle); return pThrd; } SCliThrd* transGetWorkThrd(STrans* trans, int64_t handle) { if (handle == 0) { int idx = cliRBChoseIdx(trans); if (idx < 0) return NULL; return ((SCliObj*)trans->tcphandle)->pThreadObj[idx]; } SCliThrd* pThrd = transGetWorkThrdFromHandle(trans, handle); return pThrd; } int transReleaseCliHandle(void* handle) { int idx = -1; bool valid = false; SCliThrd* pThrd = transGetWorkThrdFromHandle(NULL, (int64_t)handle); if (pThrd == NULL) { return -1; } STransMsg tmsg = {.info.handle = handle, .info.ahandle = (void*)0x9527}; TRACE_SET_MSGID(&tmsg.info.traceId, tGenIdPI64()); STransConnCtx* pCtx = taosMemoryCalloc(1, sizeof(STransConnCtx)); pCtx->ahandle = tmsg.info.ahandle; SCliMsg* cmsg = taosMemoryCalloc(1, sizeof(SCliMsg)); cmsg->msg = tmsg; cmsg->st = taosGetTimestampUs(); cmsg->type = Release; cmsg->ctx = pCtx; STraceId* trace = &tmsg.info.traceId; tGDebug("send release request at thread:%08" PRId64 "", pThrd->pid); if (0 != transAsyncSend(pThrd->asyncPool, &cmsg->q)) { destroyCmsg(cmsg); return -1; } return 0; } int transSendRequest(void* shandle, const SEpSet* pEpSet, STransMsg* pReq, STransCtx* ctx) { STrans* pTransInst = (STrans*)transAcquireExHandle(transGetInstMgt(), (int64_t)shandle); if (pTransInst == NULL) { transFreeMsg(pReq->pCont); return -1; } SCliThrd* pThrd = transGetWorkThrd(pTransInst, (int64_t)pReq->info.handle); if (pThrd == NULL) { transFreeMsg(pReq->pCont); transReleaseExHandle(transGetInstMgt(), (int64_t)shandle); return TSDB_CODE_RPC_BROKEN_LINK; } TRACE_SET_MSGID(&pReq->info.traceId, tGenIdPI64()); STransConnCtx* pCtx = taosMemoryCalloc(1, sizeof(STransConnCtx)); pCtx->epSet = *pEpSet; pCtx->origEpSet = *pEpSet; pCtx->ahandle = pReq->info.ahandle; pCtx->msgType = pReq->msgType; if (ctx != NULL) pCtx->appCtx = *ctx; SCliMsg* cliMsg = taosMemoryCalloc(1, sizeof(SCliMsg)); cliMsg->ctx = pCtx; cliMsg->msg = *pReq; cliMsg->st = taosGetTimestampUs(); cliMsg->type = Normal; cliMsg->refId = (int64_t)shandle; STraceId* trace = &pReq->info.traceId; tGDebug("%s send request at thread:%08" PRId64 ", dst:%s:%d, app:%p", transLabel(pTransInst), pThrd->pid, EPSET_GET_INUSE_IP(&pCtx->epSet), EPSET_GET_INUSE_PORT(&pCtx->epSet), pReq->info.ahandle); if (0 != transAsyncSend(pThrd->asyncPool, &(cliMsg->q))) { destroyCmsg(cliMsg); transReleaseExHandle(transGetInstMgt(), (int64_t)shandle); return -1; } transReleaseExHandle(transGetInstMgt(), (int64_t)shandle); return 0; } int transSendRecv(void* shandle, const SEpSet* pEpSet, STransMsg* pReq, STransMsg* pRsp) { STrans* pTransInst = (STrans*)transAcquireExHandle(transGetInstMgt(), (int64_t)shandle); if (pTransInst == NULL) { transFreeMsg(pReq->pCont); return -1; } SCliThrd* pThrd = transGetWorkThrd(pTransInst, (int64_t)pReq->info.handle); if (pThrd == NULL) { transFreeMsg(pReq->pCont); transReleaseExHandle(transGetInstMgt(), (int64_t)shandle); return TSDB_CODE_RPC_BROKEN_LINK; } tsem_t* sem = taosMemoryCalloc(1, sizeof(tsem_t)); tsem_init(sem, 0, 0); TRACE_SET_MSGID(&pReq->info.traceId, tGenIdPI64()); STransConnCtx* pCtx = taosMemoryCalloc(1, sizeof(STransConnCtx)); pCtx->epSet = *pEpSet; pCtx->origEpSet = *pEpSet; pCtx->ahandle = pReq->info.ahandle; pCtx->msgType = pReq->msgType; pCtx->pSem = sem; pCtx->pRsp = pRsp; SCliMsg* cliMsg = taosMemoryCalloc(1, sizeof(SCliMsg)); cliMsg->ctx = pCtx; cliMsg->msg = *pReq; cliMsg->st = taosGetTimestampUs(); cliMsg->type = Normal; cliMsg->refId = (int64_t)shandle; STraceId* trace = &pReq->info.traceId; tGDebug("%s send request at thread:%08" PRId64 ", dst:%s:%d, app:%p", transLabel(pTransInst), pThrd->pid, EPSET_GET_INUSE_IP(&pCtx->epSet), EPSET_GET_INUSE_PORT(&pCtx->epSet), pReq->info.ahandle); int ret = transAsyncSend(pThrd->asyncPool, &cliMsg->q); if (ret != 0) { destroyCmsg(cliMsg); goto _RETURN; } tsem_wait(sem); _RETURN: tsem_destroy(sem); taosMemoryFree(sem); transReleaseExHandle(transGetInstMgt(), (int64_t)shandle); return ret; } /* * **/ int transSetDefaultAddr(void* shandle, const char* ip, const char* fqdn) { STrans* pTransInst = (STrans*)transAcquireExHandle(transGetInstMgt(), (int64_t)shandle); if (pTransInst == NULL) { return -1; } SCvtAddr cvtAddr = {0}; if (ip != NULL && fqdn != NULL) { tstrncpy(cvtAddr.ip, ip, sizeof(cvtAddr.ip)); tstrncpy(cvtAddr.fqdn, fqdn, sizeof(cvtAddr.fqdn)); cvtAddr.cvt = true; } for (int i = 0; i < pTransInst->numOfThreads; i++) { STransConnCtx* pCtx = taosMemoryCalloc(1, sizeof(STransConnCtx)); pCtx->cvtAddr = cvtAddr; SCliMsg* cliMsg = taosMemoryCalloc(1, sizeof(SCliMsg)); cliMsg->ctx = pCtx; cliMsg->type = Update; cliMsg->refId = (int64_t)shandle; SCliThrd* thrd = ((SCliObj*)pTransInst->tcphandle)->pThreadObj[i]; tDebug("%s update epset at thread:%08" PRId64, pTransInst->label, thrd->pid); if (transAsyncSend(thrd->asyncPool, &(cliMsg->q)) != 0) { destroyCmsg(cliMsg); transReleaseExHandle(transGetInstMgt(), (int64_t)shandle); return -1; } } transReleaseExHandle(transGetInstMgt(), (int64_t)shandle); return 0; } int64_t transAllocHandle() { SExHandle* exh = taosMemoryCalloc(1, sizeof(SExHandle)); exh->refId = transAddExHandle(transGetRefMgt(), exh); tDebug("pre alloc refId %" PRId64 "", exh->refId); return exh->refId; }