File: ScanFunctions.hpp

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/* Copyright (c) 2003-2005 MySQL AB

   This program is free software; you can redistribute it and/or modify
   it under the terms of the GNU General Public License as published by
   the Free Software Foundation; version 2 of the License.

   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 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 Street, Fifth Floor, Boston, MA  02110-1301, USA */

#include <NDBT.hpp>
#include <NDBT_Test.hpp>



struct Attrib {
  int numAttribs;
  int attribs[1024];
};
class AttribList {
public:
  AttribList(){};
  ~AttribList(){
    for(size_t i = 0; i < attriblist.size(); i++){      
      delete attriblist[i];
    }
  };
  void buildAttribList(const NdbDictionary::Table* pTab); 
  Vector<Attrib*> 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){
	ERR(err);
	NdbSleep_MilliSleep(50);
	retryAttempt++;
	continue;
      }
      ERR(err);
      return NDBT_FAILED;
    }
    
    // Execute the scan without defining a scan operation
    pOp = pTrans->getNdbScanOperation(tab.getName());	
    if (pOp == NULL) {
      ERR(pTrans->getNdbError());
      pNdb->closeTransaction(pTrans);
      return NDBT_FAILED;
    }
    
    if( pOp->readTuples(exclusive ? 
			NdbScanOperation::LM_Exclusive : 
			NdbScanOperation::LM_Read) ) {
      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) ) {
	ERR(pTrans->getNdbError());
	pNdb->closeTransaction(pTrans);
	return NDBT_FAILED;
      }
    }
    
    if (action==EqualAfterOpenScan){
      check = pOp->equal(tab.getColumn(0)->getName(), 10);
      if( check == -1 ) {
	ERR(pTrans->getNdbError());
	pNdb->closeTransaction(pTrans);
	return NDBT_FAILED;
      }	
    }
    
    check = pOp->interpret_exit_ok();
    if( check == -1 ) {
      ERR(pTrans->getNdbError());
      pNdb->closeTransaction(pTrans);
      return NDBT_FAILED;
    }
    
    for(int a = 0; a<tab.getNoOfColumns(); a++){
      if(pOp->getValue(tab.getColumn(a)->getName()) == NULL) {
	ERR(pTrans->getNdbError());
	pNdb->closeTransaction(pTrans);
	return NDBT_FAILED;
      }
    }      
    
    check = pTrans->execute(NoCommit);
    if( check == -1 ) {
      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 "<<abortCount<<" rows" << endl;
	
	if (action != CloseWithoutStop){
	  // Test that we can closeTrans without stopScan
	  pOp->close();
	  if( check == -1 ) {
	    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 "<<sleepTime<<" secs " << endl;
	  NdbSleep_SecSleep(sleepTime); 
	}
      }

      eof = pOp->nextResult();
    }
    if (eof == -1) {
      const NdbError err = pTrans->getNdbError();

      if (err.status == NdbError::TemporaryError){
	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;
      }
      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; a<i; a++)
      attr->attribs[a] = a;
    attriblist.push_back(attr);
  }
  for(i = pTab->getNoOfColumns()-1; i > 0; i--){
    attr = new Attrib;
    attr->numAttribs = i;
    for(int a = 0; a<i; a++)
      attr->attribs[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; a<pTab->getNoOfColumns() - 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; a<pTab->getNoOfColumns() - 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(size_t 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

}