/* * Copyright (c) 2019 TAOS Data, Inc. * * This program is free software: you can use, redistribute, and/or modify * it under the terms of the GNU Affero General Public License, version 3 * or later ("AGPL"), as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . */ #define _GNU_SOURCE #include "os.h" #include "qAst.h" #include "qTsbuf.h" #include "tcompare.h" #include "tscLog.h" #include "tscSubquery.h" #include "tschemautil.h" #include "tsclient.h" typedef struct SInsertSupporter { SSqlObj* pSql; int32_t index; } SInsertSupporter; static void freeJoinSubqueryObj(SSqlObj* pSql); static bool tscHasRemainDataInSubqueryResultSet(SSqlObj *pSql); static bool tsCompare(int32_t order, int64_t left, int64_t right) { if (order == TSDB_ORDER_ASC) { return left < right; } else { return left > right; } } static int64_t doTSBlockIntersect(SSqlObj* pSql, SJoinSupporter* pSupporter1, SJoinSupporter* pSupporter2, STimeWindow * win) { SQueryInfo* pQueryInfo = tscGetQueryInfoDetail(&pSql->cmd, pSql->cmd.clauseIndex); STSBuf* output1 = tsBufCreate(true, pQueryInfo->order.order); STSBuf* output2 = tsBufCreate(true, pQueryInfo->order.order); win->skey = INT64_MAX; win->ekey = INT64_MIN; SLimitVal* pLimit = &pQueryInfo->limit; int32_t order = pQueryInfo->order.order; SQueryInfo* pSubQueryInfo1 = tscGetQueryInfoDetail(&pSql->pSubs[0]->cmd, 0); SQueryInfo* pSubQueryInfo2 = tscGetQueryInfoDetail(&pSql->pSubs[1]->cmd, 0); pSubQueryInfo1->tsBuf = output1; pSubQueryInfo2->tsBuf = output2; TSKEY st = taosGetTimestampUs(); // no result generated, return directly if (pSupporter1->pTSBuf == NULL || pSupporter2->pTSBuf == NULL) { tscDebug("%p at least one ts-comp is empty, 0 for secondary query after ts blocks intersecting", pSql); return 0; } tsBufResetPos(pSupporter1->pTSBuf); tsBufResetPos(pSupporter2->pTSBuf); if (!tsBufNextPos(pSupporter1->pTSBuf)) { tsBufFlush(output1); tsBufFlush(output2); tscDebug("%p input1 is empty, 0 for secondary query after ts blocks intersecting", pSql); return 0; } if (!tsBufNextPos(pSupporter2->pTSBuf)) { tsBufFlush(output1); tsBufFlush(output2); tscDebug("%p input2 is empty, 0 for secondary query after ts blocks intersecting", pSql); return 0; } int64_t numOfInput1 = 1; int64_t numOfInput2 = 1; while (1) { STSElem elem1 = tsBufGetElem(pSupporter1->pTSBuf); STSElem elem2 = tsBufGetElem(pSupporter2->pTSBuf); #ifdef _DEBUG_VIEW tscInfo("%" PRId64 ", tags:%"PRId64" \t %" PRId64 ", tags:%"PRId64, elem1.ts, elem1.tag.i64Key, elem2.ts, elem2.tag.i64Key); #endif int32_t res = tVariantCompare(elem1.tag, elem2.tag); if (res == -1 || (res == 0 && tsCompare(order, elem1.ts, elem2.ts))) { if (!tsBufNextPos(pSupporter1->pTSBuf)) { break; } numOfInput1++; } else if ((res > 0) || (res == 0 && tsCompare(order, elem2.ts, elem1.ts))) { if (!tsBufNextPos(pSupporter2->pTSBuf)) { break; } numOfInput2++; } else { /* * in case of stable query, limit/offset is not applied here. the limit/offset is applied to the * final results which is acquired after the secondry merge of in the client. */ if (pLimit->offset == 0 || pQueryInfo->interval.interval > 0 || QUERY_IS_STABLE_QUERY(pQueryInfo->type)) { if (win->skey > elem1.ts) { win->skey = elem1.ts; } if (win->ekey < elem1.ts) { win->ekey = elem1.ts; } tsBufAppend(output1, elem1.vnode, elem1.tag, (const char*)&elem1.ts, sizeof(elem1.ts)); tsBufAppend(output2, elem2.vnode, elem2.tag, (const char*)&elem2.ts, sizeof(elem2.ts)); } else { pLimit->offset -= 1; } if (!tsBufNextPos(pSupporter1->pTSBuf)) { break; } numOfInput1++; if (!tsBufNextPos(pSupporter2->pTSBuf)) { break; } numOfInput2++; } } /* * failed to set the correct ts order yet in two cases: * 1. only one element * 2. only one element for each tag. */ if (output1->tsOrder == -1) { output1->tsOrder = TSDB_ORDER_ASC; output2->tsOrder = TSDB_ORDER_ASC; } tsBufFlush(output1); tsBufFlush(output2); tsBufDestroy(pSupporter1->pTSBuf); tsBufDestroy(pSupporter2->pTSBuf); TSKEY et = taosGetTimestampUs(); tscDebug("%p input1:%" PRId64 ", input2:%" PRId64 ", final:%" PRId64 " in %d vnodes for secondary query after ts blocks " "intersecting, skey:%" PRId64 ", ekey:%" PRId64 ", numOfVnode:%d, elasped time:%"PRId64" us", pSql, numOfInput1, numOfInput2, output1->numOfTotal, output1->numOfVnodes, win->skey, win->ekey, tsBufGetNumOfVnodes(output1), et - st); return output1->numOfTotal; } // todo handle failed to create sub query SJoinSupporter* tscCreateJoinSupporter(SSqlObj* pSql, int32_t index) { SJoinSupporter* pSupporter = calloc(1, sizeof(SJoinSupporter)); if (pSupporter == NULL) { return NULL; } pSupporter->pObj = pSql; pSupporter->subqueryIndex = index; SQueryInfo* pQueryInfo = tscGetQueryInfoDetail(&pSql->cmd, pSql->cmd.clauseIndex); memcpy(&pSupporter->interval, &pQueryInfo->interval, sizeof(pSupporter->interval)); pSupporter->limit = pQueryInfo->limit; STableMetaInfo* pTableMetaInfo = tscGetTableMetaInfoFromCmd(&pSql->cmd, pSql->cmd.clauseIndex, index); pSupporter->uid = pTableMetaInfo->pTableMeta->id.uid; assert (pSupporter->uid != 0); taosGetTmpfilePath("join-", pSupporter->path); pSupporter->f = fopen(pSupporter->path, "w"); // todo handle error if (pSupporter->f == NULL) { tscError("%p failed to create tmp file:%s, reason:%s", pSql, pSupporter->path, strerror(errno)); } return pSupporter; } static void tscDestroyJoinSupporter(SJoinSupporter* pSupporter) { if (pSupporter == NULL) { return; } if (pSupporter->exprList != NULL) { tscSqlExprInfoDestroy(pSupporter->exprList); } if (pSupporter->colList != NULL) { tscColumnListDestroy(pSupporter->colList); } tscFieldInfoClear(&pSupporter->fieldsInfo); if (pSupporter->f != NULL) { fclose(pSupporter->f); unlink(pSupporter->path); pSupporter->f = NULL; } taosTFree(pSupporter->pIdTagList); tscTagCondRelease(&pSupporter->tagCond); free(pSupporter); } /* * need the secondary query process * In case of count(ts)/count(*)/spread(ts) query, that are only applied to * primary timestamp column , the secondary query is not necessary * */ static UNUSED_FUNC bool needSecondaryQuery(SQueryInfo* pQueryInfo) { size_t numOfCols = taosArrayGetSize(pQueryInfo->colList); for (int32_t i = 0; i < numOfCols; ++i) { SColumn* base = taosArrayGet(pQueryInfo->colList, i); if (base->colIndex.columnIndex != PRIMARYKEY_TIMESTAMP_COL_INDEX) { return true; } } return false; } /* * launch secondary stage query to fetch the result that contains timestamp in set */ static int32_t tscLaunchRealSubqueries(SSqlObj* pSql) { int32_t numOfSub = 0; SJoinSupporter* pSupporter = NULL; //If the columns are not involved in the final select clause, the corresponding query will not be issued. for (int32_t i = 0; i < pSql->subState.numOfSub; ++i) { pSupporter = pSql->pSubs[i]->param; if (taosArrayGetSize(pSupporter->exprList) > 0) { ++numOfSub; } } assert(numOfSub > 0); // scan all subquery, if one sub query has only ts, ignore it tscDebug("%p start to launch secondary subqueries, %d out of %d needs to query", pSql, numOfSub, pSql->subState.numOfSub); //the subqueries that do not actually launch the secondary query to virtual node is set as completed. SSubqueryState* pState = &pSql->subState; pState->numOfRemain = numOfSub; bool success = true; for (int32_t i = 0; i < pSql->subState.numOfSub; ++i) { SSqlObj *pPrevSub = pSql->pSubs[i]; pSql->pSubs[i] = NULL; pSupporter = pPrevSub->param; if (taosArrayGetSize(pSupporter->exprList) == 0) { tscDebug("%p subIndex: %d, no need to launch query, ignore it", pSql, i); tscDestroyJoinSupporter(pSupporter); taos_free_result(pPrevSub); pSql->pSubs[i] = NULL; continue; } SQueryInfo *pSubQueryInfo = tscGetQueryInfoDetail(&pPrevSub->cmd, 0); STSBuf *pTSBuf = pSubQueryInfo->tsBuf; pSubQueryInfo->tsBuf = NULL; // free result for async object will also free sqlObj assert(tscSqlExprNumOfExprs(pSubQueryInfo) == 1); // ts_comp query only requires one resutl columns taos_free_result(pPrevSub); SSqlObj *pNew = createSubqueryObj(pSql, (int16_t) i, tscJoinQueryCallback, pSupporter, TSDB_SQL_SELECT, NULL); if (pNew == NULL) { tscDestroyJoinSupporter(pSupporter); success = false; break; } tscClearSubqueryInfo(&pNew->cmd); pSql->pSubs[i] = pNew; SQueryInfo *pQueryInfo = tscGetQueryInfoDetail(&pNew->cmd, 0); pQueryInfo->tsBuf = pTSBuf; // transfer the ownership of timestamp comp-z data to the new created object // set the second stage sub query for join process TSDB_QUERY_SET_TYPE(pQueryInfo->type, TSDB_QUERY_TYPE_JOIN_SEC_STAGE); memcpy(&pQueryInfo->interval, &pSupporter->interval, sizeof(pQueryInfo->interval)); tscTagCondCopy(&pQueryInfo->tagCond, &pSupporter->tagCond); pQueryInfo->colList = pSupporter->colList; pQueryInfo->exprList = pSupporter->exprList; pQueryInfo->fieldsInfo = pSupporter->fieldsInfo; pSupporter->exprList = NULL; pSupporter->colList = NULL; memset(&pSupporter->fieldsInfo, 0, sizeof(SFieldInfo)); SQueryInfo *pNewQueryInfo = tscGetQueryInfoDetail(&pNew->cmd, 0); assert(pNew->subState.numOfSub == 0 && pNew->cmd.numOfClause == 1 && pNewQueryInfo->numOfTables == 1); tscFieldInfoUpdateOffset(pNewQueryInfo); STableMetaInfo *pTableMetaInfo = tscGetMetaInfo(pNewQueryInfo, 0); pTableMetaInfo->pVgroupTables = pSupporter->pVgroupTables; /* * When handling the projection query, the offset value will be modified for table-table join, which is changed * during the timestamp intersection. */ pSupporter->limit = pQueryInfo->limit; pNewQueryInfo->limit = pSupporter->limit; SColumnIndex index = {.tableIndex = 0, .columnIndex = PRIMARYKEY_TIMESTAMP_COL_INDEX}; SSchema* s = tscGetTableColumnSchema(pTableMetaInfo->pTableMeta, 0); SSqlExpr* pExpr = tscSqlExprGet(pQueryInfo, 