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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.
#include "common.h"
#include "appdomain.hpp"
#include "peimagelayout.inl"
#include "field.h"
#include "strongnameinternal.h"
#include "excep.h"
#include "eeconfig.h"
#include "gcheaputilities.h"
#include "eventtrace.h"
#include "perfcounters.h"
#include "assemblyname.hpp"
#include "eeprofinterfaces.h"
#include "dbginterface.h"
#ifndef DACCESS_COMPILE
#include "eedbginterfaceimpl.h"
#endif
#include "comdynamic.h"
#include "mlinfo.h"
#include "posterror.h"
#include "assemblynative.hpp"
#include "shimload.h"
#include "stringliteralmap.h"
#include "codeman.h"
#include "comcallablewrapper.h"
#include "apithreadstress.h"
#include "eventtrace.h"
#include "comdelegate.h"
#include "siginfo.hpp"
#include "typekey.h"
#include "caparser.h"
#include "ecall.h"
#include "finalizerthread.h"
#include "threadsuspend.h"
#ifdef FEATURE_PREJIT
#include "corcompile.h"
#include "compile.h"
#endif // FEATURE_PREJIT
#ifdef FEATURE_COMINTEROP
#include "comtoclrcall.h"
#include "runtimecallablewrapper.h"
#include "mngstdinterfaces.h"
#include "olevariant.h"
#include "rcwrefcache.h"
#include "olecontexthelpers.h"
#endif // FEATURE_COMINTEROP
#include "typeequivalencehash.hpp"
#include "appdomain.inl"
#include "typeparse.h"
#include "mdaassistants.h"
#include "threadpoolrequest.h"
#include "nativeoverlapped.h"
#ifndef FEATURE_PAL
#include "dwreport.h"
#endif // !FEATURE_PAL
#include "stringarraylist.h"
#include "../binder/inc/clrprivbindercoreclr.h"
#include "clrprivtypecachewinrt.h"
// this file handles string conversion errors for itself
#undef MAKE_TRANSLATIONFAILED
// Define these macro's to do strict validation for jit lock and class
// init entry leaks. This defines determine if the asserts that
// verify for these leaks are defined or not. These asserts can
// sometimes go off even if no entries have been leaked so this
// defines should be used with caution.
//
// If we are inside a .cctor when the application shut's down then the
// class init lock's head will be set and this will cause the assert
// to go off.
//
// If we are jitting a method when the application shut's down then
// the jit lock's head will be set causing the assert to go off.
//#define STRICT_CLSINITLOCK_ENTRY_LEAK_DETECTION
static const WCHAR DEFAULT_DOMAIN_FRIENDLY_NAME[] = W("DefaultDomain");
static const WCHAR OTHER_DOMAIN_FRIENDLY_NAME_PREFIX[] = W("Domain");
#define STATIC_OBJECT_TABLE_BUCKET_SIZE 1020
//#define _DEBUG_ADUNLOAD 1
// Statics
SPTR_IMPL(AppDomain, AppDomain, m_pTheAppDomain);
SPTR_IMPL(SystemDomain, SystemDomain, m_pSystemDomain);
SVAL_IMPL(ArrayListStatic, SystemDomain, m_appDomainIndexList);
SVAL_IMPL(BOOL, SystemDomain, s_fForceDebug);
SVAL_IMPL(BOOL, SystemDomain, s_fForceProfiling);
SVAL_IMPL(BOOL, SystemDomain, s_fForceInstrument);
#ifndef DACCESS_COMPILE
// Base Domain Statics
CrstStatic BaseDomain::m_SpecialStaticsCrst;
int BaseDomain::m_iNumberOfProcessors = 0;
// System Domain Statics
GlobalStringLiteralMap* SystemDomain::m_pGlobalStringLiteralMap = NULL;
DECLSPEC_ALIGN(16)
static BYTE g_pSystemDomainMemory[sizeof(SystemDomain)];
#ifdef FEATURE_APPDOMAIN_RESOURCE_MONITORING
size_t SystemDomain::m_totalSurvivedBytes = 0;
#endif //FEATURE_APPDOMAIN_RESOURCE_MONITORING
CrstStatic SystemDomain::m_SystemDomainCrst;
CrstStatic SystemDomain::m_DelayedUnloadCrst;
ULONG SystemDomain::s_dNumAppDomains = 0;
ArrayListStatic SystemDomain::m_appDomainIdList;
DWORD SystemDomain::m_dwLowestFreeIndex = 0;
// comparison function to be used for matching clsids in our clsid hash table
BOOL CompareCLSID(UPTR u1, UPTR u2)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
SO_INTOLERANT;
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
GUID *pguid = (GUID *)(u1 << 1);
_ASSERTE(pguid != NULL);
MethodTable *pMT= (MethodTable *)u2;
_ASSERTE(pMT!= NULL);
GUID guid;
pMT->GetGuid(&guid, TRUE);
if (!IsEqualIID(guid, *pguid))
return FALSE;
return TRUE;
}
#ifndef CROSSGEN_COMPILE
// Constructor for the LargeHeapHandleBucket class.
LargeHeapHandleBucket::LargeHeapHandleBucket(LargeHeapHandleBucket *pNext, DWORD Size, BaseDomain *pDomain, BOOL bCrossAD)
: m_pNext(pNext)
, m_ArraySize(Size)
, m_CurrentPos(0)
, m_CurrentEmbeddedFreePos(0) // hint for where to start a search for an embedded free item
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_COOPERATIVE;
PRECONDITION(CheckPointer(pDomain));
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
PTRARRAYREF HandleArrayObj;
// Allocate the array in the large object heap.
if (!bCrossAD)
{
OVERRIDE_TYPE_LOAD_LEVEL_LIMIT(CLASS_LOADED);
HandleArrayObj = (PTRARRAYREF)AllocateObjectArray(Size, g_pObjectClass, TRUE);
}
else
{
// During AD creation we don't want to assign the handle array to the currently running AD but
// to the AD being created. Ensure that AllocateArrayEx doesn't set the AD and then set it here.
AppDomain *pAD = pDomain->AsAppDomain();
_ASSERTE(pAD);
_ASSERTE(pAD->IsBeingCreated());
OBJECTREF array;
{
OVERRIDE_TYPE_LOAD_LEVEL_LIMIT(CLASS_LOADED);
array = AllocateArrayEx(
ClassLoader::LoadArrayTypeThrowing(g_pObjectClass),
(INT32 *)(&Size),
1,
TRUE
DEBUG_ARG(TRUE));
}
array->SetAppDomain(pAD);
HandleArrayObj = (PTRARRAYREF)array;
}
// Retrieve the pointer to the data inside the array. This is legal since the array
// is located in the large object heap and is guaranteed not to move.
m_pArrayDataPtr = (OBJECTREF *)HandleArrayObj->GetDataPtr();
// Store the array in a strong handle to keep it alive.
m_hndHandleArray = pDomain->CreatePinningHandle((OBJECTREF)HandleArrayObj);
}
// Destructor for the LargeHeapHandleBucket class.
LargeHeapHandleBucket::~LargeHeapHandleBucket()
{
CONTRACTL
{
NOTHROW;
GC_NOTRIGGER;
}
CONTRACTL_END;
if (m_hndHandleArray)
{
DestroyPinningHandle(m_hndHandleArray);
m_hndHandleArray = NULL;
}
}
// Allocate handles from the bucket.
OBJECTREF *LargeHeapHandleBucket::AllocateHandles(DWORD nRequested)
{
CONTRACTL
{
NOTHROW;
GC_NOTRIGGER;
MODE_COOPERATIVE;
}
CONTRACTL_END;
_ASSERTE(nRequested > 0 && nRequested <= GetNumRemainingHandles());
_ASSERTE(m_pArrayDataPtr == (OBJECTREF*)((PTRARRAYREF)ObjectFromHandle(m_hndHandleArray))->GetDataPtr());
// Store the handles in the buffer that was passed in
OBJECTREF* ret = &m_pArrayDataPtr[m_CurrentPos];
m_CurrentPos += nRequested;
return ret;
}
// look for a free item embedded in the table
OBJECTREF *LargeHeapHandleBucket::TryAllocateEmbeddedFreeHandle()
{
CONTRACTL
{
NOTHROW;
GC_NOTRIGGER;
MODE_COOPERATIVE;
}
CONTRACTL_END;
OBJECTREF pPreallocatedSentinalObject = ObjectFromHandle(g_pPreallocatedSentinelObject);
_ASSERTE(pPreallocatedSentinalObject != NULL);
for (int i = m_CurrentEmbeddedFreePos; i < m_CurrentPos; i++)
{
if (m_pArrayDataPtr[i] == pPreallocatedSentinalObject)
{
m_CurrentEmbeddedFreePos = i;
m_pArrayDataPtr[i] = NULL;
return &m_pArrayDataPtr[i];
}
}
// didn't find it (we don't bother wrapping around for a full search, it's not worth it to try that hard, we'll get it next time)
m_CurrentEmbeddedFreePos = 0;
return NULL;
}
// Maximum bucket size will be 64K on 32-bit and 128K on 64-bit.
// We subtract out a small amount to leave room for the object
// header and length of the array.
#define MAX_BUCKETSIZE (16384 - 4)
// Constructor for the LargeHeapHandleTable class.
LargeHeapHandleTable::LargeHeapHandleTable(BaseDomain *pDomain, DWORD InitialBucketSize)
: m_pHead(NULL)
, m_pDomain(pDomain)
, m_NextBucketSize(InitialBucketSize)
, m_pFreeSearchHint(NULL)
, m_cEmbeddedFree(0)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_COOPERATIVE;
PRECONDITION(CheckPointer(pDomain));
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
#ifdef _DEBUG
m_pCrstDebug = NULL;
#endif
}
// Destructor for the LargeHeapHandleTable class.
LargeHeapHandleTable::~LargeHeapHandleTable()
{
CONTRACTL
{
NOTHROW;
GC_NOTRIGGER;
}
CONTRACTL_END;
// Delete the buckets.
while (m_pHead)
{
LargeHeapHandleBucket *pOld = m_pHead;
m_pHead = pOld->GetNext();
delete pOld;
}
}
//*****************************************************************************
//
// LOCKING RULES FOR AllocateHandles() and ReleaseHandles() 12/08/2004
//
//
// These functions are not protected by any locking in this location but rather the callers are
// assumed to be doing suitable locking for the handle table. The handle table itself is
// behaving rather like a thread-agnostic collection class -- it doesn't want to know
// much about the outside world and so it is just doing its job with no awareness of
// thread notions.
//
// The instance in question is
// There are two locations you can find a LargeHeapHandleTable
// 1) there is one in every BaseDomain, it is used to keep track of the static members
// in that domain
// 2) there is one in the System Domain that is used for the GlobalStringLiteralMap
//
// the one in (2) is not the same as the one that is in the BaseDomain object that corresponds
// to the SystemDomain -- that one is basically stilborn because the string literals don't go
// there and of course the System Domain has no code loaded into it -- only regular
// AppDomains (like Domain 0) actually execute code. As a result handle tables are in
// practice used either for string literals or for static members but never for both.
// At least not at this writing.
//
// Now it's useful to consider what the locking discipline is for these classes.
//
// ---------
//
// First case: (easiest) is the statics members
//
// Each BaseDomain has its own critical section
//
// BaseDomain::AllocateObjRefPtrsInLargeTable takes a lock with
// CrstHolder ch(&m_LargeHeapHandleTableCrst);
//
// it does this before it calls AllocateHandles which suffices. It does not call ReleaseHandles
// at any time (although ReleaseHandles may be called via AllocateHandles if the request
// doesn't fit in the current block, the remaining handles at the end of the block are released
// automatically as part of allocation/recycling)
//
// note: Recycled handles are only used during String Literal allocation because we only try
// to recycle handles if the allocation request is for exactly one handle.
//
// The handles in the BaseDomain handle table are released when the Domain is unloaded
// as the GC objects become rootless at that time.
//
// This dispenses with all of the Handle tables except the one that is used for string literals
//
// ---------
//
// Second case: Allocation for use in a string literal
//
// AppDomainStringLiteralMap::GetStringLiteral
// leads to calls to
// LargeHeapHandleBlockHolder constructor
// leads to calls to
// m_Data = pOwner->AllocateHandles(nCount);
//
// before doing this AppDomainStringLiteralMap::GetStringLiteral takes this lock
//
// CrstHolder gch(&(SystemDomain::GetGlobalStringLiteralMap()->m_HashTableCrstGlobal));
//
// which is the lock for the hash table that it owns
//
// STRINGREF *AppDomainStringLiteralMap::GetInternedString
//
// has a similar call path and uses the same approach and the same lock
// this covers all the paths which allocate
//
// ---------
//
// Third case: Releases for use in a string literal entry
//
// CrstHolder gch(&(SystemDomain::GetGlobalStringLiteralMap()->m_HashTableCrstGlobal));
// taken in the AppDomainStringLiteralMap functions below protects the 4 ways that this can happen
//
// case 3a)
//
// in an appdomain unload case
//
// AppDomainStringLiteralMap::~AppDomainStringLiteralMap() takes the lock then
// leads to calls to
// StringLiteralEntry::Release
// which leads to
// SystemDomain::GetGlobalStringLiteralMapNoCreate()->RemoveStringLiteralEntry(this)
// which leads to
// m_LargeHeapHandleTable.ReleaseHandles((OBJECTREF*)pObjRef, 1);
//
// case 3b)
//
// AppDomainStringLiteralMap::GetStringLiteral() can call StringLiteralEntry::Release in some
// error cases, leading to the same stack as above
//
// case 3c)
//
// AppDomainStringLiteralMap::GetInternedString() can call StringLiteralEntry::Release in some
// error cases, leading to the same stack as above
//
// case 3d)
//
// The same code paths in 3b and 3c and also end up releasing if an exception is thrown
// during their processing. Both these paths use a StringLiteralEntryHolder to assist in cleanup,
// the StaticRelease method of the StringLiteralEntry gets called, which in turn calls the
// Release method.
// Allocate handles from the large heap handle table.
OBJECTREF* LargeHeapHandleTable::AllocateHandles(DWORD nRequested, BOOL bCrossAD)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_COOPERATIVE;
PRECONDITION(nRequested > 0);
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
// SEE "LOCKING RULES FOR AllocateHandles() and ReleaseHandles()" above
// the lock must be registered and already held by the caller per contract
#ifdef _DEBUG
_ASSERTE(m_pCrstDebug != NULL);
_ASSERTE(m_pCrstDebug->OwnedByCurrentThread());
#endif
if (nRequested == 1 && m_cEmbeddedFree != 0)
{
// special casing singleton requests to look for slots that can be re-used
// we need to do this because string literals are allocated one at a time and then sometimes
// released. we do not wish for the number of handles consumed by string literals to
// increase forever as assemblies are loaded and unloaded
if (m_pFreeSearchHint == NULL)
m_pFreeSearchHint = m_pHead;
while (m_pFreeSearchHint)
{
OBJECTREF* pObjRef = m_pFreeSearchHint->TryAllocateEmbeddedFreeHandle();
if (pObjRef != NULL)
{
// the slot is to have been prepared with a null ready to go
_ASSERTE(*pObjRef == NULL);
m_cEmbeddedFree--;
return pObjRef;
}
m_pFreeSearchHint = m_pFreeSearchHint->GetNext();
}
// the search doesn't wrap around so it's possible that we might have embedded free items
// and not find them but that's ok, we'll get them on the next alloc... all we're trying to do
// is to not have big leaks over time.
}
// Retrieve the remaining number of handles in the bucket.
DWORD NumRemainingHandlesInBucket = (m_pHead != NULL) ? m_pHead->GetNumRemainingHandles() : 0;
// create a new block if this request doesn't fit in the current block
if (nRequested > NumRemainingHandlesInBucket)
{
if (m_pHead != NULL)
{
// mark the handles in that remaining region as available for re-use
ReleaseHandles(m_pHead->CurrentPos(), NumRemainingHandlesInBucket);
// mark what's left as having been used
m_pHead->ConsumeRemaining();
}
// create a new bucket for this allocation
// We need a block big enough to hold the requested handles
DWORD NewBucketSize = max(m_NextBucketSize, nRequested);
m_pHead = new LargeHeapHandleBucket(m_pHead, NewBucketSize, m_pDomain, bCrossAD);
m_NextBucketSize = min(m_NextBucketSize * 2, MAX_BUCKETSIZE);
}
return m_pHead->AllocateHandles(nRequested);
}
//*****************************************************************************
// Release object handles allocated using AllocateHandles().
void LargeHeapHandleTable::ReleaseHandles(OBJECTREF *pObjRef, DWORD nReleased)
{
CONTRACTL
{
NOTHROW;
GC_NOTRIGGER;
MODE_COOPERATIVE;
PRECONDITION(CheckPointer(pObjRef));
}
CONTRACTL_END;
// SEE "LOCKING RULES FOR AllocateHandles() and ReleaseHandles()" above
// the lock must be registered and already held by the caller per contract
#ifdef _DEBUG
_ASSERTE(m_pCrstDebug != NULL);
_ASSERTE(m_pCrstDebug->OwnedByCurrentThread());
#endif
OBJECTREF pPreallocatedSentinalObject = ObjectFromHandle(g_pPreallocatedSentinelObject);
_ASSERTE(pPreallocatedSentinalObject != NULL);
// Add the released handles to the list of available handles.
for (DWORD i = 0; i < nReleased; i++)
{
SetObjectReference(&pObjRef[i], pPreallocatedSentinalObject, NULL);
}
m_cEmbeddedFree += nReleased;
}
// Constructor for the ThreadStaticHandleBucket class.
ThreadStaticHandleBucket::ThreadStaticHandleBucket(ThreadStaticHandleBucket *pNext, DWORD Size, BaseDomain *pDomain)
: m_pNext(pNext)
, m_ArraySize(Size)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_COOPERATIVE;
PRECONDITION(CheckPointer(pDomain));
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
PTRARRAYREF HandleArrayObj;
// Allocate the array on the GC heap.
OVERRIDE_TYPE_LOAD_LEVEL_LIMIT(CLASS_LOADED);
HandleArrayObj = (PTRARRAYREF)AllocateObjectArray(Size, g_pObjectClass, FALSE);
// Store the array in a strong handle to keep it alive.
m_hndHandleArray = pDomain->CreateStrongHandle((OBJECTREF)HandleArrayObj);
}
// Destructor for the ThreadStaticHandleBucket class.
ThreadStaticHandleBucket::~ThreadStaticHandleBucket()
{
CONTRACTL
{
NOTHROW;
GC_NOTRIGGER;
MODE_COOPERATIVE;
}
CONTRACTL_END;
if (m_hndHandleArray)
{
DestroyStrongHandle(m_hndHandleArray);
m_hndHandleArray = NULL;
}
}
// Allocate handles from the bucket.
OBJECTHANDLE ThreadStaticHandleBucket::GetHandles()
{
CONTRACTL
{
NOTHROW;
GC_NOTRIGGER;
MODE_COOPERATIVE;
}
CONTRACTL_END;
return m_hndHandleArray;
}
// Constructor for the ThreadStaticHandleTable class.
ThreadStaticHandleTable::ThreadStaticHandleTable(BaseDomain *pDomain)
: m_pHead(NULL)
, m_pDomain(pDomain)
{
CONTRACTL
{
NOTHROW;
GC_NOTRIGGER;
MODE_ANY;
PRECONDITION(CheckPointer(pDomain));
}
CONTRACTL_END;
}
// Destructor for the ThreadStaticHandleTable class.
ThreadStaticHandleTable::~ThreadStaticHandleTable()
{
CONTRACTL
{
NOTHROW;
GC_NOTRIGGER;
}
CONTRACTL_END;
// Delete the buckets.
while (m_pHead)
{
ThreadStaticHandleBucket *pOld = m_pHead;
m_pHead = pOld->GetNext();
delete pOld;
}
}
// Allocate handles from the large heap handle table.
OBJECTHANDLE ThreadStaticHandleTable::AllocateHandles(DWORD nRequested)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_COOPERATIVE;
PRECONDITION(nRequested > 0);
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
// create a new bucket for this allocation
m_pHead = new ThreadStaticHandleBucket(m_pHead, nRequested, m_pDomain);
return m_pHead->GetHandles();
}
#endif // CROSSGEN_COMPILE
//*****************************************************************************
// BaseDomain
//*****************************************************************************
void BaseDomain::Attach()
{
m_SpecialStaticsCrst.Init(CrstSpecialStatics);
}
BaseDomain::BaseDomain()
{
// initialize fields so the domain can be safely destructed
// shouldn't call anything that can fail here - use ::Init instead
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
FORBID_FAULT;
}
CONTRACTL_END;
m_fDisableInterfaceCache = FALSE;
m_pFusionContext = NULL;
m_pTPABinderContext = NULL;
// Make sure the container is set to NULL so that it gets loaded when it is used.
m_pLargeHeapHandleTable = NULL;
#ifndef CROSSGEN_COMPILE
// Note that m_handleStore is overridden by app domains
m_handleStore = GCHandleUtilities::GetGCHandleManager()->GetGlobalHandleStore();
#else
m_handleStore = NULL;
#endif
m_pMarshalingData = NULL;
#ifdef FEATURE_COMINTEROP
m_pMngStdInterfacesInfo = NULL;
m_pWinRtBinder = NULL;
#endif
m_FileLoadLock.PreInit();
m_JITLock.PreInit();
m_ClassInitLock.PreInit();
m_ILStubGenLock.PreInit();
#ifdef FEATURE_CODE_VERSIONING
m_codeVersionManager.PreInit();
#endif
} //BaseDomain::BaseDomain
//*****************************************************************************
void BaseDomain::Init()
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
//
// Initialize the domain locks
//
if (this == reinterpret_cast<BaseDomain*>(&g_pSystemDomainMemory[0]))
m_DomainCrst.Init(CrstSystemBaseDomain);
else
m_DomainCrst.Init(CrstBaseDomain);
m_DomainCacheCrst.Init(CrstAppDomainCache);
m_DomainLocalBlockCrst.Init(CrstDomainLocalBlock);
m_InteropDataCrst.Init(CrstInteropData, CRST_REENTRANCY);
m_WinRTFactoryCacheCrst.Init(CrstWinRTFactoryCache, CRST_UNSAFE_COOPGC);
// NOTE: CRST_UNSAFE_COOPGC prevents a GC mode switch to preemptive when entering this crst.
// If you remove this flag, we will switch to preemptive mode when entering
// m_FileLoadLock, which means all functions that enter it will become
// GC_TRIGGERS. (This includes all uses of PEFileListLockHolder, LoadLockHolder, etc.) So be sure
// to update the contracts if you remove this flag.
m_FileLoadLock.Init(CrstAssemblyLoader,
CrstFlags(CRST_HOST_BREAKABLE), TRUE);
//
// The JIT lock and the CCtor locks are at the same level (and marked as
// UNSAFE_SAME_LEVEL) because they are all part of the same deadlock detection mechanism. We
// see through cycles of JITting and .cctor execution and then explicitly allow the cycle to
// be broken by giving access to uninitialized classes. If there is no cycle or if the cycle
// involves other locks that arent part of this special deadlock-breaking semantics, then
// we continue to block.
//
m_JITLock.Init(CrstJit, CrstFlags(CRST_REENTRANCY | CRST_UNSAFE_SAMELEVEL), TRUE);
m_ClassInitLock.Init(CrstClassInit, CrstFlags(CRST_REENTRANCY | CRST_UNSAFE_SAMELEVEL), TRUE);
m_ILStubGenLock.Init(CrstILStubGen, CrstFlags(CRST_REENTRANCY), TRUE);
// Large heap handle table CRST.
m_LargeHeapHandleTableCrst.Init(CrstAppDomainHandleTable);
m_crstLoaderAllocatorReferences.Init(CrstLoaderAllocatorReferences);
// Has to switch thread to GC_NOTRIGGER while being held (see code:BaseDomain#AssemblyListLock)
m_crstAssemblyList.Init(CrstAssemblyList, CrstFlags(
CRST_GC_NOTRIGGER_WHEN_TAKEN | CRST_DEBUGGER_THREAD | CRST_TAKEN_DURING_SHUTDOWN));
// Initialize the EE marshaling data to NULL.
m_pMarshalingData = NULL;
#ifdef FEATURE_COMINTEROP
// Allocate the managed standard interfaces information.
m_pMngStdInterfacesInfo = new MngStdInterfacesInfo();
{
CLRPrivBinderWinRT::NamespaceResolutionKind fNamespaceResolutionKind = CLRPrivBinderWinRT::NamespaceResolutionKind_WindowsAPI;
if (CLRConfig::GetConfigValue(CLRConfig::EXTERNAL_DesignerNamespaceResolutionEnabled) != FALSE)
{
fNamespaceResolutionKind = CLRPrivBinderWinRT::NamespaceResolutionKind_DesignerResolveEvent;
}
CLRPrivTypeCacheWinRT * pWinRtTypeCache = CLRPrivTypeCacheWinRT::GetOrCreateTypeCache();
m_pWinRtBinder = CLRPrivBinderWinRT::GetOrCreateBinder(pWinRtTypeCache, fNamespaceResolutionKind);
}
#endif // FEATURE_COMINTEROP
// Init the COM Interop data hash
{
LockOwner lock = {&m_InteropDataCrst, IsOwnerOfCrst};
m_interopDataHash.Init(0, NULL, false, &lock);
}
m_dwSizedRefHandles = 0;
if (!m_iNumberOfProcessors)
{
m_iNumberOfProcessors = GetCurrentProcessCpuCount();
}
}
#undef LOADERHEAP_PROFILE_COUNTER
#ifndef CROSSGEN_COMPILE
//*****************************************************************************
void BaseDomain::Terminate()
{
CONTRACTL
{
NOTHROW;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END;
m_crstLoaderAllocatorReferences.Destroy();
m_DomainCrst.Destroy();
m_DomainCacheCrst.Destroy();
m_DomainLocalBlockCrst.Destroy();
m_InteropDataCrst.Destroy();
JitListLockEntry* pJitElement;
ListLockEntry* pElement;
// All the threads that are in this domain had better be stopped by this
// point.
//
// We might be jitting or running a .cctor so we need to empty that queue.
pJitElement = m_JITLock.Pop(TRUE);
while (pJitElement)
{
#ifdef STRICT_JITLOCK_ENTRY_LEAK_DETECTION
_ASSERTE ((m_JITLock.m_pHead->m_dwRefCount == 1
&& m_JITLock.m_pHead->m_hrResultCode == E_FAIL) ||
dbg_fDrasticShutdown || g_fInControlC);
#endif // STRICT_JITLOCK_ENTRY_LEAK_DETECTION
delete(pJitElement);
pJitElement = m_JITLock.Pop(TRUE);
}
m_JITLock.Destroy();
pElement = m_ClassInitLock.Pop(TRUE);
while (pElement)
{
#ifdef STRICT_CLSINITLOCK_ENTRY_LEAK_DETECTION
_ASSERTE (dbg_fDrasticShutdown || g_fInControlC);
#endif
delete(pElement);
pElement = m_ClassInitLock.Pop(TRUE);
}
m_ClassInitLock.Destroy();
FileLoadLock* pFileElement;
pFileElement = (FileLoadLock*) m_FileLoadLock.Pop(TRUE);
while (pFileElement)
{
#ifdef STRICT_CLSINITLOCK_ENTRY_LEAK_DETECTION
_ASSERTE (dbg_fDrasticShutdown || g_fInControlC);
#endif
pFileElement->Release();
pFileElement = (FileLoadLock*) m_FileLoadLock.Pop(TRUE);
}
m_FileLoadLock.Destroy();
pElement = m_ILStubGenLock.Pop(TRUE);
while (pElement)
{
#ifdef STRICT_JITLOCK_ENTRY_LEAK_DETECTION
_ASSERTE ((m_ILStubGenLock.m_pHead->m_dwRefCount == 1
&& m_ILStubGenLock.m_pHead->m_hrResultCode == E_FAIL) ||
dbg_fDrasticShutdown || g_fInControlC);
#endif // STRICT_JITLOCK_ENTRY_LEAK_DETECTION
delete(pElement);
pElement = m_ILStubGenLock.Pop(TRUE);
}
m_ILStubGenLock.Destroy();
m_LargeHeapHandleTableCrst.Destroy();
if (m_pLargeHeapHandleTable != NULL)
{
delete m_pLargeHeapHandleTable;
m_pLargeHeapHandleTable = NULL;
}
if (!IsAppDomain())
{
// Kind of a workaround - during unloading, we need to have an EE halt
// around deleting this stuff. So it gets deleted in AppDomain::Terminate()
// for those things (because there is a convenient place there.)
GetLoaderAllocator()->CleanupStringLiteralMap();
}
#ifdef FEATURE_COMINTEROP
if (m_pMngStdInterfacesInfo)
{
delete m_pMngStdInterfacesInfo;
m_pMngStdInterfacesInfo = NULL;
}
if (m_pWinRtBinder != NULL)
{
m_pWinRtBinder->Release();
}
#endif // FEATURE_COMINTEROP
ClearFusionContext();
m_dwSizedRefHandles = 0;
}
#endif // CROSSGEN_COMPILE
void BaseDomain::InitVSD()
{
STANDARD_VM_CONTRACT;
// This is a workaround for gcc, since it fails to successfully resolve
// "TypeIDMap::STARTING_SHARED_DOMAIN_ID" when used within the ?: operator.
UINT32 startingId;
if (IsSharedDomain())
{
startingId = TypeIDMap::STARTING_SHARED_DOMAIN_ID;
}
else
{
startingId = TypeIDMap::STARTING_UNSHARED_DOMAIN_ID;
}
// By passing false as the last parameter, interfaces loaded in the
// shared domain will not be given fat type ids if RequiresFatDispatchTokens
// is set. This is correct, as the fat dispatch tokens are only needed to solve
// uniqueness problems involving domain specific types.
m_typeIDMap.Init(startingId, 2, !IsSharedDomain());
#ifndef CROSSGEN_COMPILE
GetLoaderAllocator()->InitVirtualCallStubManager(this);
#endif
}
#ifndef CROSSGEN_COMPILE
void BaseDomain::ClearFusionContext()
{
CONTRACTL
{
NOTHROW;
GC_TRIGGERS;
MODE_PREEMPTIVE;
}
CONTRACTL_END;
if(m_pFusionContext) {
m_pFusionContext->Release();
m_pFusionContext = NULL;
}
if (m_pTPABinderContext) {
m_pTPABinderContext->Release();
m_pTPABinderContext = NULL;
}
}
#ifdef FEATURE_PREJIT
void AppDomain::DeleteNativeCodeRanges()
{
CONTRACTL
{
NOTHROW;
GC_NOTRIGGER;
MODE_PREEMPTIVE;
FORBID_FAULT;
}
CONTRACTL_END;
// Fast path to skip using the assembly iterator when the appdomain has not yet completely been initialized
// and yet we are destroying it. (This is the case if we OOM during AppDomain creation.)
if (m_Assemblies.IsEmpty())
return;
// Shutdown assemblies
AssemblyIterator i = IterateAssembliesEx( (AssemblyIterationFlags)(kIncludeLoaded | kIncludeLoading | kIncludeExecution | kIncludeFailedToLoad) );
CollectibleAssemblyHolder<DomainAssembly *> pDomainAssembly;
while (i.Next(pDomainAssembly.This()))
{
Assembly * assembly = pDomainAssembly->m_pAssembly;
if ((assembly != NULL))
assembly->DeleteNativeCodeRanges();
}
}
#endif
void AppDomain::ShutdownAssemblies()
{
CONTRACTL
{
NOTHROW;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END;
// Fast path to skip using the assembly iterator when the appdomain has not yet completely been initialized
// and yet we are destroying it. (This is the case if we OOM during AppDomain creation.)
if (m_Assemblies.IsEmpty())
return;
// Shutdown assemblies
// has two stages because Terminate needs info from the Assembly's dependencies
// Stage 1: call code:Assembly::Terminate
AssemblyIterator i = IterateAssembliesEx((AssemblyIterationFlags)(
kIncludeLoaded | kIncludeLoading | kIncludeExecution | kIncludeFailedToLoad | kIncludeCollected));
DomainAssembly * pDomainAssembly = NULL;
while (i.Next_UnsafeNoAddRef(&pDomainAssembly))
{
// Note: cannot use DomainAssembly::GetAssembly() here as it asserts that the assembly has been
// loaded to at least the FILE_LOAD_ALLOCATE level. Since domain shutdown can take place
// asynchronously this property cannot be guaranteed. Access the m_pAssembly field directly instead.
Assembly * assembly = pDomainAssembly->m_pAssembly;
if (assembly)
assembly->Terminate();
}
// Stage 2: Clear the list of assemblies
i = IterateAssembliesEx((AssemblyIterationFlags)(
kIncludeLoaded | kIncludeLoading | kIncludeExecution | kIncludeFailedToLoad | kIncludeCollected));
while (i.Next_UnsafeNoAddRef(&pDomainAssembly))
{
// We are in shutdown path, no one else can get to the list anymore
delete pDomainAssembly;
}
m_Assemblies.Clear(this);
// Stage 2: Clear the loader allocators registered for deletion from code:Assembly:Terminate calls in
// stage 1
// Note: It is not clear to me why we cannot delete the loader allocator from within
// code:DomainAssembly::~DomainAssembly
ShutdownFreeLoaderAllocators(FALSE);
} // AppDomain::ShutdownAssemblies
void AppDomain::ShutdownFreeLoaderAllocators(BOOL bFromManagedCode)
{
// If we're called from managed code (i.e. the finalizer thread) we take a lock in
// LoaderAllocator::CleanupFailedTypeInit, which may throw. Otherwise we're called
// from the app-domain shutdown path in which we can avoid taking the lock.
CONTRACTL
{
GC_TRIGGERS;
if (bFromManagedCode) THROWS; else NOTHROW;
MODE_ANY;
CAN_TAKE_LOCK;
}
CONTRACTL_END;
CrstHolder ch(GetLoaderAllocatorReferencesLock());
// Shutdown the LoaderAllocators associated with collectible assemblies
while (m_pDelayedLoaderAllocatorUnloadList != NULL)
{
LoaderAllocator * pCurrentLoaderAllocator = m_pDelayedLoaderAllocatorUnloadList;
// Remove next loader allocator from the list
m_pDelayedLoaderAllocatorUnloadList = m_pDelayedLoaderAllocatorUnloadList->m_pLoaderAllocatorDestroyNext;
if (bFromManagedCode)
{
// For loader allocator finalization, we need to be careful about cleaning up per-appdomain allocations
// and synchronizing with GC using delay unload list. We need to wait for next Gen2 GC to finish to ensure
// that GC heap does not have any references to the MethodTables being unloaded.
pCurrentLoaderAllocator->CleanupFailedTypeInit();
pCurrentLoaderAllocator->CleanupHandles();
GCX_COOP();
SystemDomain::System()->AddToDelayedUnloadList(pCurrentLoaderAllocator);
}
else
{
// For appdomain unload, delete the loader allocator right away
delete pCurrentLoaderAllocator;
}
}
} // AppDomain::ShutdownFreeLoaderAllocators
//---------------------------------------------------------------------------------------
//
// Register the loader allocator for deletion in code:AppDomain::ShutdownFreeLoaderAllocators.
