Sweden-Number/dlls/ole32/storage32.c

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/*
* Compound Storage (32 bit version)
* Storage implementation
*
* This file contains the compound file implementation
* of the storage interface.
*
* Copyright 1999 Francis Beaudet
* Copyright 1999 Sylvain St-Germain
* Copyright 1999 Thuy Nguyen
*/
#include <assert.h>
#include <stdio.h>
2000-03-08 19:25:22 +01:00
#include <stdlib.h>
#include <string.h>
#include "winbase.h" /* for lstrlenW() and the likes */
#include "winnls.h"
#include "wine/unicode.h"
#include "debugtools.h"
#include "storage32.h"
#include "ole2.h" /* For Write/ReadClassStm */
#include "winreg.h"
#include "wine/wingdi16.h"
DEFAULT_DEBUG_CHANNEL(storage);
#define FILE_BEGIN 0
/* Used for OleConvertIStorageToOLESTREAM and OleConvertOLESTREAMToIStorage */
#define OLESTREAM_ID 0x501
#define OLESTREAM_MAX_STR_LEN 255
static const char rootPropertyName[] = "Root Entry";
/* OLESTREAM memory structure to use for Get and Put Routines */
/* Used for OleConvertIStorageToOLESTREAM and OleConvertOLESTREAMToIStorage */
typedef struct
{
DWORD dwOleID;
DWORD dwTypeID;
DWORD dwOleTypeNameLength;
CHAR strOleTypeName[OLESTREAM_MAX_STR_LEN];
CHAR *pstrOleObjFileName;
DWORD dwOleObjFileNameLength;
DWORD dwMetaFileWidth;
DWORD dwMetaFileHeight;
2000-03-24 21:42:08 +01:00
CHAR strUnknown[8]; /* don't know what is this 8 byts information in OLE stream. */
DWORD dwDataLength;
BYTE *pData;
}OLECONVERT_OLESTREAM_DATA;
/* CompObj Stream structure */
/* Used for OleConvertIStorageToOLESTREAM and OleConvertOLESTREAMToIStorage */
typedef struct
{
BYTE byUnknown1[12];
CLSID clsid;
DWORD dwCLSIDNameLength;
CHAR strCLSIDName[OLESTREAM_MAX_STR_LEN];
DWORD dwOleTypeNameLength;
CHAR strOleTypeName[OLESTREAM_MAX_STR_LEN];
DWORD dwProgIDNameLength;
CHAR strProgIDName[OLESTREAM_MAX_STR_LEN];
BYTE byUnknown2[16];
}OLECONVERT_ISTORAGE_COMPOBJ;
/* Ole Presention Stream structure */
/* Used for OleConvertIStorageToOLESTREAM and OleConvertOLESTREAMToIStorage */
typedef struct
{
BYTE byUnknown1[28];
DWORD dwExtentX;
DWORD dwExtentY;
DWORD dwSize;
BYTE *pData;
}OLECONVERT_ISTORAGE_OLEPRES;
/***********************************************************************
* Forward declaration of internal functions used by the method DestroyElement
*/
static HRESULT deleteStorageProperty(
StorageImpl *parentStorage,
ULONG foundPropertyIndexToDelete,
StgProperty propertyToDelete);
static HRESULT deleteStreamProperty(
StorageImpl *parentStorage,
ULONG foundPropertyIndexToDelete,
StgProperty propertyToDelete);
static HRESULT findPlaceholder(
StorageImpl *storage,
ULONG propertyIndexToStore,
ULONG storagePropertyIndex,
INT typeOfRelation);
static HRESULT adjustPropertyChain(
StorageImpl *This,
StgProperty propertyToDelete,
StgProperty parentProperty,
ULONG parentPropertyId,
INT typeOfRelation);
/***********************************************************************
* Declaration of the functions used to manipulate StgProperty
*/
static ULONG getFreeProperty(
StorageImpl *storage);
static void updatePropertyChain(
StorageImpl *storage,
ULONG newPropertyIndex,
StgProperty newProperty);
static LONG propertyNameCmp(
OLECHAR *newProperty,
OLECHAR *currentProperty);
/***********************************************************************
* Declaration of miscellaneous functions...
*/
static HRESULT validateSTGM(DWORD stgmValue);
static DWORD GetShareModeFromSTGM(DWORD stgm);
static DWORD GetAccessModeFromSTGM(DWORD stgm);
static DWORD GetCreationModeFromSTGM(DWORD stgm);
/*
* Virtual function table for the IStorage32Impl class.
*/
static ICOM_VTABLE(IStorage) Storage32Impl_Vtbl =
{
ICOM_MSVTABLE_COMPAT_DummyRTTIVALUE
StorageBaseImpl_QueryInterface,
StorageBaseImpl_AddRef,
StorageBaseImpl_Release,
StorageBaseImpl_CreateStream,
StorageBaseImpl_OpenStream,
StorageImpl_CreateStorage,
StorageBaseImpl_OpenStorage,
StorageImpl_CopyTo,
StorageImpl_MoveElementTo,
StorageImpl_Commit,
StorageImpl_Revert,
StorageBaseImpl_EnumElements,
StorageImpl_DestroyElement,
StorageBaseImpl_RenameElement,
StorageImpl_SetElementTimes,
StorageBaseImpl_SetClass,
StorageImpl_SetStateBits,
StorageBaseImpl_Stat
};
/*
* Virtual function table for the Storage32InternalImpl class.
*/
static ICOM_VTABLE(IStorage) Storage32InternalImpl_Vtbl =
{
ICOM_MSVTABLE_COMPAT_DummyRTTIVALUE
StorageBaseImpl_QueryInterface,
StorageBaseImpl_AddRef,
StorageBaseImpl_Release,
StorageBaseImpl_CreateStream,
StorageBaseImpl_OpenStream,
StorageImpl_CreateStorage,
StorageBaseImpl_OpenStorage,
StorageImpl_CopyTo,
StorageImpl_MoveElementTo,
StorageInternalImpl_Commit,
StorageInternalImpl_Revert,
StorageBaseImpl_EnumElements,
StorageImpl_DestroyElement,
StorageBaseImpl_RenameElement,
StorageImpl_SetElementTimes,
StorageBaseImpl_SetClass,
StorageImpl_SetStateBits,
StorageBaseImpl_Stat
};
/*
* Virtual function table for the IEnumSTATSTGImpl class.
*/
static ICOM_VTABLE(IEnumSTATSTG) IEnumSTATSTGImpl_Vtbl =
{
ICOM_MSVTABLE_COMPAT_DummyRTTIVALUE
IEnumSTATSTGImpl_QueryInterface,
IEnumSTATSTGImpl_AddRef,
IEnumSTATSTGImpl_Release,
IEnumSTATSTGImpl_Next,
IEnumSTATSTGImpl_Skip,
IEnumSTATSTGImpl_Reset,
IEnumSTATSTGImpl_Clone
};
/************************************************************************
** Storage32BaseImpl implementatiion
*/
/************************************************************************
* Storage32BaseImpl_QueryInterface (IUnknown)
*
* This method implements the common QueryInterface for all IStorage32
* implementations contained in this file.
*
* See Windows documentation for more details on IUnknown methods.
*/
HRESULT WINAPI StorageBaseImpl_QueryInterface(
IStorage* iface,
REFIID riid,
void** ppvObject)
{
ICOM_THIS(StorageBaseImpl,iface);
/*
* Perform a sanity check on the parameters.
*/
if ( (This==0) || (ppvObject==0) )
return E_INVALIDARG;
/*
* Initialize the return parameter.
*/
*ppvObject = 0;
/*
* Compare the riid with the interface IDs implemented by this object.
*/
if (memcmp(&IID_IUnknown, riid, sizeof(IID_IUnknown)) == 0)
{
*ppvObject = (IStorage*)This;
}
else if (memcmp(&IID_IStorage, riid, sizeof(IID_IStorage)) == 0)
{
*ppvObject = (IStorage*)This;
}
/*
* Check that we obtained an interface.
*/
if ((*ppvObject)==0)
return E_NOINTERFACE;
/*
* Query Interface always increases the reference count by one when it is
* successful
*/
StorageBaseImpl_AddRef(iface);
return S_OK;
}
/************************************************************************
* Storage32BaseImpl_AddRef (IUnknown)
*
* This method implements the common AddRef for all IStorage32
* implementations contained in this file.