0); int16_t funcId = pExpr->functionId; if ((pExpr->colInfo.colId != PRIMARYKEY_TIMESTAMP_COL_INDEX) || (funcId != TSDB_FUNC_TS && funcId != TSDB_FUNC_TS_DUMMY && funcId != TSDB_FUNC_PRJ)) { int16_t functionId = tscIsProjectionQuery(pQueryInfo)? TSDB_FUNC_PRJ : TSDB_FUNC_TS; tscAddSpecialColumnForSelect(pQueryInfo, 0, functionId, &index, s, TSDB_COL_NORMAL); tscPrintSelectClause(pNew, 0); tscFieldInfoUpdateOffset(pNewQueryInfo); pExpr = tscSqlExprGet(pQueryInfo, 0); } // set the join condition tag column info, todo extract method if (UTIL_TABLE_IS_SUPER_TABLE(pTableMetaInfo)) { assert(pQueryInfo->tagCond.joinInfo.hasJoin); int16_t colId = tscGetJoinTagColIdByUid(&pQueryInfo->tagCond, pTableMetaInfo->pTableMeta->id.uid); // set the tag column id for executor to extract correct tag value pExpr->param[0].i64Key = colId; pExpr->numOfParams = 1; } int32_t num = 0; int32_t *list = NULL; tsBufGetVnodeIdList(pNewQueryInfo->tsBuf, &num, &list); if (pTableMetaInfo->pVgroupTables != NULL) { for(int32_t k = 0; k < taosArrayGetSize(pTableMetaInfo->pVgroupTables);) { SVgroupTableInfo* p = taosArrayGet(pTableMetaInfo->pVgroupTables, k); bool found = false; for(int32_t f = 0; f < num; ++f) { if (p->vgInfo.vgId == list[f]) { found = true; break; } } if (!found) { tscRemoveVgroupTableGroup(pTableMetaInfo->pVgroupTables, k); } else { k++; } } assert(taosArrayGetSize(pTableMetaInfo->pVgroupTables) > 0); TSDB_QUERY_SET_TYPE(pQueryInfo->type, TSDB_QUERY_TYPE_MULTITABLE_QUERY); } else { // TODO remove unnecessarily accessed vnode // pTableMetaInfo->vgroupList-> // for(int32_t k = 0; k < taosArrayGetSize(pTableMetaInfo->pVgroupTables);) { // SVgroupTableInfo* p = taosArrayGet(pTableMetaInfo->pVgroupTables, k); // // bool found = false; // for(int32_t f = 0; f < num; ++f) { // if (p->vgInfo.vgId == list[f]) { // found = true; // break; // } // } // // if (!found) { // tscRemoveVgroupTableGroup(pTableMetaInfo->pVgroupTables, k); // } else { // k++; // } // } } taosTFree(list); size_t numOfCols = taosArrayGetSize(pNewQueryInfo->colList); tscDebug("%p subquery:%p tableIndex:%d, vgroupIndex:%d, type:%d, exprInfo:%" PRIzu ", colList:%" PRIzu ", fieldsInfo:%d, name:%s", pSql, pNew, 0, pTableMetaInfo->vgroupIndex, pNewQueryInfo->type, taosArrayGetSize(pNewQueryInfo->exprList), numOfCols, pNewQueryInfo->fieldsInfo.numOfOutput, pTableMetaInfo->name); } //prepare the subqueries object failed, abort if (!success) { pSql->res.code = TSDB_CODE_TSC_OUT_OF_MEMORY; tscError("%p failed to prepare subqueries objs for secondary phase query, numOfSub:%d, code:%d", pSql, pSql->subState.numOfSub, pSql->res.code); freeJoinSubqueryObj(pSql); return pSql->res.code; } for(int32_t i = 0; i < pSql->subState.numOfSub; ++i) { if (pSql->pSubs[i] == NULL) { continue; } tscDoQuery(pSql->pSubs[i]); } return TSDB_CODE_SUCCESS; } void freeJoinSubqueryObj(SSqlObj* pSql) { for (int32_t i = 0; i < pSql->subState.numOfSub; ++i) { SSqlObj* pSub = pSql->pSubs[i]; if (pSub == NULL) { continue; } SJoinSupporter* p = pSub->param; tscDestroyJoinSupporter(p); if (pSub->res.code == TSDB_CODE_SUCCESS) { taos_free_result(pSub); } } pSql->subState.numOfSub = 0; } static void quitAllSubquery(SSqlObj* pSqlObj, SJoinSupporter* pSupporter) { assert(pSqlObj->subState.numOfRemain > 0); if (atomic_sub_fetch_32(&pSqlObj->subState.numOfRemain, 1) <= 0) { tscError("%p all subquery return and query failed, global code:%d", pSqlObj, pSqlObj->res.code); freeJoinSubqueryObj(pSqlObj); } } // update the query time range according to the join results on timestamp static void updateQueryTimeRange(SQueryInfo* pQueryInfo, STimeWindow* win) { assert(pQueryInfo->window.skey <= win->skey && pQueryInfo->window.ekey >= win->ekey); pQueryInfo->window = *win; } int32_t tscCompareTidTags(const void* p1, const void* p2) { const STidTags* t1 = (const STidTags*) varDataVal(p1); const STidTags* t2 = (const STidTags*) varDataVal(p2); if (t1->vgId != t2->vgId) { return (t1->vgId > t2->vgId) ? 1 : -1; } if (t1->tid != t2->tid) { return (t1->tid > t2->tid) ? 1 : -1; } return 0; } void tscBuildVgroupTableInfo(SSqlObj* pSql, STableMetaInfo* pTableMetaInfo, SArray* tables) { SArray* result = taosArrayInit(4, sizeof(SVgroupTableInfo)); SArray* vgTables = NULL; STidTags* prev = NULL; size_t numOfTables = taosArrayGetSize(tables); for (size_t i = 0; i < numOfTables; i++) { STidTags* tt = taosArrayGet(tables, i); if (prev == NULL || tt->vgId != prev->vgId) { SVgroupsInfo* pvg = pTableMetaInfo->vgroupList; SVgroupTableInfo info = {{0}}; for (int32_t m = 0; m < pvg->numOfVgroups; ++m) { if (tt->vgId == pvg->vgroups[m].vgId) { tscSCMVgroupInfoCopy(&info.vgInfo, &pvg->vgroups[m]); break; } } assert(info.vgInfo.numOfEps != 0); vgTables = taosArrayInit(4, sizeof(STableIdInfo)); info.itemList = vgTables; taosArrayPush(result, &info); } tscDebug("%p tid:%d, uid:%"PRIu64",vgId:%d added for vnode query", pSql, tt->tid, tt->uid, tt->vgId) STableIdInfo item = {.uid = tt->uid, .tid = tt->tid, .key = INT64_MIN}; taosArrayPush(vgTables, &item); prev = tt; } pTableMetaInfo->pVgroupTables = result; pTableMetaInfo->vgroupIndex = 0; } static void issueTSCompQuery(SSqlObj* pSql, SJoinSupporter* pSupporter, SSqlObj* pParent) { SSqlCmd* pCmd = &pSql->cmd; tscClearSubqueryInfo(pCmd); tscFreeSqlResult(pSql); SQueryInfo* pQueryInfo = tscGetQueryInfoDetail(pCmd, 0); assert(pQueryInfo->numOfTables == 1); STableMetaInfo* pTableMetaInfo = tscGetMetaInfo(pQueryInfo, 0); tscInitQueryInfo(pQueryInfo); TSDB_QUERY_CLEAR_TYPE(pQueryInfo->type, TSDB_QUERY_TYPE_TAG_FILTER_QUERY); TSDB_QUERY_SET_TYPE(pQueryInfo->type, TSDB_QUERY_TYPE_MULTITABLE_QUERY); pCmd->command = TSDB_SQL_SELECT; pSql->fp = tscJoinQueryCallback; SSchema colSchema = {.type = TSDB_DATA_TYPE_BINARY, .bytes = 1}; SColumnIndex index = {0, PRIMARYKEY_TIMESTAMP_COL_INDEX}; tscAddSpecialColumnForSelect(pQueryInfo, 0, TSDB_FUNC_TS_COMP, &index, &colSchema, TSDB_COL_NORMAL); // set the tags value for ts_comp function if (UTIL_TABLE_IS_SUPER_TABLE(pTableMetaInfo)) { SSqlExpr *pExpr = tscSqlExprGet(pQueryInfo, 0); int16_t tagColId = tscGetJoinTagColIdByUid(&pSupporter->tagCond, pTableMetaInfo->pTableMeta->id.uid); pExpr->param->i64Key = tagColId; pExpr->numOfParams = 1; } // add the filter tag column if (pSupporter->colList != NULL) { size_t s = taosArrayGetSize(pSupporter->colList); for (int32_t i = 0; i < s; ++i) { SColumn *pCol = taosArrayGetP(pSupporter->colList, i); if (pCol->numOfFilters > 0) { // copy to the pNew->cmd.colList if it is filtered. SColumn *p = tscColumnClone(pCol); taosArrayPush(pQueryInfo->colList, &p); } } } size_t numOfCols = taosArrayGetSize(pQueryInfo->colList); tscDebug( "%p subquery:%p tableIndex:%d, vgroupIndex:%d, numOfVgroups:%d, type:%d, ts_comp query to retrieve timestamps, " "numOfExpr:%" PRIzu ", colList:%" PRIzu ", numOfOutputFields:%d, name:%s", pParent, pSql, 0, pTableMetaInfo->vgroupIndex, pTableMetaInfo->vgroupList->numOfVgroups, pQueryInfo->type, tscSqlExprNumOfExprs(pQueryInfo), numOfCols, pQueryInfo->fieldsInfo.numOfOutput, pTableMetaInfo->name); tscProcessSql(pSql); } static bool checkForDuplicateTagVal(SSchema* pColSchema, SJoinSupporter* p1, SSqlObj* pPSqlObj) { for(int32_t i = 1; i < p1->num; ++i) { STidTags* prev = (STidTags*) varDataVal(p1->pIdTagList + (i - 1) * p1->tagSize); STidTags* p = (STidTags*) varDataVal(p1->pIdTagList + i * p1->tagSize); assert(prev->vgId >= 1 && p->vgId >= 1); if (doCompare(prev->tag, p->tag, pColSchema->type, pColSchema->bytes) == 0) { tscError("%p join tags have same value for different table, free all sub SqlObj and quit", pPSqlObj); pPSqlObj->res.code = TSDB_CODE_QRY_DUP_JOIN_KEY; return false; } } return true; } static int32_t getIntersectionOfTableTuple(SQueryInfo* pQueryInfo, SSqlObj* pParentSql, SArray** s1, SArray** s2) { tscDebug("%p all subqueries retrieve complete, do tags match", pParentSql); SJoinSupporter* p1 = pParentSql->pSubs[0]->param; SJoinSupporter* p2 = pParentSql->pSubs[1]->param; qsort(p1->pIdTagList, p1->num, p1->tagSize, tscCompareTidTags); qsort(p2->pIdTagList, p2->num, p2->tagSize, tscCompareTidTags); STableMetaInfo* pTableMetaInfo = tscGetMetaInfo(pQueryInfo, 0); int16_t tagColId = tscGetJoinTagColIdByUid(&pQueryInfo->tagCond, pTableMetaInfo->pTableMeta->id.uid); SSchema* pColSchema = tscGetTableColumnSchemaById(pTableMetaInfo->pTableMeta, tagColId); // int16_t for padding *s1 = taosArrayInit(p1->num, p1->tagSize - sizeof(int16_t)); *s2 = taosArrayInit(p2->num, p2->tagSize - sizeof(int16_t)); if (!