Source code of Windows XP (NT5)
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//+---------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1992 - 1997.
//
// File: cdispmgr.cxx
//
// Contents: The dispatch manager -- a class to manage
// multiple IDispatch-callable interfaces.
//
// Classes: CAggregateeDispMgr
//
// Functions: None external.
//
// History: ??-???-?? KrishnaG created
// 07-Sep-97 t-blakej Commented, cleaned up, made
// independent of ADSI.
//
// See cdispmgr.hxx for a more thorough description of the dispatch manager.
//
//----------------------------------------------------------------------------
//
// Since this class is useful outside of ADSI, some work has been taken to
// make it not depend on any ADSI-specific code. It needs two ADSI header
// files (cdispmgr.hxx and iprops.hxx), but they only depend on definitions
// from standard system header files.
//
// To accomodate the current building method in ADSI, the precompiled
// header "procs.hxx" is included; this includes all the necessary ADSI
// header files and definitions. But for use outside of ADSI, the few
// necessary header files are explicitly included below; see the comment by
// "#ifndef ADsAssert".
//
// So if not compiling for ADSI, comment the following two lines out.
//
#include "ldap.hxx"
#pragma hdrstop
//////////////////////////////////////////////////////////////////////////////
//
// General helper definitions, routines, and inclusions:
// -=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=- Begin Non-ADSI compile stuff
//
// This macro is defined by the precompiled header file, so the following
// will only be included if not compiling for ADSI.
//
#ifndef ADsAssert
//
// Necessary system headers.
//
#define UNICODE
#define _UNICODE
#define _OLEAUT32_
#define INC_OLE2
#include <windows.h>
#include <stdio.h>
//
// Necessary class definitions used by the dispatch manager.
// Edit these paths if necessary.
//
#include "cdispmgr.hxx"
#include "iprops.hxx"
#endif // ADsAssert
// -=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=- End Non-ADSI compile stuff
//
// A simple assert function.
//
#if DBG == 1
//+---------------------------------------------------------------------------
//
// Function: AssertEx
//
// Synopsis: Display assertion information.
//
// Effects: Called when an assertion is hit.
//
// History: Simplified from Win4AssertEx, to make this dispatch manager
// not depend on other files.
//
//----------------------------------------------------------------------------
static void
AssertEx(char const *szFile, int iLine, char const *szMessage)
{
static char szAssertCaption[200];
DWORD dwCount = strlen("File: %s line %u, thread id %d");
if (szFile) {
dwCount += strlen(szFile);
}
dwCount += 15; // for the line number and thread id
if (dwCount > 199) {
sprintf(szAssertCaption, "Error, could not get more infomration");
}
else {
sprintf(szAssertCaption, "File: %s line %u, thread id %d",
szFile, iLine, GetCurrentThreadId());
}
if (IDCANCEL == MessageBoxA(
NULL,
(char *) szMessage,
(LPSTR) szAssertCaption,
MB_SETFOREGROUND |
MB_TASKMODAL | MB_ICONEXCLAMATION | MB_OKCANCEL
))
{
DebugBreak();
}
}
# define DispMgrAssert(x) (void)((x) || (AssertEx(__FILE__, __LINE__, #x),0))
#else
# define AssertEx(f,l,m)
# define DispMgrAssert(x)
#endif
//////////////////////////////////////////////////////////////////////////////
//
// Inline routines:
static inline LONG
getDispMgrId(DISPID InputDispId)
{
return (InputDispId & 0x7f000000) >> 24;
}
static inline LONG
getTypeInfoId(DISPID InputDispId)
{
return (InputDispId & 0x00ff0000) >> 16;
}
static inline LONG
getDispId(DISPID InputDispId)
{
return (InputDispId & 0x0000ffff);
}
static inline void
MakeDISPID(
LONG ExtensionId,
LONG TypeInfoId,
LONG DispId,
DISPID *pResult
)
{
if (DispId == DISPID_UNKNOWN){
*pResult = DispId;
}else if (TypeInfoId < 0 || TypeInfoId >= 0x100 ||
DispId < 0 || DispId >= 0x10000){
//
// Might happen if some object has very large dispid's.
// But we can't handle it if it does.
