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/* Copyright (c) 2003-2007 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
#ifndef NDBT_TEST_HPP
#define NDBT_TEST_HPP
#include <ndb_global.h>
#include "NDBT_ReturnCodes.h"
#include <Properties.hpp>
#include <NdbThread.h>
#include <NdbSleep.h>
#include <NdbCondition.h>
#include <NdbTimer.hpp>
#include <Vector.hpp>
#include <NdbApi.hpp>
#include <NdbDictionary.hpp>
class NDBT_Step;
class NDBT_TestCase;
class NDBT_TestSuite;
class NDBT_TestCaseImpl1;
class NDBT_Context {
public:
Ndb_cluster_connection& m_cluster_connection;
NDBT_Context(Ndb_cluster_connection&);
~NDBT_Context();
const NdbDictionary::Table* getTab();
const NdbDictionary::Table** getTables();
int getNumTables() const;
const char * getTableName(int) const;
NDBT_TestSuite* getSuite();
NDBT_TestCase* getCase();
// Get arguments
int getNumRecords() const;
int getNumLoops() const;
char * getRemoteMgm() const;
// Common place to store state between
// steps, for example information from one step to the
// verifier about how many records have been inserted
Uint32 getProperty(const char*, Uint32 = 0 );
const char* getProperty(const char*, const char* );
void setProperty(const char*, Uint32);
void setProperty(const char*, const char*);
// Signal that a property value that another
// thread might be waiting for has changed
void broadcast();
// Wait for the signal that a property has changed
void wait();
void wait_timeout(int msec);
// Wait until the property has been set to a certain value
bool getPropertyWait(const char*, Uint32);
const char* getPropertyWait(const char*, const char* );
void decProperty(const char *);
void incProperty(const char *);
// Communicate with other tests
void stopTest();
bool isTestStopped();
// Communicate with tests in other API nodes
// This is done using a "system" table in the database
Uint32 getDbProperty(const char*);
bool setDbProperty(const char*, Uint32);
void setTab(const NdbDictionary::Table*);
void addTab(const NdbDictionary::Table*);
void setRemoteMgm(char * mgm);
/**
* Get no of steps running/completed
*/
int getNoOfRunningSteps() const ;
int getNoOfCompletedSteps() const ;
/**
* Thread sync
*/
void sync_down(const char * key);
void sync_up_and_wait(const char * key, Uint32 count = 0);
private:
friend class NDBT_Step;
friend class NDBT_TestSuite;
friend class NDBT_TestCase;
friend class NDBT_TestCaseImpl1;
void setSuite(NDBT_TestSuite*);
void setCase(NDBT_TestCase*);
void setNumRecords(int);
void setNumLoops(int);
Vector<const NdbDictionary::Table*> tables;
NDBT_TestSuite* suite;
NDBT_TestCase* testcase;
Ndb* ndb;
int records;
int loops;
bool stopped;
char * remote_mgm;
Properties props;
NdbMutex* propertyMutexPtr;
NdbCondition* propertyCondPtr;
};
typedef int (NDBT_TESTFUNC)(NDBT_Context*, NDBT_Step*);
class NDBT_Step {
public:
NDBT_Step(NDBT_TestCase* ptest,
const char* pname,
NDBT_TESTFUNC* pfunc);
virtual ~NDBT_Step() {}
int execute(NDBT_Context*);
virtual int setUp(Ndb_cluster_connection&) = 0;
virtual void tearDown() = 0;
void setContext(NDBT_Context*);
NDBT_Context* getContext();
void print();
const char* getName() { return name; }
int getStepNo() { return step_no; }
void setStepNo(int n) { step_no = n; }
protected:
NDBT_Context* m_ctx;
const char* name;
NDBT_TESTFUNC* func;
NDBT_TestCase* testcase;
int step_no;
};
class NDBT_NdbApiStep : public NDBT_Step {
public:
NDBT_NdbApiStep(NDBT_TestCase* ptest,
const char* pname,
NDBT_TESTFUNC* pfunc);
virtual ~NDBT_NdbApiStep() {}
virtual int setUp(Ndb_cluster_connection&);
virtual void tearDown();
Ndb* getNdb();
protected:
Ndb* ndb;
};
class NDBT_ParallelStep : public NDBT_NdbApiStep {
public:
NDBT_ParallelStep(NDBT_TestCase* ptest,
const char* pname,
NDBT_TESTFUNC* pfunc);
virtual ~NDBT_ParallelStep() {}
};
class NDBT_Verifier : public NDBT_NdbApiStep {
public:
NDBT_Verifier(NDBT_TestCase* ptest,
const char* name,
NDBT_TESTFUNC* func);
virtual ~NDBT_Verifier() {}
};
