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|
/* Copyright (C) 2003 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; either version 2 of the License, or
(at your option) any later version.
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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
#include <ndb_global.h>
#include <NdbApi.hpp>
#include <NdbSchemaCon.hpp>
#include <NdbMain.h>
#include <md5_hash.hpp>
#include <NdbThread.h>
#include <NdbSleep.h>
#include <NdbTick.h>
#include <NdbOut.hpp>
#include <NdbTimer.hpp>
#include <NdbTest.hpp>
#include <NDBT_Error.hpp>
#define MAX_PARTS 4
#define MAX_SEEK 16
#define MAXSTRLEN 16
#define MAXATTR 64
#define MAXTABLES 64
#define MAXTHREADS 128
#define MAXPAR 1024
#define MAXATTRSIZE 1000
#define PKSIZE 1
#ifdef NDB_WIN32
inline long lrand48(void) { return rand(); };
#endif
enum StartType {
stIdle,
stInsert,
stRead,
stUpdate,
stDelete,
stStop
} ;
struct ThreadNdb
{
int threadNo;
Ndb* threadNdb;
Uint32 threadBase;
Uint32 threadLoopCounter;
Uint32 threadNextStart;
Uint32 threadStop;
Uint32 threadLoopStop;
Uint32 threadIncrement;
Uint32 threadNoCompleted;
bool threadCompleted;
StartType threadStartType;
};
struct TransNdb
{
char transRecord[128];
Ndb* transNdb;
StartType transStartType;
Uint32 vpn_number;
Uint32 vpn_identity;
Uint32 transErrorCount;
NdbOperation* transOperation;
ThreadNdb* transThread;
};
extern "C" { static void* threadLoop(void*); }
static void setAttrNames(void);
static void setTableNames(void);
static int readArguments(int argc, const char** argv);
static int createTables(Ndb*);
static bool defineOperation(NdbConnection* aTransObject, TransNdb*,
Uint32 vpn_nb, Uint32 vpn_id);
static bool executeTransaction(TransNdb* transNdbRef);
static StartType random_choice();
static void execute(StartType aType);
static bool executeThread(ThreadNdb*, TransNdb*);
static void executeCallback(int result, NdbConnection* NdbObject,
void* aObject);
static bool error_handler(const NdbError & err) ;
static Uint32 getKey(Uint32, Uint32) ;
static void input_error();
ErrorData * flexTTErrorData;
static NdbThread* threadLife[MAXTHREADS];
static int tNodeId;
static int ThreadReady[MAXTHREADS];
static StartType ThreadStart[MAXTHREADS];
static char tableName[1][MAXSTRLEN+1];
static char attrName[5][MAXSTRLEN+1];
// Program Parameters
static bool tInsert = false;
static bool tDelete = false;
static bool tReadUpdate = true;
static int tUpdateFreq = 20;
static bool tLocal = false;
static int tLocalPart = 0;
static int tMinEvents = 0;
static int tSendForce = 0;
static int tNoOfLoops = 1;
static Uint32 tNoOfThreads = 1;
static Uint32 tNoOfParallelTrans = 32;
static Uint32 tNoOfTransactions = 500;
static Uint32 tLoadFactor = 80;
static bool tempTable = false;
static bool startTransGuess = true;
//Program Flags
static int theSimpleFlag = 0;
static int theDirtyFlag = 0;
static int theWriteFlag = 0;
static int theTableCreateFlag = 1;
#define START_REAL_TIME
#define STOP_REAL_TIME
#define START_TIMER { NdbTimer timer; timer.doStart();
#define STOP_TIMER timer.doStop();
#define PRINT_TIMER(text, trans, opertrans) timer.printTransactionStatistics(text, trans, opertrans); };
static void
resetThreads(){
for (int i = 0; i < tNoOfThreads ; i++) {
ThreadReady[i] = 0;
ThreadStart[i] = stIdle;
}//for
}
static void
waitForThreads(void)
{
int cont = 0;
do {
cont = 0;
NdbSleep_MilliSleep(20);
for (int i = 0; i < tNoOfThreads ; i++) {
if (ThreadReady[i] == 0) {
cont = 1;
}//if
}//for
} while (cont == 1);
}
static void
tellThreads(StartType what)
{
for (int i = 0; i < tNoOfThreads ; i++)
ThreadStart[i] = what;
}
static Ndb_cluster_connection *g_cluster_connection= 0;
NDB_COMMAND(flexTT, "flexTT", "flexTT", "flexTT", 65535)
{
ndb_init();