//
*pResult = DISPID_UNKNOWN;
}
else{
*pResult = ((ExtensionId & 0xff) << 24) |((TypeInfoId & 0xff) << 16) | (DispId & 0xffff);
}
}
static inline void
MakeDISPIDs(
LONG ExtensionId,
LONG TypeInfoId,
DISPID *rgdispid,
unsigned int cNames
)
{
for (unsigned int i = 0; i < cNames; i++)
{
MakeDISPID(ExtensionId, TypeInfoId, rgdispid[i], &rgdispid[i]);
}
}
//
// Struct Def
//
typedef struct _typeinfotable
{
GUID iid;
ITypeInfo * pTypeInfo;
struct _typeinfotable *pNext;
}TYPEINFO_TABLE, *PTYPEINFO_TABLE;
CRITICAL_SECTION g_ExtTypeInfoCritSect;
#define ENTER_EXT_TYPEINFO_CRITSECT() EnterCriticalSection(&g_ExtTypeInfoCritSect)
#define LEAVE_EXT_TYPEINFO_CRITSECT() LeaveCriticalSection(&g_ExtTypeInfoCritSect)
LONG glnMSEXTObjCount = 0;
LONG glnMSEXTTypesOfInfo = 0;
PTYPEINFO_TABLE gpAggregateeTypeInfoTable = NULL;
//////////////////////////////////////////////////////////////////////////////
//
// Public methods:
CAggregateeDispMgr::CAggregateeDispMgr()
{
_pTypeInfoEntry = NULL;
_pDispidNewEnum = NULL;
_dwTypeInfoId = 0;
_pDispidValue = NULL;
_pPropertyCache = NULL;
_dwPropCacheID = 0;
_dwExtensionID = 0;
}
CAggregateeDispMgr::~CAggregateeDispMgr()
{
PTYPEINFOENTRY pTypeInfoEntry = NULL;
PTYPEINFOENTRY pTemp = NULL;
ITypeInfo *pTypeInfo = NULL;
pTypeInfoEntry = _pTypeInfoEntry;
while (pTypeInfoEntry) {
pTemp = pTypeInfoEntry;
pTypeInfo = (ITypeInfo *)pTypeInfoEntry->ptypeinfo;
pTypeInfo->Release();
InterlockedDecrement(&glnMSEXTObjCount);
pTypeInfoEntry = pTemp->pNext;
LocalFree(pTemp);
}
ENTER_EXT_TYPEINFO_CRITSECT();
if (glnMSEXTObjCount == glnMSEXTTypesOfInfo) {
//
// We need to clean up the list
//
AggregateeFreeTypeInfoTable();
gpAggregateeTypeInfoTable = NULL;
glnMSEXTObjCount = glnMSEXTTypesOfInfo = 0;
}
LEAVE_EXT_TYPEINFO_CRITSECT();
}
void
CAggregateeDispMgr::RegisterPropertyCache(IPropertyCache *pPropertyCache)
{
_pPropertyCache = pPropertyCache;
_dwPropCacheID = gentypeinfoid();
}
STDMETHODIMP
CAggregateeDispMgr::GetTypeInfoCount(unsigned int *pctinfo)
{
return E_NOTIMPL;
}
STDMETHODIMP
CAggregateeDispMgr::GetTypeInfo(unsigned int itinfo, LCID lcid, ITypeInfo **pptinfo)
{
return E_NOTIMPL;
}
STDMETHODIMP
CAggregateeDispMgr::GetIDsOfNames(REFIID iid, LPWSTR *rgszNames,
unsigned int cNames, LCID lcid, DISPID *rgdispid)
{
PTYPEINFOENTRY pTypeInfo = NULL;
HRESULT hr = DISP_E_UNKNOWNNAME;
//
// Try our list of TypeInfos.
//
pTypeInfo = _pTypeInfoEntry;
while (pTypeInfo) {
hr = DispGetIDsOfNames(((ITypeInfo *)pTypeInfo->ptypeinfo),
rgszNames,
cNames,
rgdispid
);
if (SUCCEEDED(hr)) {
//
// aggregatee no longer needs to include extension id
// in dispid.
//
MakeDISPIDs(0, pTypeInfo->TypeInfoId, rgdispid, cNames);
return hr;
}
pTypeInfo = pTypeInfo->pNext;
}
//
// Try our property cache.
//
if (FAILED(hr) && _pPropertyCache) {
hr = S_OK;
for (DWORD dw = 0; dw < cNames; dw++) {
if (FAILED(_pPropertyCache->locateproperty(rgszNames[dw],
(PDWORD)(rgdispid + dw)))) {
hr = DISP_E_UNKNOWNNAME;
rgdispid[dw] = DISPID_UNKNOWN;
}
}
if (SUCCEEDED(hr)) {
//
// aggregatee no longer needs to include extension id
// in dispid.
//
MakeDISPIDs(0, _dwPropCacheID, rgdispid, cNames);
}
}
return hr;
}
STDMETHODIMP
CAggregateeDispMgr::Invoke(DISPID dispidMember, REFIID iid, LCID lcid,
unsigned short wFlags, DISPPARAMS *pdispparams, VARIANT *pvarResult,
EXCEPINFO *pexcepinfo, unsigned int *puArgErr)
{
//
// Clear the error object before we call invoke.
