// Copyright (c) 2006-2009 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of the License "Eclipse Public License v1.0"
// which accompanies this distribution, and is available
// at the URL "http://www.eclipse.org/legal/epl-v10.html".
//
// Initial Contributors:
// Nokia Corporation - initial contribution.
//
// Contributors:
//
// Description:
// f32test\bench\t_fsrdirscan.cpp
//
//
#include <f32file.h>
#include <e32test.h>
#include "t_select.h"
#include "../server/t_server.h"
#include "t_benchmain.h"
GLDEF_D RTest test(_L("File Server Benchmarks, DirScan"));
//----------------------------------------------------------------------------------------------
//! @SYMTestCaseID PBASE-T_FSRDIRSCAN-0274
//! @SYMTestType CIT
//! @SYMPREQ PREQ000
//! @SYMTestCaseDesc This test case is measuring performance of the FAT implementation.
//! @SYMTestActions 0. Expects the files to exist in order to successful execution
//! 1. Time finding an entry in each directory with TFindFile
//! 2. Time finding an entry in each directory with RFile::Open
//! 3. Time finding an entry in each directory with TFindFile with multiple
//! clients accessing the directory
//! 4. Time finding an entry in each directory with RFile::Open with multiple
//! clients accessing the directory
//! 5. Time finding an entry in each directory with TFindFile with multiple
//! clients accessing different directories
//! 6. Time finding an entry in each directory with RFile::Open with multiple
//! clients accessing different directories
//! 7. Time finding *.txt entries in each directory with TFindFile::FindWildByPath()
//! 8. Time finding *.txt entries in each directory with TFindFile::FindWildByPath()
//! and different clients accessing the same directory
//! 9. Time finding *.txt entries in each directory with TFindFile::FindWildByPath()
//! and different clients accessing different directories
//! 10. Time finding ffff*.txt entries in each directory with TFindFile::FindWildByPath()
//! 11. Time finding ffff*.txt entries in each directory with TFindFile::FindWildByPath()
//! and different clients accessing the same directory
//! 12. Time finding ffff*.txt entries in each directory with TFindFile::FindWildByPath()
//! and different clients accessing different directories
//! 13. Time finding last.* entry in each directory with TFindFile::FindWildByPath()
//! 14. Time finding last.* entry in each directory with TFindFile::FindWildByPath()
//! and different clients accessing the same directory
//! 15. Time finding last.* entry in each directory with TFindFile::FindWildByPath()
//! and different clients accessing different directories
//!
//! @SYMTestExpectedResults Finishes if the system behaves as expected, panics otherwise
//! @SYMTestPriority High
//! @SYMTestStatus Implemented
//----------------------------------------------------------------------------------------------
LOCAL_D RSemaphore client;
LOCAL_D const TInt KHeapSize = 0x4000;
LOCAL_D TBuf8<4096> buf;
LOCAL_D TDriveList gDriveList;
LOCAL_D TFileName gFindEntryDir;
LOCAL_D TBuf<100> gFindDir;
LOCAL_D TFileName gFindEntryDir2;
LOCAL_D TBuf<100> gFindDir2;
// Concurrent threads
RThread gSpeedy;
RThread gSpeedyII;
TInt ThreadCount = 0;
_LIT(KDirMultipleName2, "dir%d_%d\\");
/** Find entry in directory
*/
LOCAL_C TInt FindEntryAccess2(TAny*)
{
RFs fs;
TInt r = fs.Connect();
RTest test(_L("test 2"));
fs.SetSessionPath(gSessionPath);
client.Signal();
FOREVER
{
TEntry entry;
r = fs.Entry(gFindEntryDir2, entry);
FailIfError(r);
r = fs.Entry(gFindDir2,entry);
FailIfError(r);
}
}
/** Starts a concurrent client session
@param aFunction Thread to be started twice
*/
LOCAL_C void DoTest(TThreadFunction aFunction)
{
TBuf<20> buf = _L("Speedy");
buf.AppendNum(ThreadCount++);
TInt r = gSpeedy.Create(buf, aFunction, KDefaultStackSize, KHeapSize, KHeapSize, NULL);
