ExecutablePool::Allocation ExecutablePool::systemAlloc(size_t n)
{
RChunk* codeChunk = new RChunk();
TInt errorCode = codeChunk->CreateLocalCode(n, n);
char* allocation = reinterpret_cast<char*>(codeChunk->Base());
ExecutablePool::Allocation alloc = { allocation, n, codeChunk };
return alloc;
}
GLDEF_C TInt E32Main()
{
test.Title();
if (!HaveMMU())
{
test.Printf(_L("This test requires an MMU\n"));
return KErrNone;
}
test.Start(_L("Load test LDD"));
TInt r=User::LoadLogicalDevice(KLddFileName);
test(r==KErrNone || r==KErrAlreadyExists);
test_KErrNone(UserHal::PageSizeInBytes(PageSize));
// Determine which types of paging are supported
TUint32 attrs = DPTest::Attributes();
gRomPagingSupported = (attrs & DPTest::ERomPaging) != 0;
gCodePagingSupported = (attrs & DPTest::ECodePaging) != 0;
gDataPagingSupported = (attrs & DPTest::EDataPaging) != 0;
// Does this memory model support pinning.
TInt mm = UserSvr::HalFunction(EHalGroupKernel, EKernelHalMemModelInfo, 0, 0) & EMemModelTypeMask;
gPinningSupported = mm >= EMemModelTypeFlexible;
RPageMove pagemove;
test.Next(_L("Open test LDD"));
test_KErrNone(pagemove.Open());
// Determine whether this is a smp device.
NumberOfCpus = pagemove.NumberOfCpus();
if (NumberOfCpus > 1)
Repitions = 1000; // SMP system therefore likely to get KErrInUse in less repitions.
test.Next(_L("Attempting to move regular local data pages"));
{
const TInt size=16384;
TUint8* array = new TUint8[size];
test_NotNull(array);
TestUserData(pagemove, array, size);
_T_PRINTF(_L("Walk heap\n"));
User::Check();
delete [] array;
}
test.Next(_L("Attempting to move regular global coarse data pages"));
{
const TInt size=1<<20; // Make this chunk multiple of 1MB so it is a coarse memory object on FMM
RChunk chunk;
test_KErrNone(chunk.CreateDisconnectedGlobal(_L("Dave"), 0, size, size));
TUint8* array = chunk.Base();
TestUserData(pagemove, array, size);
TestMovingRealtime(pagemove, array, size, NULL, EFalse);
TestCommitDecommit(pagemove, chunk);
chunk.Close();
}
if (gDataPagingSupported)
{
test.Next(_L("Attempting to move demand paged fine local user data pages"));
const TInt size=16384;
TChunkCreateInfo createInfo;
createInfo.SetDisconnected(0, size, size);
createInfo.SetPaging(TChunkCreateInfo::EPaged);
RChunk chunk;
test_KErrNone(chunk.Create(createInfo));
TUint8* array = chunk.Base();
TestUserData(pagemove, array, size, ETrue);
TestMovingRealtime(pagemove, array, size, NULL, EFalse, ETrue);
TestPageTableDiscard(pagemove, array, size);
TestCommitDecommit(pagemove, chunk);
chunk.Close();
test.Next(_L("Attempting to move demand paged coarse global user data pages"));
const TInt sizeCoarse = 1 << 20; // Make this chunk multiple of 1MB so it is a coarse memory object on FMM
TChunkCreateInfo createInfoCoarse;
createInfoCoarse.SetDisconnected(0, sizeCoarse, sizeCoarse);
createInfoCoarse.SetGlobal(_L("Dave"));
createInfoCoarse.SetPaging(TChunkCreateInfo::EPaged);
RChunk chunkCoarse;
test_KErrNone(chunkCoarse.Create(createInfoCoarse));
array = chunkCoarse.Base();
TestUserData(pagemove, array, sizeCoarse, ETrue);
TestMovingRealtime(pagemove, array, sizeCoarse, NULL, EFalse, ETrue);
TestPageTableDiscard(pagemove, array, sizeCoarse);