class NDBT_Initializer : public NDBT_NdbApiStep {
public:
NDBT_Initializer(NDBT_TestCase* ptest,
const char* name,
NDBT_TESTFUNC* func);
virtual ~NDBT_Initializer() {}
};
class NDBT_Finalizer : public NDBT_NdbApiStep {
public:
NDBT_Finalizer(NDBT_TestCase* ptest,
const char* name,
NDBT_TESTFUNC* func);
virtual ~NDBT_Finalizer() {}
};
class NDBT_TestCase {
public:
NDBT_TestCase(NDBT_TestSuite* psuite,
const char* name,
const char* comment);
virtual ~NDBT_TestCase() {}
// This is the default executor of a test case
// When a test case is executed it will need to be suplied with a number of
// different parameters and settings, these are passed to the test in the
// NDBT_Context object
virtual int execute(NDBT_Context*);
void setProperty(const char*, Uint32);
void setProperty(const char*, const char*);
virtual void print() = 0;
virtual void printHTML() = 0;
const char* getName(){return name;};
virtual bool tableExists(NdbDictionary::Table* aTable) = 0;
virtual bool isVerify(const NdbDictionary::Table* aTable) = 0;
virtual void saveTestResult(const NdbDictionary::Table* ptab, int result) = 0;
virtual void printTestResult() = 0;
void initBeforeTest(){ timer.doReset();};
/**
* Get no of steps running/completed
*/
virtual int getNoOfRunningSteps() const = 0;
virtual int getNoOfCompletedSteps() const = 0;
bool m_all_tables;
bool m_has_run;
protected:
virtual int runInit(NDBT_Context* ctx) = 0;
virtual int runSteps(NDBT_Context* ctx) = 0;
virtual int runVerifier(NDBT_Context* ctx) = 0;
virtual int runFinal(NDBT_Context* ctx) = 0;
virtual void addTable(const char* aTableName, bool isVerify=true) = 0;
void startTimer(NDBT_Context*);
void stopTimer(NDBT_Context*);
void printTimer(NDBT_Context*);
BaseString _name;
BaseString _comment;
const char* name;
const char* comment;
NDBT_TestSuite* suite;
Properties props;
NdbTimer timer;
bool isVerifyTables;
};
static const int FAILED_TO_CREATE = 1000;
static const int FAILED_TO_DISCOVER = 1001;
class NDBT_TestCaseResult{
public:
NDBT_TestCaseResult(const char* name, int _result, NDB_TICKS _ticks):
m_result(_result){
m_name.assign(name);
m_ticks = _ticks;
};
const char* getName(){return m_name.c_str(); };
int getResult(){return m_result; };
const char* getTimeStr(){
// Convert to Uint32 in order to be able to print it to screen
Uint32 lapTime = (Uint32)m_ticks;
Uint32 secTime = lapTime/1000;
BaseString::snprintf(buf, 255, "%d secs (%d ms)", secTime, lapTime);
return buf;
}
private:
char buf[255];
int m_result;
BaseString m_name;
NDB_TICKS m_ticks;
};
class NDBT_TestCaseImpl1 : public NDBT_TestCase {
public:
NDBT_TestCaseImpl1(NDBT_TestSuite* psuite,
const char* name,
const char* comment);
virtual ~NDBT_TestCaseImpl1();
int addStep(NDBT_Step*);
int addVerifier(NDBT_Verifier*);
int addInitializer(NDBT_Initializer*);
int addFinalizer(NDBT_Finalizer*);
void addTable(const char*, bool);
bool tableExists(NdbDictionary::Table*);
bool isVerify(const NdbDictionary::Table*);
void reportStepResult(const NDBT_Step*, int result);
// int execute(NDBT_Context* ctx);
int runInit(NDBT_Context* ctx);
int runSteps(NDBT_Context* ctx);
int runVerifier(NDBT_Context* ctx);
int runFinal(NDBT_Context* ctx);
void print();
void printHTML();
virtual int getNoOfRunningSteps() const;
virtual int getNoOfCompletedSteps() const;
private:
static const int NORESULT = 999;
void saveTestResult(const NdbDictionary::Table* ptab, int result);
void printTestResult();
void startStepInThread(int stepNo, NDBT_Context* ctx);
void waitSteps();
Vector<NDBT_Step*> steps;
Vector<NdbThread*> threads;
Vector<int> results;
Vector<NDBT_Verifier*> verifiers;
Vector<NDBT_Initializer*> initializers;
Vector<NDBT_Finalizer*> finalizers;
Vector<const NdbDictionary::Table*> testTables;
Vector<NDBT_TestCaseResult*> testResults;
unsigned numStepsFail;
unsigned numStepsOk;
unsigned numStepsCompleted;
NdbMutex* waitThreadsMutexPtr;
NdbCondition* waitThreadsCondPtr;
};
// A NDBT_TestSuite is a collection of TestCases