FailIfError(r);
buf = _L("Speedy");
buf.AppendNum(ThreadCount++);
r = gSpeedyII.Create(buf, aFunction, KDefaultStackSize, KHeapSize, KHeapSize, NULL);
FailIfError(r);
gSpeedy.SetPriority(EPriorityLess);
gSpeedyII.SetPriority(EPriorityLess);
gSpeedy.Resume();
gSpeedyII.Resume();
client.Wait();
client.Wait();
}
/** Starts a concurrent client session in different directories
@param aFunction Thread to be started
*/
LOCAL_C void DoTest2(TThreadFunction aFunction)
{
TBuf<20> buf = _L("Speedy");
buf.AppendNum(ThreadCount++);
TInt r = gSpeedy.Create(buf, aFunction, KDefaultStackSize, KHeapSize, KHeapSize, NULL);
FailIfError(r);
buf = _L("Speedy");
buf.AppendNum(ThreadCount++);
r = gSpeedyII.Create(buf, FindEntryAccess2, KDefaultStackSize, KHeapSize, KHeapSize, NULL);
FailIfError(r);
gSpeedy.SetPriority(EPriorityLess);
gSpeedyII.SetPriority(EPriorityLess);
gSpeedy.Resume();
gSpeedyII.Resume();
client.Wait();
client.Wait();
}
/** Kills the concurrent session
*/
LOCAL_C void DoTestKill()
{
TInt r = 0;
gSpeedy.Kill(KErrNone);
FailIfError(r);
gSpeedy.Close();
gSpeedyII.Kill(KErrNone);
FailIfError(r);
gSpeedyII.Close();
}
/** Find entry in directory
*/
LOCAL_C TInt FindEntryAccess(TAny*)
{
RFs fs;
TInt r = fs.Connect();
RTest test(_L("test 2"));
r = fs.SetSessionPath(gSessionPath);
client.Signal();
FOREVER
{
TEntry entry;
r = fs.Entry(gFindEntryDir,entry);
FailIfError(r);
r = fs.Entry(gFindDir,entry);
FailIfError(r);
}
}
/** Find last.txt with TFindFile and with two threads accessing the current directory
and looking for the same file
@param aN Number of files in the directory
@param aStep Test step
*/
LOCAL_C void FindFileM1(TInt aN, TInt aStep)
{
TBuf16<100> dir1;
TBuf16<100> dir2;
TBuf16<100> dir3;
TBuf16<100> dir4;
TBuf16<100> dirtemp;
TInt r = 0;
TFindFile find(TheFs);
TTime startTime;
TTime endTime;
TTimeIntervalMicroSeconds timeTaken(0);
TInt timeTaken1 = -1, timeTaken2 = -1, timeTaken3 = -1;
if(aN <= gFilesLimit)
{
dir1 = gSessionPath;
dir2 = gSessionPath;
dir3 = gSessionPath;
dirtemp.Format(KDirMultipleName2, 1, aN);
dir1.Append(dirtemp);
gFindDir = dir1;
dirtemp.Format(KDirMultipleName2, 2, aN);
dir2.Append(dirtemp);
dirtemp.Format(KDirMultipleName2, 3, aN);
dir3.Append(dirtemp);
dir1.Append(KCommonFile);
dir2.Append(KCommonFile);
dir3.Append(KCommonFile);
if(gTypes >= 1)
{
gFindEntryDir = dir1;
DoTest(FindEntryAccess);
dir4.Format(KDirMultipleName, 1, aN);
startTime.HomeTime();
r = find.FindByPath(dir1, &dir4);
FailIfError(r);
endTime.HomeTime();
DoTestKill();
timeTaken = endTime.MicroSecondsFrom(startTime);
timeTaken1 = I64LOW(timeTaken.Int64() / gTimeUnit);
}
if(gTypes >= 2)
{
dir4 = gSessionPath;
dirtemp.Format(KDirMultipleName, 2, aN);
dir4.Append(dirtemp);
gFindDir = dir4;
gFindEntryDir = dir2;
DoTest(FindEntryAccess);
startTime.HomeTime();
r = find.FindByPath(dir2, &dir4);
FailIfError(r);
endTime.HomeTime();
timeTaken = endTime.MicroSecondsFrom(startTime);
DoTestKill();
timeTaken2 = I64LOW(timeTaken.Int64() / gTimeUnit);
}
if(gTypes >= 3)
{
dir4 = gSessionPath;
dirtemp.Format(KDirMultipleName, 3, aN);
dir4.Append(dirtemp);
gFindDir = dir4;
gFindEntryDir = dir3;
DoTest(FindEntryAccess);
startTime.HomeTime();
r = find.FindByPath(dir3, &dir4);
FailIfError(r);
endTime.HomeTime();
DoTestKill();
timeTaken = endTime.MicroSecondsFrom(startTime);
timeTaken3 = I64LOW(timeTaken.Int64() / gTimeUnit);
}
}
PrintResult(aStep, 1, aN);
PrintResultTime(aStep, 2, timeTaken1);
PrintResultTime(aStep, 3, timeTaken2);
PrintResultTime(aStep, 4, timeTaken3);
}
/** Find last.txt by opening it and with two threads accessing the current directory
and looking for the same file
@param aN Number of files in the directory
@param aStep Test step
*/
LOCAL_C void FindFileM2(TInt aN, TInt aStep)
{
TBuf16<100> dir1;
