/* Copyright (c) 2003, 2018, Oracle and/or its affiliates. All rights reserved. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License, version 2.0, as published by the Free Software Foundation. This program is also distributed with certain software (including but not limited to OpenSSL) that is licensed under separate terms, as designated in a particular file or component or in included license documentation. The authors of MySQL hereby grant you an additional permission to link the program and your derivative works with the separately licensed software that they have included with MySQL. 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. See the GNU General Public License, version 2.0, for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ #include #include struct Attrib { int numAttribs; int attribs[1024]; }; class AttribList { public: AttribList(){} ~AttribList(){ for(unsigned i = 0; i < attriblist.size(); i++){ delete attriblist[i]; } } void buildAttribList(const NdbDictionary::Table* pTab); Vector attriblist; }; // Functions that help out in testing that we may call // scan functions in wrong order etc // and receive a proper errormessage class ScanFunctions { public: ScanFunctions(const NdbDictionary::Table& _tab) : tab(_tab){ } enum ActionType { CloseWithoutStop, NextScanWhenNoMore, ExecuteScanWithOutOpenScan, OnlyOneScanPerTrans, OnlyOneOpBeforeOpenScan, OnlyOpenScanOnce, OnlyOneOpInScanTrans, CheckInactivityTimeOut, CheckInactivityBeforeClose , NoCloseTransaction, EqualAfterOpenScan }; int scanReadFunctions(Ndb* pNdb, int records, int parallelism, ActionType action, bool exclusive); private: const NdbDictionary::Table& tab; }; inline int ScanFunctions::scanReadFunctions(Ndb* pNdb, int records, int parallelism, ActionType action, bool exclusive){ int retryAttempt = 0; const int retryMax = 100; int sleepTime = 10; int check; NdbConnection *pTrans = 0; NdbScanOperation *pOp = 0; while (true){ if (retryAttempt >= retryMax){ g_err << "ERROR: has retried this operation " << retryAttempt << " times, failing!" << endl; return NDBT_FAILED; } pTrans = pNdb->startTransaction(); if (pTrans == NULL) { const NdbError err = pNdb->getNdbError(); if (err.status == NdbError::TemporaryError){ NDB_ERR(err); NdbSleep_MilliSleep(50); retryAttempt++; continue; } NDB_ERR(err); return NDBT_FAILED; } // Execute the scan without defining a scan operation pOp = pTrans->getNdbScanOperation(tab.getName()); if (pOp == NULL) { NDB_ERR(pTrans->getNdbError()); pNdb->closeTransaction(pTrans); return NDBT_FAILED; } if( pOp->readTuples(exclusive ? NdbScanOperation::LM_Exclusive : NdbScanOperation::LM_Read) ) { NDB_ERR(pTrans->getNdbError()); pNdb->closeTransaction(pTrans); return NDBT_FAILED; } if (action == OnlyOpenScanOnce){ // Call openScan one more time when it's already defined if( pOp->readTuples(NdbScanOperation::LM_Read) ) { NDB_ERR(pTrans->getNdbError()); pNdb->closeTransaction(pTrans); return NDBT_FAILED; } } if (action==EqualAfterOpenScan){ check = pOp->equal(tab.getColumn(0)->getName(), 10); if( check == -1 ) { NDB_ERR(pTrans->getNdbError()); pNdb->closeTransaction(pTrans); return NDBT_FAILED; } } for(int a = 0; agetValue(tab.getColumn(a)->getName()) == NULL) { NDB_ERR(pTrans->getNdbError()); pNdb->closeTransaction(pTrans); return NDBT_FAILED; } } check = pTrans->execute(NoCommit); if( check == -1 ) { NDB_ERR(pTrans->getNdbError()); pNdb->closeTransaction(pTrans); return NDBT_FAILED; } int abortCount = records / 10; bool abortTrans = (action==CloseWithoutStop); int eof; int rows = 0; eof = pOp->nextResult(); while(eof == 0){ rows++; if (abortCount == rows && abortTrans == true){ g_info << "Scan is aborted after "<close(); if( check == -1 ) { NDB_ERR(pTrans->getNdbError()); pNdb->closeTransaction(pTrans); return NDBT_FAILED; } } pNdb->closeTransaction(pTrans); return