//
void AppDomain::RegisterLoaderAllocatorForDeletion(LoaderAllocator * pLoaderAllocator)
{
CONTRACTL
{
GC_TRIGGERS;
NOTHROW;
MODE_ANY;
CAN_TAKE_LOCK;
}
CONTRACTL_END;
CrstHolder ch(GetLoaderAllocatorReferencesLock());
pLoaderAllocator->m_pLoaderAllocatorDestroyNext = m_pDelayedLoaderAllocatorUnloadList;
m_pDelayedLoaderAllocatorUnloadList = pLoaderAllocator;
}
void AppDomain::SetNativeDllSearchDirectories(LPCWSTR wszNativeDllSearchDirectories)
{
STANDARD_VM_CONTRACT;
SString sDirectories(wszNativeDllSearchDirectories);
if (sDirectories.GetCount() > 0)
{
SString::CIterator start = sDirectories.Begin();
SString::CIterator itr = sDirectories.Begin();
SString::CIterator end = sDirectories.End();
SString qualifiedPath;
while (itr != end)
{
start = itr;
BOOL found = sDirectories.Find(itr, PATH_SEPARATOR_CHAR_W);
if (!found)
{
itr = end;
}
SString qualifiedPath(sDirectories, start, itr);
if (found)
{
itr++;
}
unsigned len = qualifiedPath.GetCount();
if (len > 0)
{
if (qualifiedPath[len - 1] != DIRECTORY_SEPARATOR_CHAR_W)
{
qualifiedPath.Append(DIRECTORY_SEPARATOR_CHAR_W);
}
NewHolder<SString> stringHolder(new SString(qualifiedPath));
IfFailThrow(m_NativeDllSearchDirectories.Append(stringHolder.GetValue()));
stringHolder.SuppressRelease();
}
}
}
}
void AppDomain::ShutdownNativeDllSearchDirectories()
{
LIMITED_METHOD_CONTRACT;
// Shutdown assemblies
PathIterator i = IterateNativeDllSearchDirectories();
while (i.Next())
{
delete i.GetPath();
}
m_NativeDllSearchDirectories.Clear();
}
void AppDomain::ReleaseDomainBoundInfo()
{
CONTRACTL
{
NOTHROW;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END;;
// Shutdown assemblies
m_AssemblyCache.OnAppDomainUnload();
AssemblyIterator i = IterateAssembliesEx( (AssemblyIterationFlags)(kIncludeFailedToLoad) );
CollectibleAssemblyHolder<DomainAssembly *> pDomainAssembly;
while (i.Next(pDomainAssembly.This()))
{
pDomainAssembly->ReleaseManagedData();
}
}
void AppDomain::ReleaseFiles()
{
STANDARD_VM_CONTRACT;
// Shutdown assemblies
AssemblyIterator i = IterateAssembliesEx((AssemblyIterationFlags)(
kIncludeLoaded | kIncludeExecution | kIncludeFailedToLoad | kIncludeLoading));
CollectibleAssemblyHolder<DomainAssembly *> pAsm;
while (i.Next(pAsm.This()))
{
if (pAsm->GetCurrentAssembly() == NULL)
{
// Might be domain neutral or not, but should have no live objects as it has not been
// really loaded yet. Just reset it.
_ASSERTE(FitsIn<DWORD>(i.GetIndex()));
m_Assemblies.Set(this, static_cast<DWORD>(i.GetIndex()), NULL);
delete pAsm.Extract();
}
else
{
pAsm->ReleaseFiles();
}
}
} // AppDomain::ReleaseFiles
OBJECTREF* BaseDomain::AllocateObjRefPtrsInLargeTable(int nRequested, OBJECTREF** ppLazyAllocate, BOOL bCrossAD)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
PRECONDITION((nRequested > 0));
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
if (ppLazyAllocate && *ppLazyAllocate)
{
// Allocation already happened
return *ppLazyAllocate;
}
// Enter preemptive state, take the lock and go back to cooperative mode.
{
CrstHolder ch(&m_LargeHeapHandleTableCrst);
GCX_COOP();
if (ppLazyAllocate && *ppLazyAllocate)
{
// Allocation already happened
return *ppLazyAllocate;
}
// Make sure the large heap handle table is initialized.
if (!m_pLargeHeapHandleTable)
InitLargeHeapHandleTable();
// Allocate the handles.
OBJECTREF* result = m_pLargeHeapHandleTable->AllocateHandles(nRequested, bCrossAD);
if (ppLazyAllocate)
{
*ppLazyAllocate = result;
}
return result;
}
}
#endif // CROSSGEN_COMPILE
#endif // !DACCESS_COMPILE
#ifndef DACCESS_COMPILE
// Insert class in the hash table
void AppDomain::InsertClassForCLSID(MethodTable* pMT, BOOL fForceInsert /*=FALSE*/)
{
CONTRACTL
{
GC_TRIGGERS;
MODE_ANY;
THROWS;
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
CVID cvid;
// Ensure that registered classes are activated for allocation
pMT->EnsureInstanceActive();
// Note that it is possible for multiple classes to claim the same CLSID, and in such a
// case it is arbitrary which one we will return for a future query for a given app domain.
pMT->GetGuid(&cvid, fForceInsert);
if (!IsEqualIID(cvid, GUID_NULL))
{
//<TODO>@todo get a better key</TODO>
LPVOID val = (LPVOID)pMT;
{
LockHolder lh(this);
if (LookupClass(cvid) != pMT)
{
m_clsidHash.InsertValue(GetKeyFromGUID(&cvid), val);
}
}
}
}
void AppDomain::InsertClassForCLSID(MethodTable* pMT, GUID *pGuid)
{
CONTRACT_VOID
{
NOTHROW;
PRECONDITION(CheckPointer(pMT));
PRECONDITION(CheckPointer(pGuid));
}
CONTRACT_END;
LPVOID val = (LPVOID)pMT;
{
LockHolder lh(this);
CVID* cvid = pGuid;
if (LookupClass(*cvid) != pMT)
{
m_clsidHash.InsertValue(GetKeyFromGUID(pGuid), val);
}
}
RETURN;
}
#endif // DACCESS_COMPILE
#ifdef FEATURE_COMINTEROP
#ifndef DACCESS_COMPILE
void AppDomain::CacheTypeByName(const SString &ssClassName, const UINT vCacheVersion, TypeHandle typeHandle, BYTE bFlags, BOOL bReplaceExisting /*= FALSE*/)
{
WRAPPER_NO_CONTRACT;
LockHolder lh(this);
CacheTypeByNameWorker(ssClassName, vCacheVersion, typeHandle, bFlags, bReplaceExisting);
}
void AppDomain::CacheTypeByNameWorker(const SString &ssClassName, const UINT vCacheVersion, TypeHandle typeHandle, BYTE bFlags, BOOL bReplaceExisting /*= FALSE*/)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
PRECONDITION(!typeHandle.IsNull());
}
CONTRACTL_END;
NewArrayHolder<WCHAR> wzClassName(DuplicateStringThrowing(ssClassName.GetUnicode()));
if (m_vNameToTypeMapVersion != vCacheVersion)
return;
if (m_pNameToTypeMap == nullptr)
{
m_pNameToTypeMap = new NameToTypeMapTable();
}
NameToTypeMapEntry e;
e.m_key.m_wzName = wzClassName;
e.m_key.m_cchName = ssClassName.GetCount();
e.m_typeHandle = typeHandle;
e.m_nEpoch = this->m_nEpoch;
e.m_bFlags = bFlags;
if (!bReplaceExisting)
m_pNameToTypeMap->Add(e);
else
m_pNameToTypeMap->AddOrReplace(e);
wzClassName.SuppressRelease();
}
#endif // DACCESS_COMPILE
TypeHandle AppDomain::LookupTypeByName(const SString &ssClassName, UINT* pvCacheVersion, BYTE *pbFlags)
{
WRAPPER_NO_CONTRACT;
LockHolder lh(this);
return LookupTypeByNameWorker(ssClassName, pvCacheVersion, pbFlags);
}
TypeHandle AppDomain::LookupTypeByNameWorker(const SString &ssClassName, UINT* pvCacheVersion, BYTE *pbFlags)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
SUPPORTS_DAC;
PRECONDITION(CheckPointer(pbFlags, NULL_OK));
}
CONTRACTL_END;
*pvCacheVersion = m_vNameToTypeMapVersion;
if (m_pNameToTypeMap == nullptr)
return TypeHandle(); // a null TypeHandle
NameToTypeMapEntry::Key key;
key.m_cchName = ssClassName.GetCount();
key.m_wzName = ssClassName.GetUnicode();
const NameToTypeMapEntry * pEntry = m_pNameToTypeMap->LookupPtr(key);
if (pEntry == NULL)
return TypeHandle(); // a null TypeHandle
if (pbFlags != NULL)
*pbFlags = pEntry->m_bFlags;
return pEntry->m_typeHandle;
}
PTR_MethodTable AppDomain::LookupTypeByGuid(const GUID & guid)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
SUPPORTS_DAC;
}
CONTRACTL_END;
SString sGuid;
{
WCHAR wszGuid[64];
GuidToLPWSTR(guid, wszGuid, _countof(wszGuid));
sGuid.Append(wszGuid);
}
UINT ver;
TypeHandle th = LookupTypeByName(sGuid, &ver, NULL);
if (!th.IsNull())
{
_ASSERTE(!th.IsTypeDesc());
return th.AsMethodTable();
}
#ifdef FEATURE_PREJIT
else
{
// Next look in each ngen'ed image in turn
AssemblyIterator assemblyIterator = IterateAssembliesEx((AssemblyIterationFlags)(
kIncludeLoaded | kIncludeExecution));
CollectibleAssemblyHolder<DomainAssembly *> pDomainAssembly;
while (assemblyIterator.Next(pDomainAssembly.This()))
{
CollectibleAssemblyHolder<Assembly *> pAssembly = pDomainAssembly->GetLoadedAssembly();
DomainAssembly::ModuleIterator i = pDomainAssembly->IterateModules(kModIterIncludeLoaded);
while (i.Next())
{
Module * pModule = i.GetLoadedModule();
if (!pModule->HasNativeImage())
continue;
_ASSERTE(!pModule->IsCollectible());
PTR_MethodTable pMT = pModule->LookupTypeByGuid(guid);
if (pMT != NULL)
{
return pMT;
}
}
}
}
#endif // FEATURE_PREJIT
return NULL;
}
#ifndef DACCESS_COMPILE
void AppDomain::CacheWinRTTypeByGuid(TypeHandle typeHandle)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
PRECONDITION(!typeHandle.IsTypeDesc());
PRECONDITION(CanCacheWinRTTypeByGuid(typeHandle));
}
CONTRACTL_END;
PTR_MethodTable pMT = typeHandle.AsMethodTable();
GUID guid;
if (pMT->GetGuidForWinRT(&guid))
{
SString sGuid;
{
WCHAR wszGuid[64];
GuidToLPWSTR(guid, wszGuid, _countof(wszGuid));
sGuid.Append(wszGuid);
}
BYTE bFlags = 0x80;
TypeHandle th;
UINT vCacheVersion;
{
LockHolder lh(this);
th = LookupTypeByNameWorker(sGuid, &vCacheVersion, &bFlags);
if (th.IsNull())
{
// no other entry with the same GUID exists in the cache
CacheTypeByNameWorker(sGuid, vCacheVersion, typeHandle, bFlags);
}
else if (typeHandle.AsMethodTable() != th.AsMethodTable() && th.IsProjectedFromWinRT())
{
// If we found a native WinRT type cached with the same GUID, replace it.
// Otherwise simply add the new mapping to the cache.
CacheTypeByNameWorker(sGuid, vCacheVersion, typeHandle, bFlags, TRUE);
}
}
}
}
#endif // DACCESS_COMPILE
void AppDomain::GetCachedWinRTTypes(
SArray<PTR_MethodTable> * pTypes,
SArray<GUID> * pGuids,
UINT minEpoch,
UINT * pCurEpoch)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
SUPPORTS_DAC;
}
CONTRACTL_END;
LockHolder lh(this);
for (auto it = m_pNameToTypeMap->Begin(), end = m_pNameToTypeMap->End();
it != end;
++it)
{
NameToTypeMapEntry entry = (NameToTypeMapEntry)(*it);
TypeHandle th = entry.m_typeHandle;
if (th.AsMethodTable() != NULL &&
entry.m_key.m_wzName[0] == W('{') &&
entry.m_nEpoch >= minEpoch)
{
_ASSERTE(!th.IsTypeDesc());
PTR_MethodTable pMT = th.AsMethodTable();
// we're parsing the GUID value from the cache, because projected types do not cache the
// COM GUID in their GetGuid() but rather the legacy GUID
GUID iid;
if (LPWSTRToGuid(&iid, entry.m_key.m_wzName, 38) && iid != GUID_NULL)
{
pTypes->Append(pMT);
pGuids->Append(iid);
}
}
}
#ifdef FEATURE_PREJIT
// Next look in each ngen'ed image in turn
AssemblyIterator assemblyIterator = IterateAssembliesEx((AssemblyIterationFlags)(
kIncludeLoaded | kIncludeExecution));
CollectibleAssemblyHolder<DomainAssembly *> pDomainAssembly;
while (assemblyIterator.Next(pDomainAssembly.This()))
{
CollectibleAssemblyHolder<Assembly *> pAssembly = pDomainAssembly->GetLoadedAssembly();
DomainAssembly::ModuleIterator i = pDomainAssembly->IterateModules(kModIterIncludeLoaded);
while (i.Next())
{
Module * pModule = i.GetLoadedModule();
if (!pModule->HasNativeImage())
continue;
_ASSERTE(!pModule->IsCollectible());
pModule->GetCachedWinRTTypes(pTypes, pGuids);
}
}
#endif // FEATURE_PREJIT
if (pCurEpoch != NULL)
*pCurEpoch = m_nEpoch;
++m_nEpoch;
}
#ifndef CROSSGEN_COMPILE
#ifndef DACCESS_COMPILE
// static
void WinRTFactoryCacheTraits::OnDestructPerEntryCleanupAction(const WinRTFactoryCacheEntry& e)
{
WRAPPER_NO_CONTRACT;
if (e.m_pCtxEntry != NULL)
{
e.m_pCtxEntry->Release();
}
// the AD is going away, no need to destroy the OBJECTHANDLE
}
void AppDomain::CacheWinRTFactoryObject(MethodTable *pClassMT, OBJECTREF *refFactory, LPVOID lpCtxCookie)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_COOPERATIVE;
PRECONDITION(CheckPointer(pClassMT));
}
CONTRACTL_END;
CtxEntryHolder pNewCtxEntry;
if (lpCtxCookie != NULL)
{
// We don't want to insert the context cookie in the cache because it's just an address
// of an internal COM data structure which will be freed when the apartment is torn down.
// What's worse, if another apartment is later created, its context cookie may have exactly
// the same value leading to incorrect cache hits. We'll use our CtxEntry instead which
// is ref-counted and keeps the COM data structure alive even after the apartment ceases
// to exist.
pNewCtxEntry = CtxEntryCache::GetCtxEntryCache()->FindCtxEntry(lpCtxCookie, GetThread());
}
WinRTFactoryCacheLockHolder lh(this);
if (m_pWinRTFactoryCache == nullptr)
{
m_pWinRTFactoryCache = new WinRTFactoryCache();
}
WinRTFactoryCacheEntry *pEntry = const_cast<WinRTFactoryCacheEntry*>(m_pWinRTFactoryCache->LookupPtr(pClassMT));
if (!pEntry)
{
//
// No existing entry for this cache
// Create a new one
//
WinRTFactoryCacheEntry e;
OBJECTHANDLEHolder ohNewHandle(CreateHandle(*refFactory));
e.key = pClassMT;
e.m_pCtxEntry = pNewCtxEntry;
e.m_ohFactoryObject = ohNewHandle;
m_pWinRTFactoryCache->Add(e);
// suppress release of the CtxEntry and handle after we successfully inserted the new entry
pNewCtxEntry.SuppressRelease();
ohNewHandle.SuppressRelease();
}
else
{
//
// Existing entry
//
// release the old CtxEntry and update the entry
CtxEntry *pTemp = pNewCtxEntry.Extract();
pNewCtxEntry = pEntry->m_pCtxEntry;
pEntry->m_pCtxEntry = pTemp;
IGCHandleManager *mgr = GCHandleUtilities::GetGCHandleManager();
mgr->StoreObjectInHandle(pEntry->m_ohFactoryObject, OBJECTREFToObject(*refFactory));
}
}
OBJECTREF AppDomain::LookupWinRTFactoryObject(MethodTable *pClassMT, LPVOID lpCtxCookie)
{
CONTRACTL
{
THROWS;
GC_NOTRIGGER;
MODE_COOPERATIVE;
PRECONDITION(CheckPointer(pClassMT));
PRECONDITION(CheckPointer(m_pWinRTFactoryCache, NULL_OK));
}
CONTRACTL_END;
if (m_pWinRTFactoryCache == nullptr)
return NULL;
//
// Retrieve cached factory
//
WinRTFactoryCacheLockHolder lh(this);
const WinRTFactoryCacheEntry *pEntry = m_pWinRTFactoryCache->LookupPtr(pClassMT);
if (pEntry == NULL)
return NULL;
//
// Ignore factories from a different context, unless lpCtxCookie == NULL,
// which means the factory is free-threaded
// Note that we cannot touch the RCW to retrieve cookie at this point
// because the RCW might belong to a STA thread and that STA thread might die
// and take the RCW with it. Therefore we have to save cookie in this cache
//
if (pEntry->m_pCtxEntry == NULL || pEntry->m_pCtxEntry->GetCtxCookie() == lpCtxCookie)
return ObjectFromHandle(pEntry->m_ohFactoryObject);
return NULL;
}
void AppDomain::RemoveWinRTFactoryObjects(LPVOID pCtxCookie)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END;
if (m_pWinRTFactoryCache == nullptr)
return;
// helper class for delayed CtxEntry cleanup
class CtxEntryListReleaseHolder
{
public:
CQuickArrayList<CtxEntry *> m_list;
~CtxEntryListReleaseHolder()
{
CONTRACTL
{
NOTHROW;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END;
for (SIZE_T i = 0; i < m_list.Size(); i++)
{
m_list[i]->Release();
}
}
} ctxEntryListReleaseHolder;
GCX_COOP();
{
WinRTFactoryCacheLockHolder lh(this);
// Go through the hash table and remove items in the given context
for (WinRTFactoryCache::Iterator it = m_pWinRTFactoryCache->Begin(); it != m_pWinRTFactoryCache->End(); it++)
{
if (it->m_pCtxEntry != NULL && it->m_pCtxEntry->GetCtxCookie() == pCtxCookie)
{
// Releasing the CtxEntry may trigger GC which we can't do under the lock so we push
// it on our local list and release them all after we're done iterating the hashtable.
ctxEntryListReleaseHolder.m_list.Push(it->m_pCtxEntry);
DestroyHandle(it->m_ohFactoryObject);
m_pWinRTFactoryCache->Remove(it);
}
}
}
}
OBJECTREF AppDomain::GetMissingObject()
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_COOPERATIVE;
}
CONTRACTL_END;
if (!m_hndMissing)
{
// Get the field
FieldDesc *pValueFD = MscorlibBinder::GetField(FIELD__MISSING__VALUE);
pValueFD->CheckRunClassInitThrowing();
// Retrieve the value static field and store it.
OBJECTHANDLE hndMissing = CreateHandle(pValueFD->GetStaticOBJECTREF());
if (FastInterlockCompareExchangePointer(&m_hndMissing, hndMissing, NULL) != NULL)
{
// Exchanged failed. The m_hndMissing did not equal NULL and was returned.
DestroyHandle(hndMissing);
}
}
return ObjectFromHandle(m_hndMissing);
}
#endif // DACCESS_COMPILE
#endif //CROSSGEN_COMPILE
#endif // FEATURE_COMINTEROP
#ifndef DACCESS_COMPILE
EEMarshalingData *BaseDomain::GetMarshalingData()
{
CONTRACT (EEMarshalingData*)
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
INJECT_FAULT(COMPlusThrowOM());
POSTCONDITION(CheckPointer(m_pMarshalingData));
}
CONTRACT_END;
if (!m_pMarshalingData)
{
// Take the lock
CrstHolder holder(&m_InteropDataCrst);
if (!m_pMarshalingData)
{
LoaderHeap* pHeap = GetLoaderAllocator()->GetLowFrequencyHeap();
m_pMarshalingData = new (pHeap) EEMarshalingData(this, pHeap, &m_DomainCrst);
}
}
RETURN m_pMarshalingData;
}
void BaseDomain::DeleteMarshalingData()
{
CONTRACTL
{
NOTHROW;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END;
// We are in shutdown - no need to take any lock
if (m_pMarshalingData)
{
delete m_pMarshalingData;
m_pMarshalingData = NULL;
}
}
#ifndef CROSSGEN_COMPILE
STRINGREF *BaseDomain::IsStringInterned(STRINGREF *pString)
{
CONTRACTL
{
GC_TRIGGERS;
THROWS;
MODE_COOPERATIVE;
PRECONDITION(CheckPointer(pString));
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
return GetLoaderAllocator()->IsStringInterned(pString);
}
STRINGREF *BaseDomain::GetOrInternString(STRINGREF *pString)
{
CONTRACTL
{
GC_TRIGGERS;
THROWS;
MODE_COOPERATIVE;
PRECONDITION(CheckPointer(pString));
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
return GetLoaderAllocator()->GetOrInternString(pString);
}
void BaseDomain::InitLargeHeapHandleTable()
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
PRECONDITION(m_pLargeHeapHandleTable==NULL);
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
m_pLargeHeapHandleTable = new LargeHeapHandleTable(this, STATIC_OBJECT_TABLE_BUCKET_SIZE);
#ifdef _DEBUG
m_pLargeHeapHandleTable->RegisterCrstDebug(&m_LargeHeapHandleTableCrst);
#endif
}
#ifdef FEATURE_COMINTEROP
MethodTable* AppDomain::GetLicenseInteropHelperMethodTable()
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
}
CONTRACTL_END;
if(m_pLicenseInteropHelperMT == NULL)
{
// Do this work outside of the lock so we don't have an unbreakable lock condition
TypeHandle licenseMgrTypeHnd;
MethodDescCallSite loadLM(METHOD__MARSHAL__LOAD_LICENSE_MANAGER);
licenseMgrTypeHnd = (MethodTable*) loadLM.Call_RetLPVOID((ARG_SLOT*)NULL);
//
// Look up this method by name, because the type is actually declared in System.dll. <TODO>@todo: why?</TODO>
//
MethodDesc *pGetLIHMD = MemberLoader::FindMethod(licenseMgrTypeHnd.AsMethodTable(),
"GetLicenseInteropHelperType", &gsig_SM_Void_RetIntPtr);
_ASSERTE(pGetLIHMD);
TypeHandle lihTypeHnd;
MethodDescCallSite getLIH(pGetLIHMD);
lihTypeHnd = (MethodTable*) getLIH.Call_RetLPVOID((ARG_SLOT*)NULL);
BaseDomain::LockHolder lh(this);
if(m_pLicenseInteropHelperMT == NULL)
m_pLicenseInteropHelperMT = lihTypeHnd.AsMethodTable();
}
return m_pLicenseInteropHelperMT;
}
#endif // FEATURE_COMINTEROP
#endif // CROSSGEN_COMPILE
//*****************************************************************************
//*****************************************************************************
//*****************************************************************************
void *SystemDomain::operator new(size_t size, void *pInPlace)
{
LIMITED_METHOD_CONTRACT;
return pInPlace;
}
void SystemDomain::operator delete(void *pMem)
{
LIMITED_METHOD_CONTRACT;
// Do nothing - new() was in-place
}
void SystemDomain::SetCompilationOverrides(BOOL fForceDebug,
BOOL fForceProfiling,
BOOL fForceInstrument)
{
LIMITED_METHOD_CONTRACT;
s_fForceDebug = fForceDebug;
s_fForceProfiling = fForceProfiling;
s_fForceInstrument = fForceInstrument;
}
#endif //!DACCESS_COMPILE
void SystemDomain::GetCompilationOverrides(BOOL * fForceDebug,
BOOL * fForceProfiling,
BOOL * fForceInstrument)
{
LIMITED_METHOD_DAC_CONTRACT;
*fForceDebug = s_fForceDebug;
*fForceProfiling = s_fForceProfiling;
*fForceInstrument = s_fForceInstrument;
}
#ifndef DACCESS_COMPILE
void SystemDomain::Attach()
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
PRECONDITION(m_pSystemDomain == NULL);
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
#ifndef CROSSGEN_COMPILE
// Initialize stub managers
PrecodeStubManager::Init();
DelegateInvokeStubManager::Init();
JumpStubStubManager::Init();
RangeSectionStubManager::Init();
ILStubManager::Init();
InteropDispatchStubManager::Init();
StubLinkStubManager::Init();
ThunkHeapStubManager::Init();
TailCallStubManager::Init();
PerAppDomainTPCountList::InitAppDomainIndexList();
#endif // CROSSGEN_COMPILE
m_appDomainIndexList.Init();
m_appDomainIdList.Init();
m_SystemDomainCrst.Init(CrstSystemDomain, (CrstFlags)(CRST_REENTRANCY | CRST_TAKEN_DURING_SHUTDOWN));
m_DelayedUnloadCrst.Init(CrstSystemDomainDelayedUnloadList, CRST_UNSAFE_COOPGC);
// Initialize the ID dispenser that is used for domain neutral module IDs
g_pModuleIndexDispenser = new IdDispenser();
// Create the global SystemDomain and initialize it.
m_pSystemDomain = new (&g_pSystemDomainMemory[0]) SystemDomain();
// No way it can fail since g_pSystemDomainMemory is a static array.
CONSISTENCY_CHECK(CheckPointer(m_pSystemDomain));
LOG((LF_CLASSLOADER,
LL_INFO10,
"Created system domain at %p\n",
m_pSystemDomain));
// We need to initialize the memory pools etc. for the system domain.
m_pSystemDomain->BaseDomain::Init(); // Setup the memory heaps
// Create the one and only app domain
AppDomain::Create();
// Each domain gets its own ReJitManager, and ReJitManager has its own static
// initialization to run
ReJitManager::InitStatic();
}
#ifndef CROSSGEN_COMPILE
void SystemDomain::DetachBegin()
{
WRAPPER_NO_CONTRACT;
// Shut down the domain and its children (but don't deallocate anything just
// yet).
// TODO: we should really not running managed DLLMain during process detach.
if (GetThread() == NULL)
{
return;
}
if(m_pSystemDomain)
m_pSystemDomain->Stop();
}
void SystemDomain::DetachEnd()
{
CONTRACTL
{
NOTHROW;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END;
// Shut down the domain and its children (but don't deallocate anything just
// yet).
if(m_pSystemDomain)
{
GCX_PREEMP();
m_pSystemDomain->ClearFusionContext();
AppDomain* pAppDomain = GetAppDomain();
if (pAppDomain)
pAppDomain->ClearFusionContext();
}
}
void SystemDomain::Stop()
{
WRAPPER_NO_CONTRACT;
AppDomainIterator i(TRUE);
while (i.Next())
i.GetDomain()->Stop();
}
void SystemDomain::Terminate() // bNotifyProfiler is ignored
{
CONTRACTL
{
NOTHROW;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END;
// This ignores the refences and terminates the appdomains
AppDomainIterator i(FALSE);
while (i.Next())
{
delete i.GetDomain();
// Keep the iterator from Releasing the current domain
i.m_pCurrent = NULL;
}
if (m_pSystemFile != NULL) {
m_pSystemFile->Release();
m_pSystemFile = NULL;
}
m_pSystemAssembly = NULL;
if (m_pGlobalStringLiteralMap) {
delete m_pGlobalStringLiteralMap;
m_pGlobalStringLiteralMap = NULL;
}
BaseDomain::Terminate();
#ifdef FEATURE_COMINTEROP
if (g_pRCWCleanupList != NULL)
delete g_pRCWCleanupList;
#endif // FEATURE_COMINTEROP
m_GlobalAllocator.Terminate();
}
void SystemDomain::PreallocateSpecialObjects()
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_COOPERATIVE;
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
_ASSERTE(g_pPreallocatedSentinelObject == NULL);
OBJECTREF pPreallocatedSentinalObject = AllocateObject(g_pObjectClass);
g_pPreallocatedSentinelObject = CreatePinningHandle( pPreallocatedSentinalObject );
#ifdef FEATURE_PREJIT
if (SystemModule()->HasNativeImage())
{
CORCOMPILE_EE_INFO_TABLE *pEEInfo = SystemModule()->GetNativeImage()->GetNativeEEInfoTable();
pEEInfo->emptyString = (CORINFO_Object **)StringObject::GetEmptyStringRefPtr();
}
#endif
}
void SystemDomain::CreatePreallocatedExceptions()
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_COOPERATIVE;
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
EXCEPTIONREF pBaseException = (EXCEPTIONREF)AllocateObject(g_pExceptionClass);
pBaseException->SetHResult(COR_E_EXCEPTION);
pBaseException->SetXCode(EXCEPTION_COMPLUS);
_ASSERTE(g_pPreallocatedBaseException == NULL);
g_pPreallocatedBaseException = CreateHandle(pBaseException);
EXCEPTIONREF pOutOfMemory = (EXCEPTIONREF)AllocateObject(g_pOutOfMemoryExceptionClass);
pOutOfMemory->SetHResult(COR_E_OUTOFMEMORY);
pOutOfMemory->SetXCode(EXCEPTION_COMPLUS);
_ASSERTE(g_pPreallocatedOutOfMemoryException == NULL);
g_pPreallocatedOutOfMemoryException = CreateHandle(pOutOfMemory);
EXCEPTIONREF pStackOverflow = (EXCEPTIONREF)AllocateObject(g_pStackOverflowExceptionClass);
pStackOverflow->SetHResult(COR_E_STACKOVERFLOW);
pStackOverflow->SetXCode(EXCEPTION_COMPLUS);
_ASSERTE(g_pPreallocatedStackOverflowException == NULL);
g_pPreallocatedStackOverflowException = CreateHandle(pStackOverflow);
EXCEPTIONREF pExecutionEngine = (EXCEPTIONREF)AllocateObject(g_pExecutionEngineExceptionClass);
pExecutionEngine->SetHResult(COR_E_EXECUTIONENGINE);
pExecutionEngine->SetXCode(EXCEPTION_COMPLUS);
_ASSERTE(g_pPreallocatedExecutionEngineException == NULL);
g_pPreallocatedExecutionEngineException = CreateHandle(pExecutionEngine);
EXCEPTIONREF pRudeAbortException = (EXCEPTIONREF)AllocateObject(g_pThreadAbortExceptionClass);
pRudeAbortException->SetHResult(COR_E_THREADABORTED);
pRudeAbortException->SetXCode(EXCEPTION_COMPLUS);
_ASSERTE(g_pPreallocatedRudeThreadAbortException == NULL);
g_pPreallocatedRudeThreadAbortException = CreateHandle(pRudeAbortException);
EXCEPTIONREF pAbortException = (EXCEPTIONREF)AllocateObject(g_pThreadAbortExceptionClass);
pAbortException->SetHResult(COR_E_THREADABORTED);
pAbortException->SetXCode(EXCEPTION_COMPLUS);
_ASSERTE(g_pPreallocatedThreadAbortException == NULL);
g_pPreallocatedThreadAbortException = CreateHandle( pAbortException );
}
#endif // CROSSGEN_COMPILE
void SystemDomain::Init()
{
STANDARD_VM_CONTRACT;
HRESULT hr = S_OK;
#ifdef _DEBUG
LOG((
LF_EEMEM,
LL_INFO10,
"sizeof(EEClass) = %d\n"
"sizeof(MethodTable) = %d\n"
"sizeof(MethodDesc)= %d\n"
"sizeof(FieldDesc) = %d\n"
"sizeof(Module) = %d\n",
sizeof(EEClass),
sizeof(MethodTable),
sizeof(MethodDesc),
sizeof(FieldDesc),
sizeof(Module)
));
#endif // _DEBUG
// The base domain is initialized in SystemDomain::Attach()
// to allow stub caches to use the memory pool. Do not
// initialze it here!
#ifndef CROSSGEN_COMPILE
#ifdef _DEBUG
Context *curCtx = GetCurrentContext();
#endif
_ASSERTE(curCtx);
_ASSERTE(curCtx->GetDomain() != NULL);
#endif
#ifdef FEATURE_PREJIT
if (CLRConfig::GetConfigValue(CLRConfig::EXTERNAL_ZapDisable) != 0)
g_fAllowNativeImages = false;
#endif
m_pSystemFile = NULL;
m_pSystemAssembly = NULL;
DWORD size = 0;
// Get the install directory so we can find mscorlib
hr = GetInternalSystemDirectory(NULL, &size);
if (hr != HRESULT_FROM_WIN32(ERROR_INSUFFICIENT_BUFFER))
ThrowHR(hr);
// GetInternalSystemDirectory returns a size, including the null!
WCHAR *buffer = m_SystemDirectory.OpenUnicodeBuffer(size-1);
IfFailThrow(GetInternalSystemDirectory(buffer, &size));
m_SystemDirectory.CloseBuffer();
m_SystemDirectory.Normalize();
// At this point m_SystemDirectory should already be canonicalized
m_BaseLibrary.Append(m_SystemDirectory);
if (!m_BaseLibrary.EndsWith(DIRECTORY_SEPARATOR_CHAR_W))
{
m_BaseLibrary.Append(DIRECTORY_SEPARATOR_CHAR_W);
}
m_BaseLibrary.Append(g_pwBaseLibrary);
m_BaseLibrary.Normalize();
LoadBaseSystemClasses();
{
// We are about to start allocating objects, so we must be in cooperative mode.
// However, many of the entrypoints to the system (DllGetClassObject and all
// N/Direct exports) get called multiple times. Sometimes they initialize the EE,
// but generally they remain in preemptive mode. So we really want to push/pop
// the state here:
GCX_COOP();
#ifndef CROSSGEN_COMPILE
if (!NingenEnabled())
{
CreatePreallocatedExceptions();
PreallocateSpecialObjects();
}
#endif
// Finish loading mscorlib now.
m_pSystemAssembly->GetDomainAssembly()->EnsureActive();
}
#ifdef _DEBUG
BOOL fPause = EEConfig::GetConfigDWORD_DontUse_(CLRConfig::INTERNAL_PauseOnLoad, FALSE);
while(fPause)
{
ClrSleepEx(20, TRUE);
}
#endif // _DEBUG
}
#ifndef CROSSGEN_COMPILE
void SystemDomain::LazyInitGlobalStringLiteralMap()
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
// Allocate the global string literal map.