*
* See Windows documentation for more details on IUnknown methods.
*/
ULONG WINAPI StorageBaseImpl_AddRef(
IStorage* iface)
{
ICOM_THIS(StorageBaseImpl,iface);
This->ref++;
return This->ref;
}
/************************************************************************
* Storage32BaseImpl_Release (IUnknown)
*
* This method implements the common Release for all IStorage32
* implementations contained in this file.
*
* See Windows documentation for more details on IUnknown methods.
*/
ULONG WINAPI StorageBaseImpl_Release(
IStorage* iface)
{
ICOM_THIS(StorageBaseImpl,iface);
/*
* Decrease the reference count on this object.
*/
This->ref--;
/*
* If the reference count goes down to 0, perform suicide.
*/
if (This->ref==0)
{
/*
* Since we are using a system of base-classes, we want to call the
* destructor of the appropriate derived class. To do this, we are
* using virtual functions to implement the destructor.
*/
This->v_destructor(This);
return 0;
}
return This->ref;
}
/************************************************************************
* Storage32BaseImpl_OpenStream (IStorage)
*
* This method will open the specified stream object from the current storage.
*
* See Windows documentation for more details on IStorage methods.
*/
HRESULT WINAPI StorageBaseImpl_OpenStream(
IStorage* iface,
const OLECHAR* pwcsName, /* [string][in] */
void* reserved1, /* [unique][in] */
DWORD grfMode, /* [in] */
DWORD reserved2, /* [in] */
IStream** ppstm) /* [out] */
{
ICOM_THIS(StorageBaseImpl,iface);
IEnumSTATSTGImpl* propertyEnumeration;
StgStreamImpl* newStream;
StgProperty currentProperty;
ULONG foundPropertyIndex;
TRACE("(%p, %s, %p, %lx, %ld, %p)\n",
iface, debugstr_w(pwcsName), reserved1, grfMode, reserved2, ppstm);
/*
* Perform a sanity check on the parameters.
*/
if ( (pwcsName==NULL) || (ppstm==0) )
return E_INVALIDARG;
/*
* Initialize the out parameter
*/
*ppstm = 0;
/*
* Validate the STGM flags
*/
if ( FAILED( validateSTGM(grfMode) ))
return STG_E_INVALIDFLAG;
/*
* As documented.
*/
if ( !(grfMode & STGM_SHARE_EXCLUSIVE) ||
(grfMode & STGM_DELETEONRELEASE) ||
(grfMode & STGM_TRANSACTED) )
return STG_E_INVALIDFUNCTION;
/*
* Create a property enumeration to search the properties
*/
propertyEnumeration = IEnumSTATSTGImpl_Construct(
This->ancestorStorage,
This->rootPropertySetIndex);
/*
* Search the enumeration for the property with the given name
*/
foundPropertyIndex = IEnumSTATSTGImpl_FindProperty(
propertyEnumeration,
pwcsName,
&currentProperty);
/*
* Delete the property enumeration since we don't need it anymore
*/
IEnumSTATSTGImpl_Destroy(propertyEnumeration);
/*
* If it was found, construct the stream object and return a pointer to it.
*/
if ( (foundPropertyIndex!=PROPERTY_NULL) &&
(currentProperty.propertyType==PROPTYPE_STREAM) )
{
newStream = StgStreamImpl_Construct(This, grfMode, foundPropertyIndex);
if (newStream!=0)
{
newStream->grfMode = grfMode;
*ppstm = (IStream*)newStream;
/*
* Since we are returning a pointer to the interface, we have to
* nail down the reference.
*/
StgStreamImpl_AddRef(*ppstm);
return S_OK;
}
return E_OUTOFMEMORY;
}
return STG_E_FILENOTFOUND;
}
/************************************************************************
* Storage32BaseImpl_OpenStorage (IStorage)
*
* This method will open a new storage object from the current storage.
*
* See Windows documentation for more details on IStorage methods.
*/
HRESULT WINAPI StorageBaseImpl_OpenStorage(
IStorage* iface,
const OLECHAR* pwcsName, /* [string][unique][in] */
IStorage* pstgPriority, /* [unique][in] */
DWORD grfMode, /* [in] */
SNB snbExclude, /* [unique][in] */
DWORD reserved, /* [in] */
IStorage** ppstg) /* [out] */
{
ICOM_THIS(StorageBaseImpl,iface);
StorageInternalImpl* newStorage;
IEnumSTATSTGImpl* propertyEnumeration;
StgProperty currentProperty;
ULONG foundPropertyIndex;
TRACE("(%p, %s, %p, %lx, %p, %ld, %p)\n",
iface, debugstr_w(pwcsName), pstgPriority,
grfMode, snbExclude, reserved, ppstg);
/*
* Perform a sanity check on the parameters.
*/
if ( (This==0) || (pwcsName==NULL) || (ppstg==0) )
return E_INVALIDARG;
/*
* Validate the STGM flags
*/
if ( FAILED( validateSTGM(grfMode) ))
return STG_E_INVALIDFLAG;
/*
* As documented.
*/
if ( !(grfMode & STGM_SHARE_EXCLUSIVE) ||
(grfMode & STGM_DELETEONRELEASE) ||
(grfMode & STGM_PRIORITY) )
return STG_E_INVALIDFUNCTION;
/*
* Initialize the out parameter
*/
*ppstg = 0;
/*
* Create a property enumeration to search the properties
*/
propertyEnumeration = IEnumSTATSTGImpl_Construct(
This->ancestorStorage,
This->rootPropertySetIndex);
/*
* Search the enumeration for the property with the given name
*/
foundPropertyIndex = IEnumSTATSTGImpl_FindProperty(
propertyEnumeration,
pwcsName,
&currentProperty);
/*
* Delete the property enumeration since we don't need it anymore
*/
IEnumSTATSTGImpl_Destroy(propertyEnumeration);
/*
* If it was found, construct the stream object and return a pointer to it.
*/
if ( (foundPropertyIndex!=PROPERTY_NULL) &&
(currentProperty.propertyType==PROPTYPE_STORAGE) )
{
/*
* Construct a new Storage object
*/
newStorage = StorageInternalImpl_Construct(
This->ancestorStorage,
foundPropertyIndex);
if (newStorage != 0)
{
*ppstg = (IStorage*)newStorage;
/*
* Since we are returning a pointer to the interface,
* we have to nail down the reference.
*/
StorageBaseImpl_AddRef(*ppstg);
return S_OK;
}
return STG_E_INSUFFICIENTMEMORY;
}
return STG_E_FILENOTFOUND;
}
/************************************************************************
* Storage32BaseImpl_EnumElements (IStorage)
*
* This method will create an enumerator object that can be used to
* retrieve informatino about all the properties in the storage object.
*
* See Windows documentation for more details on IStorage methods.
*/
HRESULT WINAPI StorageBaseImpl_EnumElements(
IStorage* iface,
DWORD reserved1, /* [in] */
void* reserved2, /* [size_is][unique][in] */
DWORD reserved3, /* [in] */
IEnumSTATSTG** ppenum) /* [out] */
{
ICOM_THIS(StorageBaseImpl,iface);
IEnumSTATSTGImpl* newEnum;
TRACE("(%p, %ld, %p, %ld, %p)\n",
iface, reserved1, reserved2, reserved3, ppenum);
/*
* Perform a sanity check on the parameters.
*/
if ( (This==0) || (ppenum==0))
return E_INVALIDARG;
/*
* Construct the enumerator.
*/
newEnum = IEnumSTATSTGImpl_Construct(
This->ancestorStorage,
This->rootPropertySetIndex);
if (newEnum!=0)
{
*ppenum = (IEnumSTATSTG*)newEnum;
/*
* Don't forget to nail down a reference to the new object before
* returning it.
*/
IEnumSTATSTGImpl_AddRef(*ppenum);
return S_OK;
}
return E_OUTOFMEMORY;
}
/************************************************************************
* Storage32BaseImpl_Stat (IStorage)
*
* This method will retrieve information about this storage object.
*
* See Windows documentation for more details on IStorage methods.