// the test suite will know how to execute the test cases
class NDBT_TestSuite {
public:
NDBT_TestSuite(const char* name);
~NDBT_TestSuite();
// Default executor of a test suite
// supply argc and argv as parameters
int execute(int, const char**);
// NDBT's test tables are fixed and it always create
// and drop fixed table when execute, add this method
// in order to run CTX only and adapt to some new
// customized testsuite
int executeOneCtx(Ndb_cluster_connection&,
const NdbDictionary::Table* ptab, const char* testname = NULL);
// These function can be used from main in the test program
// to control the behaviour of the testsuite
void setCreateTable(bool); // Create table before test func is called
void setCreateAllTables(bool); // Create all tables before testsuite is executed
void setRunAllTables(bool); // Run once with all tables
// Prints the testsuite, testcases and teststeps
void printExecutionTree();
void printExecutionTreeHTML();
// Prints list of testcases
void printCases();
// Print summary of executed tests
void printTestCaseSummary(const char* tcname = NULL);
/**
* Returns current date and time in the format of 2002-12-04 10:00:01
*/
const char* getDate();
// Returns true if timing info should be printed
bool timerIsOn();
int addTest(NDBT_TestCase* pTest);
// Table create tweaks
int createHook(Ndb*, NdbDictionary::Table&, int when);
Vector<BaseString> m_tables_in_test;
void setTemporaryTables(bool val);
bool getTemporaryTables() const;
private:
int executeOne(Ndb_cluster_connection&,
const char* _tabname, const char* testname = NULL);
int executeAll(Ndb_cluster_connection&,
const char* testname = NULL);
void execute(Ndb_cluster_connection&,
Ndb*, const NdbDictionary::Table*, const char* testname = NULL);
int report(const char* _tcname = NULL);
int reportAllTables(const char* );
const char* name;
char* remote_mgm;
int numTestsOk;
int numTestsFail;
int numTestsExecuted;
Vector<NDBT_TestCase*> tests;
NDBT_Context* ctx;
int records;
int loops;
int timer;
NdbTimer testSuiteTimer;
bool createTable;
bool diskbased;
bool runonce;
const char* tsname;
bool createAllTables;
bool temporaryTables;
};
#define NDBT_TESTSUITE(suitname) \
class C##suitname : public NDBT_TestSuite { \
public: \
C##suitname():NDBT_TestSuite(#suitname){ \
NDBT_TestCaseImpl1* pt; pt = NULL; \
NDBT_Step* pts; pts = NULL; \
NDBT_Verifier* ptv; ptv = NULL; \
NDBT_Initializer* pti; pti = NULL; \
NDBT_Finalizer* ptf; ptf = NULL;
#define TESTCASE(testname, comment) \
pt = new NDBT_TestCaseImpl1(this, testname, comment); \
addTest(pt);
#define TC_PROPERTY(propname, propval) \
pt->setProperty(propname, propval);
#define STEP(stepfunc) \
pts = new NDBT_ParallelStep(pt, #stepfunc, stepfunc); \
pt->addStep(pts);
// Add a number of equal steps to the testcase
#define STEPS(stepfunc, num) \
{ int i; for (i = 0; i < num; i++){ \
pts = new NDBT_ParallelStep(pt, #stepfunc, stepfunc); \
pt->addStep(pts);\
} }
#define VERIFIER(stepfunc) \
ptv = new NDBT_Verifier(pt, #stepfunc, stepfunc); \
pt->addVerifier(ptv);
#define INITIALIZER(stepfunc) \
pti = new NDBT_Initializer(pt, #stepfunc, stepfunc); \
pt->addInitializer(pti);
#define FINALIZER(stepfunc) \
ptf = new NDBT_Finalizer(pt, #stepfunc, stepfunc); \
pt->addFinalizer(ptf);
// Test case can be run only on this table(s), can be multiple tables
// Ex TABLE("T1")
// TABLE("T3")
// Means test will only be run on T1 and T3
#define TABLE(tableName) \
pt->addTable(tableName, true);
// Test case can be run on all tables except
// Ex NOT_TABLE("T10")
// Means test will be run on all tables execept T10
#define NOT_TABLE(tableName) \
pt->addTable(tableName, false);
// Text case will only be run once, not once per table as normally
#define ALL_TABLES() \
pt->m_all_tables= true;
#define NDBT_TESTSUITE_END(suitname) \
} } ; C##suitname suitname
// Helper functions for retrieving variables from NDBT_Step
#define GETNDB(ps) ((NDBT_NdbApiStep*)ps)->getNdb()
#endif
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