//
SetErrorInfo(0, NULL);
return TypeInfoInvoke(dispidMember,
iid,
lcid,
wFlags,
pdispparams,
pvarResult,
pexcepinfo,
puArgErr
);
}
//////////////////////////////////////////////////////////////////////////////
//
// Private methods and helper functions:
void *
CAggregateeDispMgr::getInterfacePtr(LONG TypeInfoId)
{
PTYPEINFOENTRY pTypeInfoEntry = FindTypeInfoEntry(TypeInfoId);
return (pTypeInfoEntry ? pTypeInfoEntry->pInterfacePointer : NULL);
}
ITypeInfo *
CAggregateeDispMgr::getTypeInfo(LONG TypeInfoId)
{
PTYPEINFOENTRY pTypeInfoEntry = FindTypeInfoEntry(TypeInfoId);
return (ITypeInfo *)(pTypeInfoEntry ? pTypeInfoEntry->ptypeinfo : NULL);
}
PTYPEINFOENTRY
CAggregateeDispMgr::FindTypeInfoEntry(LONG TypeInfoId)
{
PTYPEINFOENTRY pTypeInfoEntry;
pTypeInfoEntry = _pTypeInfoEntry;
while (pTypeInfoEntry) {
if (pTypeInfoEntry->TypeInfoId == TypeInfoId) {
return pTypeInfoEntry;
}
pTypeInfoEntry = pTypeInfoEntry->pNext;
}
return NULL;
}
PTYPEINFOENTRY
CAggregateeDispMgr::FindTypeInfo(void *pTypeInfo)
{
PTYPEINFOENTRY pTypeInfoEntry;
pTypeInfoEntry = _pTypeInfoEntry;
while (pTypeInfoEntry) {
if (pTypeInfoEntry->ptypeinfo == pTypeInfo) {
return pTypeInfoEntry;
}
pTypeInfoEntry = pTypeInfoEntry->pNext;
}
return NULL;
}
HRESULT
CAggregateeDispMgr::AddTypeInfo(void *ptypeinfo, void *pIntfptr)
{
PTYPEINFOENTRY pTypeInfoEntry = NULL;
HRESULT hr;
if (FindTypeInfo(ptypeinfo)) {
return E_FAIL;
}
pTypeInfoEntry = (PTYPEINFOENTRY)LocalAlloc(LPTR,sizeof(TYPEINFOENTRY));
if (!pTypeInfoEntry) {
BAIL_ON_FAILURE(hr = E_OUTOFMEMORY);
}
pTypeInfoEntry->ptypeinfo = ptypeinfo;
pTypeInfoEntry->TypeInfoId = gentypeinfoid();
pTypeInfoEntry->pInterfacePointer = pIntfptr;
pTypeInfoEntry->pNext = _pTypeInfoEntry;
_pTypeInfoEntry = pTypeInfoEntry;
return S_OK;
error:
return hr;
}
STDMETHODIMP
CAggregateeDispMgr::TypeInfoInvoke(DISPID dispidMember, REFIID iid, LCID lcid,
unsigned short wFlags, DISPPARAMS *pdispparams, VARIANT *pvarResult,
EXCEPINFO *pexcepinfo, unsigned int *puArgErr)
{
void *pInterfacePtr = NULL;
DISPID dispid = 0;
DISPID typeinfoid = 0;
ITypeInfo *pTypeInfo = NULL;
HRESULT hr = S_OK;
if (dispidMember <= 0) {
//
// One of the special DISPIDs.
//
// If we have an interface pointer for it, use that.
// If we don't, and we have a base IDispatch pointer,
// pass it to the base pointer's Invoke() method.
// If we don't, and we don't have a base IDispatch pointer,
// return failure.
//
dispid = dispidMember;
switch (dispid) {
case DISPID_VALUE:
if (_pDispidValue) {
pTypeInfo = (ITypeInfo *)_pDispidValue->ptypeinfo;
pInterfacePtr = _pDispidValue->pInterfacePointer;
}
break;
case DISPID_NEWENUM:
if (_pDispidNewEnum) {
pTypeInfo = (ITypeInfo *)_pDispidNewEnum->ptypeinfo;
pInterfacePtr = _pDispidNewEnum->pInterfacePointer;
}
break;
default:
break;
}
if (!pInterfacePtr) {
BAIL_ON_FAILURE(hr = DISP_E_MEMBERNOTFOUND);
}else {
//
// Fill in the special case scenarios here
//
hr = DispInvoke(
pInterfacePtr,
pTypeInfo,
dispid,
wFlags,
pdispparams,
pvarResult,
pexcepinfo,
puArgErr
);
return(hr);
}
} else {
//
// A regular DISPID of ours.
