We need a way to pass flags to rombuilds in Raptor via extension flm interfaces, so that the CPP pass
of the rom input files can be informed what toolchain we are building with and conditionally
include or exclude files depending on whether the toolchain could build them.
// Copyright (c) 1998-2009 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\fsstress\t_sess.cpp
//
//
#include "t_sess.h"
#include "t_server.h"
#include "t_chlffs.h"
GLDEF_D RTest test(_L("T_SESS"));
GLDEF_D TFileName gTestSessionPath;
// These objects are too large to be placed on the stack - ~15 sessions is enough
// to cause a stack overflow on ARM4.
const TInt KMaxNumberSessions=25;
RFs gSession[KMaxNumberSessions];
TSessionTest gTestObject[KMaxNumberSessions];
LOCAL_C void SetSessionPath(RFs aFs,TChar aDriveLetter)
//
// Set the session path for a RFs connection to aDrive
//
{
gTestSessionPath=(_L("?:\\SESSION_TEST\\"));
gTestSessionPath[0]=(TText)aDriveLetter;
TInt r=aFs.SetSessionPath(gTestSessionPath);
test(r==KErrNone);
r=aFs.MkDirAll(gTestSessionPath);
test(r==KErrNone || r==KErrAlreadyExists);
}
GLDEF_C void CallTestsL()
//
// This test makes a number of fileserver connections (sessions)
// The fileserver is stressed by running these sessions concurrently, swapping
// between them whilst testing various fileserver API functions
// Further testing of the fileserver is performed by closing connections one by
// one whilst ensuring their closure does not affect the other connected sessions
//
{
test.Title();
TChar driveLetter;
if (IsSessionDriveLFFS(TheFs,driveLetter))
{
test.Printf(_L("CallTestsL: Skipped: test does not run on LFFS.\n"));
return;
}
test.Start(_L("Starting T_SESSION tests..."));
// Create an array of fileserver sessions
// Create an array of TSessionTest objects
TInt i=0;
TInt r;
for (; i<KMaxNumberSessions; i++)
{
r=gSession[i].Connect();
test(r==KErrNone);
SetSessionPath(gSession[i],driveLetter);
gSession[i].ResourceCountMarkStart();
gTestObject[i].Initialise(gSession[i]);
gTestObject[i].RunTests(); // Run the set of tests for each session
} // Leave each session open
for (i=0; i<(KMaxNumberSessions-1); i++)
{
// Alternate tests between open sessions
gTestObject[i].testSetVolume();
gTestObject[i+1].testInitialisation();
gTestObject[i].testSubst();
gTestObject[i+1].testInitialisation();
gTestObject[i].testInitialisation();
gTestObject[i].testDriveList();
gTestObject[i+1].CopyFileToTestDirectory();
gTestObject[i].MakeAndDeleteFiles();
// Close gSession[i] and check that session[i+1] is OK
gSession[i].ResourceCountMarkEnd();
gSession[i].Close();
gTestObject[i+1].testInitialisation();
gTestObject[i+1].testSetVolume();
gTestObject[i+1].testInitialisation();
gTestObject[i+1].testSubst();
gTestObject[i+1].testDriveList();
// Reconnect gSession[i]
r=gSession[i].Connect();
test(r==KErrNone);
SetSessionPath(gSession[i],driveLetter);
gSession[i].ResourceCountMarkStart();
gTestObject[i].Initialise(gSession[i]);
gTestObject[i].testSetVolume();
gTestObject[i+1].testInitialisation();
gTestObject[i].testSubst();
gTestObject[i+1].testInitialisation();
gTestObject[i].testInitialisation();
gTestObject[i].testDriveList();
// Close gSession[i+1] and check that session[i] is OK
gSession[i+1].ResourceCountMarkEnd();
gSession[i+1].Close();
gTestObject[i].testInitialisation();
gTestObject[i].testSetVolume();
gTestObject[i].testInitialisation();
gTestObject[i].testSubst();
gTestObject[i].testDriveList();
// Reconnect gSession[i+1]
r=gSession[i+1].Connect();
test(r==KErrNone);
SetSessionPath(gSession[i+1],driveLetter);
gSession[i].ResourceCountMarkStart();
gTestObject[i+1].Initialise(gSession[i+1]);
gTestObject[i].testSetVolume();
gTestObject[i+1].testInitialisation();
gTestObject[i].testSubst();
gTestObject[i+1].testInitialisation();
// Close session[i] and check that session[i+1] is OK
gSession[i].ResourceCountMarkEnd();
gSession[i].Close();
gTestObject[i+1].testInitialisation();
gTestObject[i+1].testSetVolume();
gTestObject[i+1].testInitialisation();
gTestObject[i+1].testSubst();
gTestObject[i+1].testDriveList();
if (i==KMaxNumberSessions-1) // Tidy up by closing remaining open session
{
gSession[i].ResourceCountMarkEnd();
gSession[i+1].Close();
}
}
// Set up the arrays again and open sessions ready for more testing
for (i=0; i<KMaxNumberSessions; i++)
{
r=gSession[i].Connect();
test(r==KErrNone);
SetSessionPath(gSession[i],driveLetter);
gSession[i].ResourceCountMarkStart();
gTestObject[i].Initialise(gSession[i]);
}
for (i=0; i<KMaxNumberSessions-1; i++)
{
gTestObject[i].testInitialisation();
gTestObject[i+1].testSubst();
gTestObject[i].testDriveList();
gSession[i].ResourceCountMarkEnd();
gSession[i].Close();
gTestObject[i+1].testInitialisation();
gTestObject[i+1].testSetVolume();
if (i==KMaxNumberSessions-1) // Tidy up by closing remaining open session
{
gSession[i+1].ResourceCountMarkEnd();
gSession[i+1].Close();
}
}
test.End();
test.Close();
return;
}