ThreadNdb* pThreadData;
int returnValue = NDBT_OK;
int i;
flexTTErrorData = new ErrorData;
flexTTErrorData->resetErrorCounters();
if (readArguments(argc, argv) != 0){
input_error();
return NDBT_ProgramExit(NDBT_WRONGARGS);
}
pThreadData = new ThreadNdb[MAXTHREADS];
ndbout << endl << "FLEXTT - Starting normal mode" << endl;
ndbout << "Perform TimesTen benchmark" << endl;
ndbout << " " << tNoOfThreads << " number of concurrent threads " << endl;
ndbout << " " << tNoOfParallelTrans;
ndbout << " number of parallel transaction per thread " << endl;
ndbout << " " << tNoOfTransactions << " transaction(s) per round " << endl;
ndbout << " " << tNoOfLoops << " iterations " << endl;
ndbout << " " << "Update Frequency is " << tUpdateFreq << "%" << endl;
ndbout << " " << "Load Factor is " << tLoadFactor << "%" << endl;
if (tLocal == true) {
ndbout << " " << "We only use Local Part = ";
ndbout << tLocalPart << endl;
}//if
if (tempTable == true) {
ndbout << " Tables are without logging " << endl;
} else {
ndbout << " Tables are with logging " << endl;
}//if
if (startTransGuess == true) {
ndbout << " Transactions are executed with hint provided" << endl;
} else {
ndbout << " Transactions are executed with round robin scheme" << endl;
}//if
if (tSendForce == 0) {
ndbout << " No force send is used, adaptive algorithm used" << endl;
} else if (tSendForce == 1) {
ndbout << " Force send used" << endl;
} else {
ndbout << " No force send is used, adaptive algorithm disabled" << endl;
}//if
ndbout << endl;
/* print Setting */
flexTTErrorData->printSettings(ndbout);
NdbThread_SetConcurrencyLevel(2 + tNoOfThreads);
setAttrNames();
setTableNames();
Ndb_cluster_connection con;
if(con.connect(12, 5, 1) != 0)
{
return NDBT_ProgramExit(NDBT_FAILED);
}
g_cluster_connection= &con;
Ndb * pNdb = new Ndb(g_cluster_connection, "TEST_DB");
pNdb->init();
tNodeId = pNdb->getNodeId();
ndbout << " NdbAPI node with id = " << pNdb->getNodeId() << endl;
ndbout << endl;
ndbout << "Waiting for ndb to become ready..." <<endl;
if (pNdb->waitUntilReady(2000) != 0){
ndbout << "NDB is not ready" << endl;
ndbout << "Benchmark failed!" << endl;
returnValue = NDBT_FAILED;
}
if(returnValue == NDBT_OK){
if (createTables(pNdb) != 0){
returnValue = NDBT_FAILED;
}
}
if(returnValue == NDBT_OK){
/****************************************************************
* Create NDB objects. *
****************************************************************/
resetThreads();
for (i = 0; i < tNoOfThreads ; i++) {
pThreadData[i].threadNo = i;
threadLife[i] = NdbThread_Create(threadLoop,
(void**)&pThreadData[i],
32768,
"flexAsynchThread",
NDB_THREAD_PRIO_LOW);
}//for
ndbout << endl << "All NDB objects and table created" << endl << endl;
int noOfTransacts = tNoOfParallelTrans * tNoOfTransactions *
tNoOfThreads * tNoOfLoops;
/****************************************************************
* Execute program. *
****************************************************************/
/****************************************************************
* Perform inserts. *
****************************************************************/
if (tInsert == true) {
tInsert = false;
tReadUpdate = false;
START_TIMER;
execute(stInsert);
STOP_TIMER;
PRINT_TIMER("insert", noOfTransacts, 1);
}//if
/****************************************************************
* Perform read + updates. *
****************************************************************/
if (tReadUpdate == true) {
START_TIMER;
execute(stRead);
STOP_TIMER;
PRINT_TIMER("update + read", noOfTransacts, 1);
}//if
/****************************************************************
* Perform delete. *
****************************************************************/
if (tDelete == true) {
tDelete = false;