//
typeinfoid = getTypeInfoId(dispidMember);
dispid = getDispId(dispidMember);
if ((_pPropertyCache == NULL) || (typeinfoid != _dwPropCacheID)) {
pInterfacePtr = getInterfacePtr(typeinfoid);
pTypeInfo = getTypeInfo(typeinfoid);
if (!pTypeInfo)
//
// Shouldn't happen.
//
BAIL_ON_FAILURE(hr = DISP_E_MEMBERNOTFOUND);
}
if ((_pPropertyCache == NULL) || (typeinfoid != _dwPropCacheID)) {
//
// A regular interface.
//
hr = DispInvoke(
pInterfacePtr,
pTypeInfo,
dispid,
wFlags,
pdispparams,
pvarResult,
pexcepinfo,
puArgErr
);
}else {
//
// A "dynamic DISPID", for the property cache.
//
hr = AggregateeDynamicDispidInvoke(
_pPropertyCache,
dispid,
wFlags,
pdispparams,
pvarResult
);
}
}
error:
return hr;
}
HRESULT
AggregateeDynamicDispidInvoke(
IPropertyCache * pPropertyCache,
DISPID dispid,
unsigned short wFlags,
DISPPARAMS *pdispparams,
VARIANT * pvarResult
)
{
HRESULT hr = S_OK;
if (!pPropertyCache) {
return(E_INVALIDARG);
}
if (wFlags & DISPATCH_PROPERTYGET) {
if (!pvarResult) {
BAIL_ON_FAILURE(hr = E_INVALIDARG);
}
hr = pPropertyCache->getproperty((DWORD)dispid,pvarResult);
if (FAILED(hr)) {
#if 1
// This lets us return S_OK and a VT_EMPTY variant if
// there's no data. #if this out to disable it.
V_VT(pvarResult) = VT_EMPTY;
hr = S_OK;
#else
V_VT(pvarResult) = VT_ERROR;
#endif
}
}else if (wFlags & DISPATCH_PROPERTYPUT) {
if (pdispparams[0].cArgs != 1){
hr = DISP_E_BADPARAMCOUNT;
}
else {
hr = pPropertyCache->putproperty(
(DWORD)dispid,
pdispparams[0].rgvarg[0]
);
}
}else {
hr = E_INVALIDARG;
}
error:
return(hr);
}
HRESULT
CAggregateeDispMgr::MarkAsNewEnum(void *pTypeInfo)
{
PTYPEINFOENTRY pTypeInfoEntry;
if (!pTypeInfo) {
return E_FAIL;
}
if (!(pTypeInfoEntry = FindTypeInfo(pTypeInfo))) {
return E_FAIL;
}
_pDispidNewEnum = pTypeInfoEntry;
return S_OK;
}
HRESULT
CAggregateeDispMgr::MarkAsItem(void *pTypeInfo)
{
PTYPEINFOENTRY pTypeInfoEntry;
if (!pTypeInfo) {
return E_FAIL;
}
if (!(pTypeInfoEntry = FindTypeInfo(pTypeInfo))) {
return E_FAIL;
}
_pDispidValue = pTypeInfoEntry;
return S_OK;
}
LONG
CAggregateeDispMgr::gentypeinfoid()
{
//
// This would mean we've registered 65536 IDispatch methods
// in this object's dispatch manager. We lose.
//
DispMgrAssert(_dwTypeInfoId < 0xffff);
return (_dwTypeInfoId++);
}
ITypeInfo *
AggregateeFindTypeInfo(
PTYPEINFO_TABLE pTypeInfoTable,
REFIID iid
)
{
PTYPEINFO_TABLE pTemp = NULL;
pTemp = pTypeInfoTable;
while (pTemp) {
if (IsEqualIID(iid, pTemp->iid)) {
return pTemp->pTypeInfo;
}
pTemp = pTemp->pNext;
}
return NULL;
}
PTYPEINFO_TABLE
AggregateeAddTypeInfo(
PTYPEINFO_TABLE pTypeInfoTable,
REFIID iid,
ITypeInfo * pTypeInfo
)
{
PTYPEINFO_TABLE pTemp = NULL;
pTemp = (PTYPEINFO_TABLE)LocalAlloc(LPTR, sizeof(TYPEINFO_TABLE));
if (!pTemp) {
return NULL;
}
memcpy(&pTemp->iid, &iid, sizeof(GUID));
pTemp->pTypeInfo = pTypeInfo;
pTemp->pNext = pTypeInfoTable;
return pTemp;
}
//+------------------------------------------------------------------------
//
// Function: LoadTypeInfo
//
// Synopsis: Loads a typeinfo from a registered typelib.