NewHolder<GlobalStringLiteralMap> pGlobalStringLiteralMap(new GlobalStringLiteralMap());
// Initialize the global string literal map.
pGlobalStringLiteralMap->Init();
if (InterlockedCompareExchangeT<GlobalStringLiteralMap *>(&m_pGlobalStringLiteralMap, pGlobalStringLiteralMap, NULL) == NULL)
{
pGlobalStringLiteralMap.SuppressRelease();
}
}
/*static*/ void SystemDomain::EnumAllStaticGCRefs(promote_func* fn, ScanContext* sc)
{
CONTRACT_VOID
{
NOTHROW;
GC_NOTRIGGER;
MODE_COOPERATIVE;
}
CONTRACT_END;
// We don't do a normal AppDomainIterator because we can't take the SystemDomain lock from
// here.
// We're only supposed to call this from a Server GC. We're walking here m_appDomainIdList
// m_appDomainIdList will have an AppDomain* or will be NULL. So the only danger is if we
// Fetch an AppDomain and then in some other thread the AppDomain is deleted.
//
// If the thread deleting the AppDomain (AppDomain::~AppDomain)was in Preemptive mode
// while doing SystemDomain::EnumAllStaticGCRefs we will issue a GCX_COOP(), which will wait
// for the GC to finish, so we are safe
//
// If the thread is in cooperative mode, it must have been suspended for the GC so a delete
// can't happen.
_ASSERTE(GCHeapUtilities::IsGCInProgress() &&
GCHeapUtilities::IsServerHeap() &&
IsGCSpecialThread());
SystemDomain* sysDomain = SystemDomain::System();
if (sysDomain)
{
DWORD i;
DWORD count = (DWORD) m_appDomainIdList.GetCount();
for (i = 0 ; i < count ; i++)
{
AppDomain* pAppDomain = (AppDomain *)m_appDomainIdList.Get(i);
if (pAppDomain && pAppDomain->IsActive())
{
#ifdef FEATURE_APPDOMAIN_RESOURCE_MONITORING
if (g_fEnableARM)
{
sc->pCurrentDomain = pAppDomain;
}
#endif //FEATURE_APPDOMAIN_RESOURCE_MONITORING
pAppDomain->EnumStaticGCRefs(fn, sc);
}
}
}
RETURN;
}
#ifdef FEATURE_APPDOMAIN_RESOURCE_MONITORING
void SystemDomain::ResetADSurvivedBytes()
{
CONTRACT_VOID
{
NOTHROW;
GC_NOTRIGGER;
MODE_ANY;
}
CONTRACT_END;
_ASSERTE(GCHeapUtilities::IsGCInProgress());
SystemDomain* sysDomain = SystemDomain::System();
if (sysDomain)
{
DWORD i;
DWORD count = (DWORD) m_appDomainIdList.GetCount();
for (i = 0 ; i < count ; i++)
{
AppDomain* pAppDomain = (AppDomain *)m_appDomainIdList.Get(i);
if (pAppDomain && pAppDomain->IsUserActive())
{
pAppDomain->ResetSurvivedBytes();
}
}
}
RETURN;
}
ULONGLONG SystemDomain::GetADSurvivedBytes()
{
CONTRACTL
{
NOTHROW;
GC_NOTRIGGER;
MODE_ANY;
}
CONTRACTL_END;
SystemDomain* sysDomain = SystemDomain::System();
ULONGLONG ullTotalADSurvived = 0;
if (sysDomain)
{
DWORD i;
DWORD count = (DWORD) m_appDomainIdList.GetCount();
for (i = 0 ; i < count ; i++)
{
AppDomain* pAppDomain = (AppDomain *)m_appDomainIdList.Get(i);
if (pAppDomain && pAppDomain->IsUserActive())
{
ULONGLONG ullSurvived = pAppDomain->GetSurvivedBytes();
ullTotalADSurvived += ullSurvived;
}
}
}
return ullTotalADSurvived;
}
void SystemDomain::RecordTotalSurvivedBytes(size_t totalSurvivedBytes)
{
CONTRACT_VOID
{
NOTHROW;
GC_NOTRIGGER;
MODE_ANY;
}
CONTRACT_END;
m_totalSurvivedBytes = totalSurvivedBytes;
SystemDomain* sysDomain = SystemDomain::System();
if (sysDomain)
{
DWORD i;
DWORD count = (DWORD) m_appDomainIdList.GetCount();
for (i = 0 ; i < count ; i++)
{
AppDomain* pAppDomain = (AppDomain *)m_appDomainIdList.Get(i);
if (pAppDomain && pAppDomain->IsUserActive())
{
FireEtwAppDomainMemSurvived((ULONGLONG)pAppDomain, pAppDomain->GetSurvivedBytes(), totalSurvivedBytes, GetClrInstanceId());
}
}
}
RETURN;
}
#endif //FEATURE_APPDOMAIN_RESOURCE_MONITORING
// Only called when EE is suspended.
DWORD SystemDomain::GetTotalNumSizedRefHandles()
{
CONTRACTL
{
NOTHROW;
GC_NOTRIGGER;
MODE_ANY;
}
CONTRACTL_END;
SystemDomain* sysDomain = SystemDomain::System();
DWORD dwTotalNumSizedRefHandles = 0;
if (sysDomain)
{
DWORD i;
DWORD count = (DWORD) m_appDomainIdList.GetCount();
for (i = 0 ; i < count ; i++)
{
AppDomain* pAppDomain = (AppDomain *)m_appDomainIdList.Get(i);
if (pAppDomain && pAppDomain->IsActive())
{
dwTotalNumSizedRefHandles += pAppDomain->GetNumSizedRefHandles();
}
}
}
return dwTotalNumSizedRefHandles;
}
#endif // CROSSGEN_COMPILE
void SystemDomain::LoadBaseSystemClasses()
{
STANDARD_VM_CONTRACT;
ETWOnStartup(LdSysBases_V1, LdSysBasesEnd_V1);
{
m_pSystemFile = PEAssembly::OpenSystem(NULL);
}
// Only partially load the system assembly. Other parts of the code will want to access
// the globals in this function before finishing the load.
m_pSystemAssembly = DefaultDomain()->LoadDomainAssembly(NULL, m_pSystemFile, FILE_LOAD_POST_LOADLIBRARY)->GetCurrentAssembly();
// Set up binder for mscorlib
MscorlibBinder::AttachModule(m_pSystemAssembly->GetManifestModule());
// Load Object
g_pObjectClass = MscorlibBinder::GetClass(CLASS__OBJECT);
// Now that ObjectClass is loaded, we can set up
// the system for finalizers. There is no point in deferring this, since we need
// to know this before we allocate our first object.
g_pObjectFinalizerMD = MscorlibBinder::GetMethod(METHOD__OBJECT__FINALIZE);
g_pCanonMethodTableClass = MscorlibBinder::GetClass(CLASS____CANON);
// NOTE: !!!IMPORTANT!!! ValueType and Enum MUST be loaded one immediately after
// the other, because we have coded MethodTable::IsChildValueType
// in such a way that it depends on this behaviour.
// Load the ValueType class
g_pValueTypeClass = MscorlibBinder::GetClass(CLASS__VALUE_TYPE);
// Load the enum class
g_pEnumClass = MscorlibBinder::GetClass(CLASS__ENUM);
_ASSERTE(!g_pEnumClass->IsValueType());
// Load System.RuntimeType
g_pRuntimeTypeClass = MscorlibBinder::GetClass(CLASS__CLASS);
_ASSERTE(g_pRuntimeTypeClass->IsFullyLoaded());
// Load Array class
g_pArrayClass = MscorlibBinder::GetClass(CLASS__ARRAY);
// Calling a method on IList<T> for an array requires redirection to a method on
// the SZArrayHelper class. Retrieving such methods means calling
// GetActualImplementationForArrayGenericIListMethod, which calls FetchMethod for
// the corresponding method on SZArrayHelper. This basically results in a class
// load due to a method call, which the debugger cannot handle, so we pre-load
// the SZArrayHelper class here.
g_pSZArrayHelperClass = MscorlibBinder::GetClass(CLASS__SZARRAYHELPER);
// Load ByReference class
//
// NOTE: ByReference<T> must be the first by-ref-like system type to be loaded,
// because MethodTable::ClassifyEightBytesWithManagedLayout depends on it.
g_pByReferenceClass = MscorlibBinder::GetClass(CLASS__BYREFERENCE);
// Load Nullable class
g_pNullableClass = MscorlibBinder::GetClass(CLASS__NULLABLE);
// Load the Object array class.
g_pPredefinedArrayTypes[ELEMENT_TYPE_OBJECT] = ClassLoader::LoadArrayTypeThrowing(TypeHandle(g_pObjectClass)).AsArray();
// We have delayed allocation of mscorlib's static handles until we load the object class
MscorlibBinder::GetModule()->AllocateRegularStaticHandles(DefaultDomain());
g_TypedReferenceMT = MscorlibBinder::GetClass(CLASS__TYPED_REFERENCE);
// Make sure all primitive types are loaded
for (int et = ELEMENT_TYPE_VOID; et <= ELEMENT_TYPE_R8; et++)
MscorlibBinder::LoadPrimitiveType((CorElementType)et);
MscorlibBinder::LoadPrimitiveType(ELEMENT_TYPE_I);
MscorlibBinder::LoadPrimitiveType(ELEMENT_TYPE_U);
// unfortunately, the following cannot be delay loaded since the jit
// uses it to compute method attributes within a function that cannot
// handle Complus exception and the following call goes through a path
// where a complus exception can be thrown. It is unfortunate, because
// we know that the delegate class and multidelegate class are always
// guaranteed to be found.
g_pDelegateClass = MscorlibBinder::GetClass(CLASS__DELEGATE);
g_pMulticastDelegateClass = MscorlibBinder::GetClass(CLASS__MULTICAST_DELEGATE);
// used by IsImplicitInterfaceOfSZArray
MscorlibBinder::GetClass(CLASS__IENUMERABLEGENERIC);
MscorlibBinder::GetClass(CLASS__ICOLLECTIONGENERIC);
MscorlibBinder::GetClass(CLASS__ILISTGENERIC);
MscorlibBinder::GetClass(CLASS__IREADONLYCOLLECTIONGENERIC);
MscorlibBinder::GetClass(CLASS__IREADONLYLISTGENERIC);
// Load String
g_pStringClass = MscorlibBinder::LoadPrimitiveType(ELEMENT_TYPE_STRING);
// Used by Buffer::BlockCopy
g_pByteArrayMT = ClassLoader::LoadArrayTypeThrowing(
TypeHandle(MscorlibBinder::GetElementType(ELEMENT_TYPE_U1))).AsArray()->GetMethodTable();
#ifndef CROSSGEN_COMPILE
ECall::PopulateManagedStringConstructors();
#endif // CROSSGEN_COMPILE
g_pExceptionClass = MscorlibBinder::GetClass(CLASS__EXCEPTION);
g_pOutOfMemoryExceptionClass = MscorlibBinder::GetException(kOutOfMemoryException);
g_pStackOverflowExceptionClass = MscorlibBinder::GetException(kStackOverflowException);
g_pExecutionEngineExceptionClass = MscorlibBinder::GetException(kExecutionEngineException);
g_pThreadAbortExceptionClass = MscorlibBinder::GetException(kThreadAbortException);
g_pThreadClass = MscorlibBinder::GetClass(CLASS__THREAD);
#ifdef FEATURE_COMINTEROP
g_pBaseCOMObject = MscorlibBinder::GetClass(CLASS__COM_OBJECT);
g_pBaseRuntimeClass = MscorlibBinder::GetClass(CLASS__RUNTIME_CLASS);
MscorlibBinder::GetClass(CLASS__IDICTIONARYGENERIC);
MscorlibBinder::GetClass(CLASS__IREADONLYDICTIONARYGENERIC);
MscorlibBinder::GetClass(CLASS__ATTRIBUTE);
MscorlibBinder::GetClass(CLASS__EVENT_HANDLERGENERIC);
MscorlibBinder::GetClass(CLASS__IENUMERABLE);
MscorlibBinder::GetClass(CLASS__ICOLLECTION);
MscorlibBinder::GetClass(CLASS__ILIST);
MscorlibBinder::GetClass(CLASS__IDISPOSABLE);
#ifdef _DEBUG
WinRTInterfaceRedirector::VerifyRedirectedInterfaceStubs();
#endif // _DEBUG
#endif
#ifdef FEATURE_ICASTABLE
g_pICastableInterface = MscorlibBinder::GetClass(CLASS__ICASTABLE);
#endif // FEATURE_ICASTABLE
// Load a special marker method used to detect Constrained Execution Regions
// at jit time.
g_pExecuteBackoutCodeHelperMethod = MscorlibBinder::GetMethod(METHOD__RUNTIME_HELPERS__EXECUTE_BACKOUT_CODE_HELPER);
// Make sure that FCall mapping for Monitor.Enter is initialized. We need it in case Monitor.Enter is used only as JIT helper.
// For more details, see comment in code:JITutil_MonEnterWorker around "__me = GetEEFuncEntryPointMacro(JIT_MonEnter)".
ECall::GetFCallImpl(MscorlibBinder::GetMethod(METHOD__MONITOR__ENTER));
#ifdef PROFILING_SUPPORTED
// Note that g_profControlBlock.fBaseSystemClassesLoaded must be set to TRUE only after
// all base system classes are loaded. Profilers are not allowed to call any type-loading
// APIs until g_profControlBlock.fBaseSystemClassesLoaded is TRUE. It is important that
// all base system classes need to be loaded before profilers can trigger the type loading.
g_profControlBlock.fBaseSystemClassesLoaded = TRUE;
#endif // PROFILING_SUPPORTED
#if defined(_DEBUG) && !defined(CROSSGEN_COMPILE)
if (!NingenEnabled())
{
g_Mscorlib.Check();
}
#endif
#if defined(HAVE_GCCOVER) && defined(FEATURE_PREJIT)
if (GCStress<cfg_instr_ngen>::IsEnabled())
{
// Setting up gc coverage requires the base system classes
// to be initialized. So we have deferred it until now for mscorlib.
Module *pModule = MscorlibBinder::GetModule();
_ASSERTE(pModule->IsSystem());
if(pModule->HasNativeImage())
{
SetupGcCoverageForNativeImage(pModule);
}
}
#endif // defined(HAVE_GCCOVER) && !defined(FEATURE_PREJIT)
}
/*static*/
void SystemDomain::LoadDomain(AppDomain *pDomain)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
PRECONDITION(CheckPointer(System()));
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
SystemDomain::System()->AddDomain(pDomain);
}
ADIndex SystemDomain::GetNewAppDomainIndex(AppDomain *pAppDomain)
{
STANDARD_VM_CONTRACT;
DWORD count = m_appDomainIndexList.GetCount();
DWORD i;
#ifdef _DEBUG
if (count < 2000)
{
// So that we can keep AD index inside object header.
// We do not want to create syncblock unless needed.
i = count;
}
else
{
#endif // _DEBUG
//
// Look for an unused index. Note that in a checked build,
// we never reuse indexes - this makes it easier to tell
// when we are looking at a stale app domain.
//
i = m_appDomainIndexList.FindElement(m_dwLowestFreeIndex, NULL);
if (i == (DWORD) ArrayList::NOT_FOUND)
i = count;
m_dwLowestFreeIndex = i+1;
#ifdef _DEBUG
if (m_dwLowestFreeIndex >= 2000)
{
m_dwLowestFreeIndex = 0;
}
}
#endif // _DEBUG
if (i == count)
IfFailThrow(m_appDomainIndexList.Append(pAppDomain));
else
m_appDomainIndexList.Set(i, pAppDomain);
_ASSERTE(i < m_appDomainIndexList.GetCount());
// Note that index 0 means domain agile.
return ADIndex(i+1);
}
void SystemDomain::ReleaseAppDomainIndex(ADIndex index)
{
WRAPPER_NO_CONTRACT;
SystemDomain::LockHolder lh;
// Note that index 0 means domain agile.
index.m_dwIndex--;
_ASSERTE(m_appDomainIndexList.Get(index.m_dwIndex) != NULL);
m_appDomainIndexList.Set(index.m_dwIndex, NULL);
#ifndef _DEBUG
if (index.m_dwIndex < m_dwLowestFreeIndex)
m_dwLowestFreeIndex = index.m_dwIndex;
#endif // !_DEBUG
}
#endif // !DACCESS_COMPILE
PTR_AppDomain SystemDomain::GetAppDomainAtIndex(ADIndex index)
{
LIMITED_METHOD_CONTRACT;
SUPPORTS_DAC;
_ASSERTE(index.m_dwIndex != 0);
PTR_AppDomain pAppDomain = TestGetAppDomainAtIndex(index);
_ASSERTE(pAppDomain || !"Attempt to access unloaded app domain");
return pAppDomain;
}
PTR_AppDomain SystemDomain::TestGetAppDomainAtIndex(ADIndex index)
{
LIMITED_METHOD_CONTRACT;
SUPPORTS_DAC;
_ASSERTE(index.m_dwIndex != 0);
index.m_dwIndex--;
#ifndef DACCESS_COMPILE
_ASSERTE(index.m_dwIndex < (DWORD)m_appDomainIndexList.GetCount());
AppDomain *pAppDomain = (AppDomain*) m_appDomainIndexList.Get(index.m_dwIndex);
#else // DACCESS_COMPILE
PTR_ArrayListStatic pList = &m_appDomainIndexList;
AppDomain *pAppDomain = dac_cast<PTR_AppDomain>(pList->Get(index.m_dwIndex));
#endif // DACCESS_COMPILE
return PTR_AppDomain(pAppDomain);
}
#ifndef DACCESS_COMPILE
// See also code:SystemDomain::ReleaseAppDomainId
ADID SystemDomain::GetNewAppDomainId(AppDomain *pAppDomain)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
DWORD i = m_appDomainIdList.GetCount();
IfFailThrow(m_appDomainIdList.Append(pAppDomain));
_ASSERTE(i < m_appDomainIdList.GetCount());
return ADID(i+1);
}
AppDomain *SystemDomain::GetAppDomainAtId(ADID index)
{
CONTRACTL
{
#ifdef _DEBUG
if (!SystemDomain::IsUnderDomainLock() && !IsGCThread()) { MODE_COOPERATIVE;} else { DISABLED(MODE_ANY);}
#endif
GC_NOTRIGGER;
SO_TOLERANT;
NOTHROW;
}
CONTRACTL_END;
if(index.m_dwId == 0)
return NULL;
DWORD requestedID = index.m_dwId - 1;
if(requestedID >= (DWORD)m_appDomainIdList.GetCount())
return NULL;
AppDomain * result = (AppDomain *)m_appDomainIdList.Get(requestedID);
#ifndef CROSSGEN_COMPILE
// If the current thread can't enter the AppDomain, then don't return it.
if (!result)
return NULL;
#endif // CROSSGEN_COMPILE
return result;
}
// Releases an appdomain index. Note that today we have code that depends on these
// indexes not being recycled, so we don't actually shrink m_appDomainIdList, but
// simply zero out an entry. THus we 'leak' the memory associated the slot in
// m_appDomainIdList.
//
// TODO make this a sparse structure so that we avoid that leak.
//
void SystemDomain::ReleaseAppDomainId(ADID index)
{
LIMITED_METHOD_CONTRACT;
index.m_dwId--;
_ASSERTE(index.m_dwId < (DWORD)m_appDomainIdList.GetCount());
m_appDomainIdList.Set(index.m_dwId, NULL);
}
#if defined(FEATURE_COMINTEROP_APARTMENT_SUPPORT) && !defined(CROSSGEN_COMPILE)
Thread::ApartmentState SystemDomain::GetEntryPointThreadAptState(IMDInternalImport* pScope, mdMethodDef mdMethod)
{
STANDARD_VM_CONTRACT;
HRESULT hr;
IfFailThrow(hr = pScope->GetCustomAttributeByName(mdMethod,
DEFAULTDOMAIN_MTA_TYPE,
NULL,
NULL));
BOOL fIsMTA = FALSE;
if(hr == S_OK)
fIsMTA = TRUE;
IfFailThrow(hr = pScope->GetCustomAttributeByName(mdMethod,
DEFAULTDOMAIN_STA_TYPE,
NULL,
NULL));
BOOL fIsSTA = FALSE;
if (hr == S_OK)
fIsSTA = TRUE;
if (fIsSTA && fIsMTA)
COMPlusThrowHR(COR_E_CUSTOMATTRIBUTEFORMAT);
if (fIsSTA)
return Thread::AS_InSTA;
else if (fIsMTA)
return Thread::AS_InMTA;
return Thread::AS_Unknown;
}
void SystemDomain::SetThreadAptState (Thread::ApartmentState state)
{
STANDARD_VM_CONTRACT;
Thread* pThread = GetThread();
_ASSERTE(pThread);
if(state == Thread::AS_InSTA)
{
Thread::ApartmentState pState = pThread->SetApartment(Thread::AS_InSTA, TRUE);
_ASSERTE(pState == Thread::AS_InSTA);
}
else
{
// If an apartment state was not explicitly requested, default to MTA
Thread::ApartmentState pState = pThread->SetApartment(Thread::AS_InMTA, TRUE);
_ASSERTE(pState == Thread::AS_InMTA);
}
}
#endif // defined(FEATURE_COMINTEROP_APARTMENT_SUPPORT) && !defined(CROSSGEN_COMPILE)
// Helper function to load an assembly. This is called from LoadCOMClass.
/* static */
Assembly *AppDomain::LoadAssemblyHelper(LPCWSTR wszAssembly,
LPCWSTR wszCodeBase)
{
CONTRACT(Assembly *)
{
THROWS;
POSTCONDITION(CheckPointer(RETVAL));
PRECONDITION(wszAssembly || wszCodeBase);
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACT_END;
AssemblySpec spec;
if(wszAssembly) {
#define MAKE_TRANSLATIONFAILED { ThrowOutOfMemory(); }
MAKE_UTF8PTR_FROMWIDE(szAssembly,wszAssembly);
#undef MAKE_TRANSLATIONFAILED
IfFailThrow(spec.Init(szAssembly));
}
if (wszCodeBase) {
spec.SetCodeBase(wszCodeBase);
}
RETURN spec.LoadAssembly(FILE_LOADED);
}
#if defined(FEATURE_CLASSIC_COMINTEROP) && !defined(CROSSGEN_COMPILE)
MethodTable *AppDomain::LoadCOMClass(GUID clsid,
BOOL bLoadRecord/*=FALSE*/,
BOOL* pfAssemblyInReg/*=NULL*/)
{
// @CORESYSTODO: what to do here?
return NULL;
}
#endif // FEATURE_CLASSIC_COMINTEROP && !CROSSGEN_COMPILE
/*static*/
bool SystemDomain::IsReflectionInvocationMethod(MethodDesc* pMeth)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END;
MethodTable* pCaller = pMeth->GetMethodTable();
// All Reflection Invocation methods are defined in mscorlib.dll
if (!pCaller->GetModule()->IsSystem())
return false;
/* List of types that should be skipped to identify true caller */
static const BinderClassID reflectionInvocationTypes[] = {
CLASS__METHOD,
CLASS__METHOD_BASE,
CLASS__METHOD_INFO,
CLASS__CONSTRUCTOR,
CLASS__CONSTRUCTOR_INFO,
CLASS__CLASS,
CLASS__TYPE_HANDLE,
CLASS__METHOD_HANDLE,
CLASS__FIELD_HANDLE,
CLASS__TYPE,
CLASS__FIELD,
CLASS__RT_FIELD_INFO,
CLASS__FIELD_INFO,
CLASS__EVENT,
CLASS__EVENT_INFO,
CLASS__PROPERTY,
CLASS__PROPERTY_INFO,
CLASS__ACTIVATOR,
CLASS__ARRAY,
CLASS__ASSEMBLYBASE,
CLASS__ASSEMBLY,
CLASS__TYPE_DELEGATOR,
CLASS__RUNTIME_HELPERS,
CLASS__LAZY_INITIALIZER,
CLASS__DYNAMICMETHOD,
CLASS__DELEGATE,
CLASS__MULTICAST_DELEGATE,
CLASS__APP_DOMAIN
};
static const BinderClassID genericReflectionInvocationTypes[] = {
CLASS__LAZY
};
static mdTypeDef genericReflectionInvocationTypeDefs[NumItems(genericReflectionInvocationTypes)];
static bool fInited = false;
if (!VolatileLoad(&fInited))
{
// Make sure all types are loaded so that we can use faster GetExistingClass()
for (unsigned i = 0; i < NumItems(reflectionInvocationTypes); i++)
{
MscorlibBinder::GetClass(reflectionInvocationTypes[i]);
}
// Make sure all types are loaded so that we can use faster GetExistingClass()
for (unsigned i = 0; i < NumItems(genericReflectionInvocationTypes); i++)
{
genericReflectionInvocationTypeDefs[i] = MscorlibBinder::GetClass(genericReflectionInvocationTypes[i])->GetCl();
}
MscorlibBinder::GetClass(CLASS__APP_DOMAIN);
VolatileStore(&fInited, true);
}
if (pCaller->HasInstantiation())
{
// For generic types, pCaller will be an instantiated type and never equal to the type definition.
// So we compare their TypeDef tokens instead.
for (unsigned i = 0; i < NumItems(genericReflectionInvocationTypeDefs); i++)
{
if (pCaller->GetCl() == genericReflectionInvocationTypeDefs[i])
return true;
}
}
else
{
for (unsigned i = 0; i < NumItems(reflectionInvocationTypes); i++)
{
if (MscorlibBinder::GetExistingClass(reflectionInvocationTypes[i]) == pCaller)
return true;
}
}
return false;
}
#ifndef CROSSGEN_COMPILE
struct CallersDataWithStackMark
{
StackCrawlMark* stackMark;
BOOL foundMe;
MethodDesc* pFoundMethod;
MethodDesc* pPrevMethod;
AppDomain* pAppDomain;
};
/*static*/
MethodDesc* SystemDomain::GetCallersMethod(StackCrawlMark* stackMark,
AppDomain **ppAppDomain/*=NULL*/)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
GCX_COOP();
CallersDataWithStackMark cdata;
ZeroMemory(&cdata, sizeof(CallersDataWithStackMark));
cdata.stackMark = stackMark;
GetThread()->StackWalkFrames(CallersMethodCallbackWithStackMark, &cdata, FUNCTIONSONLY | LIGHTUNWIND);
if(cdata.pFoundMethod) {
if (ppAppDomain)
*ppAppDomain = cdata.pAppDomain;
return cdata.pFoundMethod;
} else
return NULL;
}
/*static*/
MethodTable* SystemDomain::GetCallersType(StackCrawlMark* stackMark,
AppDomain **ppAppDomain/*=NULL*/)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_COOPERATIVE;
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
CallersDataWithStackMark cdata;
ZeroMemory(&cdata, sizeof(CallersDataWithStackMark));
cdata.stackMark = stackMark;
GetThread()->StackWalkFrames(CallersMethodCallbackWithStackMark, &cdata, FUNCTIONSONLY | LIGHTUNWIND);
if(cdata.pFoundMethod) {
if (ppAppDomain)
*ppAppDomain = cdata.pAppDomain;
return cdata.pFoundMethod->GetMethodTable();
} else
return NULL;
}
/*static*/
Module* SystemDomain::GetCallersModule(StackCrawlMark* stackMark,
AppDomain **ppAppDomain/*=NULL*/)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
GCX_COOP();
CallersDataWithStackMark cdata;
ZeroMemory(&cdata, sizeof(CallersDataWithStackMark));
cdata.stackMark = stackMark;
GetThread()->StackWalkFrames(CallersMethodCallbackWithStackMark, &cdata, FUNCTIONSONLY | LIGHTUNWIND);
if(cdata.pFoundMethod) {
if (ppAppDomain)
*ppAppDomain = cdata.pAppDomain;
return cdata.pFoundMethod->GetModule();
} else
return NULL;
}
struct CallersData
{
int skip;
MethodDesc* pMethod;
};
/*static*/
Assembly* SystemDomain::GetCallersAssembly(StackCrawlMark *stackMark,
AppDomain **ppAppDomain/*=NULL*/)
{
WRAPPER_NO_CONTRACT;
Module* mod = GetCallersModule(stackMark, ppAppDomain);
if (mod)
return mod->GetAssembly();
return NULL;
}
/*static*/
Module* SystemDomain::GetCallersModule(int skip)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
GCX_COOP();
CallersData cdata;
ZeroMemory(&cdata, sizeof(CallersData));
cdata.skip = skip;
StackWalkFunctions(GetThread(), CallersMethodCallback, &cdata);
if(cdata.pMethod)
return cdata.pMethod->GetModule();
else
return NULL;
}
/*private static*/
StackWalkAction SystemDomain::CallersMethodCallbackWithStackMark(CrawlFrame* pCf, VOID* data)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_COOPERATIVE;
SO_INTOLERANT;
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
MethodDesc *pFunc = pCf->GetFunction();
/* We asked to be called back only for functions */
_ASSERTE(pFunc);
CallersDataWithStackMark* pCaller = (CallersDataWithStackMark*) data;
if (pCaller->stackMark)
{
if (!pCf->IsInCalleesFrames(pCaller->stackMark))
{
// save the current in case it is the one we want
pCaller->pPrevMethod = pFunc;
pCaller->pAppDomain = pCf->GetAppDomain();
return SWA_CONTINUE;
}
// LookForMe stack crawl marks needn't worry about reflection or
// remoting frames on the stack. Each frame above (newer than) the
// target will be captured by the logic above. Once we transition to
// finding the stack mark below the AofRA, we know that we hit the
// target last time round and immediately exit with the cached result.
if (*(pCaller->stackMark) == LookForMe)
{
pCaller->pFoundMethod = pCaller->pPrevMethod;
return SWA_ABORT;
}
}
// Skip reflection and remoting frames that could lie between a stack marked
// method and its true caller (or that caller and its own caller). These
// frames are infrastructure and logically transparent to the stack crawling
// algorithm.
// Skipping remoting frames. We always skip entire client to server spans
// (though we see them in the order server then client during a stack crawl
// obviously).
// We spot the server dispatcher end because all calls are dispatched
// through a single method: StackBuilderSink._PrivateProcessMessage.
Frame* frame = pCf->GetFrame();
_ASSERTE(pCf->IsFrameless() || frame);
// Skipping reflection frames. We don't need to be quite as exhaustive here
// as the security or reflection stack walking code since we know this logic
// is only invoked for selected methods in mscorlib itself. So we're
// reasonably sure we won't have any sensitive methods late bound invoked on
// constructors, properties or events. This leaves being invoked via
// MethodInfo, Type or Delegate (and depending on which invoke overload is
// being used, several different reflection classes may be involved).
g_IBCLogger.LogMethodDescAccess(pFunc);
if (SystemDomain::IsReflectionInvocationMethod(pFunc))
return SWA_CONTINUE;
if (frame && frame->GetFrameType() == Frame::TYPE_MULTICAST)
{
// This must be either a secure delegate frame or a true multicast delegate invocation.
_ASSERTE(pFunc->GetMethodTable()->IsDelegate());
DELEGATEREF del = (DELEGATEREF)((SecureDelegateFrame*)frame)->GetThis(); // This can throw.
if (COMDelegate::IsSecureDelegate(del))
{
if (del->IsWrapperDelegate())
{
// On ARM, we use secure delegate infrastructure to preserve R4 register.
return SWA_CONTINUE;
}
// For a secure delegate frame, we should return the delegate creator instead
// of the delegate method itself.
pFunc = (MethodDesc*) del->GetMethodPtrAux();
}
else
{
_ASSERTE(COMDelegate::IsTrueMulticastDelegate(del));
return SWA_CONTINUE;
}
}
// Return the first non-reflection/remoting frame if no stack mark was
// supplied.
if (!pCaller->stackMark)
{
pCaller->pFoundMethod = pFunc;
pCaller->pAppDomain = pCf->GetAppDomain();
return SWA_ABORT;
}
// If we got here, we must already be in the frame containing the stack mark and we are not looking for "me".
_ASSERTE(pCaller->stackMark &&
pCf->IsInCalleesFrames(pCaller->stackMark) &&
*(pCaller->stackMark) != LookForMe);
// When looking for caller's caller, we delay returning results for another
// round (the way this is structured, we will still be able to skip
// reflection and remoting frames between the caller and the caller's
// caller).
if ((*(pCaller->stackMark) == LookForMyCallersCaller) &&
(pCaller->pFoundMethod == NULL))
{
pCaller->pFoundMethod = pFunc;
return SWA_CONTINUE;
}
// If remoting is not available, we only set the caller if the crawlframe is from the same domain.
// Why? Because if the callerdomain is different from current domain,
// there have to be interop/native frames in between.
// For example, in the CORECLR, if we find the caller to be in a different domain, then the
// call into reflection is due to an unmanaged call into mscorlib. For that
// case, the caller really is an INTEROP method.
// In general, if the caller is INTEROP, we set the caller/callerdomain to be NULL
// (To be precise: they are already NULL and we don't change them).
if (pCf->GetAppDomain() == GetAppDomain())
// We must either be looking for the caller, or the caller's caller when
// we've already found the caller (we used a non-null value in pFoundMethod
// simply as a flag, the correct method to return in both case is the
// current method).
{
pCaller->pFoundMethod = pFunc;
pCaller->pAppDomain = pCf->GetAppDomain();
}
return SWA_ABORT;
}
/*private static*/
StackWalkAction SystemDomain::CallersMethodCallback(CrawlFrame* pCf, VOID* data)
{
LIMITED_METHOD_CONTRACT;
STATIC_CONTRACT_SO_TOLERANT;
MethodDesc *pFunc = pCf->GetFunction();
/* We asked to be called back only for functions */
_ASSERTE(pFunc);
CallersData* pCaller = (CallersData*) data;
if(pCaller->skip == 0) {
pCaller->pMethod = pFunc;
return SWA_ABORT;
}
else {
pCaller->skip--;
return SWA_CONTINUE;
}
}
#endif // CROSSGEN_COMPILE
#ifdef CROSSGEN_COMPILE
// defined in compile.cpp
extern CompilationDomain * theDomain;
#endif
void AppDomain::Create()
{
STANDARD_VM_CONTRACT;
#ifdef CROSSGEN_COMPILE
AppDomainRefHolder pDomain(theDomain);
#else
AppDomainRefHolder pDomain(new AppDomain());
#endif
pDomain->Init();
// need to make this assignment here since we'll be releasing
// the lock before calling AddDomain. So any other thread
// grabbing this lock after we release it will find that
// the COM Domain has already been created
_ASSERTE (pDomain->GetId().m_dwId == DefaultADID);
// allocate a Virtual Call Stub Manager for the default domain
pDomain->InitVSD();
pDomain->SetStage(AppDomain::STAGE_OPEN);
pDomain.SuppressRelease();
m_pTheAppDomain = pDomain;
LOG((LF_CLASSLOADER | LF_CORDB,
LL_INFO10,
"Created the app domain at %p\n", m_pTheAppDomain));
}
#ifdef DEBUGGING_SUPPORTED
void SystemDomain::PublishAppDomainAndInformDebugger (AppDomain *pDomain)
{
CONTRACTL
{
if(!g_fEEInit) {THROWS;} else {DISABLED(NOTHROW);};
if(!g_fEEInit) {GC_TRIGGERS;} else {DISABLED(GC_NOTRIGGER);};
MODE_ANY;
}
CONTRACTL_END;
LOG((LF_CORDB, LL_INFO100, "SD::PADAID: Adding 0x%x\n", pDomain));
// Call the publisher API to add this appdomain entry to the list
// The publisher will handle failures, so we don't care if this succeeds or fails.
if (g_pDebugInterface != NULL)
{
g_pDebugInterface->AddAppDomainToIPC(pDomain);
}
}
#endif // DEBUGGING_SUPPORTED
void SystemDomain::AddDomain(AppDomain* pDomain)
{
CONTRACTL
{
NOTHROW;
MODE_ANY;
GC_TRIGGERS;
PRECONDITION(CheckPointer((pDomain)));
}
CONTRACTL_END;
{
LockHolder lh;
_ASSERTE (pDomain->m_Stage != AppDomain::STAGE_CREATING);
if (pDomain->m_Stage == AppDomain::STAGE_READYFORMANAGEDCODE ||
pDomain->m_Stage == AppDomain::STAGE_ACTIVE)
{
pDomain->SetStage(AppDomain::STAGE_OPEN);
IncrementNumAppDomains(); // Maintain a count of app domains added to the list.
