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|
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
// See the LICENSE file in the project root for more information.
/*============================================================
**
** Header: COMNativeOverlapped.h
**
** Purpose: Native methods for allocating and freeing NativeOverlapped
**
**
===========================================================*/
#include "common.h"
#include "fcall.h"
#include "nativeoverlapped.h"
#include "corhost.h"
#include "win32threadpool.h"
#include "mdaassistants.h"
#include "comsynchronizable.h"
#include "comthreadpool.h"
LONG OverlappedDataObject::s_CleanupRequestCount = 0;
BOOL OverlappedDataObject::s_CleanupInProgress = FALSE;
BOOL OverlappedDataObject::s_GCDetectsCleanup = FALSE;
BOOL OverlappedDataObject::s_CleanupFreeHandle = FALSE;
//
//The function is called from managed code to quicly check if a packet is available.
//This is a perf-critical function. Even helper method frames are not created. We fall
//back to the VM to do heavy weight operations like creating a new CP thread.
//
FCIMPL3(void, CheckVMForIOPacket, LPOVERLAPPED* lpOverlapped, DWORD* errorCode, DWORD* numBytes)
{
FCALL_CONTRACT;
#ifndef FEATURE_PAL
Thread *pThread = GetThread();
DWORD adid = pThread->GetDomain()->GetId().m_dwId;
size_t key=0;
_ASSERTE(pThread);
//Poll and wait if GC is in progress, to avoid blocking GC for too long.
FC_GC_POLL();
*lpOverlapped = ThreadpoolMgr::CompletionPortDispatchWorkWithinAppDomain(pThread, errorCode, numBytes, &key, adid);
if(*lpOverlapped == NULL)
{
return;
}
OVERLAPPEDDATAREF overlapped = ObjectToOVERLAPPEDDATAREF(OverlappedDataObject::GetOverlapped(*lpOverlapped));
_ASSERTE(overlapped->GetAppDomainId() == adid);
_ASSERTE(CLRIoCompletionHosted() == FALSE);
if(overlapped->m_iocb == NULL)
{
// no user delegate to callback
_ASSERTE((overlapped->m_iocbHelper == NULL) || !"This is benign, but should be optimized");
if (g_pAsyncFileStream_AsyncResultClass)
{
SetAsyncResultProperties(overlapped, *errorCode, *numBytes);
}
else
{
//We're not initialized yet, go back to the Vm, and process the packet there.
ThreadpoolMgr::StoreOverlappedInfoInThread(pThread, *errorCode, *numBytes, key, *lpOverlapped);
}
*lpOverlapped = NULL;
return;
}
else
{
if(!pThread->IsRealThreadPoolResetNeeded())
{
pThread->ResetManagedThreadObjectInCoopMode(ThreadNative::PRIORITY_NORMAL);
pThread->InternalReset(FALSE, TRUE, FALSE, FALSE);
if(ThreadpoolMgr::ShouldGrowCompletionPortThreadpool(ThreadpoolMgr::CPThreadCounter.DangerousGetDirtyCounts()))
{
//We may have to create a CP thread, go back to the Vm, and process the packet there.
ThreadpoolMgr::StoreOverlappedInfoInThread(pThread, *errorCode, *numBytes, key, *lpOverlapped);
*lpOverlapped = NULL;
}
}
else
{
//A more complete reset is needed (due to change in priority etc), go back to the VM,
//and process the packet there.
ThreadpoolMgr::StoreOverlappedInfoInThread(pThread, *errorCode, *numBytes, key, *lpOverlapped);
*lpOverlapped = NULL;
}
}
// if this will be "dispatched" to the managed callback fire the IODequeue event:
if (*lpOverlapped != NULL && ETW_EVENT_ENABLED(MICROSOFT_WINDOWS_DOTNETRUNTIME_PROVIDER_Context, ThreadPoolIODequeue))
FireEtwThreadPoolIODequeue(*lpOverlapped, (BYTE*)(*lpOverlapped) - offsetof(OverlappedDataObject, Internal), GetClrInstanceId());
#else // !FEATURE_PAL
*lpOverlapped = NULL;
#endif // !FEATURE_PAL
return;
}
FCIMPLEND
FCIMPL1(void*, AllocateNativeOverlapped, OverlappedDataObject* overlappedUNSAFE)
{
FCALL_CONTRACT;
OVERLAPPEDDATAREF overlapped = ObjectToOVERLAPPEDDATAREF(overlappedUNSAFE);
OBJECTREF userObject = overlapped->m_userObject;
HELPER_METHOD_FRAME_BEGIN_RET_ATTRIB_2(Frame::FRAME_ATTR_NONE, overlapped, userObject);
AsyncPinningHandleHolder handle;
if (g_pOverlappedDataClass == NULL)
{
g_pOverlappedDataClass = MscorlibBinder::GetClass(CLASS__OVERLAPPEDDATA);
// We have optimization to avoid creating event if IO is in default domain. This depends on default domain
// can not be unloaded.