TBuf16<100> dir2;
TBuf16<100> dir3;
TBuf16<100> dirtemp;
TInt r = 0;
TTime startTime;
TTime endTime;
TTimeIntervalMicroSeconds timeTaken(0);
RFile file;
TInt timeTaken1 = -1, timeTaken2 = -1, timeTaken3 = -1;
if(aN <= gFilesLimit)
{
dir1 = gSessionPath;
dir2 = gSessionPath;
dir3 = gSessionPath;
dirtemp.Format(KDirMultipleName2, 1, aN);
dir1.Append(dirtemp);
gFindDir = dir1;
dirtemp.Format(KDirMultipleName2, 2, aN);
dir2.Append(dirtemp);
dirtemp.Format(KDirMultipleName2, 3, aN);
dir3.Append(dirtemp);
dir1.Append(KCommonFile);
if(gTypes >= 1)
{
gFindEntryDir = dir1;
DoTest(FindEntryAccess);
User::After(200);
startTime.HomeTime();
r = file.Open(TheFs,dir1,EFileShareAny|EFileWrite);
FailIfError(r);
endTime.HomeTime();
timeTaken = endTime.MicroSecondsFrom(startTime);
file.Close();
DoTestKill();
timeTaken1 = I64LOW(timeTaken.Int64() / gTimeUnit);
}
if(gTypes >= 2)
{
gFindDir = dir2;
dir2.Append(KCommonFile);
gFindEntryDir = dir2;
DoTest(FindEntryAccess);
User::After(200);
startTime.HomeTime();
r = file.Open(TheFs, dir2, EFileShareAny|EFileWrite);
FailIfError(r);
endTime.HomeTime();
timeTaken = endTime.MicroSecondsFrom(startTime);
file.Close();
DoTestKill();
timeTaken2 = I64LOW(timeTaken.Int64() / gTimeUnit);
}
if(gTypes >= 3)
{
gFindDir = dir3;
dir3.Append(KCommonFile);
gFindEntryDir = dir3;
DoTest(FindEntryAccess);
User::After(200);
startTime.HomeTime();
r = file.Open(TheFs, dir3, EFileShareAny|EFileWrite);
FailIfError(r);
endTime.HomeTime();
timeTaken = endTime.MicroSecondsFrom(startTime);
DoTestKill();
timeTaken3 = I64LOW(timeTaken.Int64() / gTimeUnit);
file.Close();
}
}
PrintResult(aStep, 1, aN);
PrintResultTime(aStep, 2, timeTaken1);
PrintResultTime(aStep, 3, timeTaken2);
PrintResultTime(aStep, 4, timeTaken3);
}
/** Find last.txt with TFindFile and without any other process
@param aN Number of files in the directory
@param aStep Test step
*/
LOCAL_C void FindFile1(TInt aN, TInt aStep)
{
TBuf16<100> dir1;
TBuf16<100> dir2;
TBuf16<100> dir3;
TBuf16<100> dir4;
TBuf16<100> dirtemp;
TInt r = 0;
TFindFile find(TheFs);
TTime startTime;
TTime endTime;
TTimeIntervalMicroSeconds timeTaken(0);
TInt timeTaken1 = -1, timeTaken2 = -1, timeTaken3 = -1;
if(aN <= gFilesLimit)
{
dir1 = gSessionPath;
dir2 = gSessionPath;
dir3 = gSessionPath;
dirtemp.Format(KDirMultipleName2, 1, aN);
dir1.Append(dirtemp);
dirtemp.Format(KDirMultipleName2, 2, aN);
dir2.Append(dirtemp);
dirtemp.Format(KDirMultipleName2, 3, aN);
dir3.Append(dirtemp);
dir1.Append(KCommonFile);
dir2.Append(KCommonFile);
dir3.Append(KCommonFile);
r = TheFs.SetSessionPath(gSessionPath);
FailIfError(r);
if(gTypes >= 1)
{
dir4.Format(KDirMultipleName, 1, aN);
startTime.HomeTime();
r = find.FindByPath(dir1, &dir4);
FailIfError(r);
endTime.HomeTime();
timeTaken = endTime.MicroSecondsFrom(startTime);
timeTaken1 = I64LOW(timeTaken.Int64() / gTimeUnit);
}
if(gTypes >= 2)
{
dir4.Format(KDirMultipleName, 2, aN);
startTime.HomeTime();
r = find.FindByPath(dir2, &dir4);
FailIfError(r);
endTime.HomeTime();
timeTaken = endTime.MicroSecondsFrom(startTime);
timeTaken2 = I64LOW(timeTaken.Int64() / gTimeUnit);
}
if(gTypes >= 3)
{
dir4.Format(KDirMultipleName, 3, aN);
startTime.HomeTime();
r = find.FindByPath(dir3, &dir4);
FailIfError(r);
endTime.HomeTime();
timeTaken = endTime.MicroSecondsFrom(startTime);
timeTaken3 = I64LOW(timeTaken.Int64() / gTimeUnit);
}
}
PrintResult(aStep, 1, aN);
PrintResultTime(aStep, 2, timeTaken1);
PrintResultTime(aStep, 3, timeTaken2);
PrintResultTime(aStep, 4, timeTaken3);
}
/** Find last.txt by opening it and without any other process
@param aN Number of files in the directory
@param aStep Test step
*/
LOCAL_C void FindFile2(TInt aN, TInt aStep)
{
TBuf16<100> dir1;
TBuf16<100> dir2;
TBuf16<100> dir3;
TBuf16<100> dirtemp;
TInt r = 0;
TTime startTime;
TTime endTime;
TTimeIntervalMicroSeconds timeTaken(0);