}
}
// Note that if you add another path that can reach here without calling
// PublishAppDomainAndInformDebugger, then you should go back & make sure
// that PADAID gets called. Right after this call, if not sooner.
LOG((LF_CORDB, LL_INFO1000, "SD::AD:Would have added domain here! 0x%x\n",
pDomain));
}
BOOL SystemDomain::RemoveDomain(AppDomain* pDomain)
{
CONTRACTL
{
NOTHROW;
GC_TRIGGERS;
MODE_ANY;
PRECONDITION(CheckPointer(pDomain));
PRECONDITION(!pDomain->IsDefaultDomain());
}
CONTRACTL_END;
// You can not remove the default domain.
if (!pDomain->IsActive())
return FALSE;
pDomain->Release();
return TRUE;
}
#ifdef PROFILING_SUPPORTED
void SystemDomain::NotifyProfilerStartup()
{
CONTRACTL
{
NOTHROW;
GC_TRIGGERS;
MODE_PREEMPTIVE;
}
CONTRACTL_END;
{
BEGIN_PIN_PROFILER(CORProfilerTrackAppDomainLoads());
_ASSERTE(System());
g_profControlBlock.pProfInterface->AppDomainCreationStarted((AppDomainID) System());
END_PIN_PROFILER();
}
{
BEGIN_PIN_PROFILER(CORProfilerTrackAppDomainLoads());
_ASSERTE(System());
g_profControlBlock.pProfInterface->AppDomainCreationFinished((AppDomainID) System(), S_OK);
END_PIN_PROFILER();
}
{
BEGIN_PIN_PROFILER(CORProfilerTrackAppDomainLoads());
_ASSERTE(System()->DefaultDomain());
g_profControlBlock.pProfInterface->AppDomainCreationStarted((AppDomainID) System()->DefaultDomain());
END_PIN_PROFILER();
}
{
BEGIN_PIN_PROFILER(CORProfilerTrackAppDomainLoads());
_ASSERTE(System()->DefaultDomain());
g_profControlBlock.pProfInterface->AppDomainCreationFinished((AppDomainID) System()->DefaultDomain(), S_OK);
END_PIN_PROFILER();
}
}
HRESULT SystemDomain::NotifyProfilerShutdown()
{
CONTRACTL
{
NOTHROW;
GC_TRIGGERS;
MODE_PREEMPTIVE;
}
CONTRACTL_END;
{
BEGIN_PIN_PROFILER(CORProfilerTrackAppDomainLoads());
_ASSERTE(System());
g_profControlBlock.pProfInterface->AppDomainShutdownStarted((AppDomainID) System());
END_PIN_PROFILER();
}
{
BEGIN_PIN_PROFILER(CORProfilerTrackAppDomainLoads());
_ASSERTE(System());
g_profControlBlock.pProfInterface->AppDomainShutdownFinished((AppDomainID) System(), S_OK);
END_PIN_PROFILER();
}
{
BEGIN_PIN_PROFILER(CORProfilerTrackAppDomainLoads());
_ASSERTE(System()->DefaultDomain());
g_profControlBlock.pProfInterface->AppDomainShutdownStarted((AppDomainID) System()->DefaultDomain());
END_PIN_PROFILER();
}
{
BEGIN_PIN_PROFILER(CORProfilerTrackAppDomainLoads());
_ASSERTE(System()->DefaultDomain());
g_profControlBlock.pProfInterface->AppDomainShutdownFinished((AppDomainID) System()->DefaultDomain(), S_OK);
END_PIN_PROFILER();
}
return (S_OK);
}
#endif // PROFILING_SUPPORTED
#ifdef _DEBUG
struct AppDomain::ThreadTrackInfo {
Thread *pThread;
CDynArray<Frame *> frameStack;
};
#endif // _DEBUG
AppDomain::AppDomain()
{
// initialize fields so the appdomain can be safely destructed
// shouldn't call anything that can fail here - use ::Init instead
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
FORBID_FAULT;
}
CONTRACTL_END;
m_cRef=1;
m_pRootAssembly = NULL;
m_dwFlags = 0;
m_pDefaultContext = NULL;
#ifdef FEATURE_COMINTEROP
m_pRCWCache = NULL;
m_pRCWRefCache = NULL;
m_pLicenseInteropHelperMT = NULL;
memset(m_rpCLRTypes, 0, sizeof(m_rpCLRTypes));
#endif // FEATURE_COMINTEROP
m_handleStore = NULL;
m_ExposedObject = NULL;
#ifdef _DEBUG
m_pThreadTrackInfoList = NULL;
m_TrackSpinLock = 0;
m_Assemblies.Debug_SetAppDomain(this);
#endif // _DEBUG
m_dwThreadEnterCount = 0;
m_dwThreadsStillInAppDomain = (ULONG)-1;
#ifdef FEATURE_COMINTEROP
m_pRefDispIDCache = NULL;
m_hndMissing = NULL;
#endif
m_pRefClassFactHash = NULL;
m_ReversePInvokeCanEnter=TRUE;
m_ForceTrivialWaitOperations = false;
m_Stage=STAGE_CREATING;
#ifdef _DEBUG
m_dwIterHolders=0;
m_dwRefTakers=0;
m_dwCreationHolders=0;
#endif
#ifdef FEATURE_APPDOMAIN_RESOURCE_MONITORING
m_ullTotalProcessorUsage = 0;
m_pullAllocBytes = NULL;
m_pullSurvivedBytes = NULL;
#endif //FEATURE_APPDOMAIN_RESOURCE_MONITORING
#ifdef FEATURE_TYPEEQUIVALENCE
m_pTypeEquivalenceTable = NULL;
#endif // FEATURE_TYPEEQUIVALENCE
#ifdef FEATURE_COMINTEROP
m_pNameToTypeMap = NULL;
m_vNameToTypeMapVersion = 0;
m_nEpoch = 0;
m_pWinRTFactoryCache = NULL;
#endif // FEATURE_COMINTEROP
#ifdef FEATURE_PREJIT
m_pDomainFileWithNativeImageList = NULL;
#endif
} // AppDomain::AppDomain
AppDomain::~AppDomain()
{
CONTRACTL
{
NOTHROW;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END;
#ifndef CROSSGEN_COMPILE
_ASSERTE(m_dwCreationHolders == 0);
// release the TPIndex. note that since TPIndex values are recycled the TPIndex
// can only be released once all threads in the AppDomain have exited.
if (GetTPIndex().m_dwIndex != 0)
PerAppDomainTPCountList::ResetAppDomainIndex(GetTPIndex());
if (m_dwId.m_dwId!=0)
SystemDomain::ReleaseAppDomainId(m_dwId);
m_AssemblyCache.Clear();
if(!g_fEEInit)
Terminate();
#ifdef FEATURE_COMINTEROP
if (m_pNameToTypeMap != nullptr)
{
delete m_pNameToTypeMap;
m_pNameToTypeMap = nullptr;
}
if (m_pWinRTFactoryCache != nullptr)
{
delete m_pWinRTFactoryCache;
m_pWinRTFactoryCache = nullptr;
}
#endif //FEATURE_COMINTEROP
#ifdef _DEBUG
// If we were tracking thread AD transitions, cleanup the list on shutdown
if (m_pThreadTrackInfoList)
{
while (m_pThreadTrackInfoList->Count() > 0)
{
// Get the very last element
ThreadTrackInfo *pElem = *(m_pThreadTrackInfoList->Get(m_pThreadTrackInfoList->Count() - 1));
_ASSERTE(pElem);
// Free the memory
delete pElem;
// Remove pointer entry from the list
m_pThreadTrackInfoList->Delete(m_pThreadTrackInfoList->Count() - 1);
}
// Now delete the list itself
delete m_pThreadTrackInfoList;
m_pThreadTrackInfoList = NULL;
}
#endif // _DEBUG
#endif // CROSSGEN_COMPILE
}
//*****************************************************************************
//*****************************************************************************
//*****************************************************************************
void AppDomain::Init()
{
CONTRACTL
{
STANDARD_VM_CHECK;
}
CONTRACTL_END;
m_pDelayedLoaderAllocatorUnloadList = NULL;
SetStage( STAGE_CREATING);
// The lock is taken also during stack walking (GC or profiler)
// - To prevent deadlock with GC thread, we cannot trigger GC while holding the lock
// - To prevent deadlock with profiler thread, we cannot allow thread suspension
m_crstHostAssemblyMap.Init(
CrstHostAssemblyMap,
(CrstFlags)(CRST_GC_NOTRIGGER_WHEN_TAKEN
| CRST_DEBUGGER_THREAD
INDEBUG(| CRST_DEBUG_ONLY_CHECK_FORBID_SUSPEND_THREAD)));
m_crstHostAssemblyMapAdd.Init(CrstHostAssemblyMapAdd);
m_dwId = SystemDomain::GetNewAppDomainId(this);
#ifndef CROSSGEN_COMPILE
//Allocate the threadpool entry before the appdomain id list. Otherwise,
//the thread pool list will be out of sync if insertion of id in
//the appdomain fails.
m_tpIndex = PerAppDomainTPCountList::AddNewTPIndex();
#endif // CROSSGEN_COMPILE
m_dwIndex = SystemDomain::GetNewAppDomainIndex(this);
#ifndef CROSSGEN_COMPILE
PerAppDomainTPCountList::SetAppDomainId(m_tpIndex, m_dwId);
#endif
BaseDomain::Init();
// Set up the binding caches
m_AssemblyCache.Init(&m_DomainCacheCrst, GetHighFrequencyHeap());
m_UnmanagedCache.InitializeTable(this, &m_DomainCacheCrst);
m_MemoryPressure = 0;
m_sDomainLocalBlock.Init(this);
#ifndef CROSSGEN_COMPILE
#ifdef FEATURE_APPDOMAIN_RESOURCE_MONITORING
// NOTE: it's important that we initialize ARM data structures before calling
// IGCHandleManager::CreateHandleStore, this is because AD::Init() can race with GC
// and once we add ourselves to the handle table map the GC can start walking
// our handles and calling AD::RecordSurvivedBytes() which touches ARM data.
if (GCHeapUtilities::IsServerHeap())
m_dwNumHeaps = CPUGroupInfo::CanEnableGCCPUGroups() ?
CPUGroupInfo::GetNumActiveProcessors() :
GetCurrentProcessCpuCount();
else
m_dwNumHeaps = 1;
m_pullAllocBytes = new ULONGLONG [m_dwNumHeaps * ARM_CACHE_LINE_SIZE_ULL];
m_pullSurvivedBytes = new ULONGLONG [m_dwNumHeaps * ARM_CACHE_LINE_SIZE_ULL];
for (DWORD i = 0; i < m_dwNumHeaps; i++)
{
m_pullAllocBytes[i * ARM_CACHE_LINE_SIZE_ULL] = 0;
m_pullSurvivedBytes[i * ARM_CACHE_LINE_SIZE_ULL] = 0;
}
m_ullLastEtwAllocBytes = 0;
#endif //FEATURE_APPDOMAIN_RESOURCE_MONITORING
// Default domain reuses the handletablemap that was created during EEStartup since
// default domain cannot be unloaded.
if (GetId().m_dwId == DefaultADID)
{
m_handleStore = GCHandleUtilities::GetGCHandleManager()->GetGlobalHandleStore();
}
else
{
m_handleStore = GCHandleUtilities::GetGCHandleManager()->CreateHandleStore((void*)(uintptr_t)m_dwIndex.m_dwIndex);
}
if (!m_handleStore)
{
COMPlusThrowOM();
}
#endif // CROSSGEN_COMPILE
#ifdef FEATURE_TYPEEQUIVALENCE
m_TypeEquivalenceCrst.Init(CrstTypeEquivalenceMap);
#endif
m_ReflectionCrst.Init(CrstReflection, CRST_UNSAFE_ANYMODE);
m_RefClassFactCrst.Init(CrstClassFactInfoHash);
{
LockOwner lock = {&m_DomainCrst, IsOwnerOfCrst};
m_clsidHash.Init(0,&CompareCLSID,true, &lock); // init hash table
}
SetStage(STAGE_READYFORMANAGEDCODE);
#ifndef CROSSGEN_COMPILE
m_pDefaultContext = new Context(this);
m_ExposedObject = CreateHandle(NULL);
COUNTER_ONLY(GetPerfCounters().m_Loading.cAppDomains++);
#ifdef FEATURE_TIERED_COMPILATION
m_tieredCompilationManager.Init(GetId());
#endif
#endif // CROSSGEN_COMPILE
} // AppDomain::Init
/*********************************************************************/
BOOL AppDomain::IsCompilationDomain()
{
LIMITED_METHOD_CONTRACT;
BOOL isCompilationDomain = (m_dwFlags & COMPILATION_DOMAIN) != 0;
#ifdef FEATURE_PREJIT
_ASSERTE(!isCompilationDomain || IsCompilationProcess());
#endif // FEATURE_PREJIT
return isCompilationDomain;
}
#ifndef CROSSGEN_COMPILE
void AppDomain::Stop()
{
CONTRACTL
{
NOTHROW;
MODE_ANY;
GC_TRIGGERS;
}
CONTRACTL_END;
#ifdef FEATURE_MULTICOREJIT
GetMulticoreJitManager().StopProfile(true);
#endif
// Set the unloaded flag before notifying the debugger
GetLoaderAllocator()->SetIsUnloaded();
#ifdef DEBUGGING_SUPPORTED
if (IsDebuggerAttached())
NotifyDebuggerUnload();
#endif // DEBUGGING_SUPPORTED
m_pRootAssembly = NULL; // This assembly is in the assembly list;
#ifdef DEBUGGING_SUPPORTED
if (NULL != g_pDebugInterface)
{
// Call the publisher API to delete this appdomain entry from the list
CONTRACT_VIOLATION(ThrowsViolation);
g_pDebugInterface->RemoveAppDomainFromIPC (this);
}
#endif // DEBUGGING_SUPPORTED
}
void AppDomain::Terminate()
{
CONTRACTL
{
NOTHROW;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END;
GCX_PREEMP();
_ASSERTE(m_dwThreadEnterCount == 0 || IsDefaultDomain());
delete m_pDefaultContext;
m_pDefaultContext = NULL;
#ifdef FEATURE_COMINTEROP
if (m_pRCWCache)
{
delete m_pRCWCache;
m_pRCWCache = NULL;
}
if (m_pRCWRefCache)
{
delete m_pRCWRefCache;
m_pRCWRefCache = NULL;
}
#endif // FEATURE_COMINTEROP
if (!IsAtProcessExit())
{
// if we're not shutting down everything then clean up the string literals associated
// with this appdomain -- note that is no longer needs to happen while suspended
// because the appropriate locks are taken in the GlobalStringLiteralMap
// this is important as this locks have a higher lock number than does the
// thread-store lock which is taken when we suspend.
GetLoaderAllocator()->CleanupStringLiteralMap();
// Suspend the EE to do some clean up that can only occur
// while no threads are running.
GCX_COOP (); // SuspendEE may require current thread to be in Coop mode
ThreadSuspend::SuspendEE(ThreadSuspend::SUSPEND_FOR_APPDOMAIN_SHUTDOWN);
}
// Note that this must be performed before restarting the EE. It will clean
// the cache and prevent others from using stale cache entries.
//@TODO: Would be nice to get this back to BaseDomain, but need larger fix for that.
// NOTE: Must have the runtime suspended to unlink managers
// NOTE: May be NULL due to OOM during initialization. Can skip in that case.
GetLoaderAllocator()->UninitVirtualCallStubManager();
MethodTable::ClearMethodDataCache();
ClearJitGenericHandleCache(this);
// @TODO s_TPMethodTableCrst prevents us from from keeping the whole
// assembly shutdown logic here. See if we can do better in the next milestone
#ifdef FEATURE_PREJIT
DeleteNativeCodeRanges();
#endif
if (!IsAtProcessExit())
{
// Resume the EE.
ThreadSuspend::RestartEE(FALSE, TRUE);
}
ShutdownAssemblies();
ShutdownNativeDllSearchDirectories();
if (m_pRefClassFactHash)
{
m_pRefClassFactHash->Destroy();
// storage for m_pRefClassFactHash itself is allocated on the loader heap
}
#ifdef FEATURE_TYPEEQUIVALENCE
m_TypeEquivalenceCrst.Destroy();
#endif
m_ReflectionCrst.Destroy();
m_RefClassFactCrst.Destroy();
BaseDomain::Terminate();
if (m_handleStore)
{
GCHandleUtilities::GetGCHandleManager()->DestroyHandleStore(m_handleStore);
m_handleStore = NULL;
}
#ifdef FEATURE_APPDOMAIN_RESOURCE_MONITORING
if (m_pullAllocBytes)
{
delete [] m_pullAllocBytes;
}
if (m_pullSurvivedBytes)
{
delete [] m_pullSurvivedBytes;
}
#endif //FEATURE_APPDOMAIN_RESOURCE_MONITORING
if(m_dwIndex.m_dwIndex != 0)
SystemDomain::ReleaseAppDomainIndex(m_dwIndex);
} // AppDomain::Terminate
void AppDomain::CloseDomain()
{
CONTRACTL
{
NOTHROW;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END;
BOOL bADRemoved=FALSE;;
AddRef(); // Hold a reference
AppDomainRefHolder AdHolder(this);
{
SystemDomain::LockHolder lh;
SystemDomain::System()->DecrementNumAppDomains(); // Maintain a count of app domains added to the list.
bADRemoved = SystemDomain::System()->RemoveDomain(this);
}
if(bADRemoved)
Stop();
}
/*********************************************************************/
struct GetExposedObject_Args
{
AppDomain *pDomain;
OBJECTREF *ref;
};
OBJECTREF AppDomain::GetExposedObject()
{
CONTRACTL
{
MODE_COOPERATIVE;
THROWS;
GC_TRIGGERS;
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
OBJECTREF ref = GetRawExposedObject();
if (ref == NULL)
{
APPDOMAINREF obj = NULL;
MethodTable *pMT = MscorlibBinder::GetClass(CLASS__APP_DOMAIN);
// Create the module object
obj = (APPDOMAINREF) AllocateObject(pMT);
obj->SetDomain(this);
if (!StoreFirstObjectInHandle(m_ExposedObject, (OBJECTREF) obj))
{
obj = (APPDOMAINREF) GetRawExposedObject();
_ASSERTE(obj);
}
return (OBJECTREF) obj;
}
return ref;
}
#endif // !CROSSGEN_COMPILE
#ifdef FEATURE_COMINTEROP
MethodTable *AppDomain::GetRedirectedType(WinMDAdapter::RedirectedTypeIndex index)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END;
// If we have the type loaded already, use that
if (m_rpCLRTypes[index] != nullptr)
{
return m_rpCLRTypes[index];
}
WinMDAdapter::FrameworkAssemblyIndex frameworkAssemblyIndex;
WinMDAdapter::GetRedirectedTypeInfo(index, nullptr, nullptr, nullptr, &frameworkAssemblyIndex, nullptr, nullptr);
MethodTable * pMT = LoadRedirectedType(index, frameworkAssemblyIndex);
m_rpCLRTypes[index] = pMT;
return pMT;
}
MethodTable* AppDomain::LoadRedirectedType(WinMDAdapter::RedirectedTypeIndex index, WinMDAdapter::FrameworkAssemblyIndex assembly)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
PRECONDITION(index < WinMDAdapter::RedirectedTypeIndex_Count);
}
CONTRACTL_END;
LPCSTR szClrNamespace;
LPCSTR szClrName;
LPCSTR szFullWinRTName;
WinMDAdapter::FrameworkAssemblyIndex nFrameworkAssemblyIndex;
WinMDAdapter::GetRedirectedTypeInfo(index, &szClrNamespace, &szClrName, &szFullWinRTName, &nFrameworkAssemblyIndex, nullptr, nullptr);
_ASSERTE(nFrameworkAssemblyIndex >= WinMDAdapter::FrameworkAssembly_Mscorlib &&
nFrameworkAssemblyIndex < WinMDAdapter::FrameworkAssembly_Count);
if (assembly != nFrameworkAssemblyIndex)
{
// The framework type does not live in the assembly we were requested to load redirected types from
return nullptr;
}
else if (nFrameworkAssemblyIndex == WinMDAdapter::FrameworkAssembly_Mscorlib)
{
return ClassLoader::LoadTypeByNameThrowing(MscorlibBinder::GetModule()->GetAssembly(),
szClrNamespace,
szClrName,
ClassLoader::ThrowIfNotFound,
ClassLoader::LoadTypes,
CLASS_LOAD_EXACTPARENTS).GetMethodTable();
}
else
{
LPCSTR pSimpleName;
AssemblyMetaDataInternal context;
const BYTE * pbKeyToken;
DWORD cbKeyTokenLength;
DWORD dwFlags;
WinMDAdapter::GetExtraAssemblyRefProps(nFrameworkAssemblyIndex,
&pSimpleName,
&context,
&pbKeyToken,
&cbKeyTokenLength,
&dwFlags);
Assembly* pAssembly = AssemblySpec::LoadAssembly(pSimpleName,
&context,
pbKeyToken,
cbKeyTokenLength,
dwFlags);
return ClassLoader::LoadTypeByNameThrowing(
pAssembly,
szClrNamespace,
szClrName,
ClassLoader::ThrowIfNotFound,
ClassLoader::LoadTypes,
CLASS_LOAD_EXACTPARENTS).GetMethodTable();
}
}
#endif //FEATURE_COMINTEROP
#endif //!DACCESS_COMPILE
#ifndef DACCESS_COMPILE
bool IsPlatformAssembly(LPCSTR szName, DomainAssembly *pDomainAssembly)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
PRECONDITION(CheckPointer(szName));
PRECONDITION(CheckPointer(pDomainAssembly));
}
CONTRACTL_END;
PEAssembly *pPEAssembly = pDomainAssembly->GetFile();
if (strcmp(szName, pPEAssembly->GetSimpleName()) != 0)
{
return false;
}
DWORD cbPublicKey;
const BYTE *pbPublicKey = static_cast<const BYTE *>(pPEAssembly->GetPublicKey(&cbPublicKey));
if (pbPublicKey == nullptr)
{
return false;
}
return StrongNameIsSilverlightPlatformKey(pbPublicKey, cbPublicKey);
}
void AppDomain::AddAssembly(DomainAssembly * assem)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
{
CrstHolder ch(GetAssemblyListLock());
// Attempt to find empty space in assemblies list
DWORD asmCount = m_Assemblies.GetCount_Unlocked();
for (DWORD i = 0; i < asmCount; ++i)
{
if (m_Assemblies.Get_UnlockedNoReference(i) == NULL)
{
m_Assemblies.Set_Unlocked(i, assem);
return;
}
}
// If empty space not found, simply add to end of list
IfFailThrow(m_Assemblies.Append_Unlocked(assem));
}
}
void AppDomain::RemoveAssembly(DomainAssembly * pAsm)
{
CONTRACTL
{
NOTHROW;
GC_NOTRIGGER;
}
CONTRACTL_END;
CrstHolder ch(GetAssemblyListLock());
DWORD asmCount = m_Assemblies.GetCount_Unlocked();
for (DWORD i = 0; i < asmCount; ++i)
{
if (m_Assemblies.Get_UnlockedNoReference(i) == pAsm)
{
m_Assemblies.Set_Unlocked(i, NULL);
return;
}
}
_ASSERTE(!"Unreachable");
}
BOOL AppDomain::ContainsAssembly(Assembly * assem)
{
WRAPPER_NO_CONTRACT;
AssemblyIterator i = IterateAssembliesEx((AssemblyIterationFlags)(
kIncludeLoaded | kIncludeExecution));
CollectibleAssemblyHolder<DomainAssembly *> pDomainAssembly;
while (i.Next(pDomainAssembly.This()))
{
CollectibleAssemblyHolder<Assembly *> pAssembly = pDomainAssembly->GetLoadedAssembly();
if (pAssembly == assem)
return TRUE;
}
return FALSE;
}
EEClassFactoryInfoHashTable* AppDomain::SetupClassFactHash()
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
CrstHolder ch(&m_ReflectionCrst);
if (m_pRefClassFactHash == NULL)
{
AllocMemHolder<void> pCache(GetLowFrequencyHeap()->AllocMem(S_SIZE_T(sizeof (EEClassFactoryInfoHashTable))));
EEClassFactoryInfoHashTable *tmp = new (pCache) EEClassFactoryInfoHashTable;
LockOwner lock = {&m_RefClassFactCrst,IsOwnerOfCrst};
if (!tmp->Init(20, &lock))
COMPlusThrowOM();
pCache.SuppressRelease();
m_pRefClassFactHash = tmp;
}
return m_pRefClassFactHash;
}
#ifdef FEATURE_COMINTEROP
DispIDCache* AppDomain::SetupRefDispIDCache()
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
CrstHolder ch(&m_ReflectionCrst);
if (m_pRefDispIDCache == NULL)
{
AllocMemHolder<void> pCache = GetLowFrequencyHeap()->AllocMem(S_SIZE_T(sizeof (DispIDCache)));
DispIDCache *tmp = new (pCache) DispIDCache;
tmp->Init();
pCache.SuppressRelease();
m_pRefDispIDCache = tmp;
}
return m_pRefDispIDCache;
}
#endif // FEATURE_COMINTEROP
FileLoadLock *FileLoadLock::Create(PEFileListLock *pLock, PEFile *pFile, DomainFile *pDomainFile)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
PRECONDITION(pLock->HasLock());
PRECONDITION(pLock->FindFileLock(pFile) == NULL);
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
NewHolder<FileLoadLock> result(new FileLoadLock(pLock, pFile, pDomainFile));
pLock->AddElement(result);
result->AddRef(); // Add one ref on behalf of the ListLock's reference. The corresponding Release() happens in FileLoadLock::CompleteLoadLevel.
return result.Extract();
}
FileLoadLock::~FileLoadLock()
{
CONTRACTL
{
DESTRUCTOR_CHECK;
NOTHROW;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END;
((PEFile *) m_data)->Release();
}
DomainFile *FileLoadLock::GetDomainFile()
{
LIMITED_METHOD_CONTRACT;
return m_pDomainFile;
}
FileLoadLevel FileLoadLock::GetLoadLevel()
{
LIMITED_METHOD_CONTRACT;
return m_level;
}
ADID FileLoadLock::GetAppDomainId()
{
LIMITED_METHOD_CONTRACT;
return m_AppDomainId;
}
// Acquire will return FALSE and not take the lock if the file
// has already been loaded to the target level. Otherwise,
// it will return TRUE and take the lock.
//
// Note that the taker must release the lock via IncrementLoadLevel.
BOOL FileLoadLock::Acquire(FileLoadLevel targetLevel)
{
WRAPPER_NO_CONTRACT;
// If we are already loaded to the desired level, the lock is "free".
if (m_level >= targetLevel)
return FALSE;
if (!DeadlockAwareEnter())
{
// We failed to get the lock due to a deadlock.
return FALSE;
}
if (m_level >= targetLevel)
{
Leave();
return FALSE;
}
return TRUE;
}
BOOL FileLoadLock::CanAcquire(FileLoadLevel targetLevel)
{
// If we are already loaded to the desired level, the lock is "free".
if (m_level >= targetLevel)
return FALSE;
return CanDeadlockAwareEnter();
}
#if !defined(DACCESS_COMPILE) && (defined(LOGGING) || defined(STRESS_LOG))
static const char *fileLoadLevelName[] =
{
"CREATE", // FILE_LOAD_CREATE
"BEGIN", // FILE_LOAD_BEGIN
"FIND_NATIVE_IMAGE", // FILE_LOAD_FIND_NATIVE_IMAGE
"VERIFY_NATIVE_IMAGE_DEPENDENCIES", // FILE_LOAD_VERIFY_NATIVE_IMAGE_DEPENDENCIES
"ALLOCATE", // FILE_LOAD_ALLOCATE
"ADD_DEPENDENCIES", // FILE_LOAD_ADD_DEPENDENCIES
"PRE_LOADLIBRARY", // FILE_LOAD_PRE_LOADLIBRARY
"LOADLIBRARY", // FILE_LOAD_LOADLIBRARY
"POST_LOADLIBRARY", // FILE_LOAD_POST_LOADLIBRARY
"EAGER_FIXUPS", // FILE_LOAD_EAGER_FIXUPS
"VTABLE FIXUPS", // FILE_LOAD_VTABLE_FIXUPS
"DELIVER_EVENTS", // FILE_LOAD_DELIVER_EVENTS
"LOADED", // FILE_LOADED
"VERIFY_EXECUTION", // FILE_LOAD_VERIFY_EXECUTION
"ACTIVE", // FILE_ACTIVE
};
#endif // !DACCESS_COMPILE && (LOGGING || STRESS_LOG)
BOOL FileLoadLock::CompleteLoadLevel(FileLoadLevel level, BOOL success)
{
CONTRACTL
{
MODE_ANY;
GC_TRIGGERS;
THROWS;
PRECONDITION(HasLock());
}
CONTRACTL_END;
// Increment may happen more than once if reentrancy occurs (e.g. LoadLibrary)
if (level > m_level)
{
// Must complete each level in turn, unless we have an error
CONSISTENCY_CHECK(m_pDomainFile->IsError() || (level == (m_level+1)));
// Remove the lock from the list if the load is completed
if (level >= FILE_ACTIVE)
{
{
GCX_COOP();
PEFileListLockHolder lock((PEFileListLock*)m_pList);
#if _DEBUG
BOOL fDbgOnly_SuccessfulUnlink =
#endif
m_pList->Unlink(this);
_ASSERTE(fDbgOnly_SuccessfulUnlink);
m_pDomainFile->ClearLoading();
CONSISTENCY_CHECK(m_dwRefCount >= 2); // Caller (LoadDomainFile) should have 1 refcount and m_pList should have another which was acquired in FileLoadLock::Create.
m_level = (FileLoadLevel)level;
// Dev11 bug 236344
// In AppDomain::IsLoading, if the lock is taken on m_pList and then FindFileLock returns NULL,
// we depend on the DomainFile's load level being up to date. Hence we must update the load
// level while the m_pList lock is held.
if (success)
m_pDomainFile->SetLoadLevel(level);
}
Release(); // Release m_pList's refcount on this lock, which was acquired in FileLoadLock::Create
}
else
{
m_level = (FileLoadLevel)level;
if (success)
m_pDomainFile->SetLoadLevel(level);
}
#ifndef DACCESS_COMPILE
switch(level)
{
case FILE_LOAD_ALLOCATE:
case FILE_LOAD_ADD_DEPENDENCIES:
case FILE_LOAD_DELIVER_EVENTS:
case FILE_LOADED:
case FILE_ACTIVE: // The timing of stress logs is not critical, so even for the FILE_ACTIVE stage we need not do it while the m_pList lock is held.
STRESS_LOG4(LF_CLASSLOADER, LL_INFO100, "Completed Load Level %s for DomainFile %p in AD %i - success = %i\n", fileLoadLevelName[level], m_pDomainFile, m_AppDomainId.m_dwId, success);
break;
default:
break;
}
#endif
return TRUE;
}
else
return FALSE;
}
void FileLoadLock::SetError(Exception *ex)
{
CONTRACTL
{
MODE_ANY;
GC_TRIGGERS;
THROWS;
PRECONDITION(CheckPointer(ex));
PRECONDITION(HasLock());
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
m_cachedHR = ex->GetHR();
LOG((LF_LOADER, LL_WARNING, "LOADER: %x:***%s*\t!!!Non-transient error 0x%x\n",
m_pDomainFile->GetAppDomain(), m_pDomainFile->GetSimpleName(), m_cachedHR));
m_pDomainFile->SetError(ex);
CompleteLoadLevel(FILE_ACTIVE, FALSE);
}
void FileLoadLock::AddRef()
{
LIMITED_METHOD_CONTRACT;
FastInterlockIncrement((LONG *) &m_dwRefCount);
}
UINT32 FileLoadLock::Release()
{
CONTRACTL
{
NOTHROW;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END;
LONG count = FastInterlockDecrement((LONG *) &m_dwRefCount);
if (count == 0)
delete this;
return count;
}
FileLoadLock::FileLoadLock(PEFileListLock *pLock, PEFile *pFile, DomainFile *pDomainFile)
: ListLockEntry(pLock, pFile, "File load lock"),
m_level((FileLoadLevel) (FILE_LOAD_CREATE)),
m_pDomainFile(pDomainFile),
m_cachedHR(S_OK),
m_AppDomainId(pDomainFile->GetAppDomain()->GetId())
{
WRAPPER_NO_CONTRACT;
pFile->AddRef();
}
void FileLoadLock::HolderLeave(FileLoadLock *pThis)
{
LIMITED_METHOD_CONTRACT;
pThis->Leave();
}
//
// Assembly loading:
//
// Assembly loading is carefully layered to avoid deadlocks in the
// presence of circular loading dependencies.
// A LoadLevel is associated with each assembly as it is being loaded. During the
// act of loading (abstractly, increasing its load level), its lock is
// held, and the current load level is stored on the thread. Any
// recursive loads during that period are automatically restricted to
// only partially load the dependent assembly to the same level as the
// caller (or to one short of that level in the presence of a deadlock
// loop.)
//
// Each loading stage must be carfully constructed so that
// this constraint is expected and can be dealt with.
//
// Note that there is one case where this still doesn't handle recursion, and that is the
// security subsytem. The security system runs managed code, and thus must typically fully
// initialize assemblies of permission sets it is trying to use. (And of course, these may be used
// while those assemblies are initializing.) This is dealt with in the historical manner - namely
// the security system passes in a special flag which says that it will deal with null return values
// in the case where a load cannot be safely completed due to such issues.
//
void AppDomain::LoadSystemAssemblies()
{
STANDARD_VM_CONTRACT;
// The only reason to make an assembly a "system assembly" is if the EE is caching
// pointers to stuff in the assembly. Because this is going on, we need to preserve
// the invariant that the assembly is loaded into every app domain.
//
// Right now we have only one system assembly. We shouldn't need to add any more.