START_TIMER;
execute(stDelete);
STOP_TIMER;
PRINT_TIMER("delete", noOfTransacts, 1);
}//if
ndbout << "--------------------------------------------------" << endl;
execute(stStop);
void * tmp;
for(i = 0; i<tNoOfThreads; i++){
NdbThread_WaitFor(threadLife[i], &tmp);
NdbThread_Destroy(&threadLife[i]);
}
}
delete [] pThreadData;
delete pNdb;
//printing errorCounters
flexTTErrorData->printErrorCounters(ndbout);
return NDBT_ProgramExit(returnValue);
}//main()
static void execute(StartType aType)
{
resetThreads();
tellThreads(aType);
waitForThreads();
}//execute()
static void*
threadLoop(void* ThreadData)
{
Ndb* localNdb;
ThreadNdb* tabThread = (ThreadNdb*)ThreadData;
int loc_threadNo = tabThread->threadNo;
void * mem = malloc(sizeof(TransNdb)*tNoOfParallelTrans);
TransNdb* pTransData = (TransNdb*)mem;
localNdb = new Ndb(g_cluster_connection, "TEST_DB");
localNdb->init(1024);
localNdb->waitUntilReady();
if (tLocal == false) {
tabThread->threadIncrement = 1;
} else {
tabThread->threadIncrement = MAX_SEEK;
}//if
tabThread->threadBase = (loc_threadNo << 16) + tNodeId;
tabThread->threadNdb = localNdb;
tabThread->threadStop = tNoOfParallelTrans * tNoOfTransactions;
tabThread->threadStop *= tabThread->threadIncrement;
tabThread->threadLoopStop = tNoOfLoops;
Uint32 i, j;
for (i = 0; i < tNoOfParallelTrans; i++) {
pTransData[i].transNdb = localNdb;
pTransData[i].transThread = tabThread;
pTransData[i].transOperation = NULL;
pTransData[i].transStartType = stIdle;
pTransData[i].vpn_number = tabThread->threadBase;
pTransData[i].vpn_identity = 0;
pTransData[i].transErrorCount = 0;
for (j = 0; j < 128; j++) {
pTransData[i].transRecord[j] = 0x30;
}//for
}//for
for (;;){
while (ThreadStart[loc_threadNo] == stIdle) {
NdbSleep_MilliSleep(10);
}//while
// Check if signal to exit is received
if (ThreadStart[loc_threadNo] == stStop) {
break;
}//if
tabThread->threadStartType = ThreadStart[loc_threadNo];
tabThread->threadLoopCounter = 0;
tabThread->threadCompleted = false;
tabThread->threadNoCompleted = 0;
tabThread->threadNextStart = 0;
ThreadStart[loc_threadNo] = stIdle;
if(!executeThread(tabThread, pTransData)){
break;
}
ThreadReady[loc_threadNo] = 1;
}//for
free(mem);
delete localNdb;
ThreadReady[loc_threadNo] = 1;
return NULL; // Thread exits
}//threadLoop()
static
bool
executeThread(ThreadNdb* tabThread, TransNdb* atransDataArrayPtr) {
Uint32 i;
for (i = 0; i < tNoOfParallelTrans; i++) {
TransNdb* transNdbPtr = &atransDataArrayPtr[i];
transNdbPtr->vpn_identity = i * tabThread->threadIncrement;
transNdbPtr->transStartType = tabThread->threadStartType;
if (executeTransaction(transNdbPtr) == false) {
return false;
}//if
}//for
tabThread->threadNextStart = tNoOfParallelTrans * tabThread->threadIncrement;
do {
tabThread->threadNdb->sendPollNdb(3000, tMinEvents, tSendForce);
} while (tabThread->threadCompleted == false);
return true;
}//executeThread()
static
bool executeTransaction(TransNdb* transNdbRef)
{
NdbConnection* MyTrans;
ThreadNdb* tabThread = transNdbRef->transThread;
Ndb* aNdbObject = transNdbRef->transNdb;
Uint32 threadBase = tabThread->threadBase;
Uint32 startKey = transNdbRef->vpn_identity;
if (tLocal == true) {
startKey = getKey(startKey, threadBase);
}//if
if (startTransGuess == true) {
Uint32 tKey[2];
tKey[0] = startKey;
tKey[1] = threadBase;
MyTrans = aNdbObject->startTransaction((Uint32)0, //Priority
(const char*)&tKey[0], //Main PKey
(Uint32)8); //Key Length
} else {
MyTrans = aNdbObject->startTransaction();
}//if
if (MyTrans == NULL) {
error_handler(aNdbObject->getNdbError());
ndbout << endl << "Unable to recover! Quiting now" << endl ;
return false;
}//if
//-------------------------------------------------------
// Define the operation, but do not execute it yet.