//
// Arguments: [clsidTL] -- TypeLib GUID
// [clsidTI] -- TypeInfo GUID
// [ppTI] -- Resulting typeInfo
//
// Returns: HRESULT
//
//-------------------------------------------------------------------------
HRESULT
AggregateeLoadTypeInfo(CLSID clsidTL, CLSID clsidTI, LPTYPEINFO *ppTI)
{
HRESULT hr;
ITypeLib * pTL;
DispMgrAssert(ppTI);
*ppTI = NULL;
hr = LoadRegTypeLib(clsidTL, 1, 0, LOCALE_SYSTEM_DEFAULT, &pTL);
if (!SUCCEEDED(hr))
return hr;
hr = pTL->GetTypeInfoOfGuid(clsidTI, ppTI);
pTL->Release();
return hr;
}
HRESULT
CAggregateeDispMgr::LoadTypeInfoEntry(
REFIID libid,
REFIID iid,
void * pIntf,
DISPID SpecialId
)
{
ITypeInfo * pTypeInfo = NULL;
HRESULT hr;
ENTER_EXT_TYPEINFO_CRITSECT();
pTypeInfo = ::AggregateeFindTypeInfo(gpAggregateeTypeInfoTable, iid);
if (!pTypeInfo) {
LEAVE_EXT_TYPEINFO_CRITSECT();
hr = AggregateeLoadTypeInfo(libid, iid, &pTypeInfo);
BAIL_ON_FAILURE(hr);
ENTER_EXT_TYPEINFO_CRITSECT();
gpAggregateeTypeInfoTable = ::AggregateeAddTypeInfo(
gpAggregateeTypeInfoTable,
iid,
pTypeInfo
);
if (!gpAggregateeTypeInfoTable) {
LEAVE_EXT_TYPEINFO_CRITSECT();
BAIL_ON_FAILURE(hr = HRESULT_FROM_WIN32(GetLastError()));
}
//
// Increment the global list of the types of type info's.
//
InterlockedIncrement(&glnMSEXTTypesOfInfo);
InterlockedIncrement(&glnMSEXTObjCount);
}
pTypeInfo->AddRef();
hr = AddTypeInfo(pTypeInfo, pIntf);
if (FAILED(hr)) {
LEAVE_EXT_TYPEINFO_CRITSECT();
BAIL_ON_FAILURE(hr);
}
//
// We have a ref on the object as add was succesful
//
InterlockedIncrement(&glnMSEXTObjCount);
LEAVE_EXT_TYPEINFO_CRITSECT();
if (SpecialId == -4) {
hr = MarkAsNewEnum(pTypeInfo);
} else if (SpecialId == DISPID_VALUE) {
hr = MarkAsItem(pTypeInfo);
}
return S_OK;
error:
if (pTypeInfo)
pTypeInfo->Release();
return hr;
}
//
// Kept for backwards compatibility.
//
HRESULT
LoadTypeInfoEntry(
CAggregateeDispMgr *pDispMgr,
REFIID libid,
REFIID iid,
void * pIntf,
DISPID SpecialId
)
{
return pDispMgr->LoadTypeInfoEntry(libid, iid, pIntf, SpecialId);
}
void
AggregateeFreeTypeInfoTable()
{
PTYPEINFO_TABLE pTypeInfoTable = NULL;
PTYPEINFO_TABLE pTemp = NULL;
ITypeInfo * pTypeInfo = NULL;
pTypeInfoTable = gpAggregateeTypeInfoTable;
while (pTypeInfoTable) {
pTypeInfo = pTypeInfoTable->pTypeInfo;
pTypeInfo->Release();
pTemp = pTypeInfoTable;
pTypeInfoTable = pTypeInfoTable->pNext;
LocalFree(pTemp);
}
}
HRESULT
CAggregateeDispMgr::InitializeDispMgr(
DWORD dwExtensionID
)
{
if (dwExtensionID > 255) {
return(E_FAIL);
}
_dwExtensionID = dwExtensionID;
return(S_OK);
}
BOOL
AggregateeDllCanUnload()
{
BOOL retVal = FALSE;
ENTER_EXT_TYPEINFO_CRITSECT();
retVal = (glnMSEXTObjCount == 0);
LEAVE_EXT_TYPEINFO_CRITSECT();
return retVal;
}