LoadAssembly(NULL, SystemDomain::System()->SystemFile(), FILE_ACTIVE);
}
FileLoadLevel AppDomain::GetDomainFileLoadLevel(DomainFile *pFile)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END
LoadLockHolder lock(this);
FileLoadLock* pLockEntry = (FileLoadLock *) lock->FindFileLock(pFile->GetFile());
if (pLockEntry == NULL)
return pFile->GetLoadLevel();
else
return pLockEntry->GetLoadLevel();
}
// This checks if the thread has initiated (or completed) loading at the given level. A false guarantees that
// (a) The current thread (or a thread blocking on the current thread) has not started loading the file
// at the given level, and
// (b) No other thread had started loading the file at this level at the start of this function call.
// Note that another thread may start loading the file at that level in a race with the completion of
// this function. However, the caller still has the guarantee that such a load started after this
// function was called (and e.g. any state in place before the function call will be seen by the other thread.)
//
// Conversely, a true guarantees that either the current thread has started the load step, or another
// thread has completed the load step.
//
BOOL AppDomain::IsLoading(DomainFile *pFile, FileLoadLevel level)
{
// Cheap out
if (pFile->GetLoadLevel() < level)
{
FileLoadLock *pLock = NULL;
{
LoadLockHolder lock(this);
pLock = (FileLoadLock *) lock->FindFileLock(pFile->GetFile());
if (pLock == NULL)
{
// No thread involved with loading
return pFile->GetLoadLevel() >= level;
}
pLock->AddRef();
}
FileLoadLockRefHolder lockRef(pLock);
if (pLock->Acquire(level))
{
// We got the lock - therefore no other thread has started this loading step yet.
pLock->Leave();
return FALSE;
}
// We didn't get the lock - either this thread is already doing the load,
// or else the load has already finished.
}
return TRUE;
}
// CheckLoading is a weaker form of IsLoading, which will not block on
// other threads waiting for their status. This is appropriate for asserts.
CHECK AppDomain::CheckLoading(DomainFile *pFile, FileLoadLevel level)
{
// Cheap out
if (pFile->GetLoadLevel() < level)
{
FileLoadLock *pLock = NULL;
LoadLockHolder lock(this);
pLock = (FileLoadLock *) lock->FindFileLock(pFile->GetFile());
if (pLock != NULL
&& pLock->CanAcquire(level))
{
// We can get the lock - therefore no other thread has started this loading step yet.
CHECK_FAILF(("Loading step %d has not been initiated yet", level));
}
// We didn't get the lock - either this thread is already doing the load,
// or else the load has already finished.
}
CHECK_OK;
}
CHECK AppDomain::CheckCanLoadTypes(Assembly *pAssembly)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END;
CHECK_MSG(CheckValidModule(pAssembly->GetManifestModule()),
"Type loading can occur only when executing in the assembly's app domain");
CHECK_OK;
}
CHECK AppDomain::CheckCanExecuteManagedCode(MethodDesc* pMD)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END;
Module* pModule=pMD->GetModule();
CHECK_MSG(CheckValidModule(pModule),
"Managed code can only run when executing in the module's app domain");
if (!pMD->IsInterface() || pMD->IsStatic()) //interfaces require no activation for instance methods
{
//cctor could have been interupted by ADU
CHECK_MSG(pModule->CheckActivated(),
"Managed code can only run when its module has been activated in the current app domain");
}
CHECK_OK;
}
#endif // !DACCESS_COMPILE
void AppDomain::LoadDomainFile(DomainFile *pFile,
FileLoadLevel targetLevel)
{
CONTRACTL
{
if (FORBIDGC_LOADER_USE_ENABLED()) NOTHROW; else THROWS;
if (FORBIDGC_LOADER_USE_ENABLED()) GC_NOTRIGGER; else GC_TRIGGERS;
if (FORBIDGC_LOADER_USE_ENABLED()) FORBID_FAULT; else { INJECT_FAULT(COMPlusThrowOM();); }
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
// Quick exit if finished
if (pFile->GetLoadLevel() >= targetLevel)
return;
// Handle the error case
pFile->ThrowIfError(targetLevel);
#ifndef DACCESS_COMPILE
if (pFile->IsLoading())
{
GCX_PREEMP();
// Load some more if appropriate
LoadLockHolder lock(this);
FileLoadLock* pLockEntry = (FileLoadLock *) lock->FindFileLock(pFile->GetFile());
if (pLockEntry == NULL)
{
_ASSERTE (!pFile->IsLoading());
return;
}
pLockEntry->AddRef();
lock.Release();
LoadDomainFile(pLockEntry, targetLevel);
}
#else // DACCESS_COMPILE
DacNotImpl();
#endif // DACCESS_COMPILE
}
#ifndef DACCESS_COMPILE
FileLoadLevel AppDomain::GetThreadFileLoadLevel()
{
WRAPPER_NO_CONTRACT;
if (GetThread()->GetLoadLevelLimiter() == NULL)
return FILE_ACTIVE;
else
return (FileLoadLevel)(GetThread()->GetLoadLevelLimiter()->GetLoadLevel()-1);
}
Assembly *AppDomain::LoadAssembly(AssemblySpec* pIdentity,
PEAssembly *pFile,
FileLoadLevel targetLevel)
{
CONTRACT(Assembly *)
{
GC_TRIGGERS;
THROWS;
MODE_ANY;
PRECONDITION(CheckPointer(pFile));
POSTCONDITION(CheckPointer(RETVAL, NULL_OK)); // May be NULL in recursive load case
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACT_END;
DomainAssembly *pAssembly = LoadDomainAssembly(pIdentity, pFile, targetLevel);
PREFIX_ASSUME(pAssembly != NULL);
RETURN pAssembly->GetAssembly();
}
#ifndef CROSSGEN_COMPILE
// Thread stress
class LoadDomainAssemblyStress : APIThreadStress
{
public:
AppDomain *pThis;
AssemblySpec* pSpec;
PEAssembly *pFile;
FileLoadLevel targetLevel;
LoadDomainAssemblyStress(AppDomain *pThis, AssemblySpec* pSpec, PEAssembly *pFile, FileLoadLevel targetLevel)
: pThis(pThis), pSpec(pSpec), pFile(pFile), targetLevel(targetLevel) {LIMITED_METHOD_CONTRACT;}
void Invoke()
{
WRAPPER_NO_CONTRACT;
STATIC_CONTRACT_SO_INTOLERANT;
SetupThread();
pThis->LoadDomainAssembly(pSpec, pFile, targetLevel);
}
};
#endif // CROSSGEN_COMPILE
extern BOOL AreSameBinderInstance(ICLRPrivBinder *pBinderA, ICLRPrivBinder *pBinderB);
DomainAssembly* AppDomain::LoadDomainAssembly( AssemblySpec* pSpec,
PEAssembly *pFile,
FileLoadLevel targetLevel)
{
STATIC_CONTRACT_THROWS;
if (pSpec == nullptr)
{
// skip caching, since we don't have anything to base it on
return LoadDomainAssemblyInternal(pSpec, pFile, targetLevel);
}
DomainAssembly* pRetVal = NULL;
EX_TRY
{
pRetVal = LoadDomainAssemblyInternal(pSpec, pFile, targetLevel);
}
EX_HOOK
{
Exception* pEx=GET_EXCEPTION();
if (!pEx->IsTransient())
{
// Setup the binder reference in AssemblySpec from the PEAssembly if one is not already set.
ICLRPrivBinder* pCurrentBindingContext = pSpec->GetBindingContext();
ICLRPrivBinder* pBindingContextFromPEAssembly = pFile->GetBindingContext();
if (pCurrentBindingContext == NULL)
{
// Set the binding context we got from the PEAssembly if AssemblySpec does not
// have that information
_ASSERTE(pBindingContextFromPEAssembly != NULL);
pSpec->SetBindingContext(pBindingContextFromPEAssembly);
}
#if defined(_DEBUG)
else
{
// Binding context in the spec should be the same as the binding context in the PEAssembly
_ASSERTE(AreSameBinderInstance(pCurrentBindingContext, pBindingContextFromPEAssembly));
}
#endif // _DEBUG
if (!EEFileLoadException::CheckType(pEx))
{
StackSString name;
pSpec->GetFileOrDisplayName(0, name);
pEx=new EEFileLoadException(name, pEx->GetHR(), NULL, pEx);
AddExceptionToCache(pSpec, pEx);
PAL_CPP_THROW(Exception *, pEx);
}
else
AddExceptionToCache(pSpec, pEx);
}
}
EX_END_HOOK;
return pRetVal;
}
DomainAssembly *AppDomain::LoadDomainAssemblyInternal(AssemblySpec* pIdentity,
PEAssembly *pFile,
FileLoadLevel targetLevel)
{
CONTRACT(DomainAssembly *)
{
GC_TRIGGERS;
THROWS;
MODE_ANY;
PRECONDITION(CheckPointer(pFile));
PRECONDITION(pFile->IsSystem() || ::GetAppDomain()==this);
POSTCONDITION(CheckPointer(RETVAL));
POSTCONDITION(RETVAL->GetLoadLevel() >= GetThreadFileLoadLevel()
|| RETVAL->GetLoadLevel() >= targetLevel);
POSTCONDITION(RETVAL->CheckNoError(targetLevel));
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACT_END;
DomainAssembly * result;
#ifndef CROSSGEN_COMPILE
LoadDomainAssemblyStress ts (this, pIdentity, pFile, targetLevel);
#endif
// Go into preemptive mode since this may take a while.
GCX_PREEMP();
// Check for existing fully loaded assembly, or for an assembly which has failed during the loading process.
result = FindAssembly(pFile, FindAssemblyOptions_IncludeFailedToLoad);
if (result == NULL)
{
LoaderAllocator *pLoaderAllocator = NULL;
#ifndef CROSSGEN_COMPILE
ICLRPrivBinder *pFileBinder = pFile->GetBindingContext();
if (pFileBinder != NULL)
{
// Assemblies loaded with AssemblyLoadContext need to use a different LoaderAllocator if
// marked as collectible
pFileBinder->GetLoaderAllocator((LPVOID*)&pLoaderAllocator);
}
#endif // !CROSSGEN_COMPILE
if (pLoaderAllocator == NULL)
{
pLoaderAllocator = this->GetLoaderAllocator();
}
// Allocate the DomainAssembly a bit early to avoid GC mode problems. We could potentially avoid
// a rare redundant allocation by moving this closer to FileLoadLock::Create, but it's not worth it.
NewHolder<DomainAssembly> pDomainAssembly = new DomainAssembly(this, pFile, pLoaderAllocator);
LoadLockHolder lock(this);
// Find the list lock entry
FileLoadLock * fileLock = (FileLoadLock *)lock->FindFileLock(pFile);
if (fileLock == NULL)
{
// Check again in case we were racing
result = FindAssembly(pFile, FindAssemblyOptions_IncludeFailedToLoad);
if (result == NULL)
{
// We are the first one in - create the DomainAssembly
fileLock = FileLoadLock::Create(lock, pFile, pDomainAssembly);
pDomainAssembly.SuppressRelease();
#ifndef CROSSGEN_COMPILE
if (pDomainAssembly->IsCollectible())
{
// We add the assembly to the LoaderAllocator only when we are sure that it can be added
// and won't be deleted in case of a concurrent load from the same ALC
((AssemblyLoaderAllocator *)pLoaderAllocator)->AddDomainAssembly(pDomainAssembly);
}
#endif // !CROSSGEN_COMPILE
}
}
else
{
fileLock->AddRef();
}
lock.Release();
if (result == NULL)
{
// We pass our ref on fileLock to LoadDomainFile to release.
// Note that if we throw here, we will poison fileLock with an error condition,
// so it will not be removed until app domain unload. So there is no need
// to release our ref count.
result = (DomainAssembly *)LoadDomainFile(fileLock, targetLevel);
}
else
{
result->EnsureLoadLevel(targetLevel);
}
}
else
result->EnsureLoadLevel(targetLevel);
// Malformed metadata may contain a Module reference to what is actually
// an Assembly. In this case we need to throw an exception, since returning
// a DomainModule as a DomainAssembly is a type safety violation.
if (!result->IsAssembly())
{
ThrowHR(COR_E_ASSEMBLYEXPECTED);
}
// Cache result in all cases, since found pFile could be from a different AssemblyRef than pIdentity
// Do not cache WindowsRuntime assemblies, they are cached in code:CLRPrivTypeCacheWinRT
if ((pIdentity != NULL) && (pIdentity->CanUseWithBindingCache()) && (result->CanUseWithBindingCache()))
GetAppDomain()->AddAssemblyToCache(pIdentity, result);
RETURN result;
} // AppDomain::LoadDomainAssembly
struct LoadFileArgs
{
FileLoadLock *pLock;
FileLoadLevel targetLevel;
DomainFile *result;
};
DomainFile *AppDomain::LoadDomainFile(FileLoadLock *pLock, FileLoadLevel targetLevel)
{
CONTRACT(DomainFile *)
{
STANDARD_VM_CHECK;
PRECONDITION(CheckPointer(pLock));
PRECONDITION(pLock->GetDomainFile()->GetAppDomain() == this);
POSTCONDITION(RETVAL->GetLoadLevel() >= GetThreadFileLoadLevel()
|| RETVAL->GetLoadLevel() >= targetLevel);
POSTCONDITION(RETVAL->CheckNoError(targetLevel));
}
CONTRACT_END;
if(!CanLoadCode())
COMPlusThrow(kAppDomainUnloadedException);
// Thread stress
APIThreadStress::SyncThreadStress();
DomainFile *pFile = pLock->GetDomainFile();
// Make sure we release the lock on exit
FileLoadLockRefHolder lockRef(pLock);
// We need to perform the early steps of loading mscorlib without a domain transition. This is
// important for bootstrapping purposes - we need to get mscorlib at least partially loaded
// into a domain before we can run serialization code to do the transition.
//
// Note that we cannot do this in general for all assemblies, because some of the security computations
// require the managed exposed object, which must be created in the correct app domain.
if (this != GetAppDomain()
&& pFile->GetFile()->IsSystem()
&& targetLevel > FILE_LOAD_ALLOCATE)
{
// Re-call the routine with a limited load level. This will cause the first part of the load to
// get performed in the current app domain.
pLock->AddRef();
LoadDomainFile(pLock, targetLevel > FILE_LOAD_ALLOCATE ? FILE_LOAD_ALLOCATE : targetLevel);
// Now continue on to complete the rest of the load, if any.
}
// Do a quick out check for the already loaded case.
if (pLock->GetLoadLevel() >= targetLevel)
{
pFile->ThrowIfError(targetLevel);
RETURN pFile;
}
// Initialize a loading queue. This will hold any loads which are triggered recursively but
// which cannot be immediately satisfied due to anti-deadlock constraints.
// PendingLoadQueues are allocated on the stack during a load, and
// shared with all nested loads on the same thread. (Note that we won't use
// "candidate" if we are in a recursive load; that's OK since they are cheap to
// construct.)
FileLoadLevel immediateTargetLevel = targetLevel;
{
LoadLevelLimiter limit;
limit.Activate();
// We cannot set a target level higher than that allowed by the limiter currently.
// This is because of anti-deadlock constraints.
if (immediateTargetLevel > limit.GetLoadLevel())
immediateTargetLevel = limit.GetLoadLevel();
LOG((LF_LOADER, LL_INFO100, "LOADER: %x:***%s*\t>>>Load initiated, %s/%s\n",
pFile->GetAppDomain(), pFile->GetSimpleName(),
fileLoadLevelName[immediateTargetLevel], fileLoadLevelName[targetLevel]));
// Now loop and do the load incrementally to the target level.
if (pLock->GetLoadLevel() < immediateTargetLevel)
{
// Thread stress
APIThreadStress::SyncThreadStress();
while (pLock->Acquire(immediateTargetLevel))
{
FileLoadLevel workLevel;
{
FileLoadLockHolder fileLock(pLock);
// Work level is next step to do
workLevel = (FileLoadLevel)(fileLock->GetLoadLevel()+1);
// Set up the anti-deadlock constraint: we cannot safely recursively load any assemblies
// on this thread to a higher level than this assembly is being loaded now.
// Note that we do allow work at a parallel level; any deadlocks caused here will
// be resolved by the deadlock detection in the FileLoadLocks.
limit.SetLoadLevel(workLevel);
LOG((LF_LOADER,
(workLevel == FILE_LOAD_BEGIN
|| workLevel == FILE_LOADED
|| workLevel == FILE_ACTIVE)
? LL_INFO10 : LL_INFO1000,
"LOADER: %p:***%s*\t loading at level %s\n",
this, pFile->GetSimpleName(), fileLoadLevelName[workLevel]));
TryIncrementalLoad(pFile, workLevel, fileLock);
}
TESTHOOKCALL(CompletedFileLoadLevel(GetId().m_dwId,pFile,workLevel));
}
if (pLock->GetLoadLevel() == immediateTargetLevel-1)
{
LOG((LF_LOADER, LL_INFO100, "LOADER: %x:***%s*\t<<<Load limited due to detected deadlock, %s\n",
pFile->GetAppDomain(), pFile->GetSimpleName(),
fileLoadLevelName[immediateTargetLevel-1]));
}
}
LOG((LF_LOADER, LL_INFO100, "LOADER: %x:***%s*\t<<<Load completed, %s\n",
pFile->GetAppDomain(), pFile->GetSimpleName(),
fileLoadLevelName[pLock->GetLoadLevel()]));
}
// There may have been an error stored on the domain file by another thread, or from a previous load
pFile->ThrowIfError(targetLevel);
// There are two normal results from the above loop.
//
// 1. We succeeded in loading the file to the current thread's load level.
// 2. We succeeded in loading the file to the current thread's load level - 1, due
// to deadlock condition with another thread loading the same assembly.
//
// Either of these are considered satisfactory results, as code inside a load must expect
// a parial load result.
//
// However, if load level elevation has occurred, then it is possible for a deadlock to
// prevent us from loading an assembly which was loading before the elevation at a radically
// lower level. In such a case, we throw an exception which transiently fails the current
// load, since it is likely we have not satisfied the caller.
// (An alternate, and possibly preferable, strategy here would be for all callers to explicitly
// identify the minimum load level acceptable via CheckLoadDomainFile and throw from there.)
pFile->RequireLoadLevel((FileLoadLevel)(immediateTargetLevel-1));
RETURN pFile;
}
void AppDomain::TryIncrementalLoad(DomainFile *pFile, FileLoadLevel workLevel, FileLoadLockHolder &lockHolder)
{
STANDARD_VM_CONTRACT;
// This is factored out so we don't call EX_TRY in a loop (EX_TRY can _alloca)
BOOL released = FALSE;
FileLoadLock* pLoadLock = lockHolder.GetValue();
EX_TRY
{
// Special case: for LoadLibrary, we cannot hold the lock during the
// actual LoadLibrary call, because we might get a callback from _CorDllMain on any
// other thread. (Note that this requires DomainFile's LoadLibrary to be independently threadsafe.)
if (workLevel == FILE_LOAD_LOADLIBRARY)
{
lockHolder.Release();
released = TRUE;
}
// Do the work
TESTHOOKCALL(NextFileLoadLevel(GetId().m_dwId,pFile,workLevel));
BOOL success = pFile->DoIncrementalLoad(workLevel);
TESTHOOKCALL(CompletingFileLoadLevel(GetId().m_dwId,pFile,workLevel));
if (released)
{
// Reobtain lock to increment level. (Note that another thread may
// have already done it which is OK.
if (pLoadLock->Acquire(workLevel))
{
// note lockHolder.Acquire isn't wired up to actually take the lock
lockHolder = pLoadLock;
released = FALSE;
}
}
if (!released)
{
// Complete the level.
if (pLoadLock->CompleteLoadLevel(workLevel, success) &&
pLoadLock->GetLoadLevel()==FILE_LOAD_DELIVER_EVENTS)
{
lockHolder.Release();
released = TRUE;
pFile->DeliverAsyncEvents();
};
}
}
EX_HOOK
{
Exception *pEx = GET_EXCEPTION();
//We will cache this error and wire this load to forever fail,
// unless the exception is transient or the file is loaded OK but just cannot execute
if (!pEx->IsTransient() && !pFile->IsLoaded())
{
if (released)
{
// Reobtain lock to increment level. (Note that another thread may
// have already done it which is OK.
if (pLoadLock->Acquire(workLevel)) // note pLockHolder->Acquire isn't wired up to actually take the lock
{
// note lockHolder.Acquire isn't wired up to actually take the lock
lockHolder = pLoadLock;
released = FALSE;
}
}
if (!released)
{
// Report the error in the lock
pLoadLock->SetError(pEx);
}
if (!EEFileLoadException::CheckType(pEx))
EEFileLoadException::Throw(pFile->GetFile(), pEx->GetHR(), pEx);
}
// Otherwise, we simply abort this load, and can retry later on.
// @todo cleanup: make sure that each level is restartable after an exception, and
// leaves no bad side effects
}
EX_END_HOOK;
}
// Checks whether the module is valid to be in the given app domain (need not be yet loaded)
CHECK AppDomain::CheckValidModule(Module * pModule)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END;
if (pModule->FindDomainFile(this) != NULL)
CHECK_OK;
CHECK_OK;
}
static void NormalizeAssemblySpecForNativeDependencies(AssemblySpec * pSpec)
{
CONTRACTL
{
THROWS;
GC_NOTRIGGER;
MODE_ANY;
}
CONTRACTL_END;
if (pSpec->IsStrongNamed() && pSpec->HasPublicKey())
{
pSpec->ConvertPublicKeyToToken();
}
//
// CoreCLR binder unifies assembly versions. Ignore assembly version here to
// detect more types of potential mismatches.
//
AssemblyMetaDataInternal * pContext = pSpec->GetContext();
pContext->usMajorVersion = (USHORT)-1;
pContext->usMinorVersion = (USHORT)-1;
pContext->usBuildNumber = (USHORT)-1;
pContext->usRevisionNumber = (USHORT)-1;
// Ignore the WinRT type while considering if two assemblies have the same identity.
pSpec->SetWindowsRuntimeType(NULL, NULL);
}
void AppDomain::CheckForMismatchedNativeImages(AssemblySpec * pSpec, const GUID * pGuid)
{
STANDARD_VM_CONTRACT;
//
// The native images are ever used only for trusted images in CoreCLR.
// We don't wish to open the IL file at runtime so we just forgo any
// eager consistency checking. But we still want to prevent mistmatched
// NGen images from being used. We record all mappings between assembly
// names and MVID, and fail once we detect mismatch.
//
NormalizeAssemblySpecForNativeDependencies(pSpec);
CrstHolder ch(&m_DomainCrst);
const NativeImageDependenciesEntry * pEntry = m_NativeImageDependencies.Lookup(pSpec);
if (pEntry != NULL)
{
if (*pGuid != pEntry->m_guidMVID)
{
SString msg;
msg.Printf("ERROR: Native images generated against multiple versions of assembly %s. ", pSpec->GetName());
WszOutputDebugString(msg.GetUnicode());
COMPlusThrowNonLocalized(kFileLoadException, msg.GetUnicode());
}
}
else
{
//
// No entry yet - create one
//
NativeImageDependenciesEntry * pNewEntry = new NativeImageDependenciesEntry();
pNewEntry->m_AssemblySpec.CopyFrom(pSpec);
pNewEntry->m_AssemblySpec.CloneFields(AssemblySpec::ALL_OWNED);
pNewEntry->m_guidMVID = *pGuid;
m_NativeImageDependencies.Add(pNewEntry);
}
}
BOOL AppDomain::RemoveNativeImageDependency(AssemblySpec * pSpec)
{
CONTRACTL
{
GC_NOTRIGGER;
PRECONDITION(CheckPointer(pSpec));
}
CONTRACTL_END;
BOOL result = FALSE;
NormalizeAssemblySpecForNativeDependencies(pSpec);
CrstHolder ch(&m_DomainCrst);
const NativeImageDependenciesEntry * pEntry = m_NativeImageDependencies.Lookup(pSpec);
if (pEntry != NULL)
{
m_NativeImageDependencies.Remove(pSpec);
delete pEntry;
result = TRUE;
}
return result;
}
void AppDomain::SetupSharedStatics()
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
#ifndef CROSSGEN_COMPILE
if (NingenEnabled())
return;
LOG((LF_CLASSLOADER, LL_INFO10000, "STATICS: SetupSharedStatics()"));
// don't do any work in init stage. If not init only do work in non-shared case if are default domain
_ASSERTE(!g_fEEInit);
// Because we are allocating/referencing objects, need to be in cooperative mode
GCX_COOP();
DomainLocalModule *pLocalModule = MscorlibBinder::GetModule()->GetDomainLocalModule();
// This is a convenient place to initialize String.Empty.
// It is treated as intrinsic by the JIT as so the static constructor would never run.
// Leaving it uninitialized would confuse debuggers.
// String should not have any static constructors.
_ASSERTE(g_pStringClass->IsClassPreInited());
FieldDesc * pEmptyStringFD = MscorlibBinder::GetField(FIELD__STRING__EMPTY);
OBJECTREF* pEmptyStringHandle = (OBJECTREF*)
((TADDR)pLocalModule->GetPrecomputedGCStaticsBasePointer()+pEmptyStringFD->GetOffset());
SetObjectReference( pEmptyStringHandle, StringObject::GetEmptyString(), this );
#endif // CROSSGEN_COMPILE
}
DomainAssembly * AppDomain::FindAssembly(PEAssembly * pFile, FindAssemblyOptions options/* = FindAssemblyOptions_None*/)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
const bool includeFailedToLoad = (options & FindAssemblyOptions_IncludeFailedToLoad) != 0;
if (pFile->HasHostAssembly())
{
DomainAssembly * pDA = FindAssembly(pFile->GetHostAssembly());
if (pDA != nullptr && (pDA->IsLoaded() || (includeFailedToLoad && pDA->IsError())))
{
return pDA;
}
return nullptr;
}
AssemblyIterator i = IterateAssembliesEx((AssemblyIterationFlags)(
kIncludeLoaded |
(includeFailedToLoad ? kIncludeFailedToLoad : 0) |
kIncludeExecution));
CollectibleAssemblyHolder<DomainAssembly *> pDomainAssembly;
while (i.Next(pDomainAssembly.This()))
{
PEFile * pManifestFile = pDomainAssembly->GetFile();
if (pManifestFile &&
!pManifestFile->IsResource() &&
pManifestFile->Equals(pFile))
{
// Caller already has PEAssembly, so we can give DomainAssembly away freely without AddRef
return pDomainAssembly.Extract();
}
}
return NULL;
}
static const AssemblyIterationFlags STANDARD_IJW_ITERATOR_FLAGS =
(AssemblyIterationFlags)(kIncludeLoaded | kIncludeLoading | kIncludeExecution | kExcludeCollectible);
void AppDomain::SetFriendlyName(LPCWSTR pwzFriendlyName, BOOL fDebuggerCares/*=TRUE*/)
{
CONTRACTL
{
THROWS;
if (GetThread()) {GC_TRIGGERS;} else {DISABLED(GC_NOTRIGGER);}
MODE_ANY;
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
// Do all computations into a temporary until we're ensured of success
SString tmpFriendlyName;
if (pwzFriendlyName)
tmpFriendlyName.Set(pwzFriendlyName);
else
{
// If there is an assembly, try to get the name from it.
// If no assembly, but if it's the DefaultDomain, then give it a name
if (m_pRootAssembly)
{
tmpFriendlyName.SetUTF8(m_pRootAssembly->GetSimpleName());
SString::Iterator i = tmpFriendlyName.End();
if (tmpFriendlyName.FindBack(i, '.'))
tmpFriendlyName.Truncate(i);
}
else
{
if (IsDefaultDomain())
tmpFriendlyName.Set(DEFAULT_DOMAIN_FRIENDLY_NAME);
// This is for the profiler - if they call GetFriendlyName on an AppdomainCreateStarted
// event, then we want to give them a temporary name they can use.
else if (GetId().m_dwId != 0)
{
tmpFriendlyName.Clear();
tmpFriendlyName.Printf(W("%s %d"), OTHER_DOMAIN_FRIENDLY_NAME_PREFIX, GetId().m_dwId);
}
}
}
tmpFriendlyName.Normalize();
m_friendlyName = tmpFriendlyName;
m_friendlyName.Normalize();
if(g_pDebugInterface)
{
// update the name in the IPC publishing block
if (SUCCEEDED(g_pDebugInterface->UpdateAppDomainEntryInIPC(this)))
{
// inform the attached debugger that the name of this appdomain has changed.
if (IsDebuggerAttached() && fDebuggerCares)
g_pDebugInterface->NameChangeEvent(this, NULL);
}
}
}
LPCWSTR AppDomain::GetFriendlyName(BOOL fDebuggerCares/*=TRUE*/)
{
CONTRACT (LPCWSTR)
{
THROWS;
if (GetThread()) {GC_TRIGGERS;} else {DISABLED(GC_NOTRIGGER);}
MODE_ANY;
POSTCONDITION(CheckPointer(RETVAL, NULL_OK));
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACT_END;
#if _DEBUG
// Handle NULL this pointer - this happens sometimes when printing log messages
// but in general shouldn't occur in real code
if (this == NULL)
RETURN NULL;
#endif // _DEBUG
if (m_friendlyName.IsEmpty())
SetFriendlyName(NULL, fDebuggerCares);
RETURN m_friendlyName;
}
LPCWSTR AppDomain::GetFriendlyNameForLogging()
{
CONTRACT(LPCWSTR)
{
NOTHROW;
GC_NOTRIGGER;
MODE_ANY;
POSTCONDITION(CheckPointer(RETVAL,NULL_OK));
}
CONTRACT_END;
#if _DEBUG
// Handle NULL this pointer - this happens sometimes when printing log messages
// but in general shouldn't occur in real code
if (this == NULL)
RETURN NULL;
#endif // _DEBUG
RETURN (m_friendlyName.IsEmpty() ?W(""):(LPCWSTR)m_friendlyName);
}
LPCWSTR AppDomain::GetFriendlyNameForDebugger()
{
CONTRACT (LPCWSTR)
{
NOTHROW;
if (GetThread()) {GC_TRIGGERS;} else {DISABLED(GC_NOTRIGGER);}
MODE_ANY;
POSTCONDITION(CheckPointer(RETVAL));
}
CONTRACT_END;
if (m_friendlyName.IsEmpty())
{
BOOL fSuccess = FALSE;
EX_TRY
{
SetFriendlyName(NULL);
fSuccess = TRUE;
}
EX_CATCH
{
// Gobble all exceptions.
}
EX_END_CATCH(SwallowAllExceptions);
if (!fSuccess)
{
RETURN W("");
}
}
RETURN m_friendlyName;
}
#endif // !DACCESS_COMPILE
#ifdef DACCESS_COMPILE
PVOID AppDomain::GetFriendlyNameNoSet(bool* isUtf8)
{
SUPPORTS_DAC;
if (!m_friendlyName.IsEmpty())
{
*isUtf8 = false;
return m_friendlyName.DacGetRawContent();
}
else if (m_pRootAssembly)
{
*isUtf8 = true;
return (PVOID)m_pRootAssembly->GetSimpleName();
}
else if (dac_cast<TADDR>(this) ==
dac_cast<TADDR>(SystemDomain::System()->DefaultDomain()))
{
*isUtf8 = false;
return (PVOID)DEFAULT_DOMAIN_FRIENDLY_NAME;
}
else
{
return NULL;
}
}
#endif // DACCESS_COMPILE
#ifndef DACCESS_COMPILE
BOOL AppDomain::AddFileToCache(AssemblySpec* pSpec, PEAssembly *pFile, BOOL fAllowFailure)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
PRECONDITION(CheckPointer(pSpec));
// Hosted fusion binder makes an exception here, so we cannot assert.
//PRECONDITION(pSpec->CanUseWithBindingCache());
//PRECONDITION(pFile->CanUseWithBindingCache());
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
CrstHolder holder(&m_DomainCacheCrst);
// !!! suppress exceptions
if(!m_AssemblyCache.StoreFile(pSpec, pFile) && !fAllowFailure)
{
// TODO: Disabling the below assertion as currently we experience
// inconsistency on resolving the Microsoft.Office.Interop.MSProject.dll
// This causes below assertion to fire and crashes the VS. This issue
// is being tracked with Dev10 Bug 658555. Brought back it when this bug
// is fixed.
// _ASSERTE(FALSE);
EEFileLoadException::Throw(pSpec, FUSION_E_CACHEFILE_FAILED, NULL);
}
return TRUE;
}
BOOL AppDomain::AddAssemblyToCache(AssemblySpec* pSpec, DomainAssembly *pAssembly)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
PRECONDITION(CheckPointer(pSpec));
PRECONDITION(CheckPointer(pAssembly));
PRECONDITION(pSpec->CanUseWithBindingCache());
PRECONDITION(pAssembly->CanUseWithBindingCache());
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
CrstHolder holder(&m_DomainCacheCrst);
// !!! suppress exceptions
BOOL bRetVal = m_AssemblyCache.StoreAssembly(pSpec, pAssembly);
return bRetVal;
}
BOOL AppDomain::AddExceptionToCache(AssemblySpec* pSpec, Exception *ex)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
PRECONDITION(CheckPointer(pSpec));
PRECONDITION(pSpec->CanUseWithBindingCache());
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
if (ex->IsTransient())
return TRUE;
CrstHolder holder(&m_DomainCacheCrst);
// !!! suppress exceptions
return m_AssemblyCache.StoreException(pSpec, ex);
}
void AppDomain::AddUnmanagedImageToCache(LPCWSTR libraryName, HMODULE hMod)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
PRECONDITION(CheckPointer(libraryName));
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
if (libraryName)
{
AssemblySpec spec;
spec.SetCodeBase(libraryName);
m_UnmanagedCache.InsertEntry(&spec, hMod);
}
return ;
}
HMODULE AppDomain::FindUnmanagedImageInCache(LPCWSTR libraryName)
{
CONTRACT(HMODULE)
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
PRECONDITION(CheckPointer(libraryName,NULL_OK));
POSTCONDITION(CheckPointer(RETVAL,NULL_OK));
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACT_END;
if(libraryName == NULL) RETURN NULL;
AssemblySpec spec;
spec.SetCodeBase(libraryName);
RETURN (HMODULE) m_UnmanagedCache.LookupEntry(&spec, 0);
}
BOOL AppDomain::RemoveFileFromCache(PEAssembly *pFile)
{
CONTRACTL
{
GC_TRIGGERS;
PRECONDITION(CheckPointer(pFile));
}
CONTRACTL_END;
LoadLockHolder lock(this);
FileLoadLock *fileLock = (FileLoadLock *)lock->FindFileLock(pFile);
if (fileLock == NULL)
return FALSE;
VERIFY(lock->Unlink(fileLock));
fileLock->Release();
return TRUE;
}
BOOL AppDomain::RemoveAssemblyFromCache(DomainAssembly* pAssembly)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
PRECONDITION(CheckPointer(pAssembly));
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
CrstHolder holder(&m_DomainCacheCrst);
return m_AssemblyCache.RemoveAssembly(pAssembly);
}
BOOL AppDomain::IsCached(AssemblySpec *pSpec)
{
WRAPPER_NO_CONTRACT;
// Check to see if this fits our rather loose idea of a reference to mscorlib.