(checkForDuplicateTagVal(pColSchema, p1, pParentSql) && checkForDuplicateTagVal(pColSchema, p2, pParentSql))) { return TSDB_CODE_QRY_DUP_JOIN_KEY; } int32_t i = 0, j = 0; while(i < p1->num && j < p2->num) { STidTags* pp1 = (STidTags*) varDataVal(p1->pIdTagList + i * p1->tagSize); STidTags* pp2 = (STidTags*) varDataVal(p2->pIdTagList + j * p2->tagSize); assert(pp1->tid != 0 && pp2->tid != 0); int32_t ret = doCompare(pp1->tag, pp2->tag, pColSchema->type, pColSchema->bytes); if (ret == 0) { tscDebug("%p tag matched, vgId:%d, val:%d, tid:%d, uid:%"PRIu64", tid:%d, uid:%"PRIu64, pParentSql, pp1->vgId, *(int*) pp1->tag, pp1->tid, pp1->uid, pp2->tid, pp2->uid); taosArrayPush(*s1, pp1); taosArrayPush(*s2, pp2); j++; i++; } else if (ret > 0) { j++; } else { i++; } } return TSDB_CODE_SUCCESS; } static void tidTagRetrieveCallback(void* param, TAOS_RES* tres, int32_t numOfRows) { SJoinSupporter* pSupporter = (SJoinSupporter*)param; SSqlObj* pParentSql = pSupporter->pObj; SSqlObj* pSql = (SSqlObj*)tres; SSqlCmd* pCmd = &pSql->cmd; SSqlRes* pRes = &pSql->res; SQueryInfo* pQueryInfo = tscGetQueryInfoDetail(pCmd, pCmd->clauseIndex); assert(TSDB_QUERY_HAS_TYPE(pQueryInfo->type, TSDB_QUERY_TYPE_TAG_FILTER_QUERY)); // check for the error code firstly if (taos_errno(pSql) != TSDB_CODE_SUCCESS) { // todo retry if other subqueries are not failed assert(numOfRows < 0 && numOfRows == taos_errno(pSql)); tscError("%p sub query failed, code:%s, index:%d", pSql, tstrerror(numOfRows), pSupporter->subqueryIndex); pParentSql->res.code = numOfRows; quitAllSubquery(pParentSql, pSupporter); tscQueueAsyncRes(pParentSql); return; } // keep the results in memory if (numOfRows > 0) { size_t validLen = (size_t)(pSupporter->tagSize * pRes->numOfRows); size_t length = pSupporter->totalLen + validLen; // todo handle memory error char* tmp = realloc(pSupporter->pIdTagList, length); if (tmp == NULL) { tscError("%p failed to malloc memory", pSql); pParentSql->res.code = TAOS_SYSTEM_ERROR(errno); quitAllSubquery(pParentSql, pSupporter); tscQueueAsyncRes(pParentSql); return; } pSupporter->pIdTagList = tmp; memcpy(pSupporter->pIdTagList + pSupporter->totalLen, pRes->data, validLen); pSupporter->totalLen += (int32_t)validLen; pSupporter->num += (int32_t)pRes->numOfRows; // query not completed, continue to retrieve tid + tag tuples if (!pRes->completed) { taos_fetch_rows_a(tres, tidTagRetrieveCallback, param); return; } } // data in current vnode has all returned to client, try next vnode if exits // tuples have been retrieved to client, try tuples from the next vnode if (hasMoreVnodesToTry(pSql)) { STableMetaInfo* pTableMetaInfo = tscGetMetaInfo(pQueryInfo, 0); int32_t totalVgroups = pTableMetaInfo->vgroupList->numOfVgroups; pTableMetaInfo->vgroupIndex += 1; assert(pTableMetaInfo->vgroupIndex < totalVgroups); tscDebug("%p tid_tag from vgroup index:%d completed, try next vgroup:%d. total vgroups:%d. current numOfRes:%d", pSql, pTableMetaInfo->vgroupIndex - 1, pTableMetaInfo->vgroupIndex, totalVgroups, pSupporter->num); pCmd->command = TSDB_SQL_SELECT; tscResetForNextRetrieve(&pSql->res); // set the callback function pSql->fp = tscJoinQueryCallback; tscProcessSql(pSql); return; } // no data exists in next vnode, mark the query completed // only when there is no subquery exits any more, proceeds to get the intersect of the tuple sets. if (atomic_sub_fetch_32(&pParentSql->subState.numOfRemain, 1) > 0) { return; } SArray *s1 = NULL, *s2 = NULL; int32_t code = getIntersectionOfTableTuple(pQueryInfo, pParentSql, &s1, &s2); if (code != TSDB_CODE_SUCCESS) { freeJoinSubqueryObj(pParentSql); pParentSql->res.code = code; tscQueueAsyncRes(pParentSql); taosArrayDestroy(s1); taosArrayDestroy(s2); return; } if (taosArrayGetSize(s1) == 0 || taosArrayGetSize(s2) == 0) { // no results,return. tscDebug("%p tag intersect does not generated qualified tables for join, free all sub SqlObj and quit", pParentSql); freeJoinSubqueryObj(pParentSql); // set no result command pParentSql->cmd.command = TSDB_SQL_RETRIEVE_EMPTY_RESULT; (*pParentSql->fp)(pParentSql->param, pParentSql, 0); } else { // proceed to for ts_comp query SSqlCmd* pSubCmd1 = &pParentSql->pSubs[0]->cmd; SSqlCmd* pSubCmd2 = &pParentSql->pSubs[1]->cmd; SQueryInfo* pQueryInfo1 = tscGetQueryInfoDetail(pSubCmd1, 0); STableMetaInfo* pTableMetaInfo1 = tscGetMetaInfo(pQueryInfo1, 0); tscBuildVgroupTableInfo(pParentSql, pTableMetaInfo1, s1); SQueryInfo* pQueryInfo2 = tscGetQueryInfoDetail(pSubCmd2, 0); STableMetaInfo* pTableMetaInfo2 = tscGetMetaInfo(pQueryInfo2, 0); tscBuildVgroupTableInfo(pParentSql, pTableMetaInfo2, s2); SSqlObj* psub1 = pParentSql->pSubs[0]; ((SJoinSupporter*)psub1->param)->pVgroupTables = tscCloneVgroupTableInfo(pTableMetaInfo1->pVgroupTables); SSqlObj* psub2 = pParentSql->pSubs[1]; ((SJoinSupporter*)psub2->param)->pVgroupTables = tscCloneVgroupTableInfo(pTableMetaInfo2->pVgroupTables); pParentSql->subState.numOfSub = 2; pParentSql->subState.numOfRemain = pParentSql->subState.numOfSub; for (int32_t m = 0; m < pParentSql->subState.numOfSub; ++m) { SSqlObj* sub = pParentSql->pSubs[m]; issueTSCompQuery(sub, sub->param, pParentSql); } } taosArrayDestroy(s1); taosArrayDestroy(s2); } static void tsCompRetrieveCallback(void* param, TAOS_RES* tres, int32_t numOfRows) { SJoinSupporter* pSupporter = (SJoinSupporter*)param; SSqlObj* pParentSql = pSupporter->pObj; SSqlObj* pSql = (SSqlObj*)tres; SSqlCmd* pCmd = &pSql->cmd; SSqlRes* pRes = &pSql->res; SQueryInfo* pQueryInfo = tscGetQueryInfoDetail(pCmd, pCmd->clauseIndex); assert(!TSDB_QUERY_HAS_TYPE(pQueryInfo->type, TSDB_QUERY_TYPE_JOIN_SEC_STAGE)); // check for the error code firstly if (taos_errno(pSql) != TSDB_CODE_SUCCESS) { // todo retry if other subqueries are not failed yet assert(numOfRows < 0 && numOfRows == taos_errno(pSql)); tscError("%p sub query failed, code:%s, index:%d", pSql, tstrerror(numOfRows), pSupporter->subqueryIndex); pParentSql->res.code = numOfRows; quitAllSubquery(pParentSql, pSupporter); tscQueueAsyncRes(pParentSql); return; } if (numOfRows > 0) { // write the compressed timestamp to disk file fwrite(pRes->data, (size_t)pRes->numOfRows, 1, pSupporter->f); fclose(pSupporter->f); pSupporter->f = NULL; STSBuf* pBuf = tsBufCreateFromFile(pSupporter->path, true); if (pBuf == NULL) { // in error process, close the fd tscError("%p invalid ts comp file from vnode, abort subquery, file size:%d", pSql, numOfRows); pParentSql->res.code = TAOS_SYSTEM_ERROR(errno); tscQueueAsyncRes(pParentSql); return; } if (pSupporter->pTSBuf == NULL) { tscDebug("%p create tmp file for ts block:%s, size:%d bytes", pSql, pBuf->path, numOfRows); pSupporter->pTSBuf = pBuf; } else { assert(pQueryInfo->numOfTables == 1); // for subquery, only one tsBufMerge(pSupporter->pTSBuf, pBuf); tsBufDestroy(pBuf); } // continue to retrieve ts-comp data from vnode if (!pRes->completed) { taosGetTmpfilePath("ts-join", pSupporter->path); pSupporter->f = fopen(pSupporter->path, "w"); pRes->row = (int32_t)pRes->numOfRows; taos_fetch_rows_a(tres, tsCompRetrieveCallback, param); return; } } if (hasMoreVnodesToTry(pSql)) { STableMetaInfo* pTableMetaInfo = tscGetMetaInfo(pQueryInfo, 0); int32_t totalVgroups = pTableMetaInfo->vgroupList->numOfVgroups; pTableMetaInfo->vgroupIndex += 1; assert(pTableMetaInfo->vgroupIndex < totalVgroups); tscDebug("%p results from vgroup index:%d completed, try next vgroup:%d. total vgroups:%d. current numOfRes:%" PRId64, pSql, pTableMetaInfo->vgroupIndex - 1, pTableMetaInfo->vgroupIndex, totalVgroups, pRes->numOfClauseTotal); pCmd->command = TSDB_SQL_SELECT; tscResetForNextRetrieve(&pSql->res); assert(pSupporter->f == NULL); taosGetTmpfilePath("ts-join", pSupporter->path); // TODO check for failure pSupporter->f = fopen(pSupporter->path, "w"); pRes->row = (int32_t)pRes->numOfRows; // set the callback function pSql->fp = tscJoinQueryCallback; tscProcessSql(pSql); return; } if (atomic_sub_fetch_32(&pParentSql->subState.numOfRemain, 1) > 0) { return; } tscDebug("%p all subquery retrieve ts complete, do ts block intersect", pParentSql); // proceeds to launched secondary query to retrieve final data SJoinSupporter* p1 = pParentSql->pSubs[0]->param; SJoinSupporter* p2 = pParentSql->pSubs[1]->param; STimeWindow win = TSWINDOW_INITIALIZER; int64_t num = doTSBlockIntersect(pParentSql, p1, p2, &win); if (num <= 0) { // no result during ts intersect tscDebug("%p no results generated in ts intersection, free all sub SqlObj and quit", pParentSql); freeJoinSubqueryObj(pParentSql); // set no result command pParentSql->cmd.command = TSDB_SQL_RETRIEVE_EMPTY_RESULT; (*pParentSql->fp)(pParentSql->param, pParentSql, 0); return; } // launch the query the retrieve actual results from vnode along with the filtered timestamp SQueryInfo* pPQueryInfo = tscGetQueryInfoDetail(&pParentSql->cmd, pParentSql->cmd.clauseIndex); updateQueryTimeRange(pPQueryInfo, &win); //update the vgroup that involved in real data query tscLaunchRealSubqueries(pParentSql); } static void joinRetrieveFinalResCallback(void* param, TAOS_RES* tres, int numOfRows) { SJoinSupporter* pSupporter = (SJoinSupporter*)param; SSqlObj* pParentSql = pSupporter->pObj; SSqlObj* pSql = (SSqlObj*)tres; SSqlCmd* pCmd = &pSql->cmd; SSqlRes* pRes = &pSql->res; SQueryInfo* pQueryInfo = tscGetQueryInfoDetail(pCmd, pCmd->clauseIndex); if (taos_errno(pSql) != TSDB_CODE_SUCCESS) { assert(numOfRows == taos_errno(pSql)); pParentSql->res.code = numOfRows; tscError("%p retrieve failed, index:%d, code:%s", pSql, pSupporter->subqueryIndex, tstrerror(numOfRows)); tscQueueAsyncRes(pParentSql); return; } if (numOfRows >= 0) { pRes->numOfTotal += pRes->numOfRows; } SSubqueryState* pState = &pParentSql->subState; if (tscNonOrderedProjectionQueryOnSTable(pQueryInfo, 0) && numOfRows == 0) { STableMetaInfo* pTableMetaInfo = tscGetMetaInfo(pQueryInfo, 0); assert(pQueryInfo->numOfTables == 1); // for projection query, need to try next vnode if current vnode is exhausted int32_t numOfVgroups = 0; // TODO refactor if (pTableMetaInfo->pVgroupTables != NULL) { numOfVgroups = (int32_t)taosArrayGetSize(pTableMetaInfo->pVgroupTables); } else { numOfVgroups = pTableMetaInfo->vgroupList->numOfVgroups; } if ((++pTableMetaInfo->vgroupIndex) < numOfVgroups) { tscDebug("%p no result in current vnode anymore, try next vnode, vgIndex:%d", pSql, pTableMetaInfo->vgroupIndex); pSql->cmd.command = TSDB_SQL_SELECT; pSql->fp = tscJoinQueryCallback; tscProcessSql(pSql); return; } else { tscDebug("%p no result in current subquery anymore", pSql); } } if (atomic_sub_fetch_32(&pState->numOfRemain, 1) > 0) { tscDebug("%p sub:%p