NDBT_OK; } if(action == CheckInactivityTimeOut){ if ((rows % (records / 10)) == 0){ // Sleep for a long time before calling nextScanResult if (sleepTime > 1) sleepTime--; g_info << "Sleeping "<nextResult(); } if (eof == -1) { const NdbError err = pTrans->getNdbError(); if (err.status == NdbError::TemporaryError){ NDB_ERR(err); // Be cruel, call nextScanResult after error for(int i=0; i<10; i++){ eof = pOp->nextResult(); if(eof == 0){ g_err << "nextScanResult returned eof = " << eof << endl << " That is an error when there are no more records" << endl; return NDBT_FAILED; } } // Be cruel end pNdb->closeTransaction(pTrans); NdbSleep_MilliSleep(50); retryAttempt++; g_info << "Starting over" << endl; // If test is CheckInactivityTimeOut // error 296 is expected if ((action == CheckInactivityTimeOut) && (err.code == 296)) return NDBT_OK; continue; } NDB_ERR(err); pNdb->closeTransaction(pTrans); return NDBT_FAILED; } if (action == NextScanWhenNoMore){ g_info << "Calling nextScanresult when there are no more records" << endl; for(int i=0; i<10; i++){ eof = pOp->nextResult(); if(eof == 0){ g_err << "nextScanResult returned eof = " << eof << endl << " That is an error when there are no more records" << endl; return NDBT_FAILED; } } } if(action == CheckInactivityBeforeClose){ // Sleep for a long time before calling close g_info << "NdbSleep_SecSleep(5) before close transaction" << endl; NdbSleep_SecSleep(5); } if(action == NoCloseTransaction) g_info << "Forgetting to close transaction" << endl; else pNdb->closeTransaction(pTrans); g_info << rows << " rows have been read" << endl; if (records != 0 && rows != records){ g_err << "Check expected number of records failed" << endl << " expected=" << records <<", " << endl << " read=" << rows << endl; return NDBT_FAILED; } return NDBT_OK; } return NDBT_FAILED; } void AttribList::buildAttribList(const NdbDictionary::Table* pTab){ attriblist.clear(); Attrib* attr; // Build attrib definitions that describes which attributes to read // Try to build strange combinations, not just "all" or all PK's // Scan without reading any attributes attr = new Attrib; attr->numAttribs = 0; attriblist.push_back(attr); int i; for(i = 1; i < pTab->getNoOfColumns(); i++){ attr = new Attrib; attr->numAttribs = i; for(int a = 0; aattribs[a] = a; attriblist.push_back(attr); } for(i = pTab->getNoOfColumns()-1; i > 0; i--){ attr = new Attrib; attr->numAttribs = i; for(int a = 0; aattribs[a] = a; attriblist.push_back(attr); } for(i = pTab->getNoOfColumns(); i > 0; i--){ attr = new Attrib; attr->numAttribs = pTab->getNoOfColumns() - i; for(int a = 0; agetNoOfColumns() - i; a++) attr->attribs[a] = pTab->getNoOfColumns()-a-1; attriblist.push_back(attr); } for(i = 1; i < pTab->getNoOfColumns(); i++){ attr = new Attrib; attr->numAttribs = pTab->getNoOfColumns() - i; for(int a = 0; agetNoOfColumns() - i; a++) attr->attribs[a] = pTab->getNoOfColumns()-a-1; attriblist.push_back(attr); } for(i = 1; i < pTab->getNoOfColumns(); i++){ attr = new Attrib; attr->numAttribs = 2; for(int a = 0; a<2; a++){ attr->attribs[a] = i%pTab->getNoOfColumns(); } attriblist.push_back(attr); } // Last attr = new Attrib; attr->numAttribs = 1; attr->attribs[0] = pTab->getNoOfColumns()-1; attriblist.push_back(attr); // Last and first attr = new Attrib; attr->numAttribs = 2; attr->attribs[0] = pTab->getNoOfColumns()-1; attr->attribs[1] = 0; attriblist.push_back(attr); // First and last attr = new Attrib; attr->numAttribs = 2; attr->attribs[0] = 0; attr->attribs[1] = pTab->getNoOfColumns()-1; attriblist.push_back(attr); #if 1 for(unsigned j = 0; j < attriblist.size(); j++){ g_info << attriblist[j]->numAttribs << ": " ; for(int a = 0; a < attriblist[j]->numAttribs; a++) g_info << attriblist[j]->attribs[a] << ", "; g_info << endl; } #endif }