//-------------------------------------------------------
if (!defineOperation(MyTrans, transNdbRef, startKey, threadBase))
return false;
return true;
}//executeTransaction()
static
Uint32
getKey(Uint32 aBase, Uint32 aThreadBase) {
Uint32 Tfound = aBase;
Uint32 hash;
Uint64 Tkey64;
Uint32* tKey32 = (Uint32*)&Tkey64;
tKey32[0] = aThreadBase;
for (int i = aBase; i < (aBase + MAX_SEEK); i++) {
tKey32[1] = (Uint32)i;
hash = md5_hash((Uint64*)&Tkey64, (Uint32)2);
hash = (hash >> 6) & (MAX_PARTS - 1);
if (hash == tLocalPart) {
Tfound = i;
break;
}//if
}//for
return Tfound;
}//getKey()
static void
executeCallback(int result, NdbConnection* NdbObject, void* aObject)
{
TransNdb* transNdbRef = (TransNdb*)aObject;
ThreadNdb* tabThread = transNdbRef->transThread;
Ndb* tNdb = transNdbRef->transNdb;
Uint32 vpn_id = transNdbRef->vpn_identity;
Uint32 vpn_nb = tabThread->threadBase;
if (result == -1) {
// Add complete error handling here
int retCode = flexTTErrorData->handleErrorCommon(NdbObject->getNdbError());
if (retCode == 1) {
if (NdbObject->getNdbError().code != 626 &&
NdbObject->getNdbError().code != 630) {
ndbout_c("execute: %s", NdbObject->getNdbError().message);
ndbout_c("Error code = %d", NdbObject->getNdbError().code);
}
} else if (retCode == 2) {
ndbout << "4115 should not happen in flexTT" << endl;
} else if (retCode == 3) {
/* What can we do here? */
ndbout_c("execute: %s", NdbObject->getNdbError().message);
}//if(retCode == 3)
transNdbRef->transErrorCount++;
const NdbError & err = NdbObject->getNdbError();
switch (err.classification) {
case NdbError::NoDataFound:
case NdbError::ConstraintViolation:
ndbout << "Error with vpn_id = " << vpn_id << " and vpn_nb = ";
ndbout << vpn_nb << endl;
ndbout << err << endl;
goto checkCompleted;
case NdbError::OverloadError:
NdbSleep_MilliSleep(10);
case NdbError::NodeRecoveryError:
case NdbError::UnknownResultError:
case NdbError::TimeoutExpired:
break;
default:
goto checkCompleted;
}//if
if ((transNdbRef->transErrorCount > 10) ||
(tabThread->threadNoCompleted > 0)) {
goto checkCompleted;
}//if
} else {
if (tabThread->threadNoCompleted == 0) {
transNdbRef->transErrorCount = 0;
transNdbRef->vpn_identity = tabThread->threadNextStart;
if (tabThread->threadNextStart == tabThread->threadStop) {
tabThread->threadLoopCounter++;
transNdbRef->vpn_identity = 0;
tabThread->threadNextStart = 0;
if (tabThread->threadLoopCounter == tNoOfLoops) {
goto checkCompleted;
}//if
}//if
tabThread->threadNextStart += tabThread->threadIncrement;
} else {
goto checkCompleted;
}//if
}//if
tNdb->closeTransaction(NdbObject);
executeTransaction(transNdbRef);
return;
checkCompleted:
tNdb->closeTransaction(NdbObject);
tabThread->threadNoCompleted++;
if (tabThread->threadNoCompleted == tNoOfParallelTrans) {
tabThread->threadCompleted = true;
}//if
return;
}//executeCallback()
static
StartType
random_choice()
{
//----------------------------------------------------
// Generate a random key between 0 and tNoOfRecords - 1
//----------------------------------------------------
UintR random_number = lrand48() % 100;
if (random_number < tUpdateFreq)
return stUpdate;
else
return stRead;
}//random_choice()
static bool
defineOperation(NdbConnection* localNdbConnection, TransNdb* transNdbRef,
unsigned int vpn_id, unsigned int vpn_nb)
{
NdbOperation* localNdbOperation;
StartType TType = transNdbRef->transStartType;
//-------------------------------------------------------
// Set-up the attribute values for this operation.