// If so, don't use fusion to bind it - do it ourselves.
if (pSpec->IsMscorlib())
return TRUE;
return m_AssemblyCache.Contains(pSpec);
}
void AppDomain::GetCacheAssemblyList(SetSHash<PTR_DomainAssembly>& assemblyList)
{
CrstHolder holder(&m_DomainCacheCrst);
m_AssemblyCache.GetAllAssemblies(assemblyList);
}
PEAssembly* AppDomain::FindCachedFile(AssemblySpec* pSpec, BOOL fThrow /*=TRUE*/)
{
CONTRACTL
{
if (fThrow) {
GC_TRIGGERS;
THROWS;
}
else {
GC_NOTRIGGER;
NOTHROW;
}
MODE_ANY;
}
CONTRACTL_END;
// Check to see if this fits our rather loose idea of a reference to mscorlib.
// If so, don't use fusion to bind it - do it ourselves.
if (fThrow && pSpec->IsMscorlib())
{
CONSISTENCY_CHECK(SystemDomain::System()->SystemAssembly() != NULL);
PEAssembly *pFile = SystemDomain::System()->SystemFile();
pFile->AddRef();
return pFile;
}
return m_AssemblyCache.LookupFile(pSpec, fThrow);
}
BOOL AppDomain::PostBindResolveAssembly(AssemblySpec *pPrePolicySpec,
AssemblySpec *pPostPolicySpec,
HRESULT hrBindResult,
AssemblySpec **ppFailedSpec)
{
STATIC_CONTRACT_THROWS;
STATIC_CONTRACT_GC_TRIGGERS;
PRECONDITION(CheckPointer(pPrePolicySpec));
PRECONDITION(CheckPointer(pPostPolicySpec));
PRECONDITION(CheckPointer(ppFailedSpec));
BOOL fFailure = TRUE;
*ppFailedSpec = pPrePolicySpec;
PEAssemblyHolder result;
if ((EEFileLoadException::GetFileLoadKind(hrBindResult) == kFileNotFoundException) ||
(hrBindResult == FUSION_E_REF_DEF_MISMATCH) ||
(hrBindResult == FUSION_E_INVALID_NAME))
{
result = TryResolveAssembly(*ppFailedSpec);
if (result != NULL && pPrePolicySpec->CanUseWithBindingCache() && result->CanUseWithBindingCache())
{
fFailure = FALSE;
// Given the post-policy resolve event construction of the CLR binder,
// chained managed resolve events can race with each other, therefore we do allow
// the adding of the result to fail. Checking for already chached specs
// is not an option as it would introduce another race window.
// The binder does a re-fetch of the
// original binding spec and therefore will not cause inconsistency here.
// For the purposes of the resolve event, failure to add to the cache still is a success.
AddFileToCache(pPrePolicySpec, result, TRUE /* fAllowFailure */);
if (*ppFailedSpec != pPrePolicySpec && pPostPolicySpec->CanUseWithBindingCache())
{
AddFileToCache(pPostPolicySpec, result, TRUE /* fAllowFailure */ );
}
}
}
return fFailure;
}
//----------------------------------------------------------------------------------------
// Helper class for hosted binder
class PEAssemblyAsPrivAssemblyInfo : public IUnknownCommon<ICLRPrivAssemblyInfo>
{
public:
//------------------------------------------------------------------------------------
// Ctor
PEAssemblyAsPrivAssemblyInfo(PEAssembly *pPEAssembly)
{
LIMITED_METHOD_CONTRACT;
STATIC_CONTRACT_THROWS;
if (pPEAssembly == nullptr)
ThrowHR(E_UNEXPECTED);
pPEAssembly->AddRef();
m_pPEAssembly = pPEAssembly;
}
//------------------------------------------------------------------------------------
// ICLRPrivAssemblyInfo methods
//------------------------------------------------------------------------------------
STDMETHOD(GetAssemblyName)(
__in DWORD cchBuffer,
__out_opt LPDWORD pcchBuffer,
__out_ecount_part_opt(cchBuffer, *pcchBuffer) LPWSTR wzBuffer)
{
CONTRACTL
{
NOTHROW;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END;
HRESULT hr = S_OK;
if ((cchBuffer == 0) != (wzBuffer == nullptr))
{
return E_INVALIDARG;
}
LPCUTF8 szName = m_pPEAssembly->GetSimpleName();
bool bIsAscii;
DWORD cchName;
IfFailRet(FString::Utf8_Unicode_Length(szName, &bIsAscii, &cchName));
if (cchBuffer < cchName + 1)
{
if (pcchBuffer != nullptr)
{
*pcchBuffer = cchName + 1;
}
return HRESULT_FROM_WIN32(ERROR_INSUFFICIENT_BUFFER);
}
else
{
IfFailRet(FString::Utf8_Unicode(szName, bIsAscii, wzBuffer, cchName));
if (pcchBuffer != nullptr)
{
*pcchBuffer = cchName;
}
return S_OK;
}
}
//------------------------------------------------------------------------------------
STDMETHOD(GetAssemblyVersion)(
USHORT *pMajor,
USHORT *pMinor,
USHORT *pBuild,
USHORT *pRevision)
{
WRAPPER_NO_CONTRACT;
return m_pPEAssembly->GetVersion(pMajor, pMinor, pBuild, pRevision);
}
//------------------------------------------------------------------------------------
STDMETHOD(GetAssemblyPublicKey)(
DWORD cbBuffer,
LPDWORD pcbBuffer,
BYTE *pbBuffer)
{
STATIC_CONTRACT_LIMITED_METHOD;
STATIC_CONTRACT_CAN_TAKE_LOCK;
VALIDATE_PTR_RET(pcbBuffer);
VALIDATE_CONDITION((pbBuffer == nullptr) == (cbBuffer == 0), return E_INVALIDARG);
HRESULT hr = S_OK;
EX_TRY
{
// Note: PEAssembly::GetPublicKey will return bogus data pointer when *pcbBuffer == 0
LPCVOID pbKey = m_pPEAssembly->GetPublicKey(pcbBuffer);
if (*pcbBuffer != 0)
{
if (pbBuffer != nullptr && cbBuffer >= *pcbBuffer)
{
memcpy(pbBuffer, pbKey, *pcbBuffer);
hr = S_OK;
}
else
{
hr = HRESULT_FROM_WIN32(ERROR_INSUFFICIENT_BUFFER);
}
}
else
{
hr = S_FALSE; // ==> No public key
}
}
EX_CATCH_HRESULT(hr);
return hr;
}
private:
ReleaseHolder<PEAssembly> m_pPEAssembly;
};
//-----------------------------------------------------------------------------------------------------------------
static HRESULT VerifyBindHelper(
ICLRPrivAssembly *pPrivAssembly,
IAssemblyName *pAssemblyName,
PEAssembly *pPEAssembly)
{
STATIC_CONTRACT_THROWS;
STATIC_CONTRACT_GC_TRIGGERS;
HRESULT hr = S_OK;
// Create an ICLRPrivAssemblyInfo to call to ICLRPrivAssembly::VerifyBind
NewHolder<PEAssemblyAsPrivAssemblyInfo> pPrivAssemblyInfoImpl = new PEAssemblyAsPrivAssemblyInfo(pPEAssembly);
ReleaseHolder<ICLRPrivAssemblyInfo> pPrivAssemblyInfo;
IfFailRet(pPrivAssemblyInfoImpl->QueryInterface(__uuidof(ICLRPrivAssemblyInfo), (LPVOID *)&pPrivAssemblyInfo));
pPrivAssemblyInfoImpl.SuppressRelease();
// Call VerifyBind to give the host a chance to reject the bind based on assembly image contents.
IfFailRet(pPrivAssembly->VerifyBind(pAssemblyName, pPrivAssembly, pPrivAssemblyInfo));
return hr;
}
//-----------------------------------------------------------------------------------------------------------------
HRESULT AppDomain::BindAssemblySpecForHostedBinder(
AssemblySpec * pSpec,
IAssemblyName * pAssemblyName,
ICLRPrivBinder * pBinder,
PEAssembly ** ppAssembly)
{
STANDARD_VM_CONTRACT;
PRECONDITION(CheckPointer(pSpec));
PRECONDITION(pSpec->GetAppDomain() == this);
PRECONDITION(CheckPointer(ppAssembly));
PRECONDITION(pSpec->GetCodeBase() == nullptr);
HRESULT hr = S_OK;
// The Fusion binder can throw (to preserve compat, since it will actually perform an assembly
// load as part of it's bind), so we need to be careful here to catch any FileNotFoundException
// objects if fThrowIfNotFound is false.
ReleaseHolder<ICLRPrivAssembly> pPrivAssembly;
// We return HRESULTs here on failure instead of throwing as failures here are not necessarily indicative
// of an actual application problem. Returning an error code is substantially faster than throwing, and
// should be used when possible.
IfFailRet(pBinder->BindAssemblyByName(pAssemblyName, &pPrivAssembly));
IfFailRet(BindHostedPrivAssembly(nullptr, pPrivAssembly, pAssemblyName, ppAssembly));
return S_OK;
}
//-----------------------------------------------------------------------------------------------------------------
HRESULT
AppDomain::BindHostedPrivAssembly(
PEAssembly * pParentAssembly,
ICLRPrivAssembly * pPrivAssembly,
IAssemblyName * pAssemblyName,
PEAssembly ** ppAssembly)
{
STANDARD_VM_CONTRACT;
PRECONDITION(CheckPointer(pPrivAssembly));
PRECONDITION(CheckPointer(ppAssembly));
HRESULT hr = S_OK;
*ppAssembly = nullptr;
// See if result has been previously loaded.
{
DomainAssembly* pDomainAssembly = FindAssembly(pPrivAssembly);
if (pDomainAssembly != nullptr)
{
*ppAssembly = clr::SafeAddRef(pDomainAssembly->GetFile());
}
}
if (*ppAssembly != nullptr)
{ // Already exists: ask the binder to verify and return the assembly.
return VerifyBindHelper(pPrivAssembly, pAssemblyName, *ppAssembly);
}
// Get the IL PEFile.
PEImageHolder pPEImageIL;
{
// Does not already exist, so get the resource for the assembly and load it.
DWORD dwImageType;
ReleaseHolder<ICLRPrivResource> pIResourceIL;
IfFailRet(pPrivAssembly->GetImageResource(ASSEMBLY_IMAGE_TYPE_IL, &dwImageType, &pIResourceIL));
_ASSERTE(dwImageType == ASSEMBLY_IMAGE_TYPE_IL);
pPEImageIL = PEImage::OpenImage(pIResourceIL, MDInternalImport_Default);
}
// See if an NI is available.
DWORD dwAvailableImages;
IfFailRet(pPrivAssembly->GetAvailableImageTypes(&dwAvailableImages));
_ASSERTE(dwAvailableImages & ASSEMBLY_IMAGE_TYPE_IL); // Just double checking that IL bit is always set.
// Get the NI PEFile if available.
PEImageHolder pPEImageNI;
if (dwAvailableImages & ASSEMBLY_IMAGE_TYPE_NATIVE)
{
DWORD dwImageType;
ReleaseHolder<ICLRPrivResource> pIResourceNI;
IfFailRet(pPrivAssembly->GetImageResource(ASSEMBLY_IMAGE_TYPE_NATIVE, &dwImageType, &pIResourceNI));
_ASSERTE(dwImageType == ASSEMBLY_IMAGE_TYPE_NATIVE || FAILED(hr));
pPEImageNI = PEImage::OpenImage(pIResourceNI, MDInternalImport_TrustedNativeImage);
}
_ASSERTE(pPEImageIL != nullptr);
// Create a PEAssembly using the IL and NI images.
PEAssemblyHolder pPEAssembly = PEAssembly::Open(pParentAssembly, pPEImageIL, pPEImageNI, pPrivAssembly);
// Ask the binder to verify.
IfFailRet(VerifyBindHelper(pPrivAssembly, pAssemblyName, pPEAssembly));
// The result.
*ppAssembly = pPEAssembly.Extract();
return S_OK;
} // AppDomain::BindHostedPrivAssembly
//---------------------------------------------------------------------------------------------------------------------
PEAssembly * AppDomain::BindAssemblySpec(
AssemblySpec * pSpec,
BOOL fThrowOnFileNotFound,
StackCrawlMark * pCallerStackMark,
BOOL fUseHostBinderIfAvailable)
{
STATIC_CONTRACT_THROWS;
STATIC_CONTRACT_GC_TRIGGERS;
PRECONDITION(CheckPointer(pSpec));
PRECONDITION(pSpec->GetAppDomain() == this);
PRECONDITION(this==::GetAppDomain());
GCX_PREEMP();
BOOL fForceReThrow = FALSE;
#if defined(FEATURE_COMINTEROP)
// Handle WinRT assemblies in the classic/hybrid scenario. If this is an AppX process,
// then this case will be handled by the previous block as part of the full set of
// available binding hosts.
if (pSpec->IsContentType_WindowsRuntime())
{
HRESULT hr = S_OK;
// Get the assembly display name.
ReleaseHolder<IAssemblyName> pAssemblyName;
IfFailThrow(pSpec->CreateFusionName(&pAssemblyName, TRUE, TRUE));
PEAssemblyHolder pAssembly;
EX_TRY
{
hr = BindAssemblySpecForHostedBinder(pSpec, pAssemblyName, m_pWinRtBinder, &pAssembly);
if (FAILED(hr))
goto EndTry2; // Goto end of try block.
EndTry2:;
}
// The combination of this conditional catch/ the following if statement which will throw reduces the count of exceptions
// thrown in scenarios where the exception does not escape the method. We cannot get rid of the try/catch block, as
// there are cases within some of the clrpriv binder's which throw.
// Note: In theory, FileNotFound should always come here as HRESULT, never as exception.
EX_CATCH_HRESULT_IF(hr,
!fThrowOnFileNotFound && Assembly::FileNotFound(hr))
if (FAILED(hr) && (fThrowOnFileNotFound || !Assembly::FileNotFound(hr)))
{
if (Assembly::FileNotFound(hr))
{
_ASSERTE(fThrowOnFileNotFound);
// Uses defaultScope
EEFileLoadException::Throw(pSpec, hr);
}
// WinRT type bind failures
_ASSERTE(pSpec->IsContentType_WindowsRuntime());
if (hr == HRESULT_FROM_WIN32(APPMODEL_ERROR_NO_PACKAGE)) // Returned by RoResolveNamespace when using 3rd party WinRT types in classic process
{
if (fThrowOnFileNotFound)
{ // Throw NotSupportedException (with custom message) wrapped by TypeLoadException to give user type name for diagnostics
// Note: TypeLoadException is equivalent of FileNotFound in WinRT world
EEMessageException ex(kNotSupportedException, IDS_EE_WINRT_THIRDPARTY_NOTSUPPORTED);
EX_THROW_WITH_INNER(EETypeLoadException, (pSpec->GetWinRtTypeNamespace(), pSpec->GetWinRtTypeClassName(), nullptr, nullptr, IDS_EE_WINRT_LOADFAILURE), &ex);
}
}
else if ((hr == CLR_E_BIND_UNRECOGNIZED_IDENTITY_FORMAT) || // Returned e.g. for WinRT type name without namespace
(hr == COR_E_PLATFORMNOTSUPPORTED)) // Using WinRT on pre-Win8 OS
{
if (fThrowOnFileNotFound)
{ // Throw ArgumentException/PlatformNotSupportedException wrapped by TypeLoadException to give user type name for diagnostics
// Note: TypeLoadException is equivalent of FileNotFound in WinRT world
EEMessageException ex(hr);
EX_THROW_WITH_INNER(EETypeLoadException, (pSpec->GetWinRtTypeNamespace(), pSpec->GetWinRtTypeClassName(), nullptr, nullptr, IDS_EE_WINRT_LOADFAILURE), &ex);
}
}
else
{
IfFailThrow(hr);
}
}
_ASSERTE((FAILED(hr) && !fThrowOnFileNotFound) || pAssembly != nullptr);
return pAssembly.Extract();
}
else
#endif // FEATURE_COMINTEROP
if (pSpec->HasUniqueIdentity())
{
HRESULT hrBindResult = S_OK;
PEAssemblyHolder result;
EX_TRY
{
if (!IsCached(pSpec))
{
{
bool fAddFileToCache = false;
// Use CoreClr's fusion alternative
CoreBindResult bindResult;
pSpec->Bind(this, fThrowOnFileNotFound, &bindResult, FALSE /* fNgenExplicitBind */, FALSE /* fExplicitBindToNativeImage */, pCallerStackMark);
hrBindResult = bindResult.GetHRBindResult();
if (bindResult.Found())
{
if (SystemDomain::SystemFile() && bindResult.IsMscorlib())
{
// Avoid rebinding to another copy of mscorlib
result = SystemDomain::SystemFile();
result.SuppressRelease(); // Didn't get a refcount
}
else
{
// IsSystem on the PEFile should be false, even for mscorlib satellites
result = PEAssembly::Open(&bindResult,
FALSE);
}
fAddFileToCache = true;
// Setup the reference to the binder, which performed the bind, into the AssemblySpec
ICLRPrivBinder* pBinder = result->GetBindingContext();
_ASSERTE(pBinder != NULL);
pSpec->SetBindingContext(pBinder);
}
if (fAddFileToCache)
{
if (pSpec->CanUseWithBindingCache() && result->CanUseWithBindingCache())
{
// Failure to add simply means someone else beat us to it. In that case
// the FindCachedFile call below (after catch block) will update result
// to the cached value.
AddFileToCache(pSpec, result, TRUE /*fAllowFailure*/);
}
}
else
{
_ASSERTE(fThrowOnFileNotFound == FALSE);
// Don't trigger the resolve event for the CoreLib satellite assembly. A misbehaving resolve event may
// return an assembly that does not match, and this can cause recursive resource lookups during error
// reporting. The CoreLib satellite assembly is loaded from relative locations based on the culture, see
// AssemblySpec::Bind().
if (!pSpec->IsMscorlibSatellite())
{
// Trigger the resolve event also for non-throw situation.
// However, this code path will behave as if the resolve handler has thrown,
// that is, not trigger an MDA.
AssemblySpec NewSpec(this);
AssemblySpec *pFailedSpec = NULL;
fForceReThrow = TRUE; // Managed resolve event handler can throw
// Purposly ignore return value
PostBindResolveAssembly(pSpec, &NewSpec, hrBindResult, &pFailedSpec);
}
}
}
}
}
EX_CATCH
{
Exception *ex = GET_EXCEPTION();
AssemblySpec NewSpec(this);
AssemblySpec *pFailedSpec = NULL;
// Let transient exceptions or managed resolve event handler exceptions propagate
if (ex->IsTransient() || fForceReThrow)
{
EX_RETHROW;
}
{
// This is not executed for SO exceptions so we need to disable the backout
// stack validation to prevent false violations from being reported.
DISABLE_BACKOUT_STACK_VALIDATION;
BOOL fFailure = PostBindResolveAssembly(pSpec, &NewSpec, ex->GetHR(), &pFailedSpec);
if (fFailure)
{
BOOL bFileNotFoundException =
(EEFileLoadException::GetFileLoadKind(ex->GetHR()) == kFileNotFoundException);
if (!bFileNotFoundException)
{
fFailure = AddExceptionToCache(pFailedSpec, ex);
} // else, fFailure stays TRUE
// Effectively, fFailure == bFileNotFoundException || AddExceptionToCache(pFailedSpec, ex)
// Only throw this exception if we are the first in the cache
if (fFailure)
{
//
// If the BindingFailure MDA is enabled, trigger one for this failure
// Note: TryResolveAssembly() can also throw if an AssemblyResolve event subscriber throws
// and the MDA isn't sent in this case (or for transient failure cases)
//
#ifdef MDA_SUPPORTED
MdaBindingFailure* pProbe = MDA_GET_ASSISTANT(BindingFailure);
if (pProbe)
{
// Transition to cooperative GC mode before using any OBJECTREFs.
GCX_COOP();
OBJECTREF exceptionObj = GET_THROWABLE();
GCPROTECT_BEGIN(exceptionObj)
{
pProbe->BindFailed(pFailedSpec, &exceptionObj);
}
GCPROTECT_END();
}
#endif
// In the same cases as for the MDA, store the failure information for DAC to read
if (IsDebuggerAttached()) {
FailedAssembly *pFailed = new FailedAssembly();
pFailed->Initialize(pFailedSpec, ex);
IfFailThrow(m_failedAssemblies.Append(pFailed));
}
if (!bFileNotFoundException || fThrowOnFileNotFound)
{
// V1.1 App-compatibility workaround. See VSW530166 if you want to whine about it.
//
// In Everett, if we failed to download an assembly because of a broken network cable,
// we returned a FileNotFoundException with a COR_E_FILENOTFOUND hr embedded inside
// (which would be exposed when marshaled to native.)
//
// In Whidbey, we now set the more appropriate INET_E_RESOURCE_NOT_FOUND hr. But
// the online/offline switch code in VSTO for Everett hardcoded a check for
// COR_E_FILENOTFOUND.
//
// So now, to keep that code from breaking, we have to remap INET_E_RESOURCE_NOT_FOUND
// back to COR_E_FILENOTFOUND. We're doing it here rather down in Fusion so as to affect
// the least number of callers.
if (ex->GetHR() == INET_E_RESOURCE_NOT_FOUND)
{
EEFileLoadException::Throw(pFailedSpec, COR_E_FILENOTFOUND, ex);
}
if (EEFileLoadException::CheckType(ex))
{
if (pFailedSpec == pSpec)
{
EX_RETHROW; //preserve the information
}
else
{
StackSString exceptionDisplayName, failedSpecDisplayName;
((EEFileLoadException*)ex)->GetName(exceptionDisplayName);
pFailedSpec->GetFileOrDisplayName(0, failedSpecDisplayName);
if (exceptionDisplayName.CompareCaseInsensitive(failedSpecDisplayName) == 0)
{
EX_RETHROW; // Throw the original exception. Otherwise, we'd throw an exception that contains the same message twice.
}
}
}
EEFileLoadException::Throw(pFailedSpec, ex->GetHR(), ex);
}
}
}
}
}
EX_END_CATCH(RethrowTerminalExceptions);
// Now, if it's a cacheable bind we need to re-fetch the result from the cache, as we may have been racing with another
// thread to store our result. Note that we may throw from here, if there is a cached exception.
// This will release the refcount of the current result holder (if any), and will replace
// it with a non-addref'ed result
if (pSpec->CanUseWithBindingCache() && (result== NULL || result->CanUseWithBindingCache()))
{
result = FindCachedFile(pSpec);
if (result != NULL)
result->AddRef();
}
return result.Extract();
}
else
{
// Unsupported content type
if (fThrowOnFileNotFound)
{
ThrowHR(COR_E_BADIMAGEFORMAT);
}
return nullptr;
}
} // AppDomain::BindAssemblySpec
PEAssembly *AppDomain::TryResolveAssembly(AssemblySpec *pSpec)
{
STATIC_CONTRACT_THROWS;
STATIC_CONTRACT_GC_TRIGGERS;
STATIC_CONTRACT_MODE_ANY;
PEAssembly *result = NULL;
EX_TRY
{
result = pSpec->ResolveAssemblyFile(this);
}
EX_HOOK
{
Exception *pEx = GET_EXCEPTION();
if (!pEx->IsTransient())
{
AddExceptionToCache(pSpec, pEx);
if (!EEFileLoadException::CheckType(pEx))
EEFileLoadException::Throw(pSpec, pEx->GetHR(), pEx);
}
}
EX_END_HOOK;
return result;
}
ULONG AppDomain::AddRef()
{
LIMITED_METHOD_CONTRACT;
return InterlockedIncrement(&m_cRef);
}
ULONG AppDomain::Release()
{
CONTRACTL
{
NOTHROW;
GC_TRIGGERS;
MODE_ANY;
PRECONDITION(m_cRef > 0);
}
CONTRACTL_END;
ULONG cRef = InterlockedDecrement(&m_cRef);
if (!cRef)
{
_ASSERTE (m_Stage == STAGE_CREATING);
ADID adid=GetId();
delete this;
TESTHOOKCALL(AppDomainDestroyed(adid.m_dwId));
}
return (cRef);
}
#ifndef CROSSGEN_COMPILE
void AppDomain::RaiseLoadingAssemblyEvent(DomainAssembly *pAssembly)
{
CONTRACTL
{
NOTHROW;
GC_TRIGGERS;
PRECONDITION(this == GetAppDomain());
MODE_ANY;
}
CONTRACTL_END;
GCX_COOP();
FAULT_NOT_FATAL();
OVERRIDE_TYPE_LOAD_LEVEL_LIMIT(CLASS_LOADED);
EX_TRY
{
struct _gc {
APPDOMAINREF AppDomainRef;
OBJECTREF orThis;
} gc;
ZeroMemory(&gc, sizeof(gc));
if ((gc.AppDomainRef = (APPDOMAINREF) GetRawExposedObject()) != NULL) {
if (gc.AppDomainRef->m_pAssemblyEventHandler != NULL)
{
ARG_SLOT args[2];
GCPROTECT_BEGIN(gc);
gc.orThis = pAssembly->GetExposedAssemblyObject();
MethodDescCallSite onAssemblyLoad(METHOD__APP_DOMAIN__ON_ASSEMBLY_LOAD, &gc.orThis);
// GetExposedAssemblyObject may cause a gc, so call this before filling args[0]
args[1] = ObjToArgSlot(gc.orThis);
args[0] = ObjToArgSlot(gc.AppDomainRef);
onAssemblyLoad.Call(args);
GCPROTECT_END();
}
}
}
EX_CATCH
{
}
EX_END_CATCH(SwallowAllExceptions);
}
BOOL AppDomain::OnUnhandledException(OBJECTREF *pThrowable, BOOL isTerminating/*=TRUE*/)
{
STATIC_CONTRACT_NOTHROW;
STATIC_CONTRACT_GC_TRIGGERS;
STATIC_CONTRACT_MODE_ANY;
BOOL retVal= FALSE;
GCX_COOP();
// The Everett behavior was to send the unhandled exception event only to the Default
// AppDomain (since that's the only place that exceptions actually went unhandled).
//
// During Whidbey development, we broadcast the event to all AppDomains in the process.
//
// But the official shipping Whidbey behavior is that the unhandled exception event is
// sent to the Default AppDomain and to whatever AppDomain the exception went unhandled
// in. To achieve this, we declare the exception to be unhandled *BEFORE* we marshal
// it back to the Default AppDomain at the base of the Finalizer, threadpool and managed
// threads.
//
// The rationale for sending the event to the Default AppDomain as well as the one the
// exception went unhandled in is:
//
// 1) This is compatible with the pre-Whidbey behavior, where only the Default AppDomain
// received the notification.
//
// 2) This is convenient for hosts, which don't want to bother injecting listeners into
// every single AppDomain.
AppDomain *pAppDomain = GetAppDomain();
OBJECTREF orSender = 0;
GCPROTECT_BEGIN(orSender);
orSender = pAppDomain->GetRawExposedObject();
retVal = pAppDomain->RaiseUnhandledExceptionEventNoThrow(&orSender, pThrowable, isTerminating);
GCPROTECT_END();
return retVal;
}
// Move outside of the AppDomain iteration, to avoid issues with the GC Frames being outside
// the domain transition. This is a chronic issue that causes us to report roots for an AppDomain
// after we have left it. This causes problems with AppDomain unloading that we only find
// with stress coverage..
void AppDomain::RaiseOneExitProcessEvent()
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_COOPERATIVE;
}
CONTRACTL_END;
struct _gc
{
APPDOMAINREF Domain;
OBJECTREF Delegate;
} gc;
ZeroMemory(&gc, sizeof(gc));
GCPROTECT_BEGIN(gc);
gc.Domain = (APPDOMAINREF) SystemDomain::GetCurrentDomain()->GetRawExposedObject();
if (gc.Domain != NULL)
{
gc.Delegate = gc.Domain->m_pProcessExitEventHandler;
if (gc.Delegate != NULL)
DistributeEvent(&gc.Delegate, (OBJECTREF *) &gc.Domain);
}
GCPROTECT_END();
}
// Local wrapper used in AppDomain::RaiseExitProcessEvent,
// introduced solely to avoid stack overflow because of _alloca in the loop.
// It's just factored out body of the loop, but it has to be a member method of AppDomain,
// because it calls private RaiseOneExitProcessEvent
/*static*/ void AppDomain::RaiseOneExitProcessEvent_Wrapper(AppDomainIterator* pi)
{
STATIC_CONTRACT_MODE_COOPERATIVE;
STATIC_CONTRACT_THROWS;
STATIC_CONTRACT_GC_TRIGGERS;
ENTER_DOMAIN_PTR(pi->GetDomain(), ADV_ITERATOR)
AppDomain::RaiseOneExitProcessEvent();
END_DOMAIN_TRANSITION;
}
static LONG s_ProcessedExitProcessEventCount = 0;
LONG GetProcessedExitProcessEventCount()
{
LIMITED_METHOD_CONTRACT;
return s_ProcessedExitProcessEventCount;
}
void AppDomain::RaiseExitProcessEvent()
{
if (!g_fEEStarted)
return;
STATIC_CONTRACT_MODE_COOPERATIVE;
STATIC_CONTRACT_THROWS;
STATIC_CONTRACT_GC_TRIGGERS;
// Only finalizer thread during shutdown can call this function.
_ASSERTE ((g_fEEShutDown&ShutDown_Finalize1) && GetThread() == FinalizerThread::GetFinalizerThread());
_ASSERTE (GetThread()->PreemptiveGCDisabled());
_ASSERTE (GetThread()->GetDomain()->IsDefaultDomain());
AppDomainIterator i(TRUE);
while (i.Next())
{
RaiseOneExitProcessEvent_Wrapper(&i);
FastInterlockIncrement(&s_ProcessedExitProcessEventCount);
}
}
BOOL
AppDomain::RaiseUnhandledExceptionEventNoThrow(OBJECTREF *pSender, OBJECTREF *pThrowable, BOOL isTerminating)
{
CONTRACTL
{
NOTHROW;
GC_TRIGGERS;
MODE_COOPERATIVE;
}
CONTRACTL_END;
BOOL bRetVal=FALSE;
EX_TRY
{
bRetVal = RaiseUnhandledExceptionEvent(pSender, pThrowable, isTerminating);
}
EX_CATCH
{
}
EX_END_CATCH(SwallowAllExceptions) // Swallow any errors.
return bRetVal;
}
BOOL
AppDomain::HasUnhandledExceptionEventHandler()
{
CONTRACTL
{
MODE_COOPERATIVE;
GC_NOTRIGGER; //essential
NOTHROW;
}
CONTRACTL_END;
if (GetRawExposedObject()==NULL)
return FALSE;
return (((APPDOMAINREF)GetRawExposedObject())->m_pUnhandledExceptionEventHandler!=NULL);
}
BOOL
AppDomain::RaiseUnhandledExceptionEvent(OBJECTREF *pSender, OBJECTREF *pThrowable, BOOL isTerminating)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_COOPERATIVE;
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
if (!HasUnhandledExceptionEventHandler())
return FALSE;
BOOL result = FALSE;
_ASSERTE(pThrowable != NULL && IsProtectedByGCFrame(pThrowable));
_ASSERTE(pSender != NULL && IsProtectedByGCFrame(pSender));
_ASSERTE(this == GetThread()->GetDomain());
OBJECTREF orDelegate = NULL;
GCPROTECT_BEGIN(orDelegate);
APPDOMAINREF orAD = (APPDOMAINREF) GetAppDomain()->GetRawExposedObject();
if (orAD != NULL)
{
orDelegate = orAD->m_pUnhandledExceptionEventHandler;
if (orDelegate != NULL)
{
result = TRUE;
DistributeUnhandledExceptionReliably(&orDelegate, pSender, pThrowable, isTerminating);
}
}
GCPROTECT_END();
return result;
}
#endif // CROSSGEN_COMPILE
IUnknown *AppDomain::CreateFusionContext()
{
CONTRACT(IUnknown *)
{
GC_TRIGGERS;
THROWS;
MODE_ANY;
POSTCONDITION(CheckPointer(RETVAL));
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACT_END;
if (!m_pFusionContext)
{
ETWOnStartup (FusionAppCtx_V1, FusionAppCtxEnd_V1);
CLRPrivBinderCoreCLR *pTPABinder = NULL;
GCX_PREEMP();
// Initialize the assembly binder for the default context loads for CoreCLR.
IfFailThrow(CCoreCLRBinderHelper::DefaultBinderSetupContext(GetId().m_dwId, &pTPABinder));
m_pFusionContext = reinterpret_cast<IUnknown *>(pTPABinder);
// By default, initial binding context setup for CoreCLR is also the TPABinding context
(m_pTPABinderContext = pTPABinder)->AddRef();
}
RETURN m_pFusionContext;
}
//---------------------------------------------------------------------------------------
//
// AppDomain::IsDebuggerAttached - is a debugger attached to this process
//
// Arguments:
// None
//
// Return Value:
// TRUE if a debugger is attached to this process, FALSE otherwise.
//
// Notes:
// This is identical to CORDebuggerAttached. This exists idependantly for legacy reasons - we used to
// support attaching to individual AppDomains. This should probably go away eventually.
//
BOOL AppDomain::IsDebuggerAttached()
{
LIMITED_METHOD_CONTRACT;
if (CORDebuggerAttached())
{
return TRUE;
}
else
{
return FALSE;
}
}
#ifdef DEBUGGING_SUPPORTED
// This is called from the debugger to request notification events from
// Assemblies, Modules, Types in this appdomain.