_ASSERTE(IsSingleAppDomain() || !SystemDomain::System()->DefaultDomain()->CanUnload());
_ASSERTE(SystemDomain::System()->DefaultDomain()->GetId().m_dwId == DefaultADID);
}
CONSISTENCY_CHECK(overlapped->GetMethodTable() == g_pOverlappedDataClass);
overlapped->m_AppDomainId = GetAppDomain()->GetId().m_dwId;
if (userObject != NULL)
{
if (overlapped->m_isArray == 1)
{
BASEARRAYREF asArray = (BASEARRAYREF) userObject;
OBJECTREF *pObj = (OBJECTREF*)(asArray->GetDataPtr());
SIZE_T num = asArray->GetNumComponents();
SIZE_T i;
for (i = 0; i < num; i ++)
{
GCHandleValidatePinnedObject(pObj[i]);
}
for (i = 0; i < num; i ++)
{
asArray = (BASEARRAYREF) userObject;
AddMTForPinHandle(pObj[i]);
}
}
else
{
GCHandleValidatePinnedObject(userObject);
AddMTForPinHandle(userObject);
}
}
handle = GetAppDomain()->CreateTypedHandle(overlapped, HNDTYPE_ASYNCPINNED);
#ifdef FEATURE_INCLUDE_ALL_INTERFACES
// CoreCLR does not have IO completion hosted
if (CLRIoCompletionHosted())
{
_ASSERTE(CorHost2::GetHostIoCompletionManager());
HRESULT hr;
BEGIN_SO_TOLERANT_CODE_CALLING_HOST(GetThread());
hr = CorHost2::GetHostIoCompletionManager()->InitializeHostOverlapped(&overlapped->Internal);
END_SO_TOLERANT_CODE_CALLING_HOST;
if (FAILED(hr))
{
COMPlusThrowHR(hr);
}
}
#endif // FEATURE_INCLUDE_ALL_INTERFACES
handle.SuppressRelease();
overlapped->m_pinSelf = handle;
HELPER_METHOD_FRAME_END();
LOG((LF_INTEROP, LL_INFO10000, "In AllocNativeOperlapped thread 0x%x\n", GetThread()));
if (ETW_EVENT_ENABLED(MICROSOFT_WINDOWS_DOTNETRUNTIME_PROVIDER_Context, ThreadPoolIODequeue))
FireEtwThreadPoolIOPack(&overlapped->Internal, overlappedUNSAFE, GetClrInstanceId());
return &overlapped->Internal;
}
FCIMPLEND
FCIMPL1(void, FreeNativeOverlapped, LPOVERLAPPED lpOverlapped)
{
FCALL_CONTRACT;
HELPER_METHOD_FRAME_BEGIN_0();
OVERLAPPEDDATAREF overlapped = ObjectToOVERLAPPEDDATAREF(OverlappedDataObject::GetOverlapped(lpOverlapped));
CONSISTENCY_CHECK(g_pOverlappedDataClass && (overlapped->GetMethodTable() == g_pOverlappedDataClass));
// We don't want to call HasCompleted in the default domain, because we don't have
// overlapped handle support.
if ((!overlapped->HasCompleted ()))
{
#ifdef MDA_SUPPORTED
MdaOverlappedFreeError *pFreeError = MDA_GET_ASSISTANT(OverlappedFreeError);
if (pFreeError)
{
pFreeError->ReportError((LPVOID) OVERLAPPEDDATAREFToObject(overlapped));
// If we entered ReportError then our overlapped OBJECTREF became technically invalid,
// since a gc can be triggered. That causes an assert from FreeAsyncPinHandles() below.
// (I say technically because the object is pinned and won't really move)
overlapped = ObjectToOVERLAPPEDDATAREF(OverlappedDataObject::GetOverlapped(lpOverlapped));
}
#endif // MDA_SUPPORTED
}
overlapped->FreeAsyncPinHandles();
HELPER_METHOD_FRAME_END();
}
FCIMPLEND
FCIMPL1(OverlappedDataObject*, GetOverlappedFromNative, LPOVERLAPPED lpOverlapped)
{
FCALL_CONTRACT;
CONSISTENCY_CHECK(g_pOverlappedDataClass && (OverlappedDataObject::GetOverlapped(lpOverlapped)->GetMethodTable() == g_pOverlappedDataClass));
return OverlappedDataObject::GetOverlapped(lpOverlapped);
}
FCIMPLEND
void OverlappedDataObject::FreeAsyncPinHandles()
{
CONTRACTL
{
NOTHROW;
GC_NOTRIGGER;
MODE_COOPERATIVE;
SO_TOLERANT;
}
CONTRACTL_END;
// This cannot throw or return error, and cannot force SO because it is called
// from CCLRIoCompletionManager::OnComplete which probes.