TInt timeTaken1 = -1, timeTaken2 = -1, timeTaken3 = -1;
RFile file;
if(aN <= gFilesLimit)
{
dir1 = gSessionPath;
dir2 = gSessionPath;
dir3 = gSessionPath;
dirtemp.Format(KDirMultipleName2, 1, aN);
dir1.Append(dirtemp);
dirtemp.Format(KDirMultipleName2, 2, aN);
dir2.Append(dirtemp);
dirtemp.Format(KDirMultipleName2, 3, aN);
dir3.Append(dirtemp);
dir1.Append(KCommonFile);
dir2.Append(KCommonFile);
dir3.Append(KCommonFile);
r = TheFs.SetSessionPath(gSessionPath);
FailIfError(r);
if(gTypes >= 1)
{
startTime.HomeTime();
r = file.Open(TheFs,dir1,EFileShareAny|EFileWrite);
FailIfError(r);
endTime.HomeTime();
timeTaken = endTime.MicroSecondsFrom(startTime);
timeTaken1 = I64LOW(timeTaken.Int64() / gTimeUnit);
file.Close();
}
if(gTypes >= 2)
{
startTime.HomeTime();
r = file.Open(TheFs, dir2, EFileShareAny|EFileWrite);
FailIfError(r);
endTime.HomeTime();
timeTaken = endTime.MicroSecondsFrom(startTime);
file.Close();
timeTaken2 = I64LOW(timeTaken.Int64() / gTimeUnit);
}
if(gTypes >= 3)
{
startTime.HomeTime();
r = file.Open(TheFs, dir3, EFileShareAny|EFileWrite);
FailIfError(r);
endTime.HomeTime();
timeTaken = endTime.MicroSecondsFrom(startTime);
timeTaken3 = I64LOW(timeTaken.Int64() / gTimeUnit);
file.Close();
}
}
PrintResult(aStep, 1, aN);
PrintResultTime(aStep, 2, timeTaken1);
PrintResultTime(aStep, 3, timeTaken2);
PrintResultTime(aStep, 4, timeTaken3);
}
/** Find last.txt with TFindFile and with two threads accessing the 2 directories
@param aN Number of files in the directory
@param aStep Test step
*/
LOCAL_C void FindFileMD1(TInt aN, TInt aStep)
{
TBuf16<100> dir1;
TBuf16<100> dir2;
TBuf16<100> dir3;
TBuf16<100> dir4;
TBuf16<100> dirtemp;
TInt r = 0;
TFindFile find(TheFs);
TTime startTime;
TTime endTime;
TTimeIntervalMicroSeconds timeTaken(0);
TInt timeTaken1 = -1, timeTaken2 = -1, timeTaken3 = -1;
if(aN <= gFilesLimit)
{
dir1 = gSessionPath;
dir2 = gSessionPath;
dir3 = gSessionPath;
dirtemp.Format(KDirMultipleName2, 1, aN);
dir1.Append(dirtemp);
dirtemp.Format(KDirMultipleName, 2, aN);
dir2.Append(dirtemp);
dirtemp.Format(KDirMultipleName, 3, aN);
dir3.Append(dirtemp);
dir4 = gSessionPath;
dirtemp.Format(KDirMultipleName, 3, 300);
dir4.Append(dirtemp);
gFindDir = dir1;
gFindDir2 = dir4;
dir1.Append(KCommonFile);
dir2.Append(KCommonFile);
dir3.Append(KCommonFile);
dir4.Append(KCommonFile);
gFindEntryDir = dir1;
gFindEntryDir2 = dir4;
TheFs.SetSessionPath(gSessionPath);
dir4.Format(KDirMultipleName, 1, aN);
if(gTypes >= 1)
{
DoTest2(FindEntryAccess);
startTime.HomeTime();
r = find.FindByPath(dir1, &dir4);
FailIfError(r);
endTime.HomeTime();
DoTestKill();
timeTaken = endTime.MicroSecondsFrom(startTime);
timeTaken1 = I64LOW(timeTaken.Int64() / gTimeUnit);
}
if(gTypes >= 2)
{
dir4 = gSessionPath;
dirtemp.Format(KDirMultipleName, 2, aN);
dir4.Append(dirtemp);
gFindDir = dir4;
gFindEntryDir=dir2;
DoTest2(FindEntryAccess);
dir4.Format(KDirMultipleName, 2, aN);
startTime.HomeTime();
r = find.FindByPath(dir2,&dir4);
test(r==KErrNone);
endTime.HomeTime();
timeTaken=endTime.MicroSecondsFrom(startTime);
DoTestKill();
timeTaken2 = I64LOW(timeTaken.Int64() / gTimeUnit);
}
if(gTypes>=3)
{
dir4 = gSessionPath;
dirtemp.Format(KDirMultipleName, 3, aN);
dir4.Append(dirtemp);
gFindDir = dir4;
gFindEntryDir=dir2;
DoTest2(FindEntryAccess);
dir4.Format(KDirMultipleName, 3, aN);
startTime.HomeTime();
r=find.FindByPath(dir3,&dir4);
test(r==KErrNone);
endTime.HomeTime();
DoTestKill();
timeTaken=endTime.MicroSecondsFrom(startTime);
timeTaken3 = I64LOW(timeTaken.Int64() / gTimeUnit);
}
}
PrintResult(aStep, 1, aN);
PrintResultTime(aStep, 2, timeTaken1);
PrintResultTime(aStep, 3, timeTaken2);
PrintResultTime(aStep, 4, timeTaken3);
}
/** Find last.txt by opening the file and with two threads accessing the current
directory and other one