//-------------------------------------------------------
localNdbOperation = localNdbConnection->getNdbOperation(tableName[0]);
if (localNdbOperation == NULL) {
error_handler(localNdbConnection->getNdbError());
return false;
}//if
switch (TType) {
case stInsert: // Insert case
if (theWriteFlag == 1 && theDirtyFlag == 1) {
localNdbOperation->dirtyWrite();
} else if (theWriteFlag == 1) {
localNdbOperation->writeTuple();
} else {
localNdbOperation->insertTuple();
}//if
break;
case stRead: // Read Case
TType = random_choice();
if (TType == stRead) {
if (theSimpleFlag == 1) {
localNdbOperation->simpleRead();
} else if (theDirtyFlag == 1) {
localNdbOperation->dirtyRead();
} else {
localNdbOperation->readTuple();
}//if
} else {
if (theWriteFlag == 1 && theDirtyFlag == 1) {
localNdbOperation->dirtyWrite();
} else if (theWriteFlag == 1) {
localNdbOperation->writeTuple();
} else if (theDirtyFlag == 1) {
localNdbOperation->dirtyUpdate();
} else {
localNdbOperation->updateTuple();
}//if
}//if
break;
case stDelete: // Delete Case
localNdbOperation->deleteTuple();
break;
default:
error_handler(localNdbOperation->getNdbError());
}//switch
localNdbOperation->equal((Uint32)0,vpn_id);
localNdbOperation->equal((Uint32)1,vpn_nb);
char* attrValue = &transNdbRef->transRecord[0];
switch (TType) {
case stInsert: // Insert case
localNdbOperation->setValue((Uint32)2, attrValue);
localNdbOperation->setValue((Uint32)3, attrValue);
localNdbOperation->setValue((Uint32)4, attrValue);
break;
case stUpdate: // Update Case
localNdbOperation->setValue((Uint32)3, attrValue);
break;
case stRead: // Read Case
localNdbOperation->getValue((Uint32)2, attrValue);
localNdbOperation->getValue((Uint32)3, attrValue);
localNdbOperation->getValue((Uint32)4, attrValue);
break;
case stDelete: // Delete Case
break;
default:
error_handler(localNdbOperation->getNdbError());
}//switch
localNdbConnection->executeAsynchPrepare(Commit, &executeCallback,
(void*)transNdbRef);
return true;
}//defineOperation()
static void setAttrNames()
{
BaseString::snprintf(attrName[0], MAXSTRLEN, "VPN_ID");
BaseString::snprintf(attrName[1], MAXSTRLEN, "VPN_NB");
BaseString::snprintf(attrName[2], MAXSTRLEN, "DIRECTORY_NB");
BaseString::snprintf(attrName[3], MAXSTRLEN, "LAST_CALL_PARTY");
BaseString::snprintf(attrName[4], MAXSTRLEN, "DESCR");
}
static void setTableNames()
{
BaseString::snprintf(tableName[0], MAXSTRLEN, "VPN_USERS");
}
static
int
createTables(Ndb* pMyNdb){
NdbSchemaCon *MySchemaTransaction;
NdbSchemaOp *MySchemaOp;
int check;
if (theTableCreateFlag == 0) {
ndbout << "Creating Table: vpn_users " << "..." << endl;
MySchemaTransaction = NdbSchemaCon::startSchemaTrans(pMyNdb);
if(MySchemaTransaction == NULL &&
(!error_handler(MySchemaTransaction->getNdbError())))
return -1;
MySchemaOp = MySchemaTransaction->getNdbSchemaOp();
if(MySchemaOp == NULL &&
(!error_handler(MySchemaTransaction->getNdbError())))
return -1;
check = MySchemaOp->createTable( tableName[0]
,8 // Table Size