*/
HRESULT WINAPI StorageBaseImpl_Stat(
IStorage* iface,
STATSTG* pstatstg, /* [out] */
DWORD grfStatFlag) /* [in] */
{
ICOM_THIS(StorageBaseImpl,iface);
StgProperty curProperty;
BOOL readSuccessful;
TRACE("(%p, %p, %lx)\n",
iface, pstatstg, grfStatFlag);
/*
* Perform a sanity check on the parameters.
*/
if ( (This==0) || (pstatstg==0))
return E_INVALIDARG;
/*
* Read the information from the property.
*/
readSuccessful = StorageImpl_ReadProperty(
This->ancestorStorage,
This->rootPropertySetIndex,
&curProperty);
if (readSuccessful)
{
StorageUtl_CopyPropertyToSTATSTG(
pstatstg,
&curProperty,
grfStatFlag);
return S_OK;
}
return E_FAIL;
}
/************************************************************************
* Storage32BaseImpl_RenameElement (IStorage)
*
* This method will rename the specified element.
*
* See Windows documentation for more details on IStorage methods.
*
* Implementation notes: The method used to rename consists of creating a clone
* of the deleted StgProperty object setting it with the new name and to
* perform a DestroyElement of the old StgProperty.
*/
HRESULT WINAPI StorageBaseImpl_RenameElement(
IStorage* iface,
const OLECHAR* pwcsOldName, /* [in] */
const OLECHAR* pwcsNewName) /* [in] */
{
ICOM_THIS(StorageBaseImpl,iface);
IEnumSTATSTGImpl* propertyEnumeration;
StgProperty currentProperty;
ULONG foundPropertyIndex;
TRACE("(%p, %s, %s)\n",
iface, debugstr_w(pwcsOldName), debugstr_w(pwcsNewName));
/*
* Create a property enumeration to search the properties
*/
propertyEnumeration = IEnumSTATSTGImpl_Construct(This->ancestorStorage,
This->rootPropertySetIndex);
/*
* Search the enumeration for the new property name
*/
foundPropertyIndex = IEnumSTATSTGImpl_FindProperty(propertyEnumeration,
pwcsNewName,
&currentProperty);
if (foundPropertyIndex != PROPERTY_NULL)
{
/*
* There is already a property with the new name
*/
IEnumSTATSTGImpl_Destroy(propertyEnumeration);
return STG_E_FILEALREADYEXISTS;
}
IEnumSTATSTGImpl_Reset((IEnumSTATSTG*)propertyEnumeration);
/*
* Search the enumeration for the old property name
*/
foundPropertyIndex = IEnumSTATSTGImpl_FindProperty(propertyEnumeration,
pwcsOldName,
&currentProperty);
/*
* Delete the property enumeration since we don't need it anymore
*/
IEnumSTATSTGImpl_Destroy(propertyEnumeration);
if (foundPropertyIndex != PROPERTY_NULL)
{
StgProperty renamedProperty;
ULONG renamedPropertyIndex;
/*
* Setup a new property for the renamed property
*/
renamedProperty.sizeOfNameString =
( lstrlenW(pwcsNewName)+1 ) * sizeof(WCHAR);
if (renamedProperty.sizeOfNameString > PROPERTY_NAME_BUFFER_LEN)
return STG_E_INVALIDNAME;
strcpyW(renamedProperty.name, pwcsNewName);
renamedProperty.propertyType = currentProperty.propertyType;
renamedProperty.startingBlock = currentProperty.startingBlock;
renamedProperty.size.s.LowPart = currentProperty.size.s.LowPart;
renamedProperty.size.s.HighPart = currentProperty.size.s.HighPart;
renamedProperty.previousProperty = PROPERTY_NULL;
renamedProperty.nextProperty = PROPERTY_NULL;
/*
* Bring the dirProperty link in case it is a storage and in which
* case the renamed storage elements don't require to be reorganized.
*/
renamedProperty.dirProperty = currentProperty.dirProperty;
/* call CoFileTime to get the current time
renamedProperty.timeStampS1
renamedProperty.timeStampD1
renamedProperty.timeStampS2
renamedProperty.timeStampD2
renamedProperty.propertyUniqueID
*/
/*
* Obtain a free property in the property chain
*/
renamedPropertyIndex = getFreeProperty(This->ancestorStorage);
/*
* Save the new property into the new property spot
*/
StorageImpl_WriteProperty(
This->ancestorStorage,
renamedPropertyIndex,
&renamedProperty);
/*
* Find a spot in the property chain for our newly created property.
*/
updatePropertyChain(
(StorageImpl*)This,
renamedPropertyIndex,
renamedProperty);
/*
* At this point the renamed property has been inserted in the tree,
* now, before to Destroy the old property we must zeroed it's dirProperty
* otherwise the DestroyProperty below will zap it all and we do not want
* this to happen.
* Also, we fake that the old property is a storage so the DestroyProperty
* will not do a SetSize(0) on the stream data.
*
* This means that we need to tweek the StgProperty if it is a stream or a
* non empty storage.
*/
StorageImpl_ReadProperty(This->ancestorStorage,
foundPropertyIndex,
&currentProperty);
currentProperty.dirProperty = PROPERTY_NULL;
currentProperty.propertyType = PROPTYPE_STORAGE;
StorageImpl_WriteProperty(
This->ancestorStorage,
foundPropertyIndex,
&currentProperty);
/*
* Invoke Destroy to get rid of the ole property and automatically redo
* the linking of it's previous and next members...
*/
StorageImpl_DestroyElement((IStorage*)This->ancestorStorage, pwcsOldName);
}
else
{
/*
* There is no property with the old name
*/
return STG_E_FILENOTFOUND;
}
return S_OK;
}
/************************************************************************
* Storage32BaseImpl_CreateStream (IStorage)
*
* This method will create a stream object within this storage
*
* See Windows documentation for more details on IStorage methods.
*/
HRESULT WINAPI StorageBaseImpl_CreateStream(
IStorage* iface,
const OLECHAR* pwcsName, /* [string][in] */
DWORD grfMode, /* [in] */
DWORD reserved1, /* [in] */
DWORD reserved2, /* [in] */
IStream** ppstm) /* [out] */
{
ICOM_THIS(StorageBaseImpl,iface);
IEnumSTATSTGImpl* propertyEnumeration;
StgStreamImpl* newStream;
StgProperty currentProperty, newStreamProperty;
ULONG foundPropertyIndex, newPropertyIndex;
TRACE("(%p, %s, %lx, %ld, %ld, %p)\n",
iface, debugstr_w(pwcsName), grfMode,
reserved1, reserved2, ppstm);
/*
* Validate parameters
*/
if (ppstm == 0)
return STG_E_INVALIDPOINTER;
if (pwcsName == 0)
return STG_E_INVALIDNAME;
/*
* Validate the STGM flags
*/
if ( FAILED( validateSTGM(grfMode) ))
return STG_E_INVALIDFLAG;
/*
* As documented.
*/
if ( !(grfMode & STGM_SHARE_EXCLUSIVE) ||
(grfMode & STGM_DELETEONRELEASE) ||
(grfMode & STGM_TRANSACTED) )
return STG_E_INVALIDFUNCTION;
/*
* Initialize the out parameter
*/
*ppstm = 0;
/*
* Create a property enumeration to search the properties
*/
propertyEnumeration = IEnumSTATSTGImpl_Construct(This->ancestorStorage,
This->rootPropertySetIndex);
foundPropertyIndex = IEnumSTATSTGImpl_FindProperty(propertyEnumeration,
pwcsName,
&currentProperty);
IEnumSTATSTGImpl_Destroy(propertyEnumeration);
if (foundPropertyIndex != PROPERTY_NULL)
{
/*
* An element with this name already exists
*/
if (grfMode & STGM_CREATE)
{
IStorage_DestroyElement(iface, pwcsName);
}
else
return STG_E_FILEALREADYEXISTS;
}
/*
* memset the empty property
*/
memset(&newStreamProperty, 0, sizeof(StgProperty));
newStreamProperty.sizeOfNameString =
( lstrlenW(pwcsName)+1 ) * sizeof(WCHAR);
if (newStreamProperty.sizeOfNameString > PROPERTY_NAME_BUFFER_LEN)
return STG_E_INVALIDNAME;
strcpyW(newStreamProperty.name, pwcsName);
newStreamProperty.propertyType = PROPTYPE_STREAM;
newStreamProperty.startingBlock = BLOCK_END_OF_CHAIN;
newStreamProperty.size.s.LowPart = 0;
newStreamProperty.size.s.HighPart = 0;
newStreamProperty.previousProperty = PROPERTY_NULL;
newStreamProperty.nextProperty = PROPERTY_NULL;
newStreamProperty.dirProperty = PROPERTY_NULL;
/* call CoFileTime to get the current time
newStreamProperty.timeStampS1
newStreamProperty.timeStampD1
newStreamProperty.timeStampS2
newStreamProperty.timeStampD2
*/
/* newStreamProperty.propertyUniqueID */
/*
* Get a free property or create a new one
*/
newPropertyIndex = getFreeProperty(This->ancestorStorage);
/*
* Save the new property into the new property spot
*/
StorageImpl_WriteProperty(
This->ancestorStorage,
newPropertyIndex,
&newStreamProperty);
/*
* Find a spot in the property chain for our newly created property.