@param aN Number of files in the directory
@param aStep Test step
*/
LOCAL_C void FindFileMD2(TInt aN, TInt aStep)
{
TBuf16<100> dir1;
TBuf16<100> dir2;
TBuf16<100> dir3;
TBuf16<100> dir4;
TBuf16<100> dirtemp;
TInt r = 0;
TTime startTime;
TTime endTime;
TTimeIntervalMicroSeconds timeTaken(0);
TInt timeTaken1 = -1, timeTaken2 = -1, timeTaken3 = -1;
RFile file;
if(aN <= gFilesLimit)
{
dir1 = gSessionPath;
dir2 = gSessionPath;
dir3 = gSessionPath;
dirtemp.Format(KDirMultipleName2, 1, aN);
dir1.Append(dirtemp);
gFindDir = dir1;
dirtemp.Format(KDirMultipleName2, 2, aN);
dir2.Append(dirtemp);
dirtemp.Format(KDirMultipleName2, 3, aN);
dir3.Append(dirtemp);
dir1.Append(KCommonFile);
gFindEntryDir = dir1;
dir4 = gSessionPath;
dirtemp.Format(KDirMultipleName, 3, 300);
dir4.Append(dirtemp);
if(gTypes >= 1)
{
gFindDir2 = dir4;
dir4.Append(KCommonFile);
gFindEntryDir2 = dir4;
DoTest2(FindEntryAccess);
User::After(200);
startTime.HomeTime();
r = file.Open(TheFs,dir1,EFileShareAny|EFileWrite);
FailIfError(r);
endTime.HomeTime();
timeTaken = endTime.MicroSecondsFrom(startTime);
file.Close();
DoTestKill();
timeTaken1 = I64LOW(timeTaken.Int64() / gTimeUnit);
}
if(gTypes >= 2)
{
gFindDir = dir2;
dir2.Append(KCommonFile);
gFindEntryDir = dir2;
DoTest2(FindEntryAccess);
User::After(200);
startTime.HomeTime();
r = file.Open(TheFs, dir2, EFileShareAny|EFileWrite);
FailIfError(r);
endTime.HomeTime();
timeTaken = endTime.MicroSecondsFrom(startTime);
file.Close();
DoTestKill();
timeTaken2 = I64LOW(timeTaken.Int64() / gTimeUnit);
}
if(gTypes >= 3)
{
gFindDir = dir3;
dir3.Append(KCommonFile);
gFindEntryDir = dir3;
DoTest2(FindEntryAccess);
User::After(200);
startTime.HomeTime();
r = file.Open(TheFs, dir3, EFileShareAny|EFileWrite);
FailIfError(r);
endTime.HomeTime();
timeTaken=endTime.MicroSecondsFrom(startTime);
DoTestKill();
timeTaken3 = I64LOW(timeTaken.Int64() / gTimeUnit);
file.Close();
}
}
PrintResult(aStep, 1, aN);
PrintResultTime(aStep, 2, timeTaken1);
PrintResultTime(aStep, 3, timeTaken2);
PrintResultTime(aStep, 4, timeTaken3);
}
/** The test finds an entry in each directory
Precondition: the drive is already filled with the right files
@param aSelector Configuration in case of manual execution
*/
LOCAL_C TInt TestFindEntry(TAny* aSelector)
{
TInt i = 100;
TInt testStep ;
Validate(aSelector);
test.Printf(_L("#~TS_Title_%d,%d: Find entry last.txt, TFindFile\n"), gTestHarness, gTestCase);
testStep = 1;
while(i <= KMaxFiles)
{
if(i == 100 || i == 1000 || i == 5000 || i == 10000)
FindFile1(i, testStep++);
i += 100;
}
gTestCase++;
test.Printf(_L("#~TS_Title_%d,%d: Find entry last.txt, RFile::Open \n"), gTestHarness, gTestCase);
i = 100;
testStep = 1;
while(i <= KMaxFiles)
{
if(i == 100 || i == 1000 || i == 5000 || i == 10000)
FindFile2(i, testStep++);
i += 100;
}
gTestCase++;
return(KErrNone);
}
/** The test finds an entry in each directory with multiple clients accessing the same directory
Precondition: the drive is already filled with the right files
@param aSelector Configuration in case of manual execution
*/
LOCAL_C TInt TestFindEntryMultipleClients(TAny* aSelector)
{
TInt i=100;
TInt testStep;
Validate(aSelector);
test.Printf(_L("#~TS_Title_%d,%d: Find entry mult clients accessing same directory, TFindFile\n"), gTestHarness, gTestCase);
i = 100;
testStep = 1;
while(i <= KMaxFiles)
{
if(i == 100 || i==1000 || i==5000 || i==10000)
FindFileM1(i, testStep++);
i+=100;
}
gTestCase++;
test.Printf(_L("#~TS_Title_%d,%d: Find entry mult clients accessing same directory, RFile::Open \n"), gTestHarness, gTestCase);
i=100;
testStep = 1;
while(i <= KMaxFiles)
{
if(i == 100 || i == 1000 || i == 5000 || i == 10000)
FindFileM2(i, testStep++);
i += 100;
}
gTestCase++;
return(KErrNone);
}
/** The test finds an entry in each directory with multiple clients accessing different directories
