Fix for bug 2283 (RVCT 4.0 support is missing from PDK 3.0.h)
Have multiple extension sections in the bld.inf, one for each version
of the compiler. The RVCT version building the tools will build the
runtime libraries for its version, but make sure we extract all the other
versions from zip archives. Also add the archive for RVCT4.
// Copyright (c) 1996-2009 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:
// e32test\misc\t_stres1.cpp
//
//
#include <e32test.h>
#include "u32std.h"
#include <e32atomics.h>
#include "../misc/prbs.h"
RTest test(_L("T_STRES1"));
_LIT(KLibraryFileName,"STRES1");
LOCAL_D RMutex Mutex;
LOCAL_D RSemaphore Semaphore;
LOCAL_D RChunk Chunk;
LOCAL_D RLibrary Library;
LOCAL_D TBool CheckerHasRun=EFalse;
LOCAL_D TInt TotalChecks=0;
LOCAL_D TInt CheckerBumped=0;
LOCAL_D TInt HeapUserIterations=0;
LOCAL_D TInt CreatorIterations=0;
LOCAL_D RSemaphore KillerSem;
LOCAL_C TInt HeapChecker(TAny*)
{
TInt n=0;
FOREVER
{
User::Allocator().Check();
TotalChecks++;
CheckerHasRun=ETrue;
if (++n==4)
{
n=0;
User::CompressAllHeaps();
}
RThread().SetPriority(EPriorityMuchLess);
}
}
LOCAL_C TAny* HeapAlloc(TUint* aSeed)
{
TInt size=(Random(aSeed)&0x3ffc)+8;
TUint32* p=(TUint32*)User::Alloc(size);
if (p)
{
size=User::Allocator().AllocLen(p);
p[0]=aSeed[0];
p[1]=aSeed[1];
TInt i;
for (i=2; i<(size>>2); i++)
p[i]=Random(aSeed);
}
return p;
}
LOCAL_C void HeapFree(TAny* aPtr)
{
if (!aPtr)
return;
TInt size=User::Allocator().AllocLen(aPtr);
TUint32* p=(TUint32*)aPtr;
TUint seed[2];
seed[0]=p[0];
seed[1]=p[1];
TInt i;
for (i=2; i<(size>>2); i++)
{
if (p[i]!=Random(seed))
User::Panic(_L("VERIFY"),i);
}
User::Free(p);
}
LOCAL_C TInt HeapUser(TAny* aSeed)
{
TUint seed[2];
seed[0]=(TUint)aSeed;
seed[1]=0;
FOREVER
{
TAny* p0=HeapAlloc(seed);
TAny* p1=HeapAlloc(seed);
TAny* p2=HeapAlloc(seed);
HeapFree(p1);
TAny* p3=HeapAlloc(seed);
TAny* p4=HeapAlloc(seed);
HeapFree(p4);
HeapFree(p0);
TAny* p5=HeapAlloc(seed);
HeapFree(p2);
TAny* p6=HeapAlloc(seed);
TAny* p7=HeapAlloc(seed);
HeapFree(p3);
HeapFree(p7);
HeapFree(p5);
HeapFree(p6);
__e32_atomic_add_ord32(&HeapUserIterations, 1);
TInt ms=Random(seed)&63;
TTimeIntervalMicroSeconds32 wait(1000*ms);
User::AfterHighRes(wait);
}
}
LOCAL_C TInt KernelObjectCreator(TAny* aSeed)
{
TUint seed[2];
seed[0]=(TUint)aSeed;
seed[1]=0;
FOREVER
{
TInt rm=Mutex.CreateLocal(EOwnerThread);
TInt rs=Semaphore.CreateLocal(0,EOwnerThread);
TInt rc=Chunk.CreateLocal(0x10000,0x100000,EOwnerThread);
TInt rl=Library.Load(KLibraryFileName);
if (rm==KErrNone)
{
Mutex.Close();
}
if (rs==KErrNone)
{
Semaphore.Close();
}
if (rc==KErrNone)
{
Chunk.Close();
}
if (rl==KErrNone)
{
Library.Close();
}
CreatorIterations++;
TInt ms=Random(seed)&63;
TTimeIntervalMicroSeconds32 wait(1000*ms);
User::AfterHighRes(wait);
}
}
LOCAL_C TInt KillerThread(TAny* aSeed)