,TupleKey // Key Type
,40 // Nr of Pages
,All
,6
,(tLoadFactor - 5)
,tLoadFactor
,1
,!tempTable
);
if (check == -1 &&
(!error_handler(MySchemaTransaction->getNdbError())))
return -1;
check = MySchemaOp->createAttribute( (char*)attrName[0],
TupleKey,
32,
1,
UnSigned,
MMBased,
NotNullAttribute );
if (check == -1 &&
(!error_handler(MySchemaTransaction->getNdbError())))
return -1;
check = MySchemaOp->createAttribute( (char*)attrName[1],
TupleKey,
32,
1,
UnSigned,
MMBased,
NotNullAttribute );
if (check == -1 &&
(!error_handler(MySchemaTransaction->getNdbError())))
return -1;
check = MySchemaOp->createAttribute( (char*)attrName[2],
NoKey,
8,
10,
UnSigned,
MMBased,
NotNullAttribute );
if (check == -1 &&
(!error_handler(MySchemaTransaction->getNdbError())))
return -1;
check = MySchemaOp->createAttribute( (char*)attrName[3],
NoKey,
8,
10,
UnSigned,
MMBased,
NotNullAttribute );
if (check == -1 &&
(!error_handler(MySchemaTransaction->getNdbError())))
return -1;
check = MySchemaOp->createAttribute( (char*)attrName[4],
NoKey,
8,
100,
UnSigned,
MMBased,
NotNullAttribute );
if (check == -1 &&
(!error_handler(MySchemaTransaction->getNdbError())))
return -1;
if (MySchemaTransaction->execute() == -1 &&
(!error_handler(MySchemaTransaction->getNdbError())))
return -1;
NdbSchemaCon::closeSchemaTrans(MySchemaTransaction);
}//if
return 0;
}
bool error_handler(const NdbError& err){
ndbout << err << endl ;
switch(err.classification){
case NdbError::NodeRecoveryError:
case NdbError::SchemaError:
case NdbError::TimeoutExpired:
ndbout << endl << "Attempting to recover and continue now..." << endl ;
return true ; // return true to retry
}
return false;
}
#if 0
bool error_handler(const char* error_string, int error_int) {
ndbout << error_string << endl ;
if ((4008 == error_int) ||
(677 == error_int) ||
(891 == error_int) ||
(1221 == error_int) ||
(721 == error_int) ||
(266 == error_int)) {
ndbout << endl << "Attempting to recover and continue now..." << endl ;
return true ; // return true to retry
}
return false ; // return false to abort
}
#endif
static
int
readArguments(int argc, const char** argv){
int i = 1;
while (argc > 1){
if (strcmp(argv[i], "-t") == 0){
tNoOfThreads = atoi(argv[i+1]);
if ((tNoOfThreads < 1) || (tNoOfThreads > MAXTHREADS)){
ndbout_c("Invalid no of threads");
return -1;
}
} else if (strcmp(argv[i], "-p") == 0){
tNoOfParallelTrans = atoi(argv[i+1]);
if ((tNoOfParallelTrans < 1) || (tNoOfParallelTrans > MAXPAR)){
ndbout_c("Invalid no of parallell transactions");
return -1;
}
} else if (strcmp(argv[i], "-o") == 0) {
tNoOfTransactions = atoi(argv[i+1]);
if (tNoOfTransactions < 1){
ndbout_c("Invalid no of transactions");
return -1;
}
} else if (strcmp(argv[i], "-l") == 0){
tNoOfLoops = atoi(argv[i+1]);
if (tNoOfLoops < 1) {
ndbout_c("Invalid no of loops");
return -1;
}
} else if (strcmp(argv[i], "-e") == 0){
tMinEvents = atoi(argv[i+1]);
if ((tMinEvents < 1) || (tMinEvents > tNoOfParallelTrans)) {
ndbout_c("Invalid no of loops");
return -1;