*/
updatePropertyChain(
(StorageImpl*)This,
newPropertyIndex,
newStreamProperty);
/*
* Open the stream to return it.
*/
newStream = StgStreamImpl_Construct(This, grfMode, newPropertyIndex);
if (newStream != 0)
{
*ppstm = (IStream*)newStream;
/*
* Since we are returning a pointer to the interface, we have to nail down
* the reference.
*/
StgStreamImpl_AddRef(*ppstm);
}
else
{
return STG_E_INSUFFICIENTMEMORY;
}
return S_OK;
}
/************************************************************************
* Storage32BaseImpl_SetClass (IStorage)
*
* This method will write the specified CLSID in the property of this
* storage.
*
* See Windows documentation for more details on IStorage methods.
*/
HRESULT WINAPI StorageBaseImpl_SetClass(
IStorage* iface,
REFCLSID clsid) /* [in] */
{
ICOM_THIS(StorageBaseImpl,iface);
HRESULT hRes = E_FAIL;
StgProperty curProperty;
BOOL success;
TRACE("(%p, %p)\n", iface, clsid);
success = StorageImpl_ReadProperty(This->ancestorStorage,
This->rootPropertySetIndex,
&curProperty);
if (success)
{
curProperty.propertyUniqueID = *clsid;
success = StorageImpl_WriteProperty(This->ancestorStorage,
This->rootPropertySetIndex,
&curProperty);
if (success)
hRes = S_OK;
}
return hRes;
}
/************************************************************************
** Storage32Impl implementation
*/
/************************************************************************
* Storage32Impl_CreateStorage (IStorage)
*
* This method will create the storage object within the provided storage.
*
* See Windows documentation for more details on IStorage methods.
*/
HRESULT WINAPI StorageImpl_CreateStorage(
IStorage* iface,
const OLECHAR *pwcsName, /* [string][in] */
DWORD grfMode, /* [in] */
DWORD reserved1, /* [in] */
DWORD reserved2, /* [in] */
IStorage **ppstg) /* [out] */
{
StorageImpl* const This=(StorageImpl*)iface;
IEnumSTATSTGImpl *propertyEnumeration;
StgProperty currentProperty;
StgProperty newProperty;
ULONG foundPropertyIndex;
ULONG newPropertyIndex;
HRESULT hr;
TRACE("(%p, %s, %lx, %ld, %ld, %p)\n",
iface, debugstr_w(pwcsName), grfMode,
reserved1, reserved2, ppstg);
/*
* Validate parameters
*/
if (ppstg == 0)
return STG_E_INVALIDPOINTER;
if (pwcsName == 0)
return STG_E_INVALIDNAME;
/*
* Validate the STGM flags
*/
if ( FAILED( validateSTGM(grfMode) ) ||
(grfMode & STGM_DELETEONRELEASE) )
return STG_E_INVALIDFLAG;
/*
* Initialize the out parameter
*/
*ppstg = 0;
/*
* Create a property enumeration and search the properties
*/
propertyEnumeration = IEnumSTATSTGImpl_Construct( This->ancestorStorage,
This->rootPropertySetIndex);
foundPropertyIndex = IEnumSTATSTGImpl_FindProperty(propertyEnumeration,
pwcsName,
&currentProperty);
IEnumSTATSTGImpl_Destroy(propertyEnumeration);
if (foundPropertyIndex != PROPERTY_NULL)
{
/*
* An element with this name already exists
*/
if (grfMode & STGM_CREATE)
IStorage_DestroyElement(iface, pwcsName);
else
return STG_E_FILEALREADYEXISTS;
}
/*
* memset the empty property
*/
memset(&newProperty, 0, sizeof(StgProperty));
newProperty.sizeOfNameString = (lstrlenW(pwcsName)+1)*sizeof(WCHAR);
if (newProperty.sizeOfNameString > PROPERTY_NAME_BUFFER_LEN)
return STG_E_INVALIDNAME;
strcpyW(newProperty.name, pwcsName);
newProperty.propertyType = PROPTYPE_STORAGE;
newProperty.startingBlock = BLOCK_END_OF_CHAIN;
newProperty.size.s.LowPart = 0;
newProperty.size.s.HighPart = 0;
newProperty.previousProperty = PROPERTY_NULL;
newProperty.nextProperty = PROPERTY_NULL;
newProperty.dirProperty = PROPERTY_NULL;
/* call CoFileTime to get the current time
newProperty.timeStampS1
newProperty.timeStampD1
newProperty.timeStampS2
newProperty.timeStampD2
*/
/* newStorageProperty.propertyUniqueID */
/*
* Obtain a free property in the property chain
*/
newPropertyIndex = getFreeProperty(This->ancestorStorage);
/*
* Save the new property into the new property spot
*/
StorageImpl_WriteProperty(
This->ancestorStorage,
newPropertyIndex,
&newProperty);
/*
* Find a spot in the property chain for our newly created property.
*/
updatePropertyChain(
This,
newPropertyIndex,
newProperty);
/*
* Open it to get a pointer to return.
*/
hr = IStorage_OpenStorage(
iface,
(OLECHAR*)pwcsName,
0,
grfMode,
0,
0,
ppstg);
if( (hr != S_OK) || (*ppstg == NULL))
{
return hr;
}
return S_OK;
}
/***************************************************************************
*
* Internal Method
*
* Get a free property or create a new one.
*/
static ULONG getFreeProperty(
StorageImpl *storage)
{
ULONG currentPropertyIndex = 0;
ULONG newPropertyIndex = PROPERTY_NULL;
BOOL readSuccessful = TRUE;
StgProperty currentProperty;
do
{
/*
* Start by reading the root property
*/
readSuccessful = StorageImpl_ReadProperty(storage->ancestorStorage,
currentPropertyIndex,
&currentProperty);
if (readSuccessful)
{
if (currentProperty.sizeOfNameString == 0)
{
/*
* The property existis and is available, we found it.
*/
newPropertyIndex = currentPropertyIndex;
}
}
else
{
/*
* We exhausted the property list, we will create more space below
*/
newPropertyIndex = currentPropertyIndex;
}
currentPropertyIndex++;
} while (newPropertyIndex == PROPERTY_NULL);
/*
* grow the property chain
*/
if (! readSuccessful)
{
StgProperty emptyProperty;
ULARGE_INTEGER newSize;
ULONG propertyIndex;
ULONG lastProperty = 0;
ULONG blockCount = 0;
/*
* obtain the new count of property blocks
*/
blockCount = BlockChainStream_GetCount(
storage->ancestorStorage->rootBlockChain)+1;
/*
* initialize the size used by the property stream
*/
newSize.s.HighPart = 0;
newSize.s.LowPart = storage->bigBlockSize * blockCount;
/*
* add a property block to the property chain
*/
BlockChainStream_SetSize(storage->ancestorStorage->rootBlockChain, newSize);
/*
* memset the empty property in order to initialize the unused newly
* created property
*/
memset(&emptyProperty, 0, sizeof(StgProperty));
/*
* initialize them
*/
lastProperty = storage->bigBlockSize / PROPSET_BLOCK_SIZE * blockCount;
for(
propertyIndex = newPropertyIndex;
propertyIndex < lastProperty;
propertyIndex++)
{
StorageImpl_WriteProperty(
storage->ancestorStorage,
propertyIndex,
&emptyProperty);
}
}
return newPropertyIndex;
}
/****************************************************************************
*
* Internal Method
*
* Case insensitive comparaison of StgProperty.name by first considering
* their size.