completed, remain:%d, total:%d", pParentSql, tres, pState->numOfRemain, pState->numOfSub); return; } tscDebug("%p all %d secondary subqueries retrieval completed, code:%d", tres, pState->numOfSub, pParentSql->res.code); if (pParentSql->res.code != TSDB_CODE_SUCCESS) { freeJoinSubqueryObj(pParentSql); pParentSql->res.completed = true; } // update the records for each subquery in parent sql object. for (int32_t i = 0; i < pState->numOfSub; ++i) { if (pParentSql->pSubs[i] == NULL) { tscDebug("%p %p sub:%d not retrieve data", pParentSql, NULL, i); continue; } SSqlRes* pRes1 = &pParentSql->pSubs[i]->res; if (pRes1->row > 0 && pRes1->numOfRows > 0) { tscDebug("%p sub:%p index:%d numOfRows:%"PRId64" total:%"PRId64 " (not retrieve)", pParentSql, pParentSql->pSubs[i], i, pRes1->numOfRows, pRes1->numOfTotal); assert(pRes1->row < pRes1->numOfRows); } else { pRes1->numOfClauseTotal += pRes1->numOfRows; tscDebug("%p sub:%p index:%d numOfRows:%"PRId64" total:%"PRId64, pParentSql, pParentSql->pSubs[i], i, pRes1->numOfRows, pRes1->numOfTotal); } } // data has retrieved to client, build the join results tscBuildResFromSubqueries(pParentSql); } void tscFetchDatablockFromSubquery(SSqlObj* pSql) { assert(pSql->subState.numOfSub >= 1); int32_t numOfFetch = 0; bool hasData = true; bool reachLimit = false; // if the subquery is NULL, it does not involved in the final result generation for (int32_t i = 0; i < pSql->subState.numOfSub; ++i) { SSqlObj* pSub = pSql->pSubs[i]; if (pSub == NULL) { continue; } SSqlRes *pRes = &pSub->res; SQueryInfo* pQueryInfo = tscGetQueryInfoDetail(&pSub->cmd, 0); if (!tscHasReachLimitation(pQueryInfo, pRes)) { if (pRes->row >= pRes->numOfRows) { // no data left in current result buffer hasData = false; // The current query is completed for the active vnode, try next vnode if exists // If it is completed, no need to fetch anymore. if (!pRes->completed) { numOfFetch++; } } } else { // has reach the limitation, no data anymore if (pRes->row >= pRes->numOfRows) { reachLimit = true; hasData = false; break; } } } // has data remains in client side, and continue to return data to app if (hasData) { tscBuildResFromSubqueries(pSql); return; } // If at least one subquery is completed in current vnode, try the next vnode in case of multi-vnode // super table projection query. if (numOfFetch <= 0 && !reachLimit) { bool tryNextVnode = false; SSqlObj* pp = pSql->pSubs[0]; SQueryInfo* pi = tscGetQueryInfoDetail(&pp->cmd, 0); // get the number of subquery that need to retrieve the next vnode. if (tscNonOrderedProjectionQueryOnSTable(pi, 0)) { for(int32_t i = 0; i < pSql->subState.numOfSub; ++i) { SSqlObj* pSub = pSql->pSubs[i]; if (pSub != NULL && pSub->res.row >= pSub->res.numOfRows && pSub->res.completed) { pSql->subState.numOfRemain++; } } } for (int32_t i = 0; i < pSql->subState.numOfSub; ++i) { SSqlObj* pSub = pSql->pSubs[i]; if (pSub == NULL) { continue; } SQueryInfo* pQueryInfo = tscGetQueryInfoDetail(&pSub->cmd, 0); if (tscNonOrderedProjectionQueryOnSTable(pQueryInfo, 0) && pSub->res.row >= pSub->res.numOfRows && pSub->res.completed) { STableMetaInfo* pTableMetaInfo = tscGetMetaInfo(pQueryInfo, 0); assert(pQueryInfo->numOfTables == 1); // for projection query, need to try next vnode if current vnode is exhausted int32_t numOfVgroups = 0; // TODO refactor if (pTableMetaInfo->pVgroupTables != NULL) { numOfVgroups = (int32_t)taosArrayGetSize(pTableMetaInfo->pVgroupTables); } else { numOfVgroups = pTableMetaInfo->vgroupList->numOfVgroups; } if ((++pTableMetaInfo->vgroupIndex) < numOfVgroups) { tscDebug("%p no result in current vnode anymore, try next vnode, vgIndex:%d", pSub, pTableMetaInfo->vgroupIndex); pSub->cmd.command = TSDB_SQL_SELECT; pSub->fp = tscJoinQueryCallback; tscProcessSql(pSub); tryNextVnode = true; } else { tscDebug("%p no result in current subquery anymore", pSub); } } } if (tryNextVnode) { return; } pSql->res.completed = true; freeJoinSubqueryObj(pSql); if (pSql->res.code == TSDB_CODE_SUCCESS) { (*pSql->fp)(pSql->param, pSql, 0); } else { tscQueueAsyncRes(pSql); } return; } // TODO multi-vnode retrieve for projection query with limitation has bugs, since the global limiation is not handled // retrieve data from current vnode. tscDebug("%p retrieve data from %d subqueries", pSql, numOfFetch); SJoinSupporter* pSupporter = NULL; pSql->subState.numOfRemain = numOfFetch; for (int32_t i = 0; i < pSql->subState.numOfSub; ++i) { SSqlObj* pSql1 = pSql->pSubs[i]; if (pSql1 == NULL) { continue; } SSqlRes* pRes1 = &pSql1->res; SSqlCmd* pCmd1 = &pSql1->cmd; pSupporter = (SJoinSupporter*)pSql1->param; // wait for all subqueries completed SQueryInfo* pQueryInfo = tscGetQueryInfoDetail(pCmd1, 0); assert(pRes1->numOfRows >= 0 && pQueryInfo->numOfTables == 1); STableMetaInfo* pTableMetaInfo = tscGetMetaInfo(pQueryInfo, 0); if (pRes1->row >= pRes1->numOfRows) { tscDebug("%p subquery:%p retrieve data from vnode, subquery:%d, vgroupIndex:%d", pSql, pSql1, pSupporter->subqueryIndex, pTableMetaInfo->vgroupIndex); tscResetForNextRetrieve(pRes1); pSql1->fp = joinRetrieveFinalResCallback; if (pCmd1->command < TSDB_SQL_LOCAL) { pCmd1->command = (pCmd1->command > TSDB_SQL_MGMT) ? TSDB_SQL_RETRIEVE : TSDB_SQL_FETCH; } tscProcessSql(pSql1); } } } // all subqueries return, set the result output index void tscSetupOutputColumnIndex(SSqlObj* pSql) { SSqlCmd* pCmd = &pSql->cmd; SSqlRes* pRes = &pSql->res; tscDebug("%p all subquery response, retrieve data for subclause:%d", pSql, pCmd->clauseIndex); // the column transfer support struct has been built if (pRes->pColumnIndex != NULL) { return; } SQueryInfo* pQueryInfo = tscGetQueryInfoDetail(pCmd, pCmd->clauseIndex); int32_t numOfExprs = (int32_t)tscSqlExprNumOfExprs(pQueryInfo); pRes->pColumnIndex = calloc(1, sizeof(SColumnIndex) * numOfExprs); if (pRes->pColumnIndex == NULL) { pRes->code = TSDB_CODE_TSC_OUT_OF_MEMORY; return; } for (int32_t i = 0; i < numOfExprs; ++i) { SSqlExpr* pExpr = tscSqlExprGet(pQueryInfo, i); int32_t tableIndexOfSub = -1; for (int32_t j = 0; j < pQueryInfo->numOfTables; ++j) { STableMetaInfo* pTableMetaInfo = tscGetMetaInfo(pQueryInfo, j); if (pTableMetaInfo->pTableMeta->id.uid == pExpr->uid) { tableIndexOfSub = j; break; } } assert(tableIndexOfSub >= 0 && tableIndexOfSub < pQueryInfo->numOfTables); SSqlCmd* pSubCmd = &pSql->pSubs[tableIndexOfSub]->cmd; SQueryInfo* pSubQueryInfo = tscGetQueryInfoDetail(pSubCmd, 0); size_t numOfSubExpr = taosArrayGetSize(pSubQueryInfo->exprList); for (int32_t k = 0; k < numOfSubExpr; ++k) { SSqlExpr* pSubExpr = tscSqlExprGet(pSubQueryInfo, k); if (pExpr->functionId == pSubExpr->functionId && pExpr->colInfo.colId == pSubExpr->colInfo.colId) { pRes->pColumnIndex[i] = (SColumnIndex){.tableIndex = tableIndexOfSub, .columnIndex = k}; break; } } } // restore the offset value for super table query in case of final result. tscRestoreSQLFuncForSTableQuery(pQueryInfo); tscFieldInfoUpdateOffset(pQueryInfo); } void tscJoinQueryCallback(void* param, TAOS_RES* tres, int code) { SSqlObj* pSql = (SSqlObj*)tres; SJoinSupporter* pSupporter = (SJoinSupporter*)param; SSqlObj* pParentSql = pSupporter->pObj; // There is only one subquery and table for each subquery. SQueryInfo* pQueryInfo = tscGetQueryInfoDetail(&pSql->cmd, 0); assert(pQueryInfo->numOfTables == 1 && pSql->cmd.numOfClause == 1); // retrieve actual query results from vnode during the second stage join subquery if (pParentSql->res.code != TSDB_CODE_SUCCESS) { tscError("%p abort query due to other subquery failure. code:%d, global code:%d", pSql, code, pParentSql->res.code); quitAllSubquery(pParentSql, pSupporter); tscQueueAsyncRes(pParentSql); return; } // TODO here retry is required, not directly returns to client if (taos_errno(pSql) != TSDB_CODE_SUCCESS) { assert(taos_errno(pSql) == code); tscError("%p abort query, code:%s, global code:%s", pSql, tstrerror(code), tstrerror(pParentSql->res.code)); pParentSql->res.code = code; quitAllSubquery(pParentSql, pSupporter); tscQueueAsyncRes(pParentSql); return; } // retrieve tuples from vnode if (TSDB_QUERY_HAS_TYPE(pQueryInfo->type, TSDB_QUERY_TYPE_TAG_FILTER_QUERY)) { pSql->fp = tidTagRetrieveCallback; pSql->cmd.command = TSDB_SQL_FETCH; tscProcessSql(pSql); return; } // retrieve ts_comp info from vnode if (!TSDB_QUERY_HAS_TYPE(pQueryInfo->type, TSDB_QUERY_TYPE_JOIN_SEC_STAGE)) { pSql->fp = tsCompRetrieveCallback; pSql->cmd.command = TSDB_SQL_FETCH; tscProcessSql(pSql); return; } // wait for the other subqueries response from vnode if (atomic_sub_fetch_32(&pParentSql->subState.numOfRemain, 1) > 0) { return; } tscSetupOutputColumnIndex(pParentSql); STableMetaInfo* pTableMetaInfo = tscGetMetaInfo(pQueryInfo, 0); /** * if the query is a continue query (vgroupIndex > 0 for projection query) for next vnode, do the retrieval of * data instead of returning to its invoker */ if (pTableMetaInfo->vgroupIndex > 0 && tscNonOrderedProjectionQueryOnSTable(pQueryInfo, 0)) { // pParentSql->subState.numOfRemain = pParentSql->subState.numOfSub; // reset the record value pSql->fp = joinRetrieveFinalResCallback; // continue retrieve data pSql->cmd.command = TSDB_SQL_FETCH; tscProcessSql(pSql); } else { // first retrieve from vnode during the secondary stage sub-query // set the command flag must be after the semaphore been correctly set. if (pParentSql->res.code == TSDB_CODE_SUCCESS) { (*pParentSql->fp)(pParentSql->param, pParentSql, 0); } else { tscQueueAsyncRes(pParentSql); } } } ///////////////////////////////////////////////////////////////////////////////////////// static void tscRetrieveDataRes(void *param, TAOS_RES *tres, int code); static