/* * 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 . */ #ifdef USE_UV #include "transComm.h" typedef struct SCliConn { T_REF_DECLARE() uv_connect_t connReq; uv_stream_t* stream; uv_write_t writeReq; void* hostThrd; SConnBuffer readBuf; void* data; STransQueue cliMsgs; queue conn; uint64_t expireTime; int hThrdIdx; STransCtx ctx; bool broken; // link broken or not ConnStatus status; // int release; // 1: release // spi configure char spi; char secured; char* ip; uint32_t port; // debug and log info struct sockaddr_in addr; struct sockaddr_in locaddr; } SCliConn; typedef struct SCliMsg { STransConnCtx* ctx; STransMsg msg; queue q; uint64_t st; STransMsgType type; int sent; //(0: no send, 1: alread sent) } SCliMsg; typedef struct SCliThrdObj { TdThread thread; uv_loop_t* loop; SAsyncPool* asyncPool; uv_timer_t timer; void* pool; // conn pool // msg queue queue msg; TdThreadMutex msgMtx; uint64_t nextTimeout; // next timeout void* pTransInst; // bool quit; } SCliThrdObj; typedef struct SCliObj { char label[TSDB_LABEL_LEN]; int32_t index; int numOfThreads; SCliThrdObj** pThreadObj; } SCliObj; typedef struct SConnList { queue conn; } SConnList; // 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); // register timer in each thread to clear expire conn static void cliTimeoutCb(uv_timer_t* handle); // alloc buf for recv static void cliAllocRecvBufferCb(uv_handle_t* handle, size_t suggested_size, uv_buf_t* buf); // callback after read nbytes from socket static void cliRecvCb(uv_stream_t* cli, ssize_t nread, const uv_buf_t* buf); // callback after write 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 SCliConn* cliCreateConn(SCliThrdObj* 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); // process data read from server, add decompress etc later static void cliHandleResp(SCliConn* conn); // handle except about conn static void cliHandleExcept(SCliConn* conn); // handle req from app static void cliHandleReq(SCliMsg* pMsg, SCliThrdObj* pThrd); static void cliHandleQuit(SCliMsg* pMsg, SCliThrdObj* pThrd); static void cliHandleRelease(SCliMsg* pMsg, SCliThrdObj* pThrd); static void (*cliAsyncHandle[])(SCliMsg* pMsg, SCliThrdObj* pThrd) = {cliHandleReq, cliHandleQuit, cliHandleRelease}; static void cliSendQuit(SCliThrdObj* thrd); static void destroyUserdata(STransMsg* userdata); static int cliRBChoseIdx(STrans* pTransInst); static void destroyCmsg(SCliMsg* cmsg); static void transDestroyConnCtx(STransConnCtx* ctx); // thread obj static SCliThrdObj* createThrdObj(); static void destroyThrdObj(SCliThrdObj* 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 { \ snprintf(key, sizeof(key), "%s:%d", ip, (int)port); \ } while (0) #define CONN_HOST_THREAD_INDEX(conn) (conn ? ((SCliConn*)conn)->hThrdIdx : -1) #define CONN_PERSIST_TIME(para) (para * 1000 * 10) #define CONN_GET_HOST_THREAD(conn) (conn ? ((SCliConn*)conn)->hostThrd : NULL) #define CONN_GET_INST_LABEL(conn) (((STrans*)(((SCliThrdObj*)(conn)->hostThrd)->pTransInst))->label) #define