*
* Returns <0 when newPrpoerty < currentProperty
* >0 when newPrpoerty > currentProperty
* 0 when newPrpoerty == currentProperty
*/
static LONG propertyNameCmp(
OLECHAR *newProperty,
OLECHAR *currentProperty)
{
LONG diff = lstrlenW(newProperty) - lstrlenW(currentProperty);
if (diff == 0)
{
/*
* We compare the string themselves only when they are of the same lenght
*/
diff = lstrcmpiW( newProperty, currentProperty);
}
return diff;
}
/****************************************************************************
*
* Internal Method
*
* Properly link this new element in the property chain.
*/
static void updatePropertyChain(
StorageImpl *storage,
ULONG newPropertyIndex,
StgProperty newProperty)
{
StgProperty currentProperty;
/*
* Read the root property
*/
StorageImpl_ReadProperty(storage->ancestorStorage,
storage->rootPropertySetIndex,
&currentProperty);
if (currentProperty.dirProperty != PROPERTY_NULL)
{
/*
* The root storage contains some element, therefore, start the research
* for the appropriate location.
*/
BOOL found = 0;
ULONG current, next, previous, currentPropertyId;
/*
* Keep the StgProperty sequence number of the storage first property
*/
currentPropertyId = currentProperty.dirProperty;
/*
* Read
*/
StorageImpl_ReadProperty(storage->ancestorStorage,
currentProperty.dirProperty,
&currentProperty);
previous = currentProperty.previousProperty;
next = currentProperty.nextProperty;
current = currentPropertyId;
while (found == 0)
{
LONG diff = propertyNameCmp( newProperty.name, currentProperty.name);
if (diff < 0)
{
if (previous != PROPERTY_NULL)
{
StorageImpl_ReadProperty(storage->ancestorStorage,
previous,
&currentProperty);
current = previous;
}
else
{
currentProperty.previousProperty = newPropertyIndex;
StorageImpl_WriteProperty(storage->ancestorStorage,
current,
&currentProperty);
found = 1;
}
}
else if (diff > 0)
{
if (next != PROPERTY_NULL)
{
StorageImpl_ReadProperty(storage->ancestorStorage,
next,
&currentProperty);
current = next;
}
else
{
currentProperty.nextProperty = newPropertyIndex;
StorageImpl_WriteProperty(storage->ancestorStorage,
current,
&currentProperty);
found = 1;
}
}
else
{
/*
* Trying to insert an item with the same name in the
* subtree structure.
*/
assert(FALSE);
}
previous = currentProperty.previousProperty;
next = currentProperty.nextProperty;
}
}
else
{
/*
* The root storage is empty, link the new property to it's dir property
*/
currentProperty.dirProperty = newPropertyIndex;
StorageImpl_WriteProperty(storage->ancestorStorage,
storage->rootPropertySetIndex,
&currentProperty);
}
}
/*************************************************************************
* CopyTo (IStorage)
*/
HRESULT WINAPI StorageImpl_CopyTo(
IStorage* iface,
DWORD ciidExclude, /* [in] */
const IID* rgiidExclude, /* [size_is][unique][in] */
SNB snbExclude, /* [unique][in] */
IStorage* pstgDest) /* [unique][in] */
{
IEnumSTATSTG *elements = 0;
STATSTG curElement, strStat;
HRESULT hr;
IStorage *pstgTmp, *pstgChild;
IStream *pstrTmp, *pstrChild;
if ((ciidExclude != 0) || (rgiidExclude != NULL) || (snbExclude != NULL))
FIXME("Exclude option not implemented\n");
TRACE("(%p, %ld, %p, %p, %p)\n",
iface, ciidExclude, rgiidExclude,
snbExclude, pstgDest);
/*
* Perform a sanity check
*/
if ( pstgDest == 0 )
return STG_E_INVALIDPOINTER;
/*
* Enumerate the elements
*/
hr = IStorage_EnumElements( iface, 0, 0, 0, &elements );
if ( hr != S_OK )
return hr;
/*
* set the class ID
*/
IStorage_Stat( iface, &curElement, STATFLAG_NONAME);
IStorage_SetClass( pstgDest, &curElement.clsid );
do
{
/*
* Obtain the next element
*/
hr = IEnumSTATSTG_Next( elements, 1, &curElement, NULL );
if ( hr == S_FALSE )
{
hr = S_OK; /* done, every element has been copied */
break;
}
if (curElement.type == STGTY_STORAGE)
{
/*
* open child source storage
*/
hr = IStorage_OpenStorage( iface, curElement.pwcsName, NULL,
STGM_READ|STGM_SHARE_EXCLUSIVE,
NULL, 0, &pstgChild );
if (hr != S_OK)
break;
/*
* Check if destination storage is not a child of the source
* storage, which will cause an infinite loop
*/
if (pstgChild == pstgDest)
{
IEnumSTATSTG_Release(elements);
return STG_E_ACCESSDENIED;
}
/*
* create a new storage in destination storage
*/
hr = IStorage_CreateStorage( pstgDest, curElement.pwcsName,
STGM_FAILIFTHERE|STGM_WRITE|STGM_SHARE_EXCLUSIVE,
0, 0,
&pstgTmp );
/*
* if it already exist, don't create a new one use this one
*/
if (hr == STG_E_FILEALREADYEXISTS)
{
hr = IStorage_OpenStorage( pstgDest, curElement.pwcsName, NULL,
STGM_WRITE|STGM_SHARE_EXCLUSIVE,
NULL, 0, &pstgTmp );
}
if (hr != S_OK)
break;
/*
* do the copy recursively
*/
hr = IStorage_CopyTo( pstgChild, ciidExclude, rgiidExclude,
snbExclude, pstgTmp );
IStorage_Release( pstgTmp );
IStorage_Release( pstgChild );
}
else if (curElement.type == STGTY_STREAM)
{
/*
* create a new stream in destination storage. If the stream already
* exist, it will be deleted and a new one will be created.
*/
hr = IStorage_CreateStream( pstgDest, curElement.pwcsName,
STGM_CREATE|STGM_WRITE|STGM_SHARE_EXCLUSIVE,
0, 0, &pstrTmp );
if (hr != S_OK)
break;
/*
* open child stream storage
*/
hr = IStorage_OpenStream( iface, curElement.pwcsName, NULL,
STGM_READ|STGM_SHARE_EXCLUSIVE,
0, &pstrChild );
if (hr != S_OK)
break;
/*
* Get the size of the source stream
*/
IStream_Stat( pstrChild, &strStat, STATFLAG_NONAME );
/*
* Set the size of the destination stream.
*/
IStream_SetSize(pstrTmp, strStat.cbSize);
/*
* do the copy
*/
hr = IStream_CopyTo( pstrChild, pstrTmp, strStat.cbSize,
NULL, NULL );
IStream_Release( pstrTmp );
IStream_Release( pstrChild );
}
else
{
WARN("unknown element type: %ld\n", curElement.type);
}
} while (hr == S_OK);
/*
* Clean-up
*/
IEnumSTATSTG_Release(elements);
return hr;
}
/*************************************************************************
* MoveElementTo (IStorage)
*/
HRESULT WINAPI StorageImpl_MoveElementTo(
IStorage* iface,
const OLECHAR *pwcsName, /* [string][in] */
IStorage *pstgDest, /* [unique][in] */
const OLECHAR *pwcsNewName,/* [string][in] */
DWORD grfFlags) /* [in] */
{
FIXME("not implemented!\n");
return E_NOTIMPL;
}
/*************************************************************************
* Commit (IStorage)
*/
HRESULT WINAPI StorageImpl_Commit(
IStorage* iface,
DWORD grfCommitFlags)/* [in] */
{
FIXME("(%ld): stub!\n", grfCommitFlags);
return S_OK;
}
/*************************************************************************
* Revert (IStorage)
*/
HRESULT WINAPI StorageImpl_Revert(
IStorage* iface)
{
FIXME("not implemented!\n");
return E_NOTIMPL;
}
/*************************************************************************
* DestroyElement (IStorage)
*
* Stategy: This implementation is build this way for simplicity not for speed.