SSqlObj *tscCreateSTableSubquery(SSqlObj *pSql, SRetrieveSupport *trsupport, SSqlObj *prevSqlObj); int32_t tscCreateJoinSubquery(SSqlObj *pSql, int16_t tableIndex, SJoinSupporter *pSupporter) { SSqlCmd * pCmd = &pSql->cmd; SQueryInfo *pQueryInfo = tscGetQueryInfoDetail(pCmd, pCmd->clauseIndex); pSql->res.qhandle = 0x1; assert(pSql->res.numOfRows == 0); if (pSql->pSubs == NULL) { pSql->pSubs = calloc(pSql->subState.numOfSub, POINTER_BYTES); if (pSql->pSubs == NULL) { return TSDB_CODE_TSC_OUT_OF_MEMORY; } } SSqlObj *pNew = createSubqueryObj(pSql, tableIndex, tscJoinQueryCallback, pSupporter, TSDB_SQL_SELECT, NULL); if (pNew == NULL) { return TSDB_CODE_TSC_OUT_OF_MEMORY; } pSql->pSubs[pSql->subState.numOfRemain++] = pNew; assert(pSql->subState.numOfRemain <= pSql->subState.numOfSub); if (QUERY_IS_JOIN_QUERY(pQueryInfo->type)) { addGroupInfoForSubquery(pSql, pNew, 0, tableIndex); // refactor as one method SQueryInfo *pNewQueryInfo = tscGetQueryInfoDetail(&pNew->cmd, 0); assert(pNewQueryInfo != NULL); // update the table index size_t num = taosArrayGetSize(pNewQueryInfo->colList); for (int32_t i = 0; i < num; ++i) { SColumn* pCol = taosArrayGetP(pNewQueryInfo->colList, i); pCol->colIndex.tableIndex = 0; } pSupporter->colList = pNewQueryInfo->colList; pNewQueryInfo->colList = NULL; pSupporter->exprList = pNewQueryInfo->exprList; pNewQueryInfo->exprList = NULL; pSupporter->fieldsInfo = pNewQueryInfo->fieldsInfo; // this data needs to be transfer to support struct memset(&pNewQueryInfo->fieldsInfo, 0, sizeof(SFieldInfo)); if (tscTagCondCopy(&pSupporter->tagCond, &pNewQueryInfo->tagCond) != 0) { return TSDB_CODE_TSC_OUT_OF_MEMORY; } pNew->cmd.numOfCols = 0; pNewQueryInfo->interval.interval = 0; pSupporter->limit = pNewQueryInfo->limit; pNewQueryInfo->limit.limit = -1; pNewQueryInfo->limit.offset = 0; // backup the data and clear it in the sqlcmd object memset(&pNewQueryInfo->groupbyExpr, 0, sizeof(SSqlGroupbyExpr)); tscInitQueryInfo(pNewQueryInfo); STableMetaInfo *pTableMetaInfo = tscGetMetaInfo(pNewQueryInfo, 0); if (UTIL_TABLE_IS_SUPER_TABLE(pTableMetaInfo)) { // return the tableId & tag SColumnIndex colIndex = {0}; STagCond* pTagCond = &pSupporter->tagCond; assert(pTagCond->joinInfo.hasJoin); int32_t tagColId = tscGetJoinTagColIdByUid(pTagCond, pTableMetaInfo->pTableMeta->id.uid); SSchema* s = tscGetTableColumnSchemaById(pTableMetaInfo->pTableMeta, tagColId); // get the tag colId column index int32_t numOfTags = tscGetNumOfTags(pTableMetaInfo->pTableMeta); SSchema* pSchema = tscGetTableTagSchema(pTableMetaInfo->pTableMeta); for(int32_t i = 0; i < numOfTags; ++i) { if (pSchema[i].colId == tagColId) { colIndex.columnIndex = i; break; } } int16_t bytes = 0; int16_t type = 0; int32_t inter = 0; getResultDataInfo(s->type, s->bytes, TSDB_FUNC_TID_TAG, 0, &type, &bytes, &inter, 0, 0); SSchema s1 = {.colId = s->colId, .type = (uint8_t)type, .bytes = bytes}; pSupporter->tagSize = s1.bytes; assert(isValidDataType(s1.type) && s1.bytes > 0); // set get tags query type TSDB_QUERY_SET_TYPE(pNewQueryInfo->type, TSDB_QUERY_TYPE_TAG_FILTER_QUERY); tscAddSpecialColumnForSelect(pNewQueryInfo, 0, TSDB_FUNC_TID_TAG, &colIndex, &s1, TSDB_COL_TAG); size_t numOfCols = taosArrayGetSize(pNewQueryInfo->colList); tscDebug( "%p subquery:%p tableIndex:%d, vgroupIndex:%d, type:%d, transfer to tid_tag query to retrieve (tableId, tags), " "exprInfo:%" PRIzu ", colList:%" PRIzu ", fieldsInfo:%d, tagIndex:%d, name:%s", pSql, pNew, tableIndex, pTableMetaInfo->vgroupIndex, pNewQueryInfo->type, tscSqlExprNumOfExprs(pNewQueryInfo), numOfCols, pNewQueryInfo->fieldsInfo.numOfOutput, colIndex.columnIndex, pNewQueryInfo->pTableMetaInfo[0]->name); } else { SSchema colSchema = {.type = TSDB_DATA_TYPE_BINARY, .bytes = 1}; SColumnIndex colIndex = {0, PRIMARYKEY_TIMESTAMP_COL_INDEX}; tscAddSpecialColumnForSelect(pNewQueryInfo, 0, TSDB_FUNC_TS_COMP, &colIndex, &colSchema, TSDB_COL_NORMAL); // set the tags value for ts_comp function SSqlExpr *pExpr = tscSqlExprGet(pNewQueryInfo, 0); if (UTIL_TABLE_IS_SUPER_TABLE(pTableMetaInfo)) { int16_t tagColId = tscGetJoinTagColIdByUid(&pSupporter->tagCond, pTableMetaInfo->pTableMeta->id.uid); pExpr->param->i64Key = tagColId; pExpr->numOfParams = 1; } // add the filter tag column if (pSupporter->colList != NULL) { size_t s = taosArrayGetSize(pSupporter->colList); for (int32_t i = 0; i < s; ++i) { SColumn *pCol = taosArrayGetP(pSupporter->colList, i); if (pCol->numOfFilters > 0) { // copy to the pNew->cmd.colList if it is filtered. SColumn *p = tscColumnClone(pCol); taosArrayPush(pNewQueryInfo->colList, &p); } } } size_t numOfCols = taosArrayGetSize(pNewQueryInfo->colList); tscDebug( "%p subquery:%p tableIndex:%d, vgroupIndex:%d, type:%u, transfer to ts_comp query to retrieve timestamps, " "exprInfo:%" PRIzu ", colList:%" PRIzu ", fieldsInfo:%d, name:%s", pSql, pNew, tableIndex, pTableMetaInfo->vgroupIndex, pNewQueryInfo->type, tscSqlExprNumOfExprs(pNewQueryInfo), numOfCols, pNewQueryInfo->fieldsInfo.numOfOutput, pNewQueryInfo->pTableMetaInfo[0]->name); } } else { assert(0); SQueryInfo *pNewQueryInfo = tscGetQueryInfoDetail(&pNew->cmd, 0); pNewQueryInfo->type |= TSDB_QUERY_TYPE_SUBQUERY; } return TSDB_CODE_SUCCESS; } void tscHandleMasterJoinQuery(SSqlObj* pSql) { SSqlCmd* pCmd = &pSql->cmd; SSqlRes* pRes = &pSql->res; SQueryInfo *pQueryInfo = tscGetQueryInfoDetail(pCmd, pCmd->clauseIndex); assert((pQueryInfo->type & TSDB_QUERY_TYPE_SUBQUERY) == 0); int32_t code = TSDB_CODE_SUCCESS; pSql->subState.numOfSub = pQueryInfo->numOfTables; bool hasEmptySub = false; tscDebug("%p start subquery, total:%d", pSql, pQueryInfo->numOfTables); for (int32_t i = 0; i < pQueryInfo->numOfTables; ++i) { SJoinSupporter *pSupporter = tscCreateJoinSupporter(pSql, i); if (pSupporter == NULL) { // failed to create support struct, abort current query tscError("%p tableIndex:%d, failed to allocate join support object, abort further query", pSql, i); code = TSDB_CODE_TSC_OUT_OF_MEMORY; goto _error; } code = tscCreateJoinSubquery(pSql, i, pSupporter); if (code != TSDB_CODE_SUCCESS) { // failed to create subquery object, quit query tscDestroyJoinSupporter(pSupporter); goto _error; } SSqlObj* pSub = pSql->pSubs[i]; STableMetaInfo* pTableMetaInfo = tscGetTableMetaInfoFromCmd(&pSub->cmd, 0, 0); if (UTIL_TABLE_IS_SUPER_TABLE(pTableMetaInfo) && (pTableMetaInfo->vgroupList->numOfVgroups == 0)) { hasEmptySub = true; break; } } if (hasEmptySub) { // at least one subquery is empty, do nothing and return freeJoinSubqueryObj(pSql); pSql->cmd.command = TSDB_SQL_RETRIEVE_EMPTY_RESULT; (*pSql->fp)(pSql->param, pSql, 0); } else { for (int32_t i = 0; i < pSql->subState.numOfSub; ++i) { SSqlObj* pSub = pSql->pSubs[i]; if ((code = tscProcessSql(pSub)) != TSDB_CODE_SUCCESS) { pSql->subState.numOfRemain = i - 1; // the already sent request will continue and do not go to the error process routine break; } } pSql->cmd.command = TSDB_SQL_TABLE_JOIN_RETRIEVE; } return; _error: pRes->code = code; tscQueueAsyncRes(pSql); } static void doCleanupSubqueries(SSqlObj *pSql, int32_t numOfSubs) { assert(numOfSubs <= pSql->subState.numOfSub && numOfSubs >= 0); for(int32_t i = 0; i < numOfSubs; ++i) { SSqlObj* pSub = pSql->pSubs[i]; assert(pSub != NULL); SRetrieveSupport* pSupport = pSub->param; taosTFree(pSupport->localBuffer); taosTFree(pSupport); taos_free_result(pSub); } } int32_t tscHandleMasterSTableQuery(SSqlObj *pSql) { SSqlRes *pRes = &pSql->res; SSqlCmd *pCmd = &pSql->cmd; // pRes->code check only serves in launching metric sub-queries if (pRes->code == TSDB_CODE_TSC_QUERY_CANCELLED) { pCmd->command = TSDB_SQL_RETRIEVE_LOCALMERGE; // enable the abort of kill super table function. return pRes->code; } tExtMemBuffer ** pMemoryBuf = NULL; tOrderDescriptor *pDesc = NULL; SColumnModel * pModel = NULL; pRes->qhandle = 0x1; // hack the qhandle check const uint32_t nBufferSize = (1u << 16); // 64KB SQueryInfo *pQueryInfo = tscGetQueryInfoDetail(pCmd, pCmd->clauseIndex); STableMetaInfo *pTableMetaInfo = tscGetMetaInfo(pQueryInfo, 0); SSubqueryState *pState = &pSql->subState; pState->numOfSub = 0; if (pTableMetaInfo->pVgroupTables == NULL) { pState->numOfSub = pTableMetaInfo->vgroupList->numOfVgroups; } else { pState->numOfSub = (int32_t)taosArrayGetSize(pTableMetaInfo->pVgroupTables); } assert(pState->numOfSub > 0); int32_t ret = tscLocalReducerEnvCreate(pSql, &pMemoryBuf, &pDesc, &pModel, nBufferSize); if (ret != 0) { pRes->code = TSDB_CODE_TSC_OUT_OF_MEMORY; tscQueueAsyncRes(pSql); taosTFree(pMemoryBuf); return ret; } pSql->pSubs = calloc(pState->numOfSub, POINTER_BYTES); tscDebug("%p retrieved query data from %d vnode(s)", pSql, pState->numOfSub); if (pSql->pSubs == NULL) { taosTFree(pSql->pSubs); pRes->code = TSDB_CODE_TSC_OUT_OF_MEMORY; tscLocalReducerEnvDestroy(pMemoryBuf, pDesc, pModel, pState->numOfSub); tscQueueAsyncRes(pSql); return ret; } pState->numOfRemain = pState->numOfSub; pRes->code = TSDB_CODE_SUCCESS; int32_t i = 0; for (; i < pState->numOfSub; ++i) { SRetrieveSupport *trs = (SRetrieveSupport *)calloc(1, sizeof(SRetrieveSupport)); if (trs == NULL) { tscError("%p failed to malloc buffer for SRetrieveSupport, orderOfSub:%d, reason:%s", pSql, i, strerror(errno)); break; } trs->pExtMemBuffer = pMemoryBuf; trs->pOrderDescriptor = pDesc; trs->localBuffer = (tFilePage *)calloc(1, nBufferSize + sizeof(tFilePage)); if (trs->localBuffer == NULL) { tscError("%p failed to malloc buffer for local buffer, orderOfSub:%d, reason:%s", pSql, i, strerror(errno)); taosTFree(trs); break; } trs->subqueryIndex = i; trs->pParentSql = pSql; trs->pFinalColModel = pModel; SSqlObj *pNew = tscCreateSTableSubquery(pSql, trs, NULL); if (pNew == NULL) { tscError("%p failed to malloc buffer for subObj, orderOfSub:%d, reason:%s", pSql, i, strerror(errno)); taosTFree(trs->localBuffer); taosTFree(trs); break; } // todo handle multi-vnode situation if (pQueryInfo->tsBuf) { SQueryInfo *pNewQueryInfo = tscGetQueryInfoDetail(&pNew->cmd, 0); pNewQueryInfo->tsBuf = tsBufClone(pQueryInfo->tsBuf); assert(pNewQueryInfo->tsBuf != NULL); } tscDebug("%p sub:%p create subquery success. orderOfSub:%d", pSql, pNew, trs->subqueryIndex); } if (i < pState->numOfSub) { tscError("%p failed to prepare subquery structure and launch subqueries", pSql); pRes->code = TSDB_CODE_TSC_OUT_OF_MEMORY; tscLocalReducerEnvDestroy(pMemoryBuf, pDesc, pModel, pState->numOfSub); doCleanupSubqueries(pSql, i); return pRes->code; // free all allocated resource } if (pRes->code == TSDB_CODE_TSC_QUERY_CANCELLED) { tscLocalReducerEnvDestroy(pMemoryBuf, pDesc, pModel, pState->numOfSub); doCleanupSubqueries(pSql, i); return pRes->code; } for(int32_t j = 0; j < pState->numOfSub; ++j) { SSqlObj* pSub = pSql->pSubs[j]; SRetrieveSupport* pSupport = pSub->param; tscDebug("%p sub:%p launch subquery, orderOfSub:%d.", pSql, pSub, pSupport->subqueryIndex); tscProcessSql(pSub); } return TSDB_CODE_SUCCESS; } static void tscFreeRetrieveSup(SSqlObj *pSql) { SRetrieveSupport *trsupport = pSql->param; void* p = atomic_val_compare_exchange_ptr(&pSql->param, trsupport, 0); if (p == NULL) { tscDebug("%p retrieve supp already released", pSql); return; } tscDebug("%p start to free subquery supp obj:%p", pSql, trsupport); // int32_t index = trsupport->subqueryIndex; // SSqlObj *pParentSql = trsupport->pParentSql; // assert(pSql == pParentSql->pSubs[index]); taosTFree(trsupport->localBuffer); taosTFree(trsupport); } static void tscRetrieveFromDnodeCallBack(void *param, TAOS_RES *tres, int numOfRows); static void tscHandleSubqueryError(SRetrieveSupport *trsupport, SSqlObj *pSql, int numOfRows); static void tscAbortFurtherRetryRetrieval(SRetrieveSupport *trsupport, TAOS_RES *tres, int32_t code) { // set no disk space error info tscError("sub:%p failed to flush data to disk, reason:%s", tres, tstrerror(code)); SSqlObj* pParentSql = trsupport->pParentSql; pParentSql->res.code = code; trsupport->numOfRetry = MAX_NUM_OF_SUBQUERY_RETRY; tscHandleSubqueryError(trsupport, tres, pParentSql->res.code); } /* * current query failed, and the retry count is less than the available * count, retry query clear previous retrieved data, then launch a new sub query */ static int32_t tscReissueSubquery(SRetrieveSupport *trsupport, SSqlObj *pSql, int32_t code) { SSqlObj *pParentSql = trsupport->pParentSql; int32_t subqueryIndex = trsupport->subqueryIndex; STableMetaInfo *pTableMetaInfo = tscGetTableMetaInfoFromCmd(&pSql->cmd, 0, 0); SCMVgroupInfo* pVgroup = &pTableMetaInfo->vgroupList->vgroups[0]; tExtMemBufferClear(trsupport->pExtMemBuffer[subqueryIndex]); // clear local saved number of results trsupport->localBuffer->num = 0; tscError("%p sub:%p retrieve/query failed, code:%s, orderOfSub:%d, retry:%d", trsupport->pParentSql, pSql, tstrerror(code), subqueryIndex, trsupport->numOfRetry); SSqlObj *pNew = tscCreateSTableSubquery(trsupport->pParentSql, trsupport, pSql); if (pNew == NULL) { tscError("%p sub:%p failed to create new subquery due to error:%s, abort retry, vgId:%d, orderOfSub:%d", trsupport->pParentSql, pSql, tstrerror(terrno), pVgroup->vgId, trsupport->subqueryIndex); pParentSql->res.code = terrno; trsupport->numOfRetry = MAX_NUM_OF_SUBQUERY_RETRY; return pParentSql->res.code; } int32_t ret = tscProcessSql(pNew); // if failed to process sql, let following code handle the pSql if (ret == TSDB_CODE_SUCCESS) { taos_free_result(pSql); return ret; } else { return ret; } } void tscHandleSubqueryError(SRetrieveSupport *trsupport, SSqlObj *pSql, int numOfRows) { // it has been freed already if (pSql->param != trsupport || pSql->param == NULL) { return; } SSqlObj *pParentSql = trsupport->pParentSql; int32_t subqueryIndex = trsupport->subqueryIndex; assert(pSql != NULL); SSubqueryState* pState = &pParentSql->subState; assert(pState->numOfRemain <= pState->numOfSub && pState->numOfRemain >= 0); // retrieved in subquery failed. OR query cancelled in retrieve phase. if (taos_errno(pSql) == TSDB_CODE_SUCCESS && pParentSql->res.code != TSDB_CODE_SUCCESS) { /* * kill current sub-query connection, which may retrieve data from vnodes; * Here we get: pPObj->res.code == TSDB_CODE_TSC_QUERY_CANCELLED */ pSql->res.numOfRows = 0; trsupport->numOfRetry = MAX_NUM_OF_SUBQUERY_RETRY; // disable retry efforts tscDebug("%p query is cancelled, sub:%p, orderOfSub:%d abort retrieve, code:%s", pParentSql, pSql, subqueryIndex, tstrerror(pParentSql->res.code)); } if (numOfRows >= 0) { // current query is successful, but other sub query failed, still abort current query. tscDebug("%p sub:%p retrieve numOfRows:%d,orderOfSub:%d", pParentSql, pSql, numOfRows, subqueryIndex); tscError("%p sub:%p abort further retrieval due to other queries failure,orderOfSub:%d,code:%s", pParentSql, pSql, subqueryIndex, tstrerror(pParentSql->res.code)); } else { if (trsupport->numOfRetry++ < MAX_NUM_OF_SUBQUERY_RETRY && pParentSql->res.code == TSDB_CODE_SUCCESS) { if (tscReissueSubquery(trsupport, pSql, numOfRows) == TSDB_CODE_SUCCESS) { return; } } else { // reach the maximum retry count, abort atomic_val_compare_exchange_32(&pParentSql->res.code, TSDB_CODE_SUCCESS, numOfRows); tscError("%p sub:%p retrieve failed,code:%s,orderOfSub:%d failed.no more retry,set global code:%s", pParentSql, pSql, tstrerror(numOfRows), subqueryIndex, tstrerror(pParentSql->res.code)); } } int32_t remain = -1; if ((remain = atomic_sub_fetch_32(&pState->numOfRemain, 1)) > 0) { tscDebug("%p sub:%p orderOfSub:%d freed, finished subqueries:%d", pParentSql, pSql, trsupport->subqueryIndex, pState->numOfSub - remain); tscFreeRetrieveSup(pSql); return; } // all subqueries are failed tscError("%p retrieve from %d vnode(s) completed,code:%s.FAILED.", pParentSql, pState->numOfSub, tstrerror(pParentSql->res.code)); // release allocated resource tscLocalReducerEnvDestroy(trsupport->pExtMemBuffer, trsupport->pOrderDescriptor, trsupport->pFinalColModel, pState->numOfSub); tscFreeRetrieveSup(pSql); // in case of second stage join subquery, invoke its callback function instead of regular QueueAsyncRes SQueryInfo *pQueryInfo = tscGetQueryInfoDetail(&pParentSql->cmd, 0); if (!TSDB_QUERY_HAS_TYPE(pQueryInfo->type, TSDB_QUERY_TYPE_JOIN_SEC_STAGE)) { (*pParentSql->fp)(pParentSql->param, pParentSql, pParentSql->res.code); } else { // regular super table query if (pParentSql->res.code != TSDB_CODE_SUCCESS) { tscQueueAsyncRes(pParentSql); } } } static void tscAllDataRetrievedFromDnode(SRetrieveSupport *trsupport, SSqlObj* pSql) { int32_t idx = trsupport->subqueryIndex; SSqlObj * pParentSql = trsupport->pParentSql; tOrderDescriptor *pDesc = trsupport->pOrderDescriptor; SSubqueryState* pState = &pParentSql->subState; SQueryInfo *pQueryInfo = tscGetQueryInfoDetail(&pSql->cmd, 0); STableMetaInfo* pTableMetaInfo = pQueryInfo->pTableMetaInfo[0]; // data in from current vnode is stored in cache and disk uint32_t numOfRowsFromSubquery = (uint32_t)(trsupport->pExtMemBuffer[idx]->numOfTotalElems + trsupport->localBuffer->num); SVgroupsInfo* vgroupsInfo = pTableMetaInfo->vgroupList; tscDebug("%p sub:%p all data retrieved from ep:%s, vgId:%d, numOfRows:%d, orderOfSub:%d", pParentSql, pSql, vgroupsInfo->vgroups[0].epAddr[0].fqdn, vgroupsInfo->vgroups[0].vgId, numOfRowsFromSubquery, idx); tColModelCompact(pDesc->pColumnModel, trsupport->localBuffer, pDesc->pColumnModel->capacity); #ifdef _DEBUG_VIEW printf("%" PRIu64 " rows data flushed to disk:\n", trsupport->localBuffer->num); SSrcColumnInfo colInfo[256] = {0}; tscGetSrcColumnInfo(colInfo, pQueryInfo); tColModelDisplayEx(pDesc->pColumnModel, trsupport->localBuffer->data, trsupport->localBuffer->num, trsupport->localBuffer->num, colInfo); #endif if (tsTotalTmpDirGB != 0 && tsAvailTmpDirectorySpace < tsReservedTmpDirectorySpace) { tscError("%p sub:%p client disk space remain %.3f GB, need at least %.3f GB, stop query", pParentSql, pSql, tsAvailTmpDirectorySpace, tsReservedTmpDirectorySpace); tscAbortFurtherRetryRetrieval(trsupport, pSql, TSDB_CODE_TSC_NO_DISKSPACE); return; } // each result for a vnode is ordered as an independant list, // then used as an input of loser tree for disk-based merge int32_t code = tscFlushTmpBuffer(trsupport->pExtMemBuffer[idx], pDesc, trsupport->localBuffer, pQueryInfo->groupbyExpr.orderType); if (code != 0) { // set no disk space error info, and abort retry tscAbortFurtherRetryRetrieval(trsupport, pSql, code); return; } int32_t remain = -1; if ((remain = atomic_sub_fetch_32(&pParentSql->subState.numOfRemain, 1)) > 0) { tscDebug("%p sub:%p orderOfSub:%d freed, finished subqueries:%d", pParentSql, pSql, trsupport->subqueryIndex, pState->numOfSub - remain); tscFreeRetrieveSup(pSql); return; } // all sub-queries are returned, start to local merge process pDesc->pColumnModel->capacity = trsupport->pExtMemBuffer[idx]->numOfElemsPerPage; tscDebug("%p retrieve from %d vnodes completed.final NumOfRows:%" PRId64 ",start to build loser tree", pParentSql, pState->numOfSub, pState->numOfRetrievedRows); SQueryInfo *pPQueryInfo = tscGetQueryInfoDetail(&pParentSql->cmd, 0); tscClearInterpInfo(pPQueryInfo); tscCreateLocalReducer(trsupport->pExtMemBuffer, pState->numOfSub, pDesc, trsupport->pFinalColModel, pParentSql); tscDebug("%p build