CONN_SHOULD_RELEASE(conn, head) \ do { \ if ((head)->release == 1 && (head->msgLen) == sizeof(*head)) { \ uint64_t ahandle = head->ahandle; \ CONN_GET_MSGCTX_BY_AHANDLE(conn, ahandle); \ conn->status = ConnRelease; \ transClearBuffer(&conn->readBuf); \ transFreeMsg(transContFromHead((char*)head)); \ tDebug("cli conn %p receive release request, ref: %d", conn, T_REF_VAL_GET(conn)); \ while (T_REF_VAL_GET(conn) > 1) { \ transUnrefCliHandle(conn); \ } \ if (T_REF_VAL_GET(conn) == 1) { \ SCliThrdObj* thrd = conn->hostThrd; \ addConnToPool(thrd->pool, conn); \ } \ destroyCmsg(pMsg); \ return; \ } \ } while (0) #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 != NULL && pMsg->ctx != NULL && (uint64_t)pMsg->ctx->ahandle == ahandle) { \ break; \ } \ } \ if (i == sz) { \ pMsg = NULL; \ } else { \ pMsg = transQueueRm(&conn->cliMsgs, i); \ } \ } 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_HANDLE_THREAD_QUIT(thrd) \ do { \ if (thrd->quit) { \ return; \ } \ } while (0) #define CONN_HANDLE_BROKEN(conn) \ do { \ if (conn->broken) { \ cliHandleExcept(conn); \ 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)->noResp == 1) #define REQUEST_PERSIS_HANDLE(msg) ((msg)->persistHandle == 1) #define REQUEST_RELEASE_HANDLE(cmsg) ((cmsg)->type == Release) static void* cliWorkThread(void* arg); bool cliMaySendCachedMsg(SCliConn* conn) { if (!transQueueEmpty(&conn->cliMsgs)) { SCliMsg* pCliMsg = NULL; CONN_GET_NEXT_SENDMSG(conn); cliSend(conn); } return false; _RETURN: return false; } void cliHandleResp(SCliConn* conn) { SCliThrdObj* pThrd = conn->hostThrd; STrans* pTransInst = pThrd->pTransInst; STransMsgHead* pHead = (STransMsgHead*)(conn->readBuf.buf); pHead->code = htonl(pHead->code); pHead->msgLen = htonl(pHead->msgLen); STransMsg transMsg = {0}; transMsg.contLen = transContLenFromMsg(pHead->msgLen); transMsg.pCont = transContFromHead((char*)pHead); transMsg.code = pHead->code; transMsg.msgType = pHead->msgType; transMsg.ahandle = NULL; SCliMsg* pMsg = NULL; STransConnCtx* pCtx = NULL; CONN_SHOULD_RELEASE(conn, pHead); if (CONN_NO_PERSIST_BY_APP(conn)) { pMsg = transQueuePop(&conn->cliMsgs); pCtx = pMsg ? pMsg->ctx : NULL; if (pMsg == NULL && !CONN_NO_PERSIST_BY_APP(conn)) { transMsg.ahandle = transCtxDumpVal(&conn->ctx, transMsg.msgType); if (transMsg.ahandle == NULL) { transMsg.ahandle = transCtxDumpBrokenlinkVal(&conn->ctx, (int32_t*)&(transMsg.msgType)); } tDebug("cli conn %p construct ahandle %p, persist: 0", conn, transMsg.ahandle); } else { transMsg.ahandle = pCtx ? pCtx->ahandle : NULL; tDebug("cli conn %p get ahandle %p, persist: 0", conn, transMsg.ahandle); } } else { uint64_t ahandle = (uint64_t)pHead->ahandle; CONN_GET_MSGCTX_BY_AHANDLE(conn, ahandle); if (pMsg == NULL) { transMsg.ahandle = transCtxDumpVal(&conn->ctx, transMsg.msgType); tDebug("cli conn %p construct ahandle %p by %s, persist: 1", conn, transMsg.ahandle, TMSG_INFO(transMsg.msgType)); if (!CONN_RELEASE_BY_SERVER(conn) && transMsg.ahandle == NULL) { transMsg.code = TSDB_CODE_RPC_NETWORK_UNAVAIL; transMsg.ahandle = transCtxDumpBrokenlinkVal(&conn->ctx, (int32_t*)&(transMsg.msgType)); tDebug("cli conn %p construct ahandle %p due brokenlink, persist: 1", conn, transMsg.ahandle); } } else { pCtx = pMsg ? pMsg->ctx : NULL; transMsg.ahandle = pCtx ? pCtx->ahandle : NULL; tDebug("cli conn %p get ahandle %p, persist: 1", conn, transMsg.ahandle); } } // buf's mem alread translated to transMsg.pCont transClearBuffer(&conn->readBuf); if (!CONN_NO_PERSIST_BY_APP(conn)) { transMsg.handle = conn; tDebug("%s cli conn %p ref by app", CONN_GET_INST_LABEL(conn), conn); } tDebug("%s cli conn %p %s received from %s:%d, local info: %s:%d, msg size: %d", pTransInst->label, conn, TMSG_INFO(pHead->msgType), taosInetNtoa(conn->addr.sin_addr), ntohs(conn->addr.sin_port), taosInetNtoa(conn->locaddr.sin_addr), ntohs(conn->locaddr.sin_port), transMsg.contLen); conn->secured = pHead->secured; if (pCtx == NULL && CONN_NO_PERSIST_BY_APP(conn)) { tTrace("except, server continue send while cli ignore it"); // transUnrefCliHandle(conn); return; } if (CONN_RELEASE_BY_SERVER(conn) && transMsg.ahandle == NULL) { tTrace("except, server continue send while cli ignore it"); // transUnrefCliHandle(conn); return; } if (pCtx == NULL || pCtx->pSem == NULL) { tTrace("%s cli conn %p handle resp", pTransInst->label, conn); (pTransInst->cfp)(pTransInst->parent, &transMsg, NULL); } else { tTrace("%s cli conn(sync) %p handle resp", pTransInst->label, conn); memcpy((char*)pCtx->pRsp, (char*)&transMsg, sizeof(transMsg)); tsem_post(pCtx->pSem); } destroyCmsg(pMsg); if (cliMaySendCachedMsg(conn) == true) { return; } if (CONN_NO_PERSIST_BY_APP(conn)) { addConnToPool(pThrd->pool, conn); } uv_read_start((uv_stream_t*)conn->stream, cliAllocRecvBufferCb, cliRecvCb); // start thread's timer of conn pool if not active if (!uv_is_active((uv_handle_t*)&pThrd->timer) && pTransInst->idleTime > 0) { // uv_timer_start((uv_timer_t*)&pThrd->timer, cliTimeoutCb, CONN_PERSIST_TIME(pRpc->idleTime) / 2, 0); } } void cliHandleExcept(SCliConn* pConn) { if (transQueueEmpty(&pConn->cliMsgs)) { if (pConn->broken == true && CONN_NO_PERSIST_BY_APP(pConn)) { tTrace("%s cli conn %p handle except, persist:0", CONN_GET_INST_LABEL(pConn), pConn); transUnrefCliHandle(pConn); return; } } SCliThrdObj* pThrd = pConn->hostThrd; STrans* pTransInst = pThrd->pTransInst; bool once = false; do { SCliMsg* pMsg = transQueuePop(&pConn->cliMsgs); if (pMsg == NULL && once) { break; } STransConnCtx* pCtx = pMsg ? pMsg->ctx : NULL; STransMsg transMsg = {0}; transMsg.code = TSDB_CODE_RPC_NETWORK_UNAVAIL; transMsg.msgType = pMsg ? pMsg->msg.msgType + 1 : 0; transMsg.ahandle = NULL; transMsg.handle = pConn; if (pMsg == NULL && !CONN_NO_PERSIST_BY_APP(pConn)) { transMsg.ahandle = transCtxDumpVal(&pConn->ctx, transMsg.msgType); tDebug("%s cli conn %p construct ahandle %p by %s", CONN_GET_INST_LABEL(pConn), pConn, transMsg.ahandle, TMSG_INFO(transMsg.msgType)); if (transMsg.ahandle == NULL) { transMsg.ahandle = transCtxDumpBrokenlinkVal(&pConn->ctx, (int32_t*)&(transMsg.msgType)); tDebug("%s cli conn %p construct ahandle %p due to brokenlink", CONN_GET_INST_LABEL(pConn), pConn, transMsg.ahandle); } } else { transMsg.ahandle = pCtx ? pCtx->ahandle : NULL; } if (pCtx == NULL || pCtx->pSem == NULL) { tTrace("%s cli conn %p handle except", pTransInst->label, pConn); if (transMsg.ahandle == NULL) { once = true; continue; } (pTransInst->cfp)(pTransInst->parent, &transMsg, NULL); } else { tTrace("%s cli conn(sync) %p handle except", pTransInst->label, pConn); memcpy((char*)(pCtx->pRsp), (char*)(&transMsg), sizeof(transMsg)); tsem_post(pCtx->pSem); } destroyCmsg(pMsg); tTrace("%s cli conn %p start to destroy", CONN_GET_INST_LABEL(pConn), pConn); } while (!transQueueEmpty(&pConn->cliMsgs)); transUnrefCliHandle(pConn); } void cliTimeoutCb(uv_timer_t* handle) { SCliThrdObj* pThrd = handle->data; STrans* pTransInst = pThrd->pTransInst; int64_t currentTime = pThrd->nextTimeout; tTrace("%s, cli conn timeout, try to remove expire conn from conn pool", pTransInst->label); SConnList* p = taosHashIterate((SHashObj*)pThrd->pool, NULL); while (p != NULL) { while (!QUEUE_IS_EMPTY(&p->conn)) { queue* h = QUEUE_HEAD(&p->conn); SCliConn* c = QUEUE_DATA(h, SCliConn, conn); if (c->expireTime < currentTime) { QUEUE_REMOVE(h); transUnrefCliHandle(c); } else { break; } } p = taosHashIterate((SHashObj*)pThrd->pool, p); } pThrd->nextTimeout = taosGetTimestampMs() + CONN_PERSIST_TIME(pTransInst->idleTime); uv_timer_start(handle, cliTimeoutCb, CONN_PERSIST_TIME(pTransInst->idleTime) / 2, 0); } 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->conn)) { queue* h = QUEUE_HEAD(&connList->conn); QUEUE_REMOVE(h); SCliConn* c = QUEUE_DATA(h, SCliConn, conn); cliDestroyConn(c, true); } connList = taosHashIterate((SHashObj*)pool, connList); } taosHashCleanup(pool); return NULL; } static SCliConn* getConnFromPool(void* pool, char* ip, uint32_t port) { char key[128] = {0}; CONN_CONSTRUCT_HASH_KEY(key, ip, port); SHashObj* pPool = pool; SConnList* plist = taosHashGet(pPool, key, strlen(key)); if (plist == NULL) { SConnList list; taosHashPut(pPool, key, strlen(key), (void*)&list, sizeof(list)); plist = taosHashGet(pPool, key, strlen(key)); QUEUE_INIT(&plist->conn); } if (QUEUE_IS_EMPTY(&plist->conn)) { return NULL; } queue* h = QUEUE_HEAD(&plist->conn); QUEUE_REMOVE(h); SCliConn* conn = QUEUE_DATA(h, SCliConn, conn); conn->status = ConnNormal; QUEUE_INIT(&conn->conn); return conn; } static void addConnToPool(void* pool, SCliConn* conn) { SCliThrdObj* thrd = conn->hostThrd; CONN_HANDLE_THREAD_QUIT(thrd); STrans* pTransInst = ((SCliThrdObj*)conn->hostThrd)->pTransInst; conn->expireTime = taosGetTimestampMs() + CONN_PERSIST_TIME(pTransInst->idleTime); transCtxCleanup(&conn->ctx); transQueueClear(&conn->cliMsgs); conn->status = ConnInPool; char key[128] = {0}; CONN_CONSTRUCT_HASH_KEY(key, conn->ip, conn->port); tTrace("cli conn %p added to conn pool, read buf cap: %d", conn, conn->readBuf.cap); SConnList* plist = taosHashGet((SHashObj*)pool, key, strlen(key)); // list already create before assert(plist != NULL); QUEUE_PUSH(&plist->conn, &conn->conn); assert(!QUEUE_IS_EMPTY(&plist->conn)); } static void cliAllocRecvBufferCb(uv_handle_t* handle, size_t suggested_size, uv_buf_t* buf) { SCliConn* conn = handle->data; SConnBuffer* pBuf = &conn->readBuf; 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; if (transReadComplete(pBuf)) { tTrace("%s cli conn %p read complete", CONN_GET_INST_LABEL(conn), conn); cliHandleResp(conn); } else { tTrace("%s cli conn %p read partial packet, continue to read", CONN_GET_INST_LABEL(conn), conn); } return; } assert(nread <= 0); 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 cli conn %p read empty", CONN_GET_INST_LABEL(conn), conn); return; } if (nread < 0) { tError("%s cli conn %p read error: %s", CONN_GET_INST_LABEL(conn), conn, uv_err_name(nread)); conn->broken = true; cliHandleExcept(conn); } } static SCliConn* cliCreateConn(SCliThrdObj* 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; conn->writeReq.data = conn; conn->connReq.data = conn; transQueueInit(&conn->cliMsgs, NULL); QUEUE_INIT(&conn->conn); conn->hostThrd = pThrd; conn->status = ConnNormal; conn->broken = 0; transRefCliHandle(conn); return conn; } static void cliDestroyConn(SCliConn* conn, bool clear) { tTrace("%s cli conn %p remove from conn pool", CONN_GET_INST_LABEL(conn), conn); QUEUE_REMOVE(&conn->conn); if (clear) { uv_close((uv_handle_t*)conn->stream, cliDestroy); } } static void cliDestroy(uv_handle_t* handle) { SCliConn* conn = handle->data; taosMemoryFree(conn->ip); taosMemoryFree(conn->stream); transCtxCleanup(&conn->ctx); transQueueDestroy(&conn->cliMsgs); tTrace("%s cli conn %p destroy successfully", CONN_GET_INST_LABEL(conn), conn); 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); // taosArrayRemove(msgs, 0); destroyCmsg(pMsg); res = true; } if (res == true) { if (cliMaySendCachedMsg(conn) == false) { SCliThrdObj* thrd = conn->hostThrd; addConnToPool(thrd->pool, conn); } } } return res; } static void cliSendCb(uv_write_t* req, int status) { SCliConn* pConn = req->data; if (status == 0) { tTrace("%s cli conn %p data already was written out", CONN_GET_INST_LABEL(pConn), pConn); } else { tError("%s cli 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 cli conn %p no resp required", CONN_GET_INST_LABEL(pConn), pConn); return; } uv_read_start((uv_stream_t*)pConn->stream, cliAllocRecvBufferCb, cliRecvCb); } void cliSend(SCliConn* pConn) { CONN_HANDLE_BROKEN(pConn); // assert(taosArrayGetSize(pConn->cliMsgs) > 0); assert(!transQueueEmpty(&pConn->cliMsgs)); SCliMsg* pCliMsg = NULL; CONN_GET_NEXT_SENDMSG(pConn); pCliMsg->sent = 1; STransConnCtx* pCtx = pCliMsg->ctx; SCliThrdObj* pThrd = pConn->hostThrd; STrans* pTransInst = pThrd->pTransInst; 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); 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)); uv_buf_t wb = uv_buf_init((char*)pHead, msgLen); tDebug("%s cli conn %p %s is send to %s:%d, local info %s:%d", CONN_GET_INST_LABEL(pConn), pConn, TMSG_INFO(pHead->msgType), taosInetNtoa(pConn->addr.sin_addr), ntohs(pConn->addr.sin_port), taosInetNtoa(pConn->locaddr.sin_addr), ntohs(pConn->locaddr.sin_port)); if (pHead->persist == 1) { CONN_SET_PERSIST_BY_APP(pConn); } pConn->writeReq.data = pConn; uv_write(&pConn->writeReq, (uv_stream_t*)pConn->stream, &wb, 1, cliSendCb); return; _RETURN: return; } void cliConnCb(uv_connect_t* req, int status) { // impl later SCliConn* pConn = req->data; if (status != 0) { tError("%s cli conn %p failed to connect server: %s", CONN_GET_INST_LABEL(pConn), pConn, uv_strerror(status)); cliHandleExcept(pConn); return; } int addrlen = sizeof(pConn->addr); uv_tcp_getpeername((uv_tcp_t*)pConn->stream, (struct sockaddr*)&pConn->addr, &addrlen); addrlen = sizeof(pConn->locaddr); uv_tcp_getsockname((uv_tcp_t*)pConn->stream, (struct sockaddr*)&pConn->locaddr, &addrlen); tTrace("%s cli conn %p connect to server successfully", CONN_GET_INST_LABEL(pConn), pConn); assert(pConn->stream == req->handle); cliSend(pConn); } static void cliHandleQuit(SCliMsg* pMsg, SCliThrdObj* pThrd) { tDebug("cli work thread %p start to quit", pThrd); destroyCmsg(pMsg); destroyConnPool(pThrd->pool); uv_timer_stop(&pThrd->timer); uv_walk(pThrd->loop, cliWalkCb, NULL); pThrd->quit = true; // uv_stop(pThrd->loop); } static void cliHandleRelease(SCliMsg* pMsg, SCliThrdObj* pThrd) { SCliConn* conn = pMsg->msg.handle; tDebug("%s cli 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 { // conn already broken down transUnrefCliHandle(conn); } } SCliConn* cliGetConn(SCliMsg* pMsg, SCliThrdObj* pThrd) { SCliConn* conn = NULL; if (pMsg->msg.handle != NULL) { conn = (SCliConn*)(pMsg->msg.handle); if (conn != NULL) { tTrace("%s cli conn %p reused", CONN_GET_INST_LABEL(conn), conn); } } else { STransConnCtx* pCtx = pMsg->ctx; conn = getConnFromPool(pThrd->pool, pCtx->ip, pCtx->port); if (conn != NULL) { tTrace("%s cli conn %p get from conn pool", CONN_GET_INST_LABEL(conn), conn); } else { tTrace("not found conn in conn pool %p", pThrd->pool); } } return conn; } void cliHandleReq(SCliMsg* pMsg, SCliThrdObj* pThrd) { uint64_t et = taosGetTimestampUs(); uint64_t el = et - pMsg->st; tTrace("%s cli msg tran time cost: %" PRIu64 "us", ((STrans*)pThrd->pTransInst)->label, el); STransConnCtx* pCtx = pMsg->ctx; STrans* pTransInst = pThrd->pTransInst; SCliConn* conn = cliGetConn(pMsg, pThrd); if (conn != NULL) { conn->hThrdIdx = pCtx->hThrdIdx; transCtxMerge(&conn->ctx, &pCtx->appCtx); transQueuePush(&conn->cliMsgs, pMsg); // tTrace("%s cli conn %p queue msg size %d", ((STrans*)pThrd->pTransInst)->label, conn, 2); // return; //} // transDestroyBuffer(&conn->readBuf); cliSend(conn); } else { conn = cliCreateConn(pThrd); transCtxMerge(&conn->ctx, &pCtx->appCtx); transQueuePush(&conn->cliMsgs, pMsg); conn->hThrdIdx = pCtx->hThrdIdx; conn->ip = strdup(pMsg->ctx->ip); conn->port = pMsg->ctx->port; int