CONTRACT_VIOLATION(SOToleranceViolation);
CONSISTENCY_CHECK(g_pOverlappedDataClass && (this->GetMethodTable() == g_pOverlappedDataClass));
_ASSERTE(GetThread() != NULL);
if (m_pinSelf)
{
OBJECTHANDLE h = m_pinSelf;
if (FastInterlockCompareExchangePointer(&m_pinSelf, static_cast<OBJECTHANDLE>(NULL), h) == h)
{
DestroyAsyncPinningHandle(h);
}
}
EventHandle = 0;
}
void OverlappedDataObject::StartCleanup()
{
CONTRACTL
{
NOTHROW;
if (GetThread()) {MODE_COOPERATIVE;} else {DISABLED(MODE_COOPERATIVE);}
GC_TRIGGERS;
}
CONTRACTL_END;
if (s_CleanupRequestCount == 0)
{
return;
}
LONG curCount = s_CleanupRequestCount;
if (FastInterlockExchange((LONG*)&s_CleanupInProgress, TRUE) == FALSE)
{
{
BOOL HasJob = Ref_HandleAsyncPinHandles();
if (!HasJob)
{
s_CleanupInProgress = FALSE;
FastInterlockExchangeAdd (&s_CleanupRequestCount, -curCount);
return;
}
}
if (!ThreadpoolMgr::DrainCompletionPortQueue())
{
s_CleanupInProgress = FALSE;
}
else
{
FastInterlockExchangeAdd (&s_CleanupRequestCount, -curCount);
}
}
}
void OverlappedDataObject::FinishCleanup(bool wasDrained)
{
WRAPPER_NO_CONTRACT;
if (wasDrained)
{
GCX_COOP();
s_CleanupFreeHandle = TRUE;
Ref_HandleAsyncPinHandles();
s_CleanupFreeHandle = FALSE;
s_CleanupInProgress = FALSE;
if (s_CleanupRequestCount > 0)
{
StartCleanup();
}
}
else
{
s_CleanupInProgress = FALSE;
}
}
void OverlappedDataObject::HandleAsyncPinHandle()
{
WRAPPER_NO_CONTRACT;
_ASSERTE (s_CleanupInProgress);
if (m_toBeCleaned || !ThreadpoolMgr::IsCompletionPortInitialized())
{
OBJECTHANDLE h = m_pinSelf;
if (h)
{
if (FastInterlockCompareExchangePointer(&m_pinSelf, (OBJECTHANDLE)NULL, h) == h)
{
DestroyAsyncPinningHandle(h);
}
}
}
else if (!s_CleanupFreeHandle)
{
m_toBeCleaned = 1;
}
}
// A hash table to track size of objects that may be moved to default domain
typedef EEHashTable<size_t, EEPtrHashTableHelper<size_t>, FALSE> EEHashTableOfMT;
EEHashTableOfMT *s_pPinHandleTable;
CrstStatic s_PinHandleTableCrst;
void InitializePinHandleTable()
{
WRAPPER_NO_CONTRACT;
s_PinHandleTableCrst.Init(CrstPinHandle);
LockOwner lock = {&s_PinHandleTableCrst, IsOwnerOfCrst};
s_pPinHandleTable = new EEHashTableOfMT();
s_pPinHandleTable->Init(10, &lock);
}
// We can not fail due to OOM when we move an object to default domain during AD unload.
// If we may need a dummy MethodTable later, we allocate the MethodTable here.
void AddMTForPinHandle(OBJECTREF obj)
{
CONTRACTL
{
THROWS;
WRAPPER(GC_TRIGGERS);
}
CONTRACTL_END;
if (obj == NULL)
{
return;
}
_ASSERTE (g_pOverlappedDataClass != NULL);
SSIZE_T size = 0;
MethodTable *pMT = obj->GetMethodTable();
if (pMT->GetLoaderModule()->IsSystem())
{
return;
}
if (pMT->IsArray())
{
#ifdef _DEBUG
BASEARRAYREF asArray = (BASEARRAYREF) obj;
TypeHandle th = asArray->GetArrayElementTypeHandle();
_ASSERTE (!th.IsTypeDesc());
MethodTable *pElemMT = th.AsMethodTable();
_ASSERTE (pElemMT->IsValueType() && pElemMT->IsBlittable());
_ASSERTE (!pElemMT->GetLoaderModule()->IsSystem());
#endif
// Create an ArrayMethodTable that has the same element size
// Use negative number for arrays of structs - it assumes that
// the maximum type base size is less than 2GB.