loser tree completed", pParentSql); pParentSql->res.precision = pSql->res.precision; pParentSql->res.numOfRows = 0; pParentSql->res.row = 0; tscFreeRetrieveSup(pSql); // set the command flag must be after the semaphore been correctly set. pParentSql->cmd.command = TSDB_SQL_RETRIEVE_LOCALMERGE; if (pParentSql->res.code == TSDB_CODE_SUCCESS) { (*pParentSql->fp)(pParentSql->param, pParentSql, 0); } else { tscQueueAsyncRes(pParentSql); } } static void tscRetrieveFromDnodeCallBack(void *param, TAOS_RES *tres, int numOfRows) { SSqlObj *pSql = (SSqlObj *)tres; assert(pSql != NULL); // this query has been freed already SRetrieveSupport *trsupport = (SRetrieveSupport *)param; if (pSql->param == NULL || param == NULL) { tscDebug("%p already freed in dnodecallback", pSql); assert(pSql->res.code == TSDB_CODE_TSC_QUERY_CANCELLED); return; } tOrderDescriptor *pDesc = trsupport->pOrderDescriptor; int32_t idx = trsupport->subqueryIndex; SSqlObj * pParentSql = trsupport->pParentSql; SSubqueryState* pState = &pParentSql->subState; assert(pState->numOfRemain <= pState->numOfSub && pState->numOfRemain >= 0); STableMetaInfo *pTableMetaInfo = tscGetTableMetaInfoFromCmd(&pSql->cmd, 0, 0); SCMVgroupInfo *pVgroup = &pTableMetaInfo->vgroupList->vgroups[0]; if (pParentSql->res.code != TSDB_CODE_SUCCESS) { trsupport->numOfRetry = MAX_NUM_OF_SUBQUERY_RETRY; tscDebug("%p query cancelled/failed, sub:%p, vgId:%d, orderOfSub:%d, code:%s, global code:%s", pParentSql, pSql, pVgroup->vgId, trsupport->subqueryIndex, tstrerror(numOfRows), tstrerror(pParentSql->res.code)); tscHandleSubqueryError(param, tres, numOfRows); return; } if (taos_errno(pSql) != TSDB_CODE_SUCCESS) { assert(numOfRows == taos_errno(pSql)); if (numOfRows == TSDB_CODE_TSC_QUERY_CANCELLED) { trsupport->numOfRetry = MAX_NUM_OF_SUBQUERY_RETRY; } if (trsupport->numOfRetry++ < MAX_NUM_OF_SUBQUERY_RETRY) { tscError("%p sub:%p failed code:%s, retry:%d", pParentSql, pSql, tstrerror(numOfRows), trsupport->numOfRetry); if (tscReissueSubquery(trsupport, pSql, numOfRows) == TSDB_CODE_SUCCESS) { return; } } else { tscDebug("%p sub:%p reach the max retry times, set global code:%s", pParentSql, pSql, tstrerror(numOfRows)); atomic_val_compare_exchange_32(&pParentSql->res.code, TSDB_CODE_SUCCESS, numOfRows); // set global code and abort } tscHandleSubqueryError(param, tres, numOfRows); return; } SSqlRes * pRes = &pSql->res; SQueryInfo *pQueryInfo = tscGetQueryInfoDetail(&pSql->cmd, 0); if (numOfRows > 0) { assert(pRes->numOfRows == numOfRows); int64_t num = atomic_add_fetch_64(&pState->numOfRetrievedRows, numOfRows); tscDebug("%p sub:%p retrieve numOfRows:%" PRId64 " totalNumOfRows:%" PRIu64 " from ep:%s, orderOfSub:%d", pParentSql, pSql, pRes->numOfRows, pState->numOfRetrievedRows, pSql->epSet.fqdn[pSql->epSet.inUse], idx); if (num > tsMaxNumOfOrderedResults && tscIsProjectionQueryOnSTable(pQueryInfo, 0)) { tscError("%p sub:%p num of OrderedRes is too many, max allowed:%" PRId32 " , current:%" PRId64, pParentSql, pSql, tsMaxNumOfOrderedResults, num); tscAbortFurtherRetryRetrieval(trsupport, tres, TSDB_CODE_TSC_SORTED_RES_TOO_MANY); return; } #ifdef _DEBUG_VIEW printf("received data from vnode: %"PRIu64" rows\n", pRes->numOfRows); SSrcColumnInfo colInfo[256] = {0}; tscGetSrcColumnInfo(colInfo, pQueryInfo); tColModelDisplayEx(pDesc->pColumnModel, pRes->data, pRes->numOfRows, pRes->numOfRows, colInfo); #endif // no disk space for tmp directory if (tsTotalTmpDirGB != 0 && tsAvailTmpDirectorySpace < tsReservedTmpDirectorySpace) { tscError("%p sub:%p client disk space remain %.3f GB, need at least %.3f GB, stop query", pParentSql, pSql, tsAvailTmpDirectorySpace, tsReservedTmpDirectorySpace); tscAbortFurtherRetryRetrieval(trsupport, tres, TSDB_CODE_TSC_NO_DISKSPACE); return; } int32_t ret = saveToBuffer(trsupport->pExtMemBuffer[idx], pDesc, trsupport->localBuffer, pRes->data, (int32_t)pRes->numOfRows, pQueryInfo->groupbyExpr.orderType); if (ret != 0) { // set no disk space error info, and abort retry tscAbortFurtherRetryRetrieval(trsupport, tres, TSDB_CODE_TSC_NO_DISKSPACE); } else if (pRes->completed) { tscAllDataRetrievedFromDnode(trsupport, pSql); } else { // continue fetch data from dnode taos_fetch_rows_a(tres, tscRetrieveFromDnodeCallBack, param); } } else { // all data has been retrieved to client tscAllDataRetrievedFromDnode(trsupport, pSql); } } static SSqlObj *tscCreateSTableSubquery(SSqlObj *pSql, SRetrieveSupport *trsupport, SSqlObj *prevSqlObj) { const int32_t table_index = 0; SSqlObj *pNew = createSubqueryObj(pSql, table_index, tscRetrieveDataRes, trsupport, TSDB_SQL_SELECT, prevSqlObj); if (pNew != NULL) { // the sub query of two-stage super table query SQueryInfo *pQueryInfo = tscGetQueryInfoDetail(&pNew->cmd, 0); pQueryInfo->type |= TSDB_QUERY_TYPE_STABLE_SUBQUERY; assert(pQueryInfo->numOfTables == 1 && pNew->cmd.numOfClause == 1 && trsupport->subqueryIndex < pSql->subState.numOfSub); // launch subquery for each vnode, so the subquery index equals to the vgroupIndex. STableMetaInfo *pTableMetaInfo = tscGetMetaInfo(pQueryInfo, table_index); pTableMetaInfo->vgroupIndex = trsupport->subqueryIndex; pSql->pSubs[trsupport->subqueryIndex] = pNew; } return pNew; } void tscRetrieveDataRes(void *param, TAOS_RES *tres, int code) { SRetrieveSupport *trsupport = (SRetrieveSupport *) param; SSqlObj* pParentSql = trsupport->pParentSql; SSqlObj* pSql = (SSqlObj *) tres; SQueryInfo* pQueryInfo = tscGetQueryInfoDetail(&pSql->cmd, 0); assert(pSql->cmd.numOfClause == 1 && pQueryInfo->numOfTables == 1); STableMetaInfo *pTableMetaInfo = tscGetTableMetaInfoFromCmd(&pSql->cmd, 0, 0); SCMVgroupInfo* pVgroup = &pTableMetaInfo->vgroupList->vgroups[trsupport->subqueryIndex]; // stable query killed or other subquery failed, all query stopped if (pParentSql->res.code != TSDB_CODE_SUCCESS) { trsupport->numOfRetry = MAX_NUM_OF_SUBQUERY_RETRY; tscError("%p query cancelled or failed, sub:%p, vgId:%d, orderOfSub:%d, code:%s, global code:%s", pParentSql, pSql, pVgroup->vgId, trsupport->subqueryIndex, tstrerror(code), tstrerror(pParentSql->res.code)); tscHandleSubqueryError(param, tres, code); return; } /* * if a subquery on a vnode failed, all retrieve operations from vnode that occurs later * than this one are actually not necessary, we simply call the tscRetrieveFromDnodeCallBack * function to abort current and remain retrieve process. * * NOTE: thread safe is required. */ if (taos_errno(pSql) != TSDB_CODE_SUCCESS) { assert(code == taos_errno(pSql)); if (trsupport->numOfRetry++ < MAX_NUM_OF_SUBQUERY_RETRY) { tscError("%p sub:%p failed code:%s, retry:%d", pParentSql, pSql, tstrerror(code), trsupport->numOfRetry); if (tscReissueSubquery(trsupport, pSql, code) == TSDB_CODE_SUCCESS) { return; } } else { tscError("%p sub:%p reach the max retry times, set global code:%s", pParentSql, pSql, tstrerror(code)); atomic_val_compare_exchange_32(&pParentSql->res.code, TSDB_CODE_SUCCESS, code); // set global code and abort } tscHandleSubqueryError(param, tres, pParentSql->res.code); return; } tscDebug("%p sub:%p query complete, ep:%s, vgId:%d, orderOfSub:%d, retrieve data", trsupport->pParentSql, pSql, pVgroup->epAddr[0].fqdn, pVgroup->vgId, trsupport->subqueryIndex); if (pSql->res.qhandle == 0) { // qhandle is NULL, code is TSDB_CODE_SUCCESS means no results generated from this vnode tscRetrieveFromDnodeCallBack(param, pSql, 0); } else { taos_fetch_rows_a(tres, tscRetrieveFromDnodeCallBack, param); } } static void multiVnodeInsertFinalize(void* param, TAOS_RES* tres, int numOfRows) { SInsertSupporter *pSupporter = (SInsertSupporter *)param; SSqlObj* pParentObj = pSupporter->pSql; // record the total inserted rows if (numOfRows > 0) { pParentObj->res.numOfRows += numOfRows; } if (taos_errno(tres) != TSDB_CODE_SUCCESS) { SSqlObj* pSql = (SSqlObj*) tres; assert(pSql != NULL && pSql->res.code == numOfRows); pParentObj->res.code = pSql->res.code; } taosTFree(pSupporter); if (atomic_sub_fetch_32(&pParentObj->subState.numOfRemain, 1) > 0) { return; } tscDebug("%p Async insertion completed, total inserted:%" PRId64, pParentObj, pParentObj->res.numOfRows); // restore user defined fp pParentObj->fp = pParentObj->fetchFp; // todo remove this parameter in async callback function definition. // all data has been sent to vnode, call user function int32_t v = (pParentObj->res.code != TSDB_CODE_SUCCESS) ? pParentObj->res.code : (int32_t)pParentObj->res.numOfRows; (*pParentObj->fp)(pParentObj->param, pParentObj, v); } /** * it is a subquery, so after parse the sql string, copy the submit block to payload of itself * @param pSql * @return */ int32_t tscHandleInsertRetry(SSqlObj* pSql) { assert(pSql != NULL && pSql->param != NULL); SSqlCmd* pCmd = &pSql->cmd; SSqlRes* pRes = &pSql->res; SInsertSupporter* pSupporter = (SInsertSupporter*) pSql->param; assert(pSupporter->index < pSupporter->pSql->subState.numOfSub); STableDataBlocks* pTableDataBlock = taosArrayGetP(pCmd->pDataBlocks, pSupporter->index); int32_t code = tscCopyDataBlockToPayload(pSql, pTableDataBlock); if ((pRes->code = code)!