Precondition: the drive is already filled with the right files
@param aSelector Configuration in case of manual execution
*/
LOCAL_C TInt TestFindEntryMultipleClientsDD(TAny* aSelector)
{
TInt i=100;
TInt testStep;
Validate(aSelector);
test.Printf(_L("#~TS_Title_%d,%d: Find entry mult clients accessing dif directory, TFindFile\n"), gTestHarness, gTestCase);
i = 100;
testStep = 1;
while(i <= KMaxFiles)
{
if(i == 100 || i == 1000 || i == 5000 || i == 10000)
FindFileMD1(i, testStep++);
i += 100;
}
gTestCase++;
test.Printf(_L("#~TS_Title_%d,%d: Find entry mult clients accessing dir directory, RFile::Open \n"), gTestHarness, gTestCase);
i = 100;
testStep = 1;
while(i <= KMaxFiles)
{
if(i == 100 || i == 1000 || i == 5000 || i == 10000)
FindFileMD2(i, testStep++);
i += 100;
}
gTestCase++;
return(KErrNone);
}
/** Find last.txt with TFindFile and with two threads accessing the 2 directories
@param aN Number of files in the directory
@param aWild Wildcard string to be used in the search
@param aStep Test step
*/
LOCAL_C void FindFileWild1(TInt aN, const TDesC& aWild, TInt aStep)
{
TBuf16<100> dir1;
TBuf16<100> dir2;
TBuf16<100> dir3;
TBuf16<100> dir4;
CDir* dir;
TInt r = 0;
TFindFile find(TheFs);
TTime startTime;
TTime endTime;
TTimeIntervalMicroSeconds timeTaken(0);
TInt timeTaken1 = -1, timeTaken2 = -1, timeTaken3 = -1;
if(aN <= gFilesLimit)
{
dir1 = gSessionPath;
dir2 = gSessionPath;
dir3 = gSessionPath;
dir4.Format(KDirMultipleName2, 1, aN);
dir1.Append(dir4);
dir4.Format(KDirMultipleName2, 2, aN);
dir2.Append(dir4);
dir4.Format(KDirMultipleName2, 3, aN);
dir3.Append(dir4);
if(gTypes >= 1)
{
dir4.Format(KDirMultipleName, 1, aN);
startTime.HomeTime();
r = find.FindWildByPath(aWild, &dir1, dir);
FailIfError(r);
endTime.HomeTime();
timeTaken = endTime.MicroSecondsFrom(startTime);
timeTaken1 = I64LOW(timeTaken.Int64() / gTimeUnit);
delete dir;
}
if(gTypes >= 2)
{
startTime.HomeTime();
r = find.FindWildByPath(_L("*.txt"), &dir2, dir);
FailIfError(r);
endTime.HomeTime();
timeTaken = endTime.MicroSecondsFrom(startTime);
timeTaken2 = I64LOW(timeTaken.Int64() / gTimeUnit);
delete dir;
}
if(gTypes >= 3)
{
startTime.HomeTime();
r = find.FindWildByPath(_L("*.txt"), &dir3, dir);
FailIfError(r);
endTime.HomeTime();
timeTaken=endTime.MicroSecondsFrom(startTime);
timeTaken3 = I64LOW(timeTaken.Int64() / gTimeUnit);
delete dir;
}
}
PrintResult(aStep, 1, aN);
PrintResultTime(aStep, 2, timeTaken1);
PrintResultTime(aStep, 3, timeTaken2);
PrintResultTime(aStep, 4, timeTaken3);
}
/** Find last.txt with TFindFile and with two threads accessing the 2 directories
@param aN Number of files in the directory
@param aWild Wildcard string to be used in the search
@param aStep Test step
*/
LOCAL_C void FindFileWild2(TInt aN, const TDesC& aWild, TInt aStep)
{
TBuf16<100> dir1;
TBuf16<100> dir2;
TBuf16<100> dir3;
TBuf16<100> dir4;
TBuf16<100> temp;
TInt r = 0;
TFindFile find(TheFs);
TTime startTime;
TTime endTime;
TTimeIntervalMicroSeconds timeTaken(0);
TInt timeTaken1 = -1, timeTaken2 = -1, timeTaken3 = -1;
CDir* dir;
if(aN <= gFilesLimit)
{
dir1 = gSessionPath;
dir2 = gSessionPath;
dir3 = gSessionPath;
dir4.Format(KDirMultipleName2, 1, aN);
dir1.Append(dir4);
dir4.Format(KDirMultipleName2, 2, aN);
dir2.Append(dir4);
dir4.Format(KDirMultipleName2, 3, aN);
dir3.Append(dir4);
gFindDir = dir1;
if(gTypes >= 1)
{
temp = dir1;
temp.Append(KCommonFile);
gFindEntryDir = temp;
DoTest(FindEntryAccess);
startTime.HomeTime();
r = find.FindWildByPath(aWild, &dir1, dir);
FailIfError(r);
endTime.HomeTime();
DoTestKill();
delete dir;
timeTaken = endTime.MicroSecondsFrom(startTime);
timeTaken1 = I64LOW(timeTaken.Int64() / gTimeUnit);
}
if(gTypes >= 2)
{
gFindDir = dir2;
temp = dir2;
temp.Append(KCommonFile);
gFindEntryDir = temp;
DoTest(FindEntryAccess);
startTime.HomeTime();