TestCommitDecommit(pagemove, chunkCoarse);
chunkCoarse.Close();
}
test.Next(_L("Attempting to move DLL writable static data pages"));
{
const TInt size=16384;
TUint8* array = DllWsd::Address();
TestUserData(pagemove, array, size);
}
test.Next(_L("Attempting to move user self-mod code chunk page when IMB'ing and executing"));
RChunk codeChunk;
test_KErrNone(codeChunk.CreateLocalCode(PageSize,PageSize));
TestMovingCodeChunk(pagemove, codeChunk, EFalse);
codeChunk.Close();
if (gDataPagingSupported)
{
test.Next(_L("Attempting to move paged user self-mod code chunk page when IMB'ing and executing"));
TChunkCreateInfo createInfo;
createInfo.SetCode(PageSize, PageSize);
createInfo.SetPaging(TChunkCreateInfo::EPaged);
RChunk pagedCodeChunk;
test_KErrNone(pagedCodeChunk.Create(createInfo));
TestMovingCodeChunk(pagemove, pagedCodeChunk, ETrue);
pagedCodeChunk.Close();
}
test.Next(_L("Attempting to move RAM drive"));
if ((MemModelAttributes()&EMemModelTypeMask) == EMemModelTypeMultiple)
{
for (TInt i=0; i<Repitions; i++)
test_KErrNone(pagemove.TryMovingUserPage((TAny*)0xA0000000));
}
else if ((MemModelAttributes()&EMemModelTypeMask) == EMemModelTypeMoving)
{
for (TInt i=0; i<Repitions; i++)
test_KErrNone(pagemove.TryMovingUserPage((TAny*)0x40000000));
}
else if ((MemModelAttributes()&EMemModelTypeMask) == EMemModelTypeFlexible)
{
// do nothing, RAM drive is not special
}
else
{
test.Printf(_L("Don't know where the RAM drive is!"));
test(0);
}
#if 0
test.Next(_L("Attempting to move kernel heap pages"));
for (TInt i=0; i<Repitions; i++)
test_KErrNone(pagemove.TryMovingKHeap());
#endif
if ((MemModelAttributes()&EMemModelTypeMask) != EMemModelTypeFlexible)
{// Only the moving and multiple memory models move kernel stack pages.
test.Next(_L("Attempting to move kernel stack pages"));
for (TInt i=0; i<Repitions; i++)
test_KErrNone(pagemove.TryMovingKStack());
}
test.Next(_L("Attempting to move ROM pages"));
TestMovingRom(pagemove);
test.Next(_L("Attempting to move kernel code pages"));
for (TInt i=0; i<Repitions; i++)
test_KErrNone(pagemove.TryMovingKCode());
test.Next(_L("Attempting to move regular code pages"));
TestMovingCode(pagemove, RamLoadedFunction);
TestMovingRealtime(pagemove, NULL, 0, RamLoadedFunction, ETrue, EFalse);
if (gCodePagingSupported)
{
test.Next(_L("Attempting to move demand paged code pages"));
TestMovingCode(pagemove, DllTestFunction, ETrue);
TestMovingRealtime(pagemove, NULL, 0, DllTestFunction, ETrue, ETrue);
}
/* Setup CodeModifier Test Driver */
StartCodeModifierDriver();
test(KErrNone==Device.InitialiseCodeModifier(/* Max break points */ 5 ));
test.Next(_L("Attempting to move code page being modified\n"));
test_KErrNone(TestCodeModification(pagemove));
test.Next(_L("Attempting to move code (async) while page being modified"));
test_KErrNone(TestCodeModificationAsync(pagemove));
StopCodeModifierDriver();
test.Next(_L("Attempting to move ROM Locale DLL Page"));
test_KErrNone(E32TestLocale(1));
test.Next(_L("Attempting to move RAM Locale DLL Page"));
test_KErrNone(E32TestLocale(0));
test.Next(_L("Close test LDD"));
pagemove.Close();
User::FreeLogicalDevice(KLddFileName);
test.End();
return(KErrNone);
}