}
} else if (strcmp(argv[i], "-local") == 0){
tLocalPart = atoi(argv[i+1]);
tLocal = true;
startTransGuess = true;
if ((tLocalPart < 0) || (tLocalPart > MAX_PARTS)){
ndbout_c("Invalid local part");
return -1;
}
} else if (strcmp(argv[i], "-ufreq") == 0){
tUpdateFreq = atoi(argv[i+1]);
if ((tUpdateFreq < 0) || (tUpdateFreq > 100)){
ndbout_c("Invalid Update Frequency");
return -1;
}
} else if (strcmp(argv[i], "-load_factor") == 0){
tLoadFactor = atoi(argv[i+1]);
if ((tLoadFactor < 40) || (tLoadFactor >= 100)){
ndbout_c("Invalid LoadFactor");
return -1;
}
} else if (strcmp(argv[i], "-d") == 0){
tDelete = true;
argc++;
i--;
} else if (strcmp(argv[i], "-i") == 0){
tInsert = true;
argc++;
i--;
} else if (strcmp(argv[i], "-simple") == 0){
theSimpleFlag = 1;
argc++;
i--;
} else if (strcmp(argv[i], "-adaptive") == 0){
tSendForce = 0;
argc++;
i--;
} else if (strcmp(argv[i], "-force") == 0){
tSendForce = 1;
argc++;
i--;
} else if (strcmp(argv[i], "-non_adaptive") == 0){
tSendForce = 2;
argc++;
i--;
} else if (strcmp(argv[i], "-write") == 0){
theWriteFlag = 1;
argc++;
i--;
} else if (strcmp(argv[i], "-dirty") == 0){
theDirtyFlag = 1;
argc++;
i--;
} else if (strcmp(argv[i], "-table_create") == 0){
theTableCreateFlag = 0;
tInsert = true;
argc++;
i--;
} else if (strcmp(argv[i], "-temp") == 0){
tempTable = true;
argc++;
i--;
} else if (strcmp(argv[i], "-no_hint") == 0){
startTransGuess = false;
argc++;
i--;
} else {
return -1;
}
argc -= 2;
i = i + 2;
}//while
if (tLocal == true) {
if (startTransGuess == false) {
ndbout_c("Not valid to use no_hint with local");
}//if
}//if
return 0;
}
static
void
input_error(){
ndbout_c("FLEXTT");
ndbout_c(" Perform benchmark of insert, update and delete transactions");
ndbout_c("");
ndbout_c("Arguments:");
ndbout_c(" -t Number of threads to start, default 1");
ndbout_c(" -p Number of parallel transactions per thread, default 32");
ndbout_c(" -o Number of transactions per loop, default 500");
ndbout_c(" -ufreq Number Update Frequency in percent (0 -> 100), rest is read");
ndbout_c(" -load_factor Number Fill level in index in percent (40 -> 99)");
ndbout_c(" -l Number of loops to run, default 1, 0=infinite");
ndbout_c(" -i Start by inserting all records");
ndbout_c(" -d End by deleting all records (only one loop)");
ndbout_c(" -simple Use simple read to read from database");
ndbout_c(" -dirty Use dirty read to read from database");
ndbout_c(" -write Use writeTuple in insert and update");
ndbout_c(" -n Use standard table names");
ndbout_c(" -table_create Create tables in db");
ndbout_c(" -temp Create table(s) without logging");
ndbout_c(" -no_hint Don't give hint on where to execute transaction coordinator");
ndbout_c(" -adaptive Use adaptive send algorithm (default)");
ndbout_c(" -force Force send when communicating");
ndbout_c(" -non_adaptive Send at a 10 millisecond interval");
ndbout_c(" -local Number of part, only use keys in one part out of 16");
}
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