ret = transSetConnOption((uv_tcp_t*)conn->stream); if (ret) { tError("%s cli conn %p failed to set conn option, errmsg %s", pTransInst->label, conn, uv_err_name(ret)); } struct sockaddr_in addr; addr.sin_family = AF_INET; addr.sin_addr.s_addr = taosGetIpv4FromFqdn(conn->ip); addr.sin_port = (uint16_t)htons((uint16_t)conn->port); // uv_ip4_addr(pMsg->ctx->ip, pMsg->ctx->port, &addr); // handle error in callback if fail to connect tTrace("%s cli conn %p try to connect to %s:%d", pTransInst->label, conn, pMsg->ctx->ip, pMsg->ctx->port); uv_tcp_connect(&conn->connReq, (uv_tcp_t*)(conn->stream), (const struct sockaddr*)&addr, cliConnCb); } } static void cliAsyncCb(uv_async_t* handle) { SAsyncItem* item = handle->data; SCliThrdObj* pThrd = item->pThrd; SCliMsg* pMsg = NULL; // batch process to avoid to lock/unlock frequently 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); if (pMsg == NULL) { continue; } (*cliAsyncHandle[pMsg->type])(pMsg, pThrd); count++; } if (count >= 2) { tTrace("cli process batch size: %d", count); } } static void* cliWorkThread(void* arg) { SCliThrdObj* pThrd = (SCliThrdObj*)arg; setThreadName("trans-cli-work"); uv_run(pThrd->loop, UV_RUN_DEFAULT); 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, strlen(label)); cli->numOfThreads = numOfThreads; cli->pThreadObj = (SCliThrdObj**)taosMemoryCalloc(cli->numOfThreads, sizeof(SCliThrdObj*)); for (int i = 0; i < cli->numOfThreads; i++) { SCliThrdObj* pThrd = createThrdObj(); pThrd->nextTimeout = taosGetTimestampMs() + CONN_PERSIST_TIME(pTransInst->idleTime); pThrd->pTransInst = shandle; int err = taosThreadCreate(&pThrd->thread, NULL, cliWorkThread, (void*)(pThrd)); if (err == 0) { tDebug("success to create tranport-cli thread %d", i); } cli->pThreadObj[i] = pThrd; } return cli; } static void destroyUserdata(STransMsg* userdata) { if (userdata->pCont == NULL) { return; } transFreeMsg(userdata->pCont); userdata->pCont = NULL; } static void destroyCmsg(SCliMsg* pMsg) { if (pMsg == NULL) { return; } transDestroyConnCtx(pMsg->ctx); destroyUserdata(&pMsg->msg); taosMemoryFree(pMsg); } static SCliThrdObj* createThrdObj() { SCliThrdObj* pThrd = (SCliThrdObj*)taosMemoryCalloc(1, sizeof(SCliThrdObj)); QUEUE_INIT(&pThrd->msg); taosThreadMutexInit(&pThrd->msgMtx, NULL); pThrd->loop = (uv_loop_t*)taosMemoryMalloc(sizeof(uv_loop_t)); uv_loop_init(pThrd->loop); pThrd->asyncPool = transCreateAsyncPool(pThrd->loop, 5, pThrd, cliAsyncCb); uv_timer_init(pThrd->loop, &pThrd->timer); pThrd->timer.data = pThrd; pThrd->pool = createConnPool(4); pThrd->quit = false; return pThrd; } static void destroyThrdObj(SCliThrdObj* pThrd) { if (pThrd == NULL) { return; } taosThreadJoin(pThrd->thread, NULL); CLI_RELEASE_UV(pThrd->loop); taosThreadMutexDestroy(&pThrd->msgMtx); transDestroyAsyncPool(pThrd->asyncPool); uv_timer_stop(&pThrd->timer); taosMemoryFree(pThrd->loop); taosMemoryFree(pThrd); } static void transDestroyConnCtx(STransConnCtx* ctx) { if (ctx != NULL) { taosMemoryFree(ctx->ip); } taosMemoryFree(ctx); } // void cliSendQuit(SCliThrdObj* thrd) { // cli can stop gracefully SCliMsg* msg = taosMemoryCalloc(1, sizeof(SCliMsg)); msg->type = Quit; transSendAsync(thrd->asyncPool, &msg->q); } void cliWalkCb(uv_handle_t* handle, void* arg) { if (!uv_is_closing(handle)) { uv_close(handle, NULL); } } int cliRBChoseIdx(STrans* pTransInst) { int64_t index = pTransInst->index; if (pTransInst->index++ >= pTransInst->numOfThreads) { pTransInst->index = 0; } return index % pTransInst->numOfThreads; } 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); UNUSED(ref); } void transUnrefCliHandle(void* handle) { if (handle == NULL) { return; } int ref = T_REF_DEC((SCliConn*)handle); tDebug("%s cli conn %p ref %d", CONN_GET_INST_LABEL((SCliConn*)handle), handle, ref); if (ref == 0) { cliDestroyConn((SCliConn*)handle, true); } } void transReleaseCliHandle(void* handle) { SCliThrdObj* thrd = CONN_GET_HOST_THREAD(handle); if (thrd == NULL) { return; } STransMsg tmsg = {.handle = handle}; SCliMsg* cmsg = taosMemoryCalloc(1, sizeof(SCliMsg)); cmsg->msg = tmsg; cmsg->type = Release; transSendAsync(thrd->asyncPool, &cmsg->q); } void transSendRequest(void* shandle, const char* ip, uint32_t port, STransMsg* pMsg, STransCtx* ctx) { STrans* pTransInst = (STrans*)shandle; int index = CONN_HOST_THREAD_INDEX((SCliConn*)pMsg->handle); if (index == -1) { index = cliRBChoseIdx(pTransInst); } STransConnCtx* pCtx = taosMemoryCalloc(1, sizeof(STransConnCtx)); pCtx->ahandle = pMsg->ahandle; pCtx->msgType = pMsg->msgType; pCtx->ip = strdup(ip); pCtx->port = port; pCtx->hThrdIdx = index; if (ctx != NULL) { pCtx->appCtx = *ctx; } assert(pTransInst->connType == TAOS_CONN_CLIENT); SCliMsg* cliMsg = taosMemoryCalloc(1, sizeof(SCliMsg)); cliMsg->ctx = pCtx; cliMsg->msg = *pMsg; cliMsg->st = taosGetTimestampUs(); cliMsg->type = Normal; SCliThrdObj* thrd = ((SCliObj*)pTransInst->tcphandle)->pThreadObj[index]; tDebug("send request at thread:%d %p, dst: %s:%d, app:%p", index, pMsg, ip, port, pMsg->ahandle); ASSERT(transSendAsync(thrd->asyncPool, &(cliMsg->q)) == 0); } void transSendRecv(void* shandle, const char* ip, uint32_t port, STransMsg* pReq, STransMsg* pRsp) { STrans* pTransInst = (STrans*)shandle; int index = CONN_HOST_THREAD_INDEX(pReq->handle); if (index == -1) { index = cliRBChoseIdx(pTransInst); } STransConnCtx* pCtx = taosMemoryCalloc(1, sizeof(STransConnCtx)); pCtx->ahandle = pReq->ahandle; pCtx->msgType = pReq->msgType; pCtx->ip = strdup(ip); pCtx->port = port; pCtx->hThrdIdx = index; pCtx->pSem = taosMemoryCalloc(1, sizeof(tsem_t)); pCtx->pRsp = pRsp; tsem_init(pCtx->pSem, 0, 0); SCliMsg* cliMsg = taosMemoryCalloc(1, sizeof(SCliMsg)); cliMsg->ctx = pCtx; cliMsg->msg = *pReq; cliMsg->st = taosGetTimestampUs(); cliMsg->type = Normal; SCliThrdObj* thrd = ((SCliObj*)pTransInst->tcphandle)->pThreadObj[index]; transSendAsync(thrd->asyncPool, &(cliMsg->q)); tsem_t* pSem = pCtx->pSem; tsem_wait(pSem); tsem_destroy(pSem); taosMemoryFree(pSem); } #endif