* I always delete the top most element of the enumeration and adjust
* the deleted element pointer all the time. This takes longer to
* do but allow to reinvoke DestroyElement whenever we encounter a
* storage object. The optimisation reside in the usage of another
* enumeration stategy that would give all the leaves of a storage
* first. (postfix order)
*/
HRESULT WINAPI StorageImpl_DestroyElement(
IStorage* iface,
const OLECHAR *pwcsName)/* [string][in] */
{
StorageImpl* const This=(StorageImpl*)iface;
IEnumSTATSTGImpl* propertyEnumeration;
HRESULT hr = S_OK;
BOOL res;
StgProperty propertyToDelete;
StgProperty parentProperty;
ULONG foundPropertyIndexToDelete;
ULONG typeOfRelation;
ULONG parentPropertyId;
TRACE("(%p, %s)\n",
iface, debugstr_w(pwcsName));
/*
* Perform a sanity check on the parameters.
*/
if (pwcsName==NULL)
return STG_E_INVALIDPOINTER;
/*
* Create a property enumeration to search the property with the given name
*/
propertyEnumeration = IEnumSTATSTGImpl_Construct(
This->ancestorStorage,
This->rootPropertySetIndex);
foundPropertyIndexToDelete = IEnumSTATSTGImpl_FindProperty(
propertyEnumeration,
pwcsName,
&propertyToDelete);
IEnumSTATSTGImpl_Destroy(propertyEnumeration);
if ( foundPropertyIndexToDelete == PROPERTY_NULL )
{
return STG_E_FILENOTFOUND;
}
/*
* Find the parent property of the property to delete (the one that
* link to it). If This->dirProperty == foundPropertyIndexToDelete,
* the parent is This. Otherwise, the parent is one of it's sibling...
*/
/*
* First, read This's StgProperty..
*/
res = StorageImpl_ReadProperty(
This->ancestorStorage,
This->rootPropertySetIndex,
&parentProperty);
assert(res==TRUE);
/*
* Second, check to see if by any chance the actual storage (This) is not
* the parent of the property to delete... We never know...
*/
if ( parentProperty.dirProperty == foundPropertyIndexToDelete )
{
/*
* Set data as it would have been done in the else part...
*/
typeOfRelation = PROPERTY_RELATION_DIR;
parentPropertyId = This->rootPropertySetIndex;
}
else
{
/*
* Create a property enumeration to search the parent properties, and
* delete it once done.
*/
IEnumSTATSTGImpl* propertyEnumeration2;
propertyEnumeration2 = IEnumSTATSTGImpl_Construct(
This->ancestorStorage,
This->rootPropertySetIndex);
typeOfRelation = IEnumSTATSTGImpl_FindParentProperty(
propertyEnumeration2,
foundPropertyIndexToDelete,
&parentProperty,
&parentPropertyId);
IEnumSTATSTGImpl_Destroy(propertyEnumeration2);
}
if ( propertyToDelete.propertyType == PROPTYPE_STORAGE )
{
hr = deleteStorageProperty(
This,
foundPropertyIndexToDelete,
propertyToDelete);
}
else if ( propertyToDelete.propertyType == PROPTYPE_STREAM )
{
hr = deleteStreamProperty(
This,
foundPropertyIndexToDelete,
propertyToDelete);
}
if (hr!=S_OK)
return hr;
/*
* Adjust the property chain
*/
hr = adjustPropertyChain(
This,
propertyToDelete,
parentProperty,
parentPropertyId,
typeOfRelation);
return hr;
}
/*********************************************************************
*
* Internal Method
*
* Perform the deletion of a complete storage node
*
*/
static HRESULT deleteStorageProperty(
StorageImpl *parentStorage,
ULONG indexOfPropertyToDelete,
StgProperty propertyToDelete)
{
IEnumSTATSTG *elements = 0;
IStorage *childStorage = 0;
STATSTG currentElement;
HRESULT hr;
HRESULT destroyHr = S_OK;
/*
* Open the storage and enumerate it
*/
hr = StorageBaseImpl_OpenStorage(
(IStorage*)parentStorage,
propertyToDelete.name,
0,
STGM_SHARE_EXCLUSIVE,
0,
0,
&childStorage);
if (hr != S_OK)
{
return hr;
}
/*
* Enumerate the elements
*/
IStorage_EnumElements( childStorage, 0, 0, 0, &elements);
do
{
/*
* Obtain the next element
*/
hr = IEnumSTATSTG_Next(elements, 1, &currentElement, NULL);
if (hr==S_OK)
{
destroyHr = StorageImpl_DestroyElement(
(IStorage*)childStorage,
(OLECHAR*)currentElement.pwcsName);
CoTaskMemFree(currentElement.pwcsName);
}
/*
* We need to Reset the enumeration every time because we delete elements
* and the enumeration could be invalid
*/
IEnumSTATSTG_Reset(elements);
} while ((hr == S_OK) && (destroyHr == S_OK));
/*
* Invalidate the property by zeroing it's name member.
*/
propertyToDelete.sizeOfNameString = 0;
StorageImpl_WriteProperty(parentStorage->ancestorStorage,
indexOfPropertyToDelete,
&propertyToDelete);
IStorage_Release(childStorage);
IEnumSTATSTG_Release(elements);
return destroyHr;
}
/*********************************************************************
*
* Internal Method
*
* Perform the deletion of a stream node
*
*/
static HRESULT deleteStreamProperty(
StorageImpl *parentStorage,
ULONG indexOfPropertyToDelete,
StgProperty propertyToDelete)
{
IStream *pis;
HRESULT hr;
ULARGE_INTEGER size;
size.s.HighPart = 0;
size.s.LowPart = 0;
hr = StorageBaseImpl_OpenStream(
(IStorage*)parentStorage,
(OLECHAR*)propertyToDelete.name,
NULL,
STGM_WRITE | STGM_SHARE_EXCLUSIVE,
0,
&pis);
if (hr!=S_OK)
{
return(hr);
}
/*
* Zap the stream
*/
hr = IStream_SetSize(pis, size);
if(hr != S_OK)
{
return hr;
}
/*
* Release the stream object.
*/
IStream_Release(pis);
/*
* Invalidate the property by zeroing it's name member.
*/
propertyToDelete.sizeOfNameString = 0;
/*
* Here we should re-read the property so we get the updated pointer
* but since we are here to zap it, I don't do it...
*/
StorageImpl_WriteProperty(
parentStorage->ancestorStorage,
indexOfPropertyToDelete,
&propertyToDelete);
return S_OK;
}
/*********************************************************************
*
* Internal Method
*
* Finds a placeholder for the StgProperty within the Storage
*
*/
static HRESULT findPlaceholder(
StorageImpl *storage,
ULONG propertyIndexToStore,
ULONG storePropertyIndex,
INT typeOfRelation)
{
StgProperty storeProperty;
HRESULT hr = S_OK;
BOOL res = TRUE;
/*
* Read the storage property
*/
res = StorageImpl_ReadProperty(
storage->ancestorStorage,
storePropertyIndex,
&storeProperty);
if(! res)
{
return E_FAIL;
}
if (typeOfRelation == PROPERTY_RELATION_PREVIOUS)
{
if (storeProperty.previousProperty != PROPERTY_NULL)
{
return findPlaceholder(
storage,
propertyIndexToStore,
storeProperty.previousProperty,
typeOfRelation);
}
else
{
storeProperty.previousProperty = propertyIndexToStore;
}
}
else if (typeOfRelation == PROPERTY_RELATION_NEXT)
{
if (storeProperty.nextProperty != PROPERTY_NULL)
{
return findPlaceholder(
storage,
propertyIndexToStore,
storeProperty.nextProperty,
typeOfRelation);
}
else
{
storeProperty.nextProperty = propertyIndexToStore;
}
}
else if (typeOfRelation == PROPERTY_RELATION_DIR)
{
if (storeProperty.dirProperty != PROPERTY_NULL)
{
return findPlaceholder(
storage,
propertyIndexToStore,
storeProperty.dirProperty,
typeOfRelation);
}
else
{
storeProperty.dirProperty = propertyIndexToStore;
}
}
hr = StorageImpl_WriteProperty(
storage->ancestorStorage,
storePropertyIndex,
&storeProperty);
if(! hr)
{
return E_FAIL;
}
return S_OK;
}
/*************************************************************************
*
* Internal Method
*
* This method takes the previous and the next property link of a property
* to be deleted and find them a place in the Storage.