r = find.FindWildByPath(aWild, &dir2, dir);
FailIfError(r);
endTime.HomeTime();
timeTaken = endTime.MicroSecondsFrom(startTime);
DoTestKill();
delete dir;
timeTaken2 = I64LOW(timeTaken.Int64() / gTimeUnit);
}
if(gTypes >= 3)
{
gFindDir = dir3;
temp = dir3;
temp.Append(KCommonFile);
gFindEntryDir = temp;
DoTest(FindEntryAccess);
startTime.HomeTime();
r = find.FindWildByPath(aWild, &dir3, dir);
FailIfError(r);
endTime.HomeTime();
DoTestKill();
delete dir;
timeTaken = endTime.MicroSecondsFrom(startTime);
timeTaken3 = I64LOW(timeTaken.Int64() / gTimeUnit);
}
}
PrintResult(aStep, 1, aN);
PrintResultTime(aStep, 2, timeTaken1);
PrintResultTime(aStep, 3, timeTaken2);
PrintResultTime(aStep, 4, timeTaken3);
}
/** Find last.txt with TFindFile and with two threads accessing the 2 directories
@param aN Number of files in the directory
@param aWild Wildcard string to be used in the search
@param aStep Test step
*/
LOCAL_C void FindFileWild3(TInt aN, const TDesC& aWild, TInt aStep)
{
TBuf16<100> dir1;
TBuf16<100> dir2;
TBuf16<100> dir3;
TBuf16<100> dir4;
TBuf16<100> temp;
TBuf16<100> temp2;
TInt r = 0;
TFindFile find(TheFs);
TTime startTime;
TTime endTime;
TTimeIntervalMicroSeconds timeTaken(0);
TInt timeTaken1 = -1, timeTaken2 = -1, timeTaken3 = -1;
CDir* dir;
if(aN <= gFilesLimit)
{
dir1 = gSessionPath;
dir2 = gSessionPath;
dir3 = gSessionPath;
dir4.Format(KDirMultipleName2, 1, aN);
dir1.Append(dir4);
temp=gSessionPath;
dir4.Format(KDirMultipleName, 3, 300);
temp.Append(dir4);
gFindDir = dir1;
gFindDir2 = temp;
temp2 = gFindDir;
temp2.Append(KCommonFile);
gFindEntryDir = temp2;
temp2 = gFindDir2;
temp2.Append(KCommonFile);
gFindEntryDir2 = temp2;
if(gTypes >= 1)
{
DoTest2(FindEntryAccess);
dir4.Format(KDirMultipleName, 1, aN);
startTime.HomeTime();
r = find.FindWildByPath(aWild, &dir1, dir);
FailIfError(r);
endTime.HomeTime();
DoTestKill();
delete dir;
timeTaken = endTime.MicroSecondsFrom(startTime);
timeTaken1 = I64LOW(timeTaken.Int64() / gTimeUnit);
}
if(gTypes >= 2)
{
dir4.Format(KDirMultipleName2, 2, aN);
dir2.Append(dir4);
temp = dir2;
temp.Append(KCommonFile);
gFindDir = dir2;
gFindEntryDir = temp;
DoTest2(FindEntryAccess);
startTime.HomeTime();
r = find.FindWildByPath(aWild, &dir2, dir);
FailIfError(r);
endTime.HomeTime();
DoTestKill();
delete dir;
timeTaken = endTime.MicroSecondsFrom(startTime);
timeTaken2 = I64LOW(timeTaken.Int64() / gTimeUnit);
}
if(gTypes >= 3)
{
dir4.Format(KDirMultipleName2, 3, aN);
dir3.Append(dir4);
temp = dir3;
temp.Append(KCommonFile);
gFindDir = dir3;
gFindEntryDir = temp;
DoTest2(FindEntryAccess);
startTime.HomeTime();
r = find.FindWildByPath(aWild, &dir3, dir);
FailIfError(r);
endTime.HomeTime();
DoTestKill();
delete dir;
timeTaken = endTime.MicroSecondsFrom(startTime);
timeTaken3 = I64LOW(timeTaken.Int64() / gTimeUnit);
}
}
PrintResult(aStep, 1, aN);
PrintResultTime(aStep, 2, timeTaken1);
PrintResultTime(aStep, 3, timeTaken2);
PrintResultTime(aStep, 4, timeTaken3);
}
/** Times the system when looking for files with patterns
@param aSelector Configuration in case of manual execution
*/
LOCAL_C TInt TestFileFindPattern(TAny* aSelector)
{
TInt i = 100;
TInt testStep;
Validate(aSelector);
test.Printf(_L("#~TS_Title_%d,%d: Find *.txt, TFindFile::FindWildByPath() only 1 access to the directory \n"), gTestHarness, gTestCase);
testStep = 1;
while(i <= KMaxFiles)
{
if(i == 100 || i == 1000 || i == 5000 || i == 10000)
FindFileWild1(i,_L("*.txt"), testStep++);
i += 100;
}
gTestCase++;
test.Printf(_L("#~TS_Title_%d,%d: Find *.txt, TFindFile::FindWildByPath() multiple clients accessing same directory\n"), gTestHarness, gTestCase);
i = 100;
testStep = 1;
while(i <= KMaxFiles)
{
if(i == 100 || i == 1000 || i == 5000 || i == 10000)
FindFileWild2(i,_L("*.txt"), testStep++);
i += 100;
}
gTestCase++;