{
TUint seed[2];
seed[0]=(TUint)aSeed;
seed[1]=0;
FOREVER
{
KillerSem.Wait();
TInt ms=Random(seed)&127;
ms+=32;
TTimeIntervalMicroSeconds32 wait(1000*ms);
User::AfterHighRes(wait);
RThread t;
TFindThread ft(_L("*Creator"));
TFullName fn;
TInt r=ft.Next(fn);
if (r!=KErrNone)
User::Panic(_L("FindErr"),r);
r=t.Open(ft);
if (r!=KErrNone)
User::Panic(_L("OpenErr"),r);
t.Kill(1);
t.Close();
}
}
LOCAL_C TInt StartThread(const TDesC& aName, TThreadFunction aFunction, TAny* aPtr, TThreadPriority aPriority, RThread* aThread)
{
RThread t;
TInt r=t.Create(aName,aFunction,0x1000,NULL,aPtr);
if (r!=KErrNone)
return r;
t.SetPriority(aPriority);
t.Resume();
if (aThread)
aThread->SetHandle(t.Handle());
else
t.Close();
return r;
}
LOCAL_C void Initialise(RThread& aChecker)
{
TInt r=StartThread(_L("HeapChecker"),HeapChecker,NULL,EPriorityMuchLess,&aChecker);
test(r==KErrNone);
r=StartThread(_L("HeapUser1"),HeapUser,(TAny*)0xb504f333,EPriorityNormal,NULL);
test(r==KErrNone);
r=StartThread(_L("HeapUser2"),HeapUser,(TAny*)0xddb3d743,EPriorityNormal,NULL);
test(r==KErrNone);
r=StartThread(_L("Creator"),KernelObjectCreator,(TAny*)0xadf85458,EPriorityNormal,NULL);
test(r==KErrNone);
r=KillerSem.CreateLocal(1);
test(r==KErrNone);
r=StartThread(_L("Killer"),KillerThread,(TAny*)0xb17217f8,EPriorityMore,NULL);
test(r==KErrNone);
}
LOCAL_C void Restart(const TDesC&)
{
FOREVER
{
TInt r=StartThread(_L("Creator"),KernelObjectCreator,(TAny*)0xadf85458,EPriorityNormal,NULL);
if (r==KErrNone)
break;
User::After(15000);
}
KillerSem.Signal();
}
GLDEF_C TInt E32Main()
{
test.Title();
RThread().SetPriority(EPriorityMuchMore);
RThread checker;
test.Start(_L("Initialise"));
Initialise(checker);
test.Next(_L("Create undertaker"));
RUndertaker u;
TInt r=u.Create();
test(r==KErrNone);
test.Next(_L("Create timer"));
RTimer timer;
r=timer.CreateLocal();
test(r==KErrNone);
TInt tick=0;
TRequestStatus su;
TRequestStatus st;
TInt h=0;
test.Next(_L("Logon to undertaker"));
u.Logon(su,h);
test.Next(_L("Start timer"));
timer.After(st,500000);
FOREVER
{
User::WaitForRequest(su,st);
if (su!=KRequestPending)
{
RThread t;
t.SetHandle(h);
TName n=t.Name();
TExitType exitType=t.ExitType();
TInt exitReason=t.ExitReason();
TName exitCategory=t.ExitCategory();
t.Close();
if (exitType==EExitPanic)
{
test.Printf(_L("Thread %S Panic %S %d\n"),&n,&exitCategory,exitReason);
test(0);
}
if (exitType==EExitKill)
{
Restart(n);
}
h=0;
u.Logon(su,h);
}
if (st!=KRequestPending)
{
if (!CheckerHasRun)
{
checker.SetPriority(EPriorityMuchMore);
CheckerBumped++;
}
CheckerHasRun=EFalse;
if (++tick==4)
{
tick=0;
test.Printf(_L("Heap user iterations %d Creator iterations %d\n"),HeapUserIterations,CreatorIterations);
test.Printf(_L("Checks %d Bumped %d\n"),TotalChecks,CheckerBumped);
}
timer.After(st,500000);
}
}
}