size = - (SSIZE_T)pMT->GetComponentSize();
_ASSERTE(size < 0);
}
else
{
size = pMT->GetBaseSize();
_ASSERTE(size >= 0);
}
HashDatum data;
if (s_pPinHandleTable->GetValue(size, &data) == FALSE)
{
CrstHolder csh(&s_PinHandleTableCrst);
if (s_pPinHandleTable->GetValue(size, &data) == FALSE)
{
// We do not need to include GCDescr here, since this
// methodtable does not contain pointers.
BYTE *buffer = new BYTE[sizeof(MethodTable)];
memset (buffer, 0, sizeof(MethodTable));
MethodTable *pNewMT = (MethodTable *)buffer;
NewArrayHolder<BYTE> pMTHolder(buffer);
pNewMT->SetIsAsyncPinType();
if (size >= 0)
{
pNewMT->SetBaseSize(static_cast<DWORD>(size));
}
else
{
pNewMT->SetBaseSize(ObjSizeOf (ArrayBase));
pNewMT->SetComponentSize(static_cast<WORD>(-size));
}
s_pPinHandleTable->InsertValue(size, (HashDatum)pNewMT);
pMTHolder.SuppressRelease();
}
}
}
// We need to ensure that the MethodTable of an object is valid in default domain when the object
// is move to default domain duing AD unload.
void BashMTForPinnedObject(OBJECTREF obj)
{
CONTRACTL
{
GC_NOTRIGGER;
NOTHROW;
}
CONTRACTL_END;
if (obj == NULL)
{
return;
}
ADIndex adIndx = obj->GetAppDomainIndex();
ADIndex defaultAdIndx = SystemDomain::System()->DefaultDomain()->GetIndex();
if (adIndx.m_dwIndex != 0 && adIndx != defaultAdIndx)
{
obj->GetHeader()->ResetAppDomainIndexNoFailure(defaultAdIndx);
}
SSIZE_T size = 0;
MethodTable *pMT = obj->GetMethodTable();
if (pMT == g_pOverlappedDataClass)
{
// Managed Overlapped
OVERLAPPEDDATAREF overlapped = (OVERLAPPEDDATAREF)(obj);
overlapped->m_asyncResult = NULL;
overlapped->m_iocb = NULL;
overlapped->m_iocbHelper = NULL;
overlapped->m_overlapped = NULL;
if (overlapped->m_userObject != NULL)
{
if (overlapped->m_isArray == 1)
{
BASEARRAYREF asArray = (BASEARRAYREF) (overlapped->m_userObject);
OBJECTREF *pObj = (OBJECTREF*)asArray->GetDataPtr (TRUE);
SIZE_T num = asArray->GetNumComponents();
for (SIZE_T i = 0; i < num; i ++)
{
BashMTForPinnedObject(pObj[i]);
}
}
else
{
BashMTForPinnedObject(overlapped->m_userObject);
}
}
STRESS_LOG1 (LF_APPDOMAIN | LF_GC, LL_INFO100, "OverlappedData %p:MT is bashed\n", OBJECTREFToObject (overlapped));
return;
}
if (pMT->GetLoaderModule()->IsSystem())
{
return;
}
if (pMT->IsArray())
{
#ifdef _DEBUG
BASEARRAYREF asArray = (BASEARRAYREF) obj;
TypeHandle th = asArray->GetArrayElementTypeHandle();
_ASSERTE (!th.IsTypeDesc());
MethodTable *pElemMT = th.AsMethodTable();
_ASSERTE (pElemMT->IsValueType() && pElemMT->IsBlittable());
_ASSERTE (!pElemMT->GetLoaderModule()->IsSystem());
#endif
// Create an ArrayMethodTable that has the same element size
size = - (SSIZE_T)pMT->GetComponentSize();
}
else
{
_ASSERTE (pMT->IsBlittable());
size = pMT->GetBaseSize();
}
HashDatum data = NULL;
BOOL fRet;
fRet = s_pPinHandleTable->GetValue(size, &data);
_ASSERTE(fRet);
PREFIX_ASSUME(data != NULL);
obj->SetMethodTable((MethodTable*)data);
}
|