test.Printf(_L("#~TS_Title_%d,%d: Find *.txt, TFindFile::FindWildByPath() mult clients access dif directories\n"), gTestHarness, gTestCase);
i = 100;
testStep = 1;
while(i <= KMaxFiles)
{
if(i == 100 || i == 1000 || i == 5000 || i == 10000)
FindFileWild3(i,_L("*.txt"), testStep++);
i += 100;
}
gTestCase++;
test.Printf(_L("#~TS_Title_%d,%d: Find ffff*.txt, TFindFile::FindWildByPath() only 1 access to the directory \n"), gTestHarness, gTestCase);
i = 100;
testStep = 1;
while(i <= KMaxFiles)
{
if(i == 100 || i == 1000 || i == 5000 || i == 10000)
FindFileWild1(i,_L("ffff*.txt"), testStep++);
i += 100;
}
gTestCase++;
test.Printf(_L("#~TS_Title_%d,%d: Find ffff*.txt, TFindFile::FindWildByPath() mult clients access same directory\n"), gTestHarness, gTestCase);
i = 100;
testStep = 1;
while(i <= KMaxFiles)
{
if(i == 100 || i == 1000 || i == 5000 || i == 10000)
FindFileWild2(i,_L("ffff*.txt"), testStep++);
i += 100;
}
gTestCase++;
test.Printf(_L("#~TS_Title_%d,%d: Find ffff*.txt, TFindFile::FindWildByPath() mult clients access dif directories\n"), gTestHarness, gTestCase);
i = 100;
testStep = 1;
while(i <= KMaxFiles)
{
if(i == 100 || i == 1000 || i == 5000 || i == 10000)
FindFileWild3(i,_L("ffff*.txt"), testStep++);
i += 100;
}
gTestCase++;
test.Printf(_L("\nFind last.*, TFindFile\n"));
test.Printf(_L("#~TS_Title_%d,%d: Find last.*, TFindFile::FindWildByPath() only 1 access to the directory \n"), gTestHarness, gTestCase);
i = 100;
testStep = 1;
while(i<=KMaxFiles)
{
if(i == 100 || i == 1000 || i == 5000 || i == 10000)
FindFileWild1(i,_L("last.*"), testStep++);
i += 100;
}
gTestCase++;
test.Printf(_L("#~TS_Title_%d,%d: Find last.*, TFindFile::FindWildByPath() mult clients access same directory\n"), gTestHarness, gTestCase);
i = 100;
testStep = 1;
while(i <= KMaxFiles)
{
if(i == 100 || i == 1000 || i == 5000 || i == 10000)
FindFileWild2(i,_L("last.*"), testStep++);
i += 100;
}
gTestCase++;
test.Printf(_L("#~TS_Title_%d,%d: Find last.*, TFindFile::FindWildByPath() mult clients access dif directories\n"), gTestHarness, gTestCase);
i = 100;
testStep = 1;
while(i <= KMaxFiles)
{
if(i == 100 || i == 1000 || i == 5000 || i == 10000)
FindFileWild3(i,_L("last.*"), testStep++);
i += 100;
}
gTestCase++;
return(KErrNone);
}
/** It goes automatically through all the options
@param aSelector Configuration in case of manual execution
*/
LOCAL_C TInt TestAll(TAny* aSelector)
{
Validate(aSelector);
TestFindEntry(aSelector);
TestFindEntryMultipleClients(aSelector);
TestFindEntryMultipleClientsDD(aSelector);
TestFileFindPattern(aSelector);
return(KErrNone);
}
/** Call all tests
*/
GLDEF_C void CallTestsL()
{
TInt r = client.CreateLocal(0);
FailIfError(r);
CSelectionBox* TheSelector = CSelectionBox::NewL(test.Console());
// Each test case of the suite has an identifyer for parsing purposes of the results
gTestHarness = 3;
gTestCase = 1;
CreateDirWithNFiles(300, 3);
PrintHeaders(1, _L("t_fsrdirscan. Directory scanning"));
if(gMode==0)
{ // Manual
gSessionPath=_L("?:\\");
TCallBack createFiles(TestFileCreate,TheSelector);
TCallBack findFile(TestFindEntry,TheSelector);
TCallBack findFileMC(TestFindEntryMultipleClients,TheSelector);
TCallBack findFileMCDD(TestFindEntryMultipleClientsDD,TheSelector);
TCallBack findFilePattern(TestFileFindPattern,TheSelector);
TheSelector->AddDriveSelectorL(TheFs);
TheSelector->AddLineL(_L("Create all files"),createFiles);
TheSelector->AddLineL(_L("Find filename"),findFile);
TheSelector->AddLineL(_L("Find with mult clients same directory"),findFileMC);
TheSelector->AddLineL(_L("Find with mult clients dif directories"),findFileMCDD);
TheSelector->AddLineL(_L("All using glob patterns"),findFilePattern);
TheSelector->Run();
}
else
{ // Automatic
TestAll(TheSelector);
}
client.Close();
test.Printf(_L("#~TestEnd_%d\n"), gTestHarness);
delete TheSelector;
}