*/
static HRESULT adjustPropertyChain(
StorageImpl *This,
StgProperty propertyToDelete,
StgProperty parentProperty,
ULONG parentPropertyId,
INT typeOfRelation)
{
ULONG newLinkProperty = PROPERTY_NULL;
BOOL needToFindAPlaceholder = FALSE;
ULONG storeNode = PROPERTY_NULL;
ULONG toStoreNode = PROPERTY_NULL;
INT relationType = 0;
HRESULT hr = S_OK;
BOOL res = TRUE;
if (typeOfRelation == PROPERTY_RELATION_PREVIOUS)
{
if (propertyToDelete.previousProperty != PROPERTY_NULL)
{
/*
* Set the parent previous to the property to delete previous
*/
newLinkProperty = propertyToDelete.previousProperty;
if (propertyToDelete.nextProperty != PROPERTY_NULL)
{
/*
* We also need to find a storage for the other link, setup variables
* to do this at the end...
*/
needToFindAPlaceholder = TRUE;
storeNode = propertyToDelete.previousProperty;
toStoreNode = propertyToDelete.nextProperty;
relationType = PROPERTY_RELATION_NEXT;
}
}
else if (propertyToDelete.nextProperty != PROPERTY_NULL)
{
/*
* Set the parent previous to the property to delete next
*/
newLinkProperty = propertyToDelete.nextProperty;
}
/*
* Link it for real...
*/
parentProperty.previousProperty = newLinkProperty;
}
else if (typeOfRelation == PROPERTY_RELATION_NEXT)
{
if (propertyToDelete.previousProperty != PROPERTY_NULL)
{
/*
* Set the parent next to the property to delete next previous
*/
newLinkProperty = propertyToDelete.previousProperty;
if (propertyToDelete.nextProperty != PROPERTY_NULL)
{
/*
* We also need to find a storage for the other link, setup variables
* to do this at the end...
*/
needToFindAPlaceholder = TRUE;
storeNode = propertyToDelete.previousProperty;
toStoreNode = propertyToDelete.nextProperty;
relationType = PROPERTY_RELATION_NEXT;
}
}
else if (propertyToDelete.nextProperty != PROPERTY_NULL)
{
/*
* Set the parent next to the property to delete next
*/
newLinkProperty = propertyToDelete.nextProperty;
}
/*
* Link it for real...
*/
parentProperty.nextProperty = newLinkProperty;
}
else /* (typeOfRelation == PROPERTY_RELATION_DIR) */
{
if (propertyToDelete.previousProperty != PROPERTY_NULL)
{
/*
* Set the parent dir to the property to delete previous
*/
newLinkProperty = propertyToDelete.previousProperty;
if (propertyToDelete.nextProperty != PROPERTY_NULL)
{
/*
* We also need to find a storage for the other link, setup variables
* to do this at the end...
*/
needToFindAPlaceholder = TRUE;
storeNode = propertyToDelete.previousProperty;
toStoreNode = propertyToDelete.nextProperty;
relationType = PROPERTY_RELATION_NEXT;
}
}
else if (propertyToDelete.nextProperty != PROPERTY_NULL)
{
/*
* Set the parent dir to the property to delete next
*/
newLinkProperty = propertyToDelete.nextProperty;
}
/*
* Link it for real...
*/
parentProperty.dirProperty = newLinkProperty;
}
/*
* Write back the parent property
*/
res = StorageImpl_WriteProperty(
This->ancestorStorage,
parentPropertyId,
&parentProperty);
if(! res)
{
return E_FAIL;
}
/*
* If a placeholder is required for the other link, then, find one and
* get out of here...
*/
if (needToFindAPlaceholder)
{
hr = findPlaceholder(
This,
toStoreNode,
storeNode,
relationType);
}
return hr;
}
/******************************************************************************
* SetElementTimes (IStorage)
*/
HRESULT WINAPI StorageImpl_SetElementTimes(
IStorage* iface,
const OLECHAR *pwcsName,/* [string][in] */
const FILETIME *pctime, /* [in] */
const FILETIME *patime, /* [in] */
const FILETIME *pmtime) /* [in] */
{
FIXME("not implemented!\n");
return E_NOTIMPL;
}
/******************************************************************************
* SetStateBits (IStorage)
*/
HRESULT WINAPI StorageImpl_SetStateBits(
IStorage* iface,
DWORD grfStateBits,/* [in] */
DWORD grfMask) /* [in] */
{
FIXME("not implemented!\n");
return E_NOTIMPL;
}
HRESULT StorageImpl_Construct(
StorageImpl* This,
HANDLE hFile,
ILockBytes* pLkbyt,
DWORD openFlags,
BOOL fileBased,
BOOL fileCreate)
{
HRESULT hr = S_OK;
StgProperty currentProperty;
BOOL readSuccessful;
ULONG currentPropertyIndex;
if ( FAILED( validateSTGM(openFlags) ))
return STG_E_INVALIDFLAG;
memset(This, 0, sizeof(StorageImpl));
/*
* Initialize the virtual fgunction table.
*/
ICOM_VTBL(This) = &Storage32Impl_Vtbl;
This->v_destructor = &StorageImpl_Destroy;
/*
* This is the top-level storage so initialize the ancester pointer
* to this.
*/
This->ancestorStorage = This;
/*
* Initialize the physical support of the storage.
*/
This->hFile = hFile;
/*
* Initialize the big block cache.
*/
This->bigBlockSize = DEF_BIG_BLOCK_SIZE;
This->smallBlockSize = DEF_SMALL_BLOCK_SIZE;
1999-02-18 16:55:53 +01:00
This->bigBlockFile = BIGBLOCKFILE_Construct(hFile,
pLkbyt,
1999-02-18 16:55:53 +01:00
openFlags,
This->bigBlockSize,
fileBased);
1999-02-18 16:55:53 +01:00
if (This->bigBlockFile == 0)
return E_FAIL;
if (fileCreate)
{
ULARGE_INTEGER size;
BYTE* bigBlockBuffer;
/*
* Initialize all header variables:
* - The big block depot consists of one block and it is at block 0
* - The properties start at block 1
* - There is no small block depot
*/
memset( This->bigBlockDepotStart,
BLOCK_UNUSED,
sizeof(This->bigBlockDepotStart));
This->bigBlockDepotCount = 1;
This->bigBlockDepotStart[0] = 0;
This->rootStartBlock = 1;
This->smallBlockDepotStart = BLOCK_END_OF_CHAIN;
This->bigBlockSizeBits = DEF_BIG_BLOCK_SIZE_BITS;
This->smallBlockSizeBits = DEF_SMALL_BLOCK_SIZE_BITS;
This->extBigBlockDepotStart = BLOCK_END_OF_CHAIN;
This->extBigBlockDepotCount = 0;
StorageImpl_SaveFileHeader(This);
/*
* Add one block for the big block depot and one block for the properties
*/
size.s.HighPart = 0;
size.s.LowPart = This->bigBlockSize * 3;
BIGBLOCKFILE_SetSize(This->bigBlockFile, size);
/*
* Initialize the big block depot
*/
bigBlockBuffer = StorageImpl_GetBigBlock(This, 0);
memset(bigBlockBuffer, BLOCK_UNUSED, This->bigBlockSize);
StorageUtl_WriteDWord(bigBlockBuffer, 0, BLOCK_SPECIAL);
StorageUtl_WriteDWord(bigBlockBuffer, sizeof(ULONG), BLOCK_END_OF_CHAIN);
StorageImpl_ReleaseBigBlock(This, bigBlockBuffer);
}
else
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{
/*
* Load the header for the file.