= TSDB_CODE_SUCCESS) { tscQueueAsyncRes(pSql); return code; // here the pSql may have been released already. } return tscProcessSql(pSql); } int32_t tscHandleMultivnodeInsert(SSqlObj *pSql) { SSqlCmd *pCmd = &pSql->cmd; SSqlRes *pRes = &pSql->res; pSql->subState.numOfSub = (uint16_t)taosArrayGetSize(pCmd->pDataBlocks); assert(pSql->subState.numOfSub > 0); pRes->code = TSDB_CODE_SUCCESS; // the number of already initialized subqueries int32_t numOfSub = 0; pSql->subState.numOfRemain = pSql->subState.numOfSub; pSql->pSubs = calloc(pSql->subState.numOfSub, POINTER_BYTES); if (pSql->pSubs == NULL) { goto _error; } tscDebug("%p submit data to %d vnode(s)", pSql, pSql->subState.numOfSub); while(numOfSub < pSql->subState.numOfSub) { SInsertSupporter* pSupporter = calloc(1, sizeof(SInsertSupporter)); if (pSupporter == NULL) { goto _error; } pSupporter->pSql = pSql; pSupporter->index = numOfSub; SSqlObj *pNew = createSimpleSubObj(pSql, multiVnodeInsertFinalize, pSupporter, TSDB_SQL_INSERT); if (pNew == NULL) { tscError("%p failed to malloc buffer for subObj, orderOfSub:%d, reason:%s", pSql, numOfSub, strerror(errno)); goto _error; } /* * assign the callback function to fetchFp to make sure that the error process function can restore * the callback function (multiVnodeInsertFinalize) correctly. */ pNew->fetchFp = pNew->fp; pSql->pSubs[numOfSub] = pNew; STableDataBlocks* pTableDataBlock = taosArrayGetP(pCmd->pDataBlocks, numOfSub); pRes->code = tscCopyDataBlockToPayload(pNew, pTableDataBlock); if (pRes->code == TSDB_CODE_SUCCESS) { tscDebug("%p sub:%p create subObj success. orderOfSub:%d", pSql, pNew, numOfSub); numOfSub++; } else { tscDebug("%p prepare submit data block failed in async insertion, vnodeIdx:%d, total:%d, code:%s", pSql, numOfSub, pSql->subState.numOfSub, tstrerror(pRes->code)); goto _error; } } if (numOfSub < pSql->subState.numOfSub) { tscError("%p failed to prepare subObj structure and launch sub-insertion", pSql); pRes->code = TSDB_CODE_TSC_OUT_OF_MEMORY; goto _error; } pCmd->pDataBlocks = tscDestroyBlockArrayList(pCmd->pDataBlocks); // use the local variable for (int32_t j = 0; j < numOfSub; ++j) { SSqlObj *pSub = pSql->pSubs[j]; tscDebug("%p sub:%p launch sub insert, orderOfSub:%d", pSql, pSub, j); tscProcessSql(pSub); } return TSDB_CODE_SUCCESS; _error: return TSDB_CODE_TSC_OUT_OF_MEMORY; } static char* getResultBlockPosition(SSqlCmd* pCmd, SSqlRes* pRes, int32_t columnIndex, int16_t* bytes) { SQueryInfo* pQueryInfo = tscGetQueryInfoDetail(pCmd, pCmd->clauseIndex); SInternalField* pInfo = (SInternalField*) TARRAY_GET_ELEM(pQueryInfo->fieldsInfo.internalField, columnIndex); assert(pInfo->pSqlExpr != NULL); *bytes = pInfo->pSqlExpr->resBytes; char* pData = pRes->data + pInfo->pSqlExpr->offset * pRes->numOfRows + pRes->row * (*bytes); return pData; } static void doBuildResFromSubqueries(SSqlObj* pSql) { SSqlRes* pRes = &pSql->res; SQueryInfo *pQueryInfo = tscGetQueryInfoDetail(&pSql->cmd, pSql->cmd.clauseIndex); int32_t numOfRes = INT32_MAX; for (int32_t i = 0; i < pSql->subState.numOfSub; ++i) { SSqlObj* pSub = pSql->pSubs[i]; if (pSub == NULL) { continue; } int32_t remain = (int32_t)(pSub->res.numOfRows - pSub->res.row); numOfRes = (int32_t)(MIN(numOfRes, remain)); } if (numOfRes == 0) { return; } int32_t totalSize = tscGetResRowLength(pQueryInfo->exprList); assert(numOfRes * totalSize > 0); char* tmp = realloc(pRes->pRsp, numOfRes * totalSize); if (tmp == NULL) { pRes->code = TSDB_CODE_TSC_OUT_OF_MEMORY; return; } else { pRes->pRsp = tmp; } pRes->data = pRes->pRsp; char* data = pRes->data; int16_t bytes = 0; size_t numOfExprs = tscSqlExprNumOfExprs(pQueryInfo); for(int32_t i = 0; i < numOfExprs; ++i) { SColumnIndex* pIndex = &pRes->pColumnIndex[i]; SSqlRes* pRes1 = &pSql->pSubs[pIndex->tableIndex]->res; SSqlCmd* pCmd1 = &pSql->pSubs[pIndex->tableIndex]->cmd; char* pData = getResultBlockPosition(pCmd1, pRes1, pIndex->columnIndex, &bytes); memcpy(data, pData, bytes * numOfRes); data += bytes * numOfRes; } for(int32_t i = 0; i < pSql->subState.numOfSub; ++i) { SSqlObj* pSub = pSql->pSubs[i]; if (pSub == NULL) { continue; } pSub->res.row += numOfRes; assert(pSub->res.row <= pSub->res.numOfRows); } pRes->numOfRows = numOfRes; pRes->numOfClauseTotal += numOfRes; } void tscBuildResFromSubqueries(SSqlObj *pSql) { SSqlRes* pRes = &pSql->res; if (pRes->code != TSDB_CODE_SUCCESS) { tscQueueAsyncRes(pSql); return; } if (pRes->tsrow == NULL) { SQueryInfo* pQueryInfo = tscGetQueryInfoDetail(&pSql->cmd, pSql->cmd.clauseIndex); size_t numOfExprs = tscSqlExprNumOfExprs(pQueryInfo); pRes->numOfCols = (int32_t)numOfExprs; pRes->tsrow = calloc(numOfExprs, POINTER_BYTES); pRes->buffer = calloc(numOfExprs, POINTER_BYTES); pRes->length = calloc(numOfExprs, sizeof(int32_t)); if (pRes->tsrow == NULL || pRes->buffer == NULL || pRes->length == NULL) { pRes->code = TSDB_CODE_TSC_OUT_OF_MEMORY; tscQueueAsyncRes(pSql); return; } tscRestoreSQLFuncForSTableQuery(pQueryInfo); } while (1) { assert (pRes->row >= pRes->numOfRows); doBuildResFromSubqueries(pSql); tsem_post(&pSql->rspSem); return; } } static void transferNcharData(SSqlObj *pSql, int32_t columnIndex, TAOS_FIELD *pField) { SSqlRes *pRes = &pSql->res; if (pRes->tsrow[columnIndex] != NULL && pField->type == TSDB_DATA_TYPE_NCHAR) { // convert unicode to native code in a temporary buffer extra one byte for terminated symbol if (pRes->buffer[columnIndex] == NULL) { pRes->buffer[columnIndex] = malloc(pField->bytes + TSDB_NCHAR_SIZE); } /* string terminated char for binary data*/ memset(pRes->buffer[columnIndex], 0, pField->bytes + TSDB_NCHAR_SIZE); int32_t length = taosUcs4ToMbs(pRes->tsrow[columnIndex], pRes->length[columnIndex], pRes->buffer[columnIndex]); if ( length >= 0 ) { pRes->tsrow[columnIndex] = (unsigned char*)pRes->buffer[columnIndex]; pRes->length[columnIndex] = length; } else { tscError("%p charset:%s to %s. val:%s convert failed.", pSql, DEFAULT_UNICODE_ENCODEC, tsCharset, (char*)pRes->tsrow[columnIndex]); pRes->tsrow[columnIndex] = NULL; pRes->length[columnIndex] = 0; } } } static char *getArithemicInputSrc(void *param, const char *name, int32_t colId) { SArithmeticSupport *pSupport = (SArithmeticSupport *) param; int32_t index = -1; SSqlExpr* pExpr = NULL; for (int32_t i = 0; i < pSupport->numOfCols; ++i) { pExpr = taosArrayGetP(pSupport->exprList, i); if (strncmp(name, pExpr->aliasName, sizeof(pExpr->aliasName) - 1) == 0) { index = i; break; } } assert(index >= 0 && index < pSupport->numOfCols); return pSupport->data[index] + pSupport->offset * pExpr->resBytes; } TAOS_ROW doSetResultRowData(SSqlObj *pSql, bool finalResult) { SSqlCmd *pCmd = &pSql->cmd; SSqlRes *pRes = &pSql->res; assert(pRes->row >= 0 && pRes->row <= pRes->numOfRows); if (pRes->row >= pRes->numOfRows) { // all the results has returned to invoker taosTFree(pRes->tsrow); return pRes->tsrow; } SQueryInfo *pQueryInfo = tscGetQueryInfoDetail(pCmd, pCmd->clauseIndex); size_t size = tscNumOfFields(pQueryInfo); for (int i = 0; i < size; ++i) { SInternalField* pSup = TARRAY_GET_ELEM(pQueryInfo->fieldsInfo.internalField, i); if (pSup->pSqlExpr != NULL) { tscGetResultColumnChr(pRes, &pQueryInfo->fieldsInfo, i); } // primary key column cannot be null in interval query, no need to check if (i == 0 && pQueryInfo->interval.interval > 0) { continue; } TAOS_FIELD *pField = TARRAY_GET_ELEM(pQueryInfo->fieldsInfo.internalField, i); if (pRes->tsrow[i] != NULL && pField->type == TSDB_DATA_TYPE_NCHAR) { transferNcharData(pSql, i, pField); } // calculate the result from several other columns if (pSup->pArithExprInfo != NULL) { if (pRes->pArithSup == NULL) { pRes->pArithSup = (SArithmeticSupport*)calloc(1, sizeof(SArithmeticSupport)); } pRes->pArithSup->offset = 0; pRes->pArithSup->pArithExpr = pSup->pArithExprInfo; pRes->pArithSup->numOfCols = (int32_t)tscSqlExprNumOfExprs(pQueryInfo); pRes->pArithSup->exprList = pQueryInfo->exprList; pRes->pArithSup->data = calloc(pRes->pArithSup->numOfCols, POINTER_BYTES); if (pRes->buffer[i] == NULL) { TAOS_FIELD* field = tscFieldInfoGetField(&pQueryInfo->fieldsInfo, i); pRes->buffer[i] = malloc(field->bytes); } for(int32_t k = 0; k < pRes->pArithSup->numOfCols; ++k) { SSqlExpr* pExpr = tscSqlExprGet(pQueryInfo, k); pRes->pArithSup->data[k] = (pRes->data + pRes->numOfRows* pExpr->offset) + pRes->row*pExpr->resBytes; } tExprTreeCalcTraverse(pRes->pArithSup->pArithExpr->pExpr, 1, pRes->buffer[i], pRes->pArithSup, TSDB_ORDER_ASC, getArithemicInputSrc); pRes->tsrow[i] = (unsigned char*)pRes->buffer[i]; } } pRes->row++; // index increase one-step return pRes->tsrow; } static UNUSED_FUNC bool tscHasRemainDataInSubqueryResultSet(SSqlObj *pSql) { bool hasData = true; SSqlCmd *pCmd = &pSql->cmd; SQueryInfo *pQueryInfo = tscGetQueryInfoDetail(pCmd, pCmd->clauseIndex); if (tscNonOrderedProjectionQueryOnSTable(pQueryInfo, 0)) { bool allSubqueryExhausted = true; for (int32_t i = 0; i < pSql->subState.numOfSub; ++i) { if (pSql->pSubs[i] == NULL) { continue; } SSqlRes *pRes1 = &pSql->pSubs[i]->res; SSqlCmd *pCmd1 = &pSql->pSubs[i]->cmd; SQueryInfo *pQueryInfo1 = tscGetQueryInfoDetail(pCmd1, pCmd1->clauseIndex); assert(pQueryInfo1->numOfTables == 1); STableMetaInfo *pTableMetaInfo = tscGetMetaInfo(pQueryInfo1, 0); /* * if the global limitation is not reached, and current result has not exhausted, or next more vnodes are * available, goes on */ if (pTableMetaInfo->vgroupIndex < pTableMetaInfo->vgroupList->numOfVgroups && pRes1->row < pRes1->numOfRows && (!tscHasReachLimitation(pQueryInfo1, pRes1))) { allSubqueryExhausted = false; break; } } hasData = !allSubqueryExhausted; } else { // otherwise, in case inner join, if any subquery exhausted, query completed. for (int32_t i = 0; i < pSql->subState.numOfSub; ++i) { if (pSql->pSubs[i] == 0) { continue; } SSqlRes * pRes1 = &pSql->pSubs[i]->res; SQueryInfo *pQueryInfo1 = tscGetQueryInfoDetail(&pSql->pSubs[i]->cmd, 0); if ((pRes1->row >= pRes1->numOfRows && tscHasReachLimitation(pQueryInfo1, pRes1) && tscIsProjectionQuery(pQueryInfo1)) || (pRes1->numOfRows == 0)) { hasData = false; break; } } } return hasData; }