BOOL AppDomain::NotifyDebuggerLoad(int flags, BOOL attaching)
{
WRAPPER_NO_CONTRACT;
BOOL result = FALSE;
if (!attaching && !IsDebuggerAttached())
return FALSE;
AssemblyIterator i;
// Attach to our assemblies
LOG((LF_CORDB, LL_INFO100, "AD::NDA: Iterating assemblies\n"));
i = IterateAssembliesEx((AssemblyIterationFlags)(kIncludeLoaded | kIncludeLoading | kIncludeExecution));
CollectibleAssemblyHolder<DomainAssembly *> pDomainAssembly;
while (i.Next(pDomainAssembly.This()))
{
result = (pDomainAssembly->NotifyDebuggerLoad(flags, attaching) ||
result);
}
return result;
}
void AppDomain::NotifyDebuggerUnload()
{
WRAPPER_NO_CONTRACT;
if (!IsDebuggerAttached())
return;
LOG((LF_CORDB, LL_INFO10, "AD::NDD domain [%d] %#08x %ls\n",
GetId().m_dwId, this, GetFriendlyNameForLogging()));
LOG((LF_CORDB, LL_INFO100, "AD::NDD: Interating domain bound assemblies\n"));
AssemblyIterator i = IterateAssembliesEx((AssemblyIterationFlags)(kIncludeLoaded | kIncludeLoading | kIncludeExecution));
CollectibleAssemblyHolder<DomainAssembly *> pDomainAssembly;
// Detach from our assemblies
while (i.Next(pDomainAssembly.This()))
{
LOG((LF_CORDB, LL_INFO100, "AD::NDD: Iterating assemblies\n"));
pDomainAssembly->NotifyDebuggerUnload();
}
}
#endif // DEBUGGING_SUPPORTED
void AppDomain::SetSystemAssemblyLoadEventSent(BOOL fFlag)
{
LIMITED_METHOD_CONTRACT;
if (fFlag == TRUE)
m_dwFlags |= LOAD_SYSTEM_ASSEMBLY_EVENT_SENT;
else
m_dwFlags &= ~LOAD_SYSTEM_ASSEMBLY_EVENT_SENT;
}
BOOL AppDomain::WasSystemAssemblyLoadEventSent(void)
{
LIMITED_METHOD_CONTRACT;
return ((m_dwFlags & LOAD_SYSTEM_ASSEMBLY_EVENT_SENT) == 0) ? FALSE : TRUE;
}
#ifndef CROSSGEN_COMPILE
#ifdef FEATURE_COMINTEROP
RCWRefCache *AppDomain::GetRCWRefCache()
{
CONTRACT(RCWRefCache*)
{
THROWS;
GC_NOTRIGGER;
MODE_ANY;
POSTCONDITION(CheckPointer(RETVAL));
}
CONTRACT_END;
if (!m_pRCWRefCache) {
NewHolder<RCWRefCache> pRCWRefCache = new RCWRefCache(this);
if (FastInterlockCompareExchangePointer(&m_pRCWRefCache, (RCWRefCache *)pRCWRefCache, NULL) == NULL)
{
pRCWRefCache.SuppressRelease();
}
}
RETURN m_pRCWRefCache;
}
RCWCache *AppDomain::CreateRCWCache()
{
CONTRACT(RCWCache*)
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
INJECT_FAULT(COMPlusThrowOM(););
POSTCONDITION(CheckPointer(RETVAL));
}
CONTRACT_END;
// Initialize the global RCW cleanup list here as well. This is so that it
// it guaranteed to exist if any RCW's are created, but it is not created
// unconditionally.
if (!g_pRCWCleanupList)
{
SystemDomain::LockHolder lh;
if (!g_pRCWCleanupList)
g_pRCWCleanupList = new RCWCleanupList();
}
_ASSERTE(g_pRCWCleanupList);
{
BaseDomain::LockHolder lh(this);
if (!m_pRCWCache)
m_pRCWCache = new RCWCache(this);
}
RETURN m_pRCWCache;
}
void AppDomain::ReleaseRCWs(LPVOID pCtxCookie)
{
WRAPPER_NO_CONTRACT;
if (m_pRCWCache)
m_pRCWCache->ReleaseWrappersWorker(pCtxCookie);
RemoveWinRTFactoryObjects(pCtxCookie);
}
void AppDomain::DetachRCWs()
{
WRAPPER_NO_CONTRACT;
if (m_pRCWCache)
m_pRCWCache->DetachWrappersWorker();
}
#endif // FEATURE_COMINTEROP
void AppDomain::ExceptionUnwind(Frame *pFrame)
{
CONTRACTL
{
DISABLED(GC_TRIGGERS); // EEResourceException
DISABLED(THROWS); // EEResourceException
MODE_ANY;
}
CONTRACTL_END;
LOG((LF_APPDOMAIN, LL_INFO10, "AppDomain::ExceptionUnwind for %8.8x\n", pFrame));
#if _DEBUG_ADUNLOAD
printf("%x AppDomain::ExceptionUnwind for %8.8p\n", GetThread()->GetThreadId(), pFrame);
#endif
Thread *pThread = GetThread();
_ASSERTE(pThread);
LOG((LF_APPDOMAIN, LL_INFO10, "AppDomain::ExceptionUnwind: not first transition or abort\n"));
}
BOOL AppDomain::StopEEAndUnwindThreads(unsigned int retryCount, BOOL *pFMarkUnloadRequestThread)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
SO_INTOLERANT;
}
CONTRACTL_END;
Thread *pThread = NULL;
DWORD nThreadsNeedMoreWork=0;
if (retryCount != (unsigned int)-1 && retryCount < g_pConfig->AppDomainUnloadRetryCount())
{
Thread *pCurThread = GetThread();
if (pCurThread->CatchAtSafePoint())
pCurThread->PulseGCMode();
m_dwThreadsStillInAppDomain=nThreadsNeedMoreWork;
return !nThreadsNeedMoreWork;
}
// For now piggyback on the GC's suspend EE mechanism
ThreadSuspend::SuspendEE(ThreadSuspend::SUSPEND_FOR_APPDOMAIN_SHUTDOWN);
#ifdef _DEBUG
// <TODO>@todo: what to do with any threads that didn't stop?</TODO>
_ASSERTE(ThreadStore::s_pThreadStore->DbgBackgroundThreadCount() > 0);
#endif // _DEBUG
int totalADCount = 0;
int finalizerADCount = 0;
pThread = NULL;
RuntimeExceptionKind reKind = kLastException;
UINT resId = 0;
SmallStackSString ssThreadId;
while ((pThread = ThreadStore::GetThreadList(pThread)) != NULL)
{
// we already checked that we're not running in the unload domain
if (pThread == GetThread())
{
continue;
}
#ifdef _DEBUG
void PrintStackTraceWithADToLog(Thread *pThread);
if (LoggingOn(LF_APPDOMAIN, LL_INFO100)) {
LOG((LF_APPDOMAIN, LL_INFO100, "\nStackTrace for %x\n", pThread->GetThreadId()));
PrintStackTraceWithADToLog(pThread);
}
#endif // _DEBUG
int count = 0;
Frame *pFrame = pThread->GetFirstTransitionInto(this, &count);
if (! pFrame) {
_ASSERTE(count == 0);
continue;
}
if (pThread != FinalizerThread::GetFinalizerThread())
{
totalADCount += count;
nThreadsNeedMoreWork++;
}
else
{
finalizerADCount = count;
}
// don't setup the exception info for the unloading thread unless it's the last one in
if (retryCount != ((unsigned int) -1) && retryCount > g_pConfig->AppDomainUnloadRetryCount() && reKind == kLastException)
{
#ifdef AD_BREAK_ON_CANNOT_UNLOAD
static int breakOnCannotUnload = CLRConfig::GetConfigValue(CLRConfig::INTERNAL_ADBreakOnCannotUnload);
if (breakOnCannotUnload)
_ASSERTE(!"Cannot unload AD");
#endif // AD_BREAK_ON_CANNOT_UNLOAD
reKind = kCannotUnloadAppDomainException;
resId = IDS_EE_ADUNLOAD_CANT_UNWIND_THREAD;
ssThreadId.Printf(W("%x"), pThread->GetThreadId());
STRESS_LOG2(LF_APPDOMAIN, LL_INFO10, "AppDomain::UnwindThreads cannot stop thread %x with %d transitions\n", pThread->GetThreadId(), count);
// don't break out of this early or the assert totalADCount == (int)m_dwThreadEnterCount below will fire
// it's better to chew a little extra time here and make sure our counts are consistent
}
// only abort the thread requesting the unload if it's the last one in, that way it will get
// notification that the unload failed for some other thread not being aborted. And don't abort
// the finalizer thread - let it finish it's work as it's allowed to be in there. If it won't finish,
// then we will eventually get a CannotUnloadException on it.
if (pThread != FinalizerThread::GetFinalizerThread())
{
STRESS_LOG2(LF_APPDOMAIN, LL_INFO100, "AppDomain::UnwindThreads stopping %x with %d transitions\n", pThread->GetThreadId(), count);
LOG((LF_APPDOMAIN, LL_INFO100, "AppDomain::UnwindThreads stopping %x with %d transitions\n", pThread->GetThreadId(), count));
#if _DEBUG_ADUNLOAD
printf("AppDomain::UnwindThreads %x stopping %x with first frame %8.8p\n", GetThread()->GetThreadId(), pThread->GetThreadId(), pFrame);
#endif
pThread->SetAbortRequest(EEPolicy::TA_V1Compatible);
}
TESTHOOKCALL(UnwindingThreads(GetId().m_dwId)) ;
}
_ASSERTE(totalADCount + finalizerADCount == (int)m_dwThreadEnterCount);
//@TODO: This is intended to catch a stress bug. Remove when no longer needed.
if (totalADCount + finalizerADCount != (int)m_dwThreadEnterCount)
FreeBuildDebugBreak();
// if our count did get messed up, set it to whatever count we actually found in the domain to avoid looping
// or other problems related to incorrect count. This is very much a bug if this happens - a thread should always
// exit the domain gracefully.
// m_dwThreadEnterCount = totalADCount;
// CommonTripThread will handle the abort for any threads that we've marked
ThreadSuspend::RestartEE(FALSE, TRUE);
if (reKind != kLastException)
COMPlusThrow(reKind, resId, ssThreadId.GetUnicode());
_ASSERTE((totalADCount==0 && nThreadsNeedMoreWork==0) ||(totalADCount!=0 && nThreadsNeedMoreWork!=0));
m_dwThreadsStillInAppDomain=nThreadsNeedMoreWork;
return (totalADCount == 0);
}
void AppDomain::UnwindThreads()
{
// This function should guarantee appdomain
// consistency even if it fails. Everything that is going
// to make the appdomain impossible to reenter
// should be factored out
// <TODO>@todo: need real synchronization here!!!</TODO>
CONTRACTL
{
MODE_COOPERATIVE;
THROWS;
GC_TRIGGERS;
}
CONTRACTL_END;
int retryCount = -1;
m_dwThreadsStillInAppDomain=(ULONG)-1;
ULONGLONG startTime = CLRGetTickCount64();
// Force threads to go through slow path during AD unload.
TSSuspendHolder shTrap;
BOOL fMarkUnloadRequestThread = TRUE;
// now wait for all the threads running in our AD to get out
do
{
DWORD timeout = GetEEPolicy()->GetTimeout(OPR_AppDomainUnload);
EPolicyAction action = GetEEPolicy()->GetActionOnTimeout(OPR_AppDomainUnload, NULL);
if (timeout != INFINITE && action >= eExitProcess) {
// Escalation policy specified.
ULONGLONG curTime = CLRGetTickCount64();
ULONGLONG elapseTime = curTime - startTime;
if (elapseTime > timeout)
{
// Escalate
switch (action)
{
case eExitProcess:
case eFastExitProcess:
case eRudeExitProcess:
case eDisableRuntime:
GetEEPolicy()->NotifyHostOnTimeout(OPR_AppDomainUnload, action);
EEPolicy::HandleExitProcessFromEscalation(action, HOST_E_EXITPROCESS_TIMEOUT);
_ASSERTE (!"Should not reach here");
break;
default:
break;
}
}
}
#ifdef _DEBUG
if (LoggingOn(LF_APPDOMAIN, LL_INFO100))
DumpADThreadTrack();
#endif // _DEBUG
if (StopEEAndUnwindThreads(retryCount, &fMarkUnloadRequestThread))
break;
if (timeout != INFINITE)
{
// Turn off the timeout used by AD.
retryCount = 1;
}
else
{
// GCStress takes a long time to unwind, due to expensive creation of
// a threadabort exception.
if (!GCStress<cfg_any>::IsEnabled())
++retryCount;
LOG((LF_APPDOMAIN, LL_INFO10, "AppDomain::UnwindThreads iteration %d waiting on thread count %d\n", retryCount, m_dwThreadEnterCount));
#if _DEBUG_ADUNLOAD
printf("AppDomain::UnwindThreads iteration %d waiting on thread count %d\n", retryCount, m_dwThreadEnterCount);
#endif
}
if (m_dwThreadEnterCount != 0)
{
#ifdef _DEBUG
GetThread()->UserSleep(20);
#else // !_DEBUG
GetThread()->UserSleep(10);
#endif // !_DEBUG
}
}
while (TRUE) ;
}
#ifdef _DEBUG
void AppDomain::TrackADThreadEnter(Thread *pThread, Frame *pFrame)
{
CONTRACTL
{
NOTHROW;
GC_NOTRIGGER;
// REENTRANT
PRECONDITION(CheckPointer(pThread));
PRECONDITION(pFrame != (Frame*)(size_t) INVALID_POINTER_CD);
}
CONTRACTL_END;
while (FastInterlockCompareExchange((LONG*)&m_TrackSpinLock, 1, 0) != 0)
;
if (m_pThreadTrackInfoList == NULL)
m_pThreadTrackInfoList = new (nothrow) ThreadTrackInfoList;
// If we don't assert here, we will AV in the for loop below
_ASSERTE(m_pThreadTrackInfoList);
ThreadTrackInfoList *pTrackList= m_pThreadTrackInfoList;
ThreadTrackInfo *pTrack = NULL;
int i;
for (i=0; i < pTrackList->Count(); i++) {
if ((*(pTrackList->Get(i)))->pThread == pThread) {
pTrack = *(pTrackList->Get(i));
break;
}
}
if (! pTrack) {
pTrack = new (nothrow) ThreadTrackInfo;
// If we don't assert here, we will AV in the for loop below.
_ASSERTE(pTrack);
pTrack->pThread = pThread;
ThreadTrackInfo **pSlot = pTrackList->Append();
*pSlot = pTrack;
}
InterlockedIncrement((LONG*)&m_dwThreadEnterCount);
Frame **pSlot;
if (pTrack)
{
pSlot = pTrack->frameStack.Insert(0);
*pSlot = pFrame;
}
int totThreads = 0;
for (i=0; i < pTrackList->Count(); i++)
totThreads += (*(pTrackList->Get(i)))->frameStack.Count();
_ASSERTE(totThreads == (int)m_dwThreadEnterCount);
InterlockedExchange((LONG*)&m_TrackSpinLock, 0);
}
void AppDomain::TrackADThreadExit(Thread *pThread, Frame *pFrame)
{
CONTRACTL
{
if (GetThread()) {MODE_COOPERATIVE;}
NOTHROW;
GC_NOTRIGGER;
}
CONTRACTL_END;
while (FastInterlockCompareExchange((LONG*)&m_TrackSpinLock, 1, 0) != 0)
;
ThreadTrackInfoList *pTrackList= m_pThreadTrackInfoList;
_ASSERTE(pTrackList);
ThreadTrackInfo *pTrack = NULL;
int i;
for (i=0; i < pTrackList->Count(); i++)
{
if ((*(pTrackList->Get(i)))->pThread == pThread)
{
pTrack = *(pTrackList->Get(i));
break;
}
}
_ASSERTE(pTrack);
_ASSERTE(*(pTrack->frameStack.Get(0)) == pFrame);
pTrack->frameStack.Delete(0);
InterlockedDecrement((LONG*)&m_dwThreadEnterCount);
int totThreads = 0;
for (i=0; i < pTrackList->Count(); i++)
totThreads += (*(pTrackList->Get(i)))->frameStack.Count();
_ASSERTE(totThreads == (int)m_dwThreadEnterCount);
InterlockedExchange((LONG*)&m_TrackSpinLock, 0);
}
void AppDomain::DumpADThreadTrack()
{
CONTRACTL
{
NOTHROW;
GC_NOTRIGGER;
MODE_COOPERATIVE;
}
CONTRACTL_END;
while (FastInterlockCompareExchange((LONG*)&m_TrackSpinLock, 1, 0) != 0)
;
ThreadTrackInfoList *pTrackList= m_pThreadTrackInfoList;
if (!pTrackList)
goto end;
{
LOG((LF_APPDOMAIN, LL_INFO10000, "\nThread dump of %d threads for [%d] %#08x %S\n",
m_dwThreadEnterCount, GetId().m_dwId, this, GetFriendlyNameForLogging()));
int totThreads = 0;
for (int i=0; i < pTrackList->Count(); i++)
{
ThreadTrackInfo *pTrack = *(pTrackList->Get(i));
if (pTrack->frameStack.Count()==0)
continue;
LOG((LF_APPDOMAIN, LL_INFO100, " ADEnterCount for %x is %d\n", pTrack->pThread->GetThreadId(), pTrack->frameStack.Count()));
totThreads += pTrack->frameStack.Count();
for (int j=0; j < pTrack->frameStack.Count(); j++)
LOG((LF_APPDOMAIN, LL_INFO100, " frame %8.8x\n", *(pTrack->frameStack.Get(j))));
}
_ASSERTE(totThreads == (int)m_dwThreadEnterCount);
}
end:
InterlockedExchange((LONG*)&m_TrackSpinLock, 0);
}
#endif // _DEBUG
#endif // CROSSGEN_COMPILE
#endif // !DACCESS_COMPILE
DWORD DomainLocalModule::GetClassFlags(MethodTable* pMT, DWORD iClassIndex /*=(DWORD)-1*/)
{
CONTRACTL {
NOTHROW;
GC_NOTRIGGER;
SO_TOLERANT;
} CONTRACTL_END;
{ // SO tolerance exception for debug-only assertion.
CONTRACT_VIOLATION(SOToleranceViolation);
CONSISTENCY_CHECK(GetDomainFile()->GetModule() == pMT->GetModuleForStatics());
}
if (pMT->IsDynamicStatics())
{
_ASSERTE(!pMT->ContainsGenericVariables());
DWORD dynamicClassID = pMT->GetModuleDynamicEntryID();
if(m_aDynamicEntries <= dynamicClassID)
return FALSE;
return (m_pDynamicClassTable[dynamicClassID].m_dwFlags);
}
else
{
if (iClassIndex == (DWORD)-1)
iClassIndex = pMT->GetClassIndex();
return GetPrecomputedStaticsClassData()[iClassIndex];
}
}
#ifndef DACCESS_COMPILE
void DomainLocalModule::SetClassInitialized(MethodTable* pMT)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END;
BaseDomain::DomainLocalBlockLockHolder lh(GetDomainFile()->GetAppDomain());
_ASSERTE(!IsClassInitialized(pMT));
_ASSERTE(!IsClassInitError(pMT));
SetClassFlags(pMT, ClassInitFlags::INITIALIZED_FLAG);
}
void DomainLocalModule::SetClassInitError(MethodTable* pMT)
{
WRAPPER_NO_CONTRACT;
BaseDomain::DomainLocalBlockLockHolder lh(GetDomainFile()->GetAppDomain());
SetClassFlags(pMT, ClassInitFlags::ERROR_FLAG);
}
void DomainLocalModule::SetClassFlags(MethodTable* pMT, DWORD dwFlags)
{
CONTRACTL {
THROWS;
GC_TRIGGERS;
PRECONDITION(GetDomainFile()->GetModule() == pMT->GetModuleForStatics());
// Assumes BaseDomain::DomainLocalBlockLockHolder is taken
PRECONDITION(GetDomainFile()->GetAppDomain()->OwnDomainLocalBlockLock());
} CONTRACTL_END;
if (pMT->IsDynamicStatics())
{
_ASSERTE(!pMT->ContainsGenericVariables());
DWORD dwID = pMT->GetModuleDynamicEntryID();
EnsureDynamicClassIndex(dwID);
m_pDynamicClassTable[dwID].m_dwFlags |= dwFlags;
}
else
{
GetPrecomputedStaticsClassData()[pMT->GetClassIndex()] |= dwFlags;
}
}
void DomainLocalModule::EnsureDynamicClassIndex(DWORD dwID)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
INJECT_FAULT(COMPlusThrowOM(););
// Assumes BaseDomain::DomainLocalBlockLockHolder is taken
PRECONDITION(GetDomainFile()->GetAppDomain()->OwnDomainLocalBlockLock());
}
CONTRACTL_END;
if (dwID < m_aDynamicEntries)
{
_ASSERTE(m_pDynamicClassTable.Load() != NULL);
return;
}
SIZE_T aDynamicEntries = max(16, m_aDynamicEntries.Load());
while (aDynamicEntries <= dwID)
{
aDynamicEntries *= 2;
}
DynamicClassInfo* pNewDynamicClassTable;
pNewDynamicClassTable = (DynamicClassInfo*)
(void*)GetDomainFile()->GetLoaderAllocator()->GetHighFrequencyHeap()->AllocMem(
S_SIZE_T(sizeof(DynamicClassInfo)) * S_SIZE_T(aDynamicEntries));
memcpy(pNewDynamicClassTable, m_pDynamicClassTable, sizeof(DynamicClassInfo) * m_aDynamicEntries);
// Note: Memory allocated on loader heap is zero filled
// memset(pNewDynamicClassTable + m_aDynamicEntries, 0, (aDynamicEntries - m_aDynamicEntries) * sizeof(DynamicClassInfo));
_ASSERTE(m_aDynamicEntries%2 == 0);
// Commit new dynamic table. The lock-free helpers depend on the order.
MemoryBarrier();
m_pDynamicClassTable = pNewDynamicClassTable;
MemoryBarrier();
m_aDynamicEntries = aDynamicEntries;
}
#ifndef CROSSGEN_COMPILE
void DomainLocalModule::AllocateDynamicClass(MethodTable *pMT)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
// Assumes BaseDomain::DomainLocalBlockLockHolder is taken
PRECONDITION(GetDomainFile()->GetAppDomain()->OwnDomainLocalBlockLock());
}
CONTRACTL_END;
_ASSERTE(!pMT->ContainsGenericVariables());
_ASSERTE(!pMT->IsSharedByGenericInstantiations());
_ASSERTE(GetDomainFile()->GetModule() == pMT->GetModuleForStatics());
_ASSERTE(pMT->IsDynamicStatics());
DWORD dynamicEntryIDIndex = pMT->GetModuleDynamicEntryID();
EnsureDynamicClassIndex(dynamicEntryIDIndex);
_ASSERTE(m_aDynamicEntries > dynamicEntryIDIndex);
EEClass *pClass = pMT->GetClass();
DWORD dwStaticBytes = pClass->GetNonGCRegularStaticFieldBytes();
DWORD dwNumHandleStatics = pClass->GetNumHandleRegularStatics();
_ASSERTE(!IsClassAllocated(pMT));
_ASSERTE(!IsClassInitialized(pMT));
_ASSERTE(!IsClassInitError(pMT));
DynamicEntry *pDynamicStatics = m_pDynamicClassTable[dynamicEntryIDIndex].m_pDynamicEntry;
// We need this check because maybe a class had a cctor but no statics
if (dwStaticBytes > 0 || dwNumHandleStatics > 0)
{
if (pDynamicStatics == NULL)
{
LoaderHeap * pLoaderAllocator = GetDomainFile()->GetLoaderAllocator()->GetHighFrequencyHeap();
if (pMT->Collectible())
{
pDynamicStatics = (DynamicEntry*)(void*)pLoaderAllocator->AllocMem(S_SIZE_T(sizeof(CollectibleDynamicEntry)));
}
else
{
SIZE_T dynamicEntrySize = DynamicEntry::GetOffsetOfDataBlob() + dwStaticBytes;
#ifdef FEATURE_64BIT_ALIGNMENT
// Allocate memory with extra alignment only if it is really necessary
if (dwStaticBytes >= MAX_PRIMITIVE_FIELD_SIZE)
{
static_assert_no_msg(sizeof(NormalDynamicEntry) % MAX_PRIMITIVE_FIELD_SIZE == 0);
pDynamicStatics = (DynamicEntry*)(void*)pLoaderAllocator->AllocAlignedMem(dynamicEntrySize, MAX_PRIMITIVE_FIELD_SIZE);
}
else
#endif
pDynamicStatics = (DynamicEntry*)(void*)pLoaderAllocator->AllocMem(S_SIZE_T(dynamicEntrySize));
}
// Note: Memory allocated on loader heap is zero filled
m_pDynamicClassTable[dynamicEntryIDIndex].m_pDynamicEntry = pDynamicStatics;
}
if (pMT->Collectible() && (dwStaticBytes != 0))
{
GCX_COOP();
OBJECTREF nongcStaticsArray = NULL;
GCPROTECT_BEGIN(nongcStaticsArray);
#ifdef FEATURE_64BIT_ALIGNMENT
// Allocate memory with extra alignment only if it is really necessary
if (dwStaticBytes >= MAX_PRIMITIVE_FIELD_SIZE)
nongcStaticsArray = AllocatePrimitiveArray(ELEMENT_TYPE_I8, (dwStaticBytes + (sizeof(CLR_I8)-1)) / (sizeof(CLR_I8)));
else
#endif
nongcStaticsArray = AllocatePrimitiveArray(ELEMENT_TYPE_U1, dwStaticBytes);
((CollectibleDynamicEntry *)pDynamicStatics)->m_hNonGCStatics = GetDomainFile()->GetModule()->GetLoaderAllocator()->AllocateHandle(nongcStaticsArray);
GCPROTECT_END();
}
if (dwNumHandleStatics > 0)
{
if (!pMT->Collectible())
{
GetAppDomain()->AllocateStaticFieldObjRefPtrs(dwNumHandleStatics,
&((NormalDynamicEntry *)pDynamicStatics)->m_pGCStatics);
}
else
{
GCX_COOP();
OBJECTREF gcStaticsArray = NULL;
GCPROTECT_BEGIN(gcStaticsArray);
gcStaticsArray = AllocateObjectArray(dwNumHandleStatics, g_pObjectClass);
((CollectibleDynamicEntry *)pDynamicStatics)->m_hGCStatics = GetDomainFile()->GetModule()->GetLoaderAllocator()->AllocateHandle(gcStaticsArray);
GCPROTECT_END();
}
}
}
}
void DomainLocalModule::PopulateClass(MethodTable *pMT)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
}
CONTRACTL_END;
_ASSERTE(!pMT->ContainsGenericVariables());
// <todo> the only work actually done here for non-dynamics is the freezing related work.
// See if we can eliminate this and make this a dynamic-only path </todo>
DWORD iClassIndex = pMT->GetClassIndex();
if (!IsClassAllocated(pMT, iClassIndex))
{
BaseDomain::DomainLocalBlockLockHolder lh(GetDomainFile()->GetAppDomain());
if (!IsClassAllocated(pMT, iClassIndex))
{
// Allocate dynamic space if necessary
if (pMT->IsDynamicStatics())
AllocateDynamicClass(pMT);
// determine flags to set on the statics block
DWORD dwFlags = ClassInitFlags::ALLOCATECLASS_FLAG;
if (!pMT->HasClassConstructor() && !pMT->HasBoxedRegularStatics())
{
_ASSERTE(!IsClassInitialized(pMT));
_ASSERTE(!IsClassInitError(pMT));
dwFlags |= ClassInitFlags::INITIALIZED_FLAG;
}
if (pMT->Collectible())
{
dwFlags |= ClassInitFlags::COLLECTIBLE_FLAG;
}
// Set all flags at the same time to avoid races
SetClassFlags(pMT, dwFlags);
}
}
return;
}
#endif // CROSSGEN_COMPILE
void DomainLocalBlock::EnsureModuleIndex(ModuleIndex index)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
INJECT_FAULT(COMPlusThrowOM(););
// Assumes BaseDomain::DomainLocalBlockLockHolder is taken
PRECONDITION(m_pDomain->OwnDomainLocalBlockLock());
}
CONTRACTL_END;
if (m_aModuleIndices > index.m_dwIndex)
{
_ASSERTE(m_pModuleSlots != NULL);
return;
}
SIZE_T aModuleIndices = max(16, m_aModuleIndices);
while (aModuleIndices <= index.m_dwIndex)
{
aModuleIndices *= 2;
}
PTR_DomainLocalModule* pNewModuleSlots = (PTR_DomainLocalModule*) (void*)m_pDomain->GetHighFrequencyHeap()->AllocMem(S_SIZE_T(sizeof(PTR_DomainLocalModule)) * S_SIZE_T(aModuleIndices));
memcpy(pNewModuleSlots, m_pModuleSlots, sizeof(SIZE_T)*m_aModuleIndices);
// Note: Memory allocated on loader heap is zero filled
// memset(pNewModuleSlots + m_aModuleIndices, 0 , (aModuleIndices - m_aModuleIndices)*sizeof(PTR_DomainLocalModule) );
// Commit new table. The lock-free helpers depend on the order.
MemoryBarrier();
m_pModuleSlots = pNewModuleSlots;
MemoryBarrier();
m_aModuleIndices = aModuleIndices;
}
void DomainLocalBlock::SetModuleSlot(ModuleIndex index, PTR_DomainLocalModule pLocalModule)
{
// Need to synchronize with table growth in this domain
BaseDomain::DomainLocalBlockLockHolder lh(m_pDomain);
EnsureModuleIndex(index);
_ASSERTE(index.m_dwIndex < m_aModuleIndices);
// We would like this assert here, unfortunately, loading a module in this appdomain can fail
// after here and we will keep the module around and reuse the slot when we retry (if
// the failure happened due to a transient error, such as OOM). In that case the slot wont
// be null.
//_ASSERTE(m_pModuleSlots[index.m_dwIndex] == 0);
m_pModuleSlots[index.m_dwIndex] = pLocalModule;
}
#ifndef CROSSGEN_COMPILE
DomainAssembly* AppDomain::RaiseTypeResolveEventThrowing(DomainAssembly* pAssembly, LPCSTR szName, ASSEMBLYREF *pResultingAssemblyRef)
{
CONTRACTL
{
MODE_ANY;
GC_TRIGGERS;
THROWS;
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACTL_END;
OVERRIDE_TYPE_LOAD_LEVEL_LIMIT(CLASS_LOADED);
DomainAssembly* pResolvedAssembly = NULL;
_ASSERTE(strcmp(szName, g_AppDomainClassName));
GCX_COOP();
struct _gc {
OBJECTREF AppDomainRef;
OBJECTREF AssemblyRef;
STRINGREF str;
} gc;
ZeroMemory(&gc, sizeof(gc));
GCPROTECT_BEGIN(gc);
if ((gc.AppDomainRef = GetRawExposedObject()) != NULL)
{
if (pAssembly != NULL)
gc.AssemblyRef = pAssembly->GetExposedAssemblyObject();
MethodDescCallSite onTypeResolve(METHOD__APP_DOMAIN__ON_TYPE_RESOLVE, &gc.AppDomainRef);
gc.str = StringObject::NewString(szName);
ARG_SLOT args[3] =
{
ObjToArgSlot(gc.AppDomainRef),
ObjToArgSlot(gc.AssemblyRef),
ObjToArgSlot(gc.str)
};
ASSEMBLYREF ResultingAssemblyRef = (ASSEMBLYREF) onTypeResolve.Call_RetOBJECTREF(args);
if (ResultingAssemblyRef != NULL)
{
pResolvedAssembly = ResultingAssemblyRef->GetDomainAssembly();
if (pResultingAssemblyRef)
*pResultingAssemblyRef = ResultingAssemblyRef;
else
{
if (pResolvedAssembly->IsCollectible())
{
COMPlusThrow(kNotSupportedException, W("NotSupported_CollectibleBoundNonCollectible"));
}
}
}
}
GCPROTECT_END();
return pResolvedAssembly;
}
Assembly* AppDomain::RaiseResourceResolveEvent(DomainAssembly* pAssembly, LPCSTR szName)
{
CONTRACT(Assembly*)
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
POSTCONDITION(CheckPointer(RETVAL, NULL_OK));
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACT_END;
Assembly* pResolvedAssembly = NULL;
GCX_COOP();
struct _gc {
OBJECTREF AppDomainRef;
OBJECTREF AssemblyRef;
STRINGREF str;
} gc;
ZeroMemory(&gc, sizeof(gc));
GCPROTECT_BEGIN(gc);
if ((gc.AppDomainRef = GetRawExposedObject()) != NULL)
{
if (pAssembly != NULL)
gc.AssemblyRef=pAssembly->GetExposedAssemblyObject();
MethodDescCallSite onResourceResolve(METHOD__APP_DOMAIN__ON_RESOURCE_RESOLVE, &gc.AppDomainRef);
gc.str = StringObject::NewString(szName);
ARG_SLOT args[3] =
{
ObjToArgSlot(gc.AppDomainRef),
ObjToArgSlot(gc.AssemblyRef),
ObjToArgSlot(gc.str)
};
ASSEMBLYREF ResultingAssemblyRef = (ASSEMBLYREF) onResourceResolve.Call_RetOBJECTREF(args);
if (ResultingAssemblyRef != NULL)
{
pResolvedAssembly = ResultingAssemblyRef->GetAssembly();
if (pResolvedAssembly->IsCollectible())
{
COMPlusThrow(kNotSupportedException, W("NotSupported_CollectibleAssemblyResolve"));
}
}
}
GCPROTECT_END();
RETURN pResolvedAssembly;
}
Assembly *
AppDomain::RaiseAssemblyResolveEvent(
AssemblySpec * pSpec)
{
CONTRACT(Assembly*)
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
POSTCONDITION(CheckPointer(RETVAL, NULL_OK));
INJECT_FAULT(COMPlusThrowOM(););
}
CONTRACT_END;
StackSString ssName;
pSpec->GetFileOrDisplayName(0, ssName);
// Elevate threads allowed loading level. This allows the host to load an assembly even in a restricted
// condition. Note, however, that this exposes us to possible recursion failures, if the host tries to
// load the assemblies currently being loaded. (Such cases would then throw an exception.)
OVERRIDE_LOAD_LEVEL_LIMIT(FILE_ACTIVE);
OVERRIDE_TYPE_LOAD_LEVEL_LIMIT(CLASS_LOADED);
GCX_COOP();
Assembly* pAssembly = NULL;
struct _gc {
OBJECTREF AppDomainRef;
OBJECTREF AssemblyRef;
STRINGREF str;
} gc;
ZeroMemory(&gc, sizeof(gc));
GCPROTECT_BEGIN(gc);
if ((gc.AppDomainRef = GetRawExposedObject()) != NULL)
{
if (pSpec->GetParentAssembly() != NULL)
{
gc.AssemblyRef=pSpec->GetParentAssembly()->GetExposedAssemblyObject();
}
MethodDescCallSite onAssemblyResolve(METHOD__APP_DOMAIN__ON_ASSEMBLY_RESOLVE, &gc.AppDomainRef);
gc.str = StringObject::NewString(ssName);
ARG_SLOT args[3] = {
ObjToArgSlot(gc.AppDomainRef),
ObjToArgSlot(gc.AssemblyRef),
ObjToArgSlot(gc.str)
};
ASSEMBLYREF ResultingAssemblyRef = (ASSEMBLYREF) onAssemblyResolve.Call_RetOBJECTREF(args);
if (ResultingAssemblyRef != NULL)
{
pAssembly = ResultingAssemblyRef->GetAssembly();
if (pAssembly->IsCollectible())
{
COMPlusThrow(kNotSupportedException, W("NotSupported_CollectibleAssemblyResolve"));
}
}
}
GCPROTECT_END();
if (pAssembly != NULL)
{
// Check that the public key token matches the one specified in the spec
// MatchPublicKeys throws as appropriate
pSpec->MatchPublicKeys(pAssembly);
}
RETURN pAssembly;
} // AppDomain::RaiseAssemblyResolveEvent
ULONGLONG g_ObjFinalizeStartTime = 0;
Volatile<BOOL> g_FinalizerIsRunning = FALSE;
Volatile<ULONG> g_FinalizerLoopCount = 0;
ULONGLONG GetObjFinalizeStartTime()
{
LIMITED_METHOD_CONTRACT;
return g_ObjFinalizeStartTime;
}
void FinalizerThreadAbortOnTimeout()
{
STATIC_CONTRACT_NOTHROW;
STATIC_CONTRACT_MODE_COOPERATIVE;
STATIC_CONTRACT_GC_TRIGGERS;
{
// If finalizer thread is blocked because scheduler is running another task,
// or it is waiting for another thread, we first see if we get finalizer thread
// running again.
Thread::ThreadAbortWatchDog();
}
EX_TRY
{
Thread *pFinalizerThread = FinalizerThread::GetFinalizerThread();
EPolicyAction action = GetEEPolicy()->GetActionOnTimeout(OPR_FinalizerRun, pFinalizerThread);
switch (action)
{
case eAbortThread:
GetEEPolicy()->NotifyHostOnTimeout(OPR_FinalizerRun, action);
pFinalizerThread->UserAbort(Thread::TAR_Thread,
EEPolicy::TA_Safe,
INFINITE,
Thread::UAC_FinalizerTimeout);
break;
case eRudeAbortThread:
GetEEPolicy()->NotifyHostOnTimeout(OPR_FinalizerRun, action);
pFinalizerThread->UserAbort(Thread::TAR_Thread,
EEPolicy::TA_Rude,
INFINITE,
Thread::UAC_FinalizerTimeout);
break;
case eUnloadAppDomain:
{
AppDomain *pDomain = pFinalizerThread->GetDomain();
pFinalizerThread->UserAbort(Thread::TAR_Thread,
EEPolicy::TA_Safe,
INFINITE,
Thread::UAC_FinalizerTimeout);
}
break;
case eRudeUnloadAppDomain:
{
AppDomain *pDomain = pFinalizerThread->GetDomain();
pFinalizerThread->UserAbort(Thread::TAR_Thread,
EEPolicy::TA_Rude,
INFINITE,
Thread::UAC_FinalizerTimeout);
}
break;
case eExitProcess:
case eFastExitProcess:
case eRudeExitProcess:
case eDisableRuntime:
GetEEPolicy()->NotifyHostOnTimeout(OPR_FinalizerRun, action);
EEPolicy::HandleExitProcessFromEscalation(action, HOST_E_EXITPROCESS_TIMEOUT);
_ASSERTE (!"Should not get here");
break;
default:
break;
}
}
EX_CATCH
{
}
EX_END_CATCH(SwallowAllExceptions);
}
enum WorkType
{
WT_UnloadDomain = 0x1,
WT_ThreadAbort = 0x2,
WT_FinalizerThread = 0x4
};
static Volatile<DWORD> s_WorkType = 0;
void SystemDomain::ProcessDelayedUnloadLoaderAllocators()
{
CONTRACTL
{
NOTHROW;
GC_TRIGGERS;
MODE_COOPERATIVE;
}
CONTRACTL_END;
int iGCRefPoint=GCHeapUtilities::GetGCHeap()->CollectionCount(GCHeapUtilities::GetGCHeap()->GetMaxGeneration());
if (GCHeapUtilities::GetGCHeap()->IsConcurrentGCInProgress())
iGCRefPoint--;
LoaderAllocator * pAllocatorsToDelete = NULL;
{
CrstHolder lh(&m_DelayedUnloadCrst);
LoaderAllocator ** ppAllocator=&m_pDelayedUnloadListOfLoaderAllocators;
while (*ppAllocator!= NULL)
{
LoaderAllocator * pAllocator = *ppAllocator;
if (0 < iGCRefPoint - pAllocator->GetGCRefPoint())
{
*ppAllocator = pAllocator->m_pLoaderAllocatorDestroyNext;
pAllocator->m_pLoaderAllocatorDestroyNext = pAllocatorsToDelete;
pAllocatorsToDelete = pAllocator;
}
else
{
ppAllocator = &pAllocator->m_pLoaderAllocatorDestroyNext;
}
}
}
// Delete collected loader allocators on the finalizer thread. We cannot offload it to appdomain unload thread because of
// there is not guaranteed to be one, and it is not that expensive operation anyway.
while (pAllocatorsToDelete != NULL)
{
LoaderAllocator * pAllocator = pAllocatorsToDelete;
pAllocatorsToDelete = pAllocator->m_pLoaderAllocatorDestroyNext;
delete pAllocator;
}
}
#endif // CROSSGEN_COMPILE
void AppDomain::EnumStaticGCRefs(promote_func* fn, ScanContext* sc)
{
CONTRACT_VOID
{
NOTHROW;
GC_NOTRIGGER;
}
CONTRACT_END;
_ASSERTE(GCHeapUtilities::IsGCInProgress() &&
GCHeapUtilities::IsServerHeap() &&
IsGCSpecialThread());
AppDomain::AssemblyIterator asmIterator = IterateAssembliesEx((AssemblyIterationFlags)(kIncludeLoaded | kIncludeExecution));
CollectibleAssemblyHolder<DomainAssembly *> pDomainAssembly;
while (asmIterator.Next(pDomainAssembly.This()))
{
// @TODO: Review when DomainAssemblies get added.
_ASSERTE(pDomainAssembly != NULL);
pDomainAssembly->EnumStaticGCRefs(fn, sc);
}
RETURN;
}
#endif // !DACCESS_COMPILE
//------------------------------------------------------------------------
PTR_LoaderAllocator BaseDomain::GetLoaderAllocator()
{
WRAPPER_NO_CONTRACT;
return SystemDomain::GetGlobalLoaderAllocator(); // The one and only domain is not unloadable
}
//------------------------------------------------------------------------
UINT32 BaseDomain::GetTypeID(PTR_MethodTable pMT) {
CONTRACTL {
THROWS;
GC_TRIGGERS;
PRECONDITION(pMT->GetDomain() == this);
} CONTRACTL_END;
return m_typeIDMap.GetTypeID(pMT);
}
//------------------------------------------------------------------------
// Returns the ID of the type if found. If not found, returns INVALID_TYPE_ID
UINT32 BaseDomain::LookupTypeID(PTR_MethodTable pMT)
{
CONTRACTL {
NOTHROW;
SO_TOLERANT;
WRAPPER(GC_TRIGGERS);
PRECONDITION(pMT->GetDomain() == this);
} CONTRACTL_END;
return m_typeIDMap.LookupTypeID(pMT);
}
//------------------------------------------------------------------------
PTR_MethodTable BaseDomain::LookupType(UINT32 id) {
CONTRACTL {
NOTHROW;
SO_TOLERANT;
WRAPPER(GC_TRIGGERS);
CONSISTENCY_CHECK(id != TYPE_ID_THIS_CLASS);
} CONTRACTL_END;
PTR_MethodTable pMT = m_typeIDMap.LookupType(id);
CONSISTENCY_CHECK(CheckPointer(pMT));
CONSISTENCY_CHECK(pMT->IsInterface());
return pMT;
}
//---------------------------------------------------------------------------------------
//
BOOL
AppDomain::AssemblyIterator::Next(
CollectibleAssemblyHolder<DomainAssembly *> * pDomainAssemblyHolder)
{
CONTRACTL {
NOTHROW;
WRAPPER(GC_TRIGGERS); // Triggers only in MODE_COOPERATIVE (by taking the lock)
MODE_ANY;
} CONTRACTL_END;
CrstHolder ch(m_pAppDomain->GetAssemblyListLock());
return Next_Unlocked(pDomainAssemblyHolder);
}
//---------------------------------------------------------------------------------------
//
// Note: Does not lock the assembly list, but locks collectible assemblies for adding references.
//
BOOL
AppDomain::AssemblyIterator::Next_Unlocked(
CollectibleAssemblyHolder<DomainAssembly *> * pDomainAssemblyHolder)
{
CONTRACTL {
NOTHROW;
GC_NOTRIGGER;
MODE_ANY;
} CONTRACTL_END;
#ifndef DACCESS_COMPILE
_ASSERTE(m_pAppDomain->GetAssemblyListLock()->OwnedByCurrentThread());
#endif
while (m_Iterator.Next())
{
// Get element from the list/iterator (without adding reference to the assembly)
DomainAssembly * pDomainAssembly = dac_cast<PTR_DomainAssembly>(m_Iterator.GetElement());
if (pDomainAssembly == NULL)
{
continue;
}
if (pDomainAssembly->IsError())
{
if (m_assemblyIterationFlags & kIncludeFailedToLoad)
{
*pDomainAssemblyHolder = pDomainAssembly;
return TRUE;
}
continue; // reject
}
// First, reject DomainAssemblies whose load status is not to be included in
// the enumeration
if (pDomainAssembly->IsAvailableToProfilers() &&
(m_assemblyIterationFlags & kIncludeAvailableToProfilers))
{
// The assembly has reached the state at which we would notify profilers,
// and we're supposed to include such assemblies in the enumeration. So
// don't reject it (i.e., noop here, and don't bother with the rest of
// the load status checks). Check for this first, since
// kIncludeAvailableToProfilers contains some loaded AND loading
// assemblies.
}
else if (pDomainAssembly->IsLoaded())
{
// A loaded assembly
if (!(m_assemblyIterationFlags & kIncludeLoaded))
{
continue; // reject
}
}
else
{
// A loading assembly
if (!(m_assemblyIterationFlags & kIncludeLoading))
{
continue; // reject
}
}
// Next, reject DomainAssemblies whose execution status is
// not to be included in the enumeration
// execution assembly
if (!(m_assemblyIterationFlags & kIncludeExecution))
{
continue; // reject
}
// Next, reject collectible assemblies
if (pDomainAssembly->IsCollectible())
{
if (m_assemblyIterationFlags & kExcludeCollectible)
{
_ASSERTE(!(m_assemblyIterationFlags & kIncludeCollected));
continue; // reject
}
// Un-tenured collectible assemblies should not be returned. (This can only happen in a brief
// window during collectible assembly creation. No thread should need to have a pointer
// to the just allocated DomainAssembly at this stage.)
if (!pDomainAssembly->GetAssembly()->GetManifestModule()->IsTenured())
{
continue; // reject
}
if (pDomainAssembly->GetLoaderAllocator()->AddReferenceIfAlive())
{ // The assembly is alive
// Set the holder value (incl. increasing ref-count)
*pDomainAssemblyHolder = pDomainAssembly;
// Now release the reference we took in the if-condition
pDomainAssembly->GetLoaderAllocator()->Release();
return TRUE;
}
// The assembly is not alive anymore (and we didn't increase its ref-count in the
// if-condition)
if (!(m_assemblyIterationFlags & kIncludeCollected))
{
continue; // reject
}
// Set the holder value to assembly with 0 ref-count without increasing the ref-count (won't
// call Release either)
pDomainAssemblyHolder->Assign(pDomainAssembly, FALSE);
return TRUE;
}
*pDomainAssemblyHolder = pDomainAssembly;
return TRUE;
}
*pDomainAssemblyHolder = NULL;
return FALSE;
} // AppDomain::AssemblyIterator::Next_Unlocked
#ifndef DACCESS_COMPILE
//---------------------------------------------------------------------------------------
//
// Can be called only from AppDomain shutdown code:AppDomain::ShutdownAssemblies.
// Does not add-ref collectible assemblies (as the LoaderAllocator might not be reachable from the
// DomainAssembly anymore).
//
BOOL
AppDomain::AssemblyIterator::Next_UnsafeNoAddRef(
DomainAssembly ** ppDomainAssembly)
{
CONTRACTL {
NOTHROW;
GC_TRIGGERS;
MODE_ANY;
} CONTRACTL_END;
// Make sure we are iterating all assemblies (see the only caller code:AppDomain::ShutdownAssemblies)
_ASSERTE(m_assemblyIterationFlags ==
(kIncludeLoaded | kIncludeLoading | kIncludeExecution | kIncludeFailedToLoad | kIncludeCollected));
// It also means that we do not exclude anything
_ASSERTE((m_assemblyIterationFlags & kExcludeCollectible) == 0);
// We are on shutdown path, so lock shouldn't be neccessary, but all _Unlocked methods on AssemblyList
// have asserts that the lock is held, so why not to take it ...
CrstHolder ch(m_pAppDomain->GetAssemblyListLock());
while (m_Iterator.Next())
{
// Get element from the list/iterator (without adding reference to the assembly)
*ppDomainAssembly = dac_cast<PTR_DomainAssembly>(m_Iterator.GetElement());
if (*ppDomainAssembly == NULL)
{
continue;
}
return TRUE;
}
*ppDomainAssembly = NULL;
return FALSE;
} // AppDomain::AssemblyIterator::Next_UnsafeNoAddRef
#endif //!DACCESS_COMPILE
#if !defined(DACCESS_COMPILE) && !defined(CROSSGEN_COMPILE)
// Returns S_OK if the assembly was successfully loaded
HRESULT RuntimeInvokeHostAssemblyResolver(INT_PTR pManagedAssemblyLoadContextToBindWithin, IAssemblyName *pIAssemblyName, CLRPrivBinderCoreCLR *pTPABinder, BINDER_SPACE::AssemblyName *pAssemblyName, ICLRPrivAssembly **ppLoadedAssembly)
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
MODE_ANY;
PRECONDITION(ppLoadedAssembly != NULL);
}
CONTRACTL_END;
HRESULT hr = E_FAIL;
// DevDiv #933506: Exceptions thrown during AssemblyLoadContext.Load should propagate
// EX_TRY
{
// Switch to COOP mode since we are going to work with managed references
GCX_COOP();
struct
{
ASSEMBLYNAMEREF oRefAssemblyName;
ASSEMBLYREF oRefLoadedAssembly;
} _gcRefs;
ZeroMemory(&_gcRefs, sizeof(_gcRefs));
GCPROTECT_BEGIN(_gcRefs);
ICLRPrivAssembly *pAssemblyBindingContext = NULL;
bool fInvokedForTPABinder = (pTPABinder == NULL)?true:false;
// Prepare to invoke System.Runtime.Loader.AssemblyLoadContext.Resolve method.
//
// First, initialize an assembly spec for the requested assembly
//
AssemblySpec spec;
hr = spec.Init(pIAssemblyName);
if (SUCCEEDED(hr))
{
bool fResolvedAssembly = false;
bool fResolvedAssemblyViaTPALoadContext = false;
// Allocate an AssemblyName managed object
_gcRefs.oRefAssemblyName = (ASSEMBLYNAMEREF) AllocateObject(MscorlibBinder::GetClass(CLASS__ASSEMBLY_NAME));
// Initialize the AssemblyName object from the AssemblySpec
spec.AssemblyNameInit(&_gcRefs.oRefAssemblyName, NULL);
if (!fInvokedForTPABinder)
{
// Step 2 (of CLRPrivBinderAssemblyLoadContext::BindUsingAssemblyName) - Invoke Load method
// This is not invoked for TPA Binder since it always returns NULL.
// Finally, setup arguments for invocation
BinderMethodID idHAR_Resolve = METHOD__ASSEMBLYLOADCONTEXT__RESOLVE;
MethodDescCallSite methLoadAssembly(idHAR_Resolve);
// Setup the arguments for the call
ARG_SLOT args[2] =
{
PtrToArgSlot(pManagedAssemblyLoadContextToBindWithin), // IntPtr for managed assembly load context instance
ObjToArgSlot(_gcRefs.oRefAssemblyName), // AssemblyName instance
};
// Make the call
_gcRefs.oRefLoadedAssembly = (ASSEMBLYREF) methLoadAssembly.Call_RetOBJECTREF(args);
if (_gcRefs.oRefLoadedAssembly != NULL)
{
fResolvedAssembly = true;
}
// Step 3 (of CLRPrivBinderAssemblyLoadContext::BindUsingAssemblyName)
if (!fResolvedAssembly)
{
// If we could not resolve the assembly using Load method, then attempt fallback with TPA Binder.
// Since TPA binder cannot fallback to itself, this fallback does not happen for binds within TPA binder.
//
// Switch to pre-emp mode before calling into the binder
GCX_PREEMP();
ICLRPrivAssembly *pCoreCLRFoundAssembly = NULL;
hr = pTPABinder->BindAssemblyByName(pIAssemblyName, &pCoreCLRFoundAssembly);
if (SUCCEEDED(hr))
{
pAssemblyBindingContext = pCoreCLRFoundAssembly;
fResolvedAssembly = true;
fResolvedAssemblyViaTPALoadContext = true;
}
}
}
if (!fResolvedAssembly)
{
// Step 4 (of CLRPrivBinderAssemblyLoadContext::BindUsingAssemblyName)
//
// If we couldnt resolve the assembly using TPA LoadContext as well, then
// attempt to resolve it using the Resolving event.
// Finally, setup arguments for invocation
BinderMethodID idHAR_ResolveUsingEvent = METHOD__ASSEMBLYLOADCONTEXT__RESOLVEUSINGEVENT;
MethodDescCallSite methLoadAssembly(idHAR_ResolveUsingEvent);
// Setup the arguments for the call
ARG_SLOT args[2] =
{
PtrToArgSlot(pManagedAssemblyLoadContextToBindWithin), // IntPtr for managed assembly load context instance
ObjToArgSlot(_gcRefs.oRefAssemblyName), // AssemblyName instance
};
// Make the call
_gcRefs.oRefLoadedAssembly = (ASSEMBLYREF) methLoadAssembly.Call_RetOBJECTREF(args);
if (_gcRefs.oRefLoadedAssembly != NULL)
{
// Set the flag indicating we found the assembly
fResolvedAssembly = true;
}
}
if (fResolvedAssembly && !fResolvedAssemblyViaTPALoadContext)
{
// If we are here, assembly was successfully resolved via Load or Resolving events.
_ASSERTE(_gcRefs.oRefLoadedAssembly != NULL);
// We were able to get the assembly loaded. Now, get its name since the host could have
// performed the resolution using an assembly with different name.
DomainAssembly *pDomainAssembly = _gcRefs.oRefLoadedAssembly->GetDomainAssembly();
PEAssembly *pLoadedPEAssembly = NULL;
bool fFailLoad = false;
if (!pDomainAssembly)
{
// Reflection emitted assemblies will not have a domain assembly.
fFailLoad = true;
}
else
{
pLoadedPEAssembly = pDomainAssembly->GetFile();
if (pLoadedPEAssembly->HasHostAssembly() != true)
{
// Reflection emitted assemblies will not have a domain assembly.
fFailLoad = true;
}
}
// The loaded assembly's ICLRPrivAssembly* is saved as HostAssembly in PEAssembly
if (fFailLoad)
{
SString name;
spec.GetFileOrDisplayName(0, name);
COMPlusThrowHR(COR_E_INVALIDOPERATION, IDS_HOST_ASSEMBLY_RESOLVER_DYNAMICALLY_EMITTED_ASSEMBLIES_UNSUPPORTED, name);
}
// Is the assembly already bound using a binding context that will be incompatible?
// An example is attempting to consume an assembly bound to WinRT binder.
pAssemblyBindingContext = pLoadedPEAssembly->GetHostAssembly();
}
#ifdef FEATURE_COMINTEROP
if (AreSameBinderInstance(pAssemblyBindingContext, GetAppDomain()->GetWinRtBinder()))
{
// It is invalid to return an assembly bound to an incompatible binder
*ppLoadedAssembly = NULL;
SString name;
spec.GetFileOrDisplayName(0, name);
COMPlusThrowHR(COR_E_INVALIDOPERATION, IDS_HOST_ASSEMBLY_RESOLVER_INCOMPATIBLE_BINDING_CONTEXT, name);
}
#endif // FEATURE_COMINTEROP
// Get the ICLRPrivAssembly reference to return back to.
*ppLoadedAssembly = clr::SafeAddRef(pAssemblyBindingContext);
hr = S_OK;
}
GCPROTECT_END();
}
// EX_CATCH_HRESULT(hr);
return hr;
}
#endif // !defined(DACCESS_COMPILE) && !defined(CROSSGEN_COMPILE)
//approximate size of loader data
//maintained for each assembly
#define APPROX_LOADER_DATA_PER_ASSEMBLY 8196
size_t AppDomain::EstimateSize()
{
CONTRACTL
{
NOTHROW;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END;
size_t retval = sizeof(AppDomain);
retval += GetLoaderAllocator()->EstimateSize();
//very rough estimate
retval += GetAssemblyCount() * APPROX_LOADER_DATA_PER_ASSEMBLY;
return retval;
}
#ifdef DACCESS_COMPILE
void
DomainLocalModule::EnumMemoryRegions(CLRDataEnumMemoryFlags flags)
{
SUPPORTS_DAC;
// Enumerate the DomainLocalModule itself. DLMs are allocated to be larger than
// sizeof(DomainLocalModule) to make room for ClassInit flags and non-GC statics.
// "DAC_ENUM_DTHIS()" probably does not account for this, so we might not enumerate
// all of the ClassInit flags and non-GC statics.
// sizeof(DomainLocalModule) == 0x28
DAC_ENUM_DTHIS();
if (m_pDomainFile.IsValid())
{
m_pDomainFile->EnumMemoryRegions(flags);
}
if (m_pDynamicClassTable.Load().IsValid())
{
DacEnumMemoryRegion(dac_cast<TADDR>(m_pDynamicClassTable.Load()),
m_aDynamicEntries * sizeof(DynamicClassInfo));
for (SIZE_T i = 0; i < m_aDynamicEntries; i++)
{
PTR_DynamicEntry entry = dac_cast<PTR_DynamicEntry>(m_pDynamicClassTable[i].m_pDynamicEntry.Load());
if (entry.IsValid())
{
// sizeof(DomainLocalModule::DynamicEntry) == 8
entry.EnumMem();
}
}
}
}
void
DomainLocalBlock::EnumMemoryRegions(CLRDataEnumMemoryFlags flags)
{
SUPPORTS_DAC;
// Block is contained in AppDomain, don't enum this.
if (m_pModuleSlots.IsValid())
{
DacEnumMemoryRegion(dac_cast<TADDR>(m_pModuleSlots),
m_aModuleIndices * sizeof(TADDR));
for (SIZE_T i = 0; i < m_aModuleIndices; i++)
{
PTR_DomainLocalModule domMod = m_pModuleSlots[i];
if (domMod.IsValid())
{
domMod->EnumMemoryRegions(flags);
}
}
}
}
void
BaseDomain::EnumMemoryRegions(CLRDataEnumMemoryFlags flags,
bool enumThis)
{
SUPPORTS_DAC;
if (enumThis)
{
// This is wrong. Don't do it.
// BaseDomain cannot be instantiated.
// The only thing this code can hope to accomplish is to potentially break
// memory enumeration walking through the derived class if we
// explicitly call the base class enum first.
// DAC_ENUM_VTHIS();
}
EMEM_OUT(("MEM: %p BaseDomain\n", dac_cast<TADDR>(this)));
}
void
AppDomain::EnumMemoryRegions(CLRDataEnumMemoryFlags flags,
bool enumThis)
{
SUPPORTS_DAC;
if (enumThis)
{
//sizeof(AppDomain) == 0xeb0
DAC_ENUM_VTHIS();
}
BaseDomain::EnumMemoryRegions(flags, false);
// We don't need AppDomain name in triage dumps.
if (flags != CLRDATA_ENUM_MEM_TRIAGE)
{
m_friendlyName.EnumMemoryRegions(flags);
}
m_Assemblies.EnumMemoryRegions(flags);
AssemblyIterator assem = IterateAssembliesEx((AssemblyIterationFlags)(kIncludeLoaded | kIncludeExecution));
CollectibleAssemblyHolder<DomainAssembly *> pDomainAssembly;
while (assem.Next(pDomainAssembly.This()))
{
pDomainAssembly->EnumMemoryRegions(flags);
}
m_sDomainLocalBlock.EnumMemoryRegions(flags);
}
void
SystemDomain::EnumMemoryRegions(CLRDataEnumMemoryFlags flags,
bool enumThis)
{
SUPPORTS_DAC;
if (enumThis)
{
DAC_ENUM_VTHIS();
}
BaseDomain::EnumMemoryRegions(flags, false);
if (m_pSystemFile.IsValid())
{
m_pSystemFile->EnumMemoryRegions(flags);
}
if (m_pSystemAssembly.IsValid())
{
m_pSystemAssembly->EnumMemoryRegions(flags);
}
if (AppDomain::GetCurrentDomain())
{
AppDomain::GetCurrentDomain()->EnumMemoryRegions(flags, true);
}
m_appDomainIndexList.EnumMem();
(&m_appDomainIndexList)->EnumMemoryRegions(flags);
}
#endif //DACCESS_COMPILE
PTR_LoaderAllocator SystemDomain::GetGlobalLoaderAllocator()
{
return PTR_LoaderAllocator(PTR_HOST_MEMBER_TADDR(SystemDomain,System(),m_GlobalAllocator));
}
#ifdef FEATURE_APPDOMAIN_RESOURCE_MONITORING
#ifndef CROSSGEN_COMPILE
// Return the total processor time (user and kernel) used by threads executing in this AppDomain so far. The
// result is in 100ns units.
ULONGLONG AppDomain::QueryProcessorUsage()
{
CONTRACTL
{
NOTHROW;
GC_TRIGGERS;
MODE_ANY;
}
CONTRACTL_END;
#ifndef DACCESS_COMPILE
Thread *pThread = NULL;
// Need to update our accumulated processor time count with current values from each thread that is
// currently executing in this domain.
// Take the thread store lock while we enumerate threads.
ThreadStoreLockHolder tsl;
while ((pThread = ThreadStore::GetThreadList(pThread)) != NULL)
{
// Skip unstarted and dead threads and those that are currently executing in a different AppDomain.
if (pThread->IsUnstarted() || pThread->IsDead() || pThread->GetDomain(INDEBUG(TRUE)) != this)
continue;
// Add the amount of time spent by the thread in the AppDomain since the last time we asked (calling
// Thread::QueryThreadProcessorUsage() will reset the thread's counter).
UpdateProcessorUsage(pThread->QueryThreadProcessorUsage());
}
#endif // !DACCESS_COMPILE
// Return the updated total.
return m_ullTotalProcessorUsage;
}
// Add to the current count of processor time used by threads within this AppDomain. This API is called by
// threads transitioning between AppDomains.
void AppDomain::UpdateProcessorUsage(ULONGLONG ullAdditionalUsage)
{
LIMITED_METHOD_CONTRACT;
// Need to be careful to synchronize here, multiple threads could be racing to update this count.
ULONGLONG ullOldValue;
ULONGLONG ullNewValue;
do
{
ullOldValue = m_ullTotalProcessorUsage;
ullNewValue = ullOldValue + ullAdditionalUsage;
} while (InterlockedCompareExchange64((LONGLONG*)&m_ullTotalProcessorUsage,
(LONGLONG)ullNewValue,
(LONGLONG)ullOldValue) != (LONGLONG)ullOldValue);
}
#endif // CROSSGEN_COMPILE
#endif // FEATURE_APPDOMAIN_RESOURCE_MONITORING
#if defined(FEATURE_TYPEEQUIVALENCE)
#ifndef DACCESS_COMPILE
TypeEquivalenceHashTable * AppDomain::GetTypeEquivalenceCache()
{
CONTRACTL
{
THROWS;
GC_TRIGGERS;
INJECT_FAULT(COMPlusThrowOM());
MODE_ANY;
}
CONTRACTL_END;
// Take the critical section all of the time in debug builds to ensure that it is safe to take
// the critical section in the unusual times when it may actually be needed in retail builds
#ifdef _DEBUG
CrstHolder ch(&m_TypeEquivalenceCrst);
#endif
if (m_pTypeEquivalenceTable.Load() == NULL)
{
#ifndef _DEBUG
CrstHolder ch(&m_TypeEquivalenceCrst);
#endif
if (m_pTypeEquivalenceTable.Load() == NULL)
{
m_pTypeEquivalenceTable = TypeEquivalenceHashTable::Create(this, /* bucket count */ 12, &m_TypeEquivalenceCrst);
}
}
return m_pTypeEquivalenceTable;
}
#endif //!DACCESS_COMPILE
#endif //FEATURE_TYPEEQUIVALENCE
#if !defined(DACCESS_COMPILE)
//---------------------------------------------------------------------------------------------------------------------
void AppDomain::PublishHostedAssembly(
DomainAssembly * pDomainAssembly)
{
CONTRACTL
{
THROWS;
GC_NOTRIGGER;
MODE_ANY;
}
CONTRACTL_END
if (pDomainAssembly->GetFile()->HasHostAssembly())
{
// We have to serialize all Add operations
CrstHolder lockAdd(&m_crstHostAssemblyMapAdd);
_ASSERTE(m_hostAssemblyMap.Lookup(pDomainAssembly->GetFile()->GetHostAssembly()) == nullptr);
// Wrapper for m_hostAssemblyMap.Add that avoids call out into host
HostAssemblyMap::AddPhases addCall;
// 1. Preallocate one element
addCall.PreallocateForAdd(&m_hostAssemblyMap);
{
// 2. Take the reader lock which can be taken during stack walking
// We cannot call out into host from ForbidSuspend region (i.e. no allocations/deallocations)
ForbidSuspendThreadHolder suspend;
{
CrstHolder lock(&m_crstHostAssemblyMap);
// 3. Add the element to the hash table (no call out into host)
addCall.Add(pDomainAssembly);
}
}
// 4. Cleanup the old memory (if any)
addCall.DeleteOldTable();
}
else
{
}
}
//---------------------------------------------------------------------------------------------------------------------
void AppDomain::UpdatePublishHostedAssembly(
DomainAssembly * pAssembly,
PTR_PEFile pFile)
{
CONTRACTL
{
THROWS;
GC_NOTRIGGER;
MODE_ANY;
CAN_TAKE_LOCK;
}
CONTRACTL_END
if (pAssembly->GetFile()->HasHostAssembly())
{
// We have to serialize all Add operations
CrstHolder lockAdd(&m_crstHostAssemblyMapAdd);
{
// Wrapper for m_hostAssemblyMap.Add that avoids call out into host
OriginalFileHostAssemblyMap::AddPhases addCall;
bool fAddOrigFile = false;
// For cases where the pefile is being updated
// 1. Preallocate one element
if (pFile != pAssembly->GetFile())
{
addCall.PreallocateForAdd(&m_hostAssemblyMapForOrigFile);
fAddOrigFile = true;
}
{
// We cannot call out into host from ForbidSuspend region (i.e. no allocations/deallocations)
ForbidSuspendThreadHolder suspend;
{
CrstHolder lock(&m_crstHostAssemblyMap);
// Remove from hash table.
_ASSERTE(m_hostAssemblyMap.Lookup(pAssembly->GetFile()->GetHostAssembly()) != nullptr);
m_hostAssemblyMap.Remove(pAssembly->GetFile()->GetHostAssembly());
// Update PEFile on DomainAssembly. (This may cause the key for the hash to change, which is why we need this function)
pAssembly->UpdatePEFileWorker(pFile);
_ASSERTE(fAddOrigFile == (pAssembly->GetOriginalFile() != pAssembly->GetFile()));
if (fAddOrigFile)
{
// Add to the orig file hash table if we might be in a case where we've cached the original pefile and not the final pe file (for use during GetAssemblyIfLoaded)
addCall.Add(pAssembly);
}
// Add back to the hashtable (the call to Remove above guarantees that we will not call into host for table reallocation)
_ASSERTE(m_hostAssemblyMap.Lookup(pAssembly->GetFile()->GetHostAssembly()) == nullptr);
m_hostAssemblyMap.Add(pAssembly);
}
}
// 4. Cleanup the old memory (if any)
if (fAddOrigFile)
addCall.DeleteOldTable();
}
}
else
{
pAssembly->UpdatePEFileWorker(pFile);
}
}
//---------------------------------------------------------------------------------------------------------------------
void AppDomain::UnPublishHostedAssembly(
DomainAssembly * pAssembly)
{
CONTRACTL
{
NOTHROW;
GC_NOTRIGGER;
MODE_ANY;
CAN_TAKE_LOCK;
}
CONTRACTL_END
if (pAssembly->GetFile()->HasHostAssembly())
{
ForbidSuspendThreadHolder suspend;
{
CrstHolder lock(&m_crstHostAssemblyMap);
_ASSERTE(m_hostAssemblyMap.Lookup(pAssembly->GetFile()->GetHostAssembly()) != nullptr);
m_hostAssemblyMap.Remove(pAssembly->GetFile()->GetHostAssembly());
// We also have an entry in m_hostAssemblyMapForOrigFile. Handle that case.
if (pAssembly->GetOriginalFile() != pAssembly->GetFile())
{
m_hostAssemblyMapForOrigFile.Remove(pAssembly->GetOriginalFile()->GetHostAssembly());
}
}
}
else
{
// In AppX processes, all PEAssemblies that are reach this stage should have host binders.
_ASSERTE(!AppX::IsAppXProcess());
}
}
#if defined(FEATURE_COMINTEROP)
HRESULT AppDomain::SetWinrtApplicationContext(LPCWSTR pwzAppLocalWinMD)
{
STANDARD_VM_CONTRACT;
_ASSERTE(WinRTSupported());
_ASSERTE(m_pWinRtBinder != nullptr);
_ASSERTE(GetTPABinderContext() != NULL);
BINDER_SPACE::ApplicationContext *pApplicationContext = GetTPABinderContext()->GetAppContext();
_ASSERTE(pApplicationContext != NULL);
return m_pWinRtBinder->SetApplicationContext(pApplicationContext, pwzAppLocalWinMD);
}
#endif // FEATURE_COMINTEROP
#endif //!DACCESS_COMPILE
//---------------------------------------------------------------------------------------------------------------------
PTR_DomainAssembly AppDomain::FindAssembly(PTR_ICLRPrivAssembly pHostAssembly)
{
CONTRACTL
{
NOTHROW;
GC_NOTRIGGER;
MODE_ANY;
SUPPORTS_DAC;
}
CONTRACTL_END
if (pHostAssembly == nullptr)
return NULL;
{
ForbidSuspendThreadHolder suspend;
{
CrstHolder lock(&m_crstHostAssemblyMap);
PTR_DomainAssembly returnValue = m_hostAssemblyMap.Lookup(pHostAssembly);
if (returnValue == NULL)
{
// If not found in the m_hostAssemblyMap, look in the m_hostAssemblyMapForOrigFile
// This is necessary as it may happen during in a second AppDomain that the PEFile
// first discovered in the AppDomain may not be used by the DomainFile, but the CLRPrivBinderFusion
// will in some cases find the pHostAssembly associated with this no longer used PEFile
// instead of the PEFile that was finally decided upon.
returnValue = m_hostAssemblyMapForOrigFile.Lookup(pHostAssembly);
}
return returnValue;
}
}
}
#if !defined(DACCESS_COMPILE) && defined(FEATURE_NATIVE_IMAGE_GENERATION)
void ZapperSetBindingPaths(ICorCompilationDomain *pDomain, SString &trustedPlatformAssemblies, SString &platformResourceRoots, SString &appPaths, SString &appNiPaths)
{
CLRPrivBinderCoreCLR *pBinder = static_cast<CLRPrivBinderCoreCLR*>(((CompilationDomain *)pDomain)->GetFusionContext());
_ASSERTE(pBinder != NULL);
pBinder->SetupBindingPaths(trustedPlatformAssemblies, platformResourceRoots, appPaths, appNiPaths);
#ifdef FEATURE_COMINTEROP
((CompilationDomain*)pDomain)->SetWinrtApplicationContext(NULL);
#endif
}
#endif
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