*/
hr = StorageImpl_LoadFileHeader(This);
if (FAILED(hr))
{
BIGBLOCKFILE_Destructor(This->bigBlockFile);
return hr;
}
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}
/*
* There is no block depot cached yet.
*/
This->indexBlockDepotCached = 0xFFFFFFFF;
/*
* Start searching for free blocks with block 0.
*/
This->prevFreeBlock = 0;
/*
* Create the block chain abstractions.
*/
This->rootBlockChain =
BlockChainStream_Construct(This, &This->rootStartBlock, PROPERTY_NULL);
This->smallBlockDepotChain = BlockChainStream_Construct(
This,
&This->smallBlockDepotStart,
PROPERTY_NULL);
/*
* Write the root property
*/
if (fileCreate)
{
StgProperty rootProp;
/*
* Initialize the property chain
*/
memset(&rootProp, 0, sizeof(rootProp));
MultiByteToWideChar( CP_ACP, 0, rootPropertyName, -1, rootProp.name,
sizeof(rootProp.name)/sizeof(WCHAR) );
rootProp.sizeOfNameString = (strlenW(rootProp.name)+1) * sizeof(WCHAR);
rootProp.propertyType = PROPTYPE_ROOT;
rootProp.previousProperty = PROPERTY_NULL;
rootProp.nextProperty = PROPERTY_NULL;
rootProp.dirProperty = PROPERTY_NULL;
rootProp.startingBlock = BLOCK_END_OF_CHAIN;
rootProp.size.s.HighPart = 0;
rootProp.size.s.LowPart = 0;
StorageImpl_WriteProperty(This, 0, &rootProp);
}
/*
* Find the ID of the root int he property sets.
*/
currentPropertyIndex = 0;
do
{
readSuccessful = StorageImpl_ReadProperty(
This,
currentPropertyIndex,
&currentProperty);
if (readSuccessful)
{
if ( (currentProperty.sizeOfNameString != 0 ) &&
(currentProperty.propertyType == PROPTYPE_ROOT) )
{
This->rootPropertySetIndex = currentPropertyIndex;
}
}
currentPropertyIndex++;
} while (readSuccessful && (This->rootPropertySetIndex == PROPERTY_NULL) );
if (!readSuccessful)
{
/* TODO CLEANUP */
return E_FAIL;
}
/*
* Create the block chain abstraction for the small block root chain.
*/
This->smallBlockRootChain = BlockChainStream_Construct(
This,
NULL,
This->rootPropertySetIndex);
return hr;
}
void StorageImpl_Destroy(
StorageImpl* This)
{
TRACE("(%p)\n", This);
BlockChainStream_Destroy(This->smallBlockRootChain);
BlockChainStream_Destroy(This->rootBlockChain);
BlockChainStream_Destroy(This->smallBlockDepotChain);
BIGBLOCKFILE_Destructor(This->bigBlockFile);
return;
}
/******************************************************************************
* Storage32Impl_GetNextFreeBigBlock
*
* Returns the index of the next free big block.
* If the big block depot is filled, this method will enlarge it.
*
*/
ULONG StorageImpl_GetNextFreeBigBlock(
StorageImpl* This)
{
ULONG depotBlockIndexPos;
void *depotBuffer;
ULONG depotBlockOffset;
ULONG blocksPerDepot = This->bigBlockSize / sizeof(ULONG);
ULONG nextBlockIndex = BLOCK_SPECIAL;
int depotIndex = 0;
ULONG freeBlock = BLOCK_UNUSED;
depotIndex = This->prevFreeBlock / blocksPerDepot;
depotBlockOffset = (This->prevFreeBlock % blocksPerDepot) * sizeof(ULONG);
/*
* Scan the entire big block depot until we find a block marked free
*/
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while (nextBlockIndex != BLOCK_UNUSED)
{
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if (depotIndex < COUNT_BBDEPOTINHEADER)
{
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depotBlockIndexPos = This->bigBlockDepotStart[depotIndex];
/*
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* Grow the primary depot.
*/
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if (depotBlockIndexPos == BLOCK_UNUSED)
{
depotBlockIndexPos = depotIndex*blocksPerDepot;
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/*
* Add a block depot.
*/
Storage32Impl_AddBlockDepot(This, depotBlockIndexPos);
This->bigBlockDepotCount++;
This->bigBlockDepotStart[depotIndex] = depotBlockIndexPos;
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/*
* Flag it as a block depot.
*/
StorageImpl_SetNextBlockInChain(This,
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depotBlockIndexPos,
BLOCK_SPECIAL);
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/* Save new header information.
*/
StorageImpl_SaveFileHeader(This);
}
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}
else
{
depotBlockIndexPos = Storage32Impl_GetExtDepotBlock(This, depotIndex);
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if (depotBlockIndexPos == BLOCK_UNUSED)
{
/*
* Grow the extended depot.
*/
ULONG extIndex = BLOCK_UNUSED;
ULONG numExtBlocks = depotIndex - COUNT_BBDEPOTINHEADER;
ULONG extBlockOffset = numExtBlocks % (blocksPerDepot - 1);
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if (extBlockOffset == 0)
{
/* We need an extended block.
*/
extIndex = Storage32Impl_AddExtBlockDepot(This);
This->extBigBlockDepotCount++;
depotBlockIndexPos = extIndex + 1;
}
else
depotBlockIndexPos = depotIndex * blocksPerDepot;
/*
* Add a block depot and mark it in the extended block.
*/
Storage32Impl_AddBlockDepot(This, depotBlockIndexPos);
This->bigBlockDepotCount++;
Storage32Impl_SetExtDepotBlock(This, depotIndex, depotBlockIndexPos);
/* Flag the block depot.
*/
StorageImpl_SetNextBlockInChain(This,
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depotBlockIndexPos,
BLOCK_SPECIAL);
/* If necessary, flag the extended depot block.
*/
if (extIndex != BLOCK_UNUSED)
StorageImpl_SetNextBlockInChain(This, extIndex, BLOCK_EXTBBDEPOT);
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/* Save header information.
*/
StorageImpl_SaveFileHeader(This);
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}
}
depotBuffer = StorageImpl_GetROBigBlock(This, depotBlockIndexPos);
if (depotBuffer != 0)
{
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while ( ( (depotBlockOffset/sizeof(ULONG) ) < blocksPerDepot) &&
( nextBlockIndex != BLOCK_UNUSED))
{
StorageUtl_ReadDWord(depotBuffer, depotBlockOffset, &nextBlockIndex);
if (nextBlockIndex == BLOCK_UNUSED)
{
freeBlock = (depotIndex * blocksPerDepot) +
(depotBlockOffset/sizeof(ULONG));
}
depotBlockOffset += sizeof(ULONG);
}
StorageImpl_ReleaseBigBlock(This, depotBuffer);
}
depotIndex++;
depotBlockOffset = 0;
}
This->prevFreeBlock = freeBlock;
return freeBlock;
}
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/******************************************************************************
* Storage32Impl_AddBlockDepot
*
* This will create a depot block, essentially it is a block initialized
* to BLOCK_UNUSEDs.
*/
void Storage32Impl_AddBlockDepot(StorageImpl* This, ULONG blockIndex)
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{
BYTE* blockBuffer;
blockBuffer = StorageImpl_GetBigBlock(This, blockIndex);
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/*
* Initialize blocks as free
*/
memset(blockBuffer, BLOCK_UNUSED, This->bigBlockSize);
StorageImpl_ReleaseBigBlock(This, blockBuffer);
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}
/******************************************************************************
* Storage32Impl_GetExtDepotBlock
*
* Returns the index of the block that corresponds to the specified depot
* index. This method is only for depot indexes equal or greater than
* COUNT_BBDEPOTINHEADER.
*/
ULONG Storage32Impl_GetExtDepotBlock(StorageImpl* This, ULONG depotIndex)
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{
ULONG depotBlocksPerExtBlock = (This->bigBlockSize / sizeof(ULONG)) - 1;
ULONG numExtBlocks = depotIndex - COUNT_BBDEPOTINHEADER;
ULONG extBlockCount = numExtBlocks / depotBlocksPerExtBlock;
ULONG extBlockOffset = numExtBlocks % depotBlocksPerExtBlock;
ULONG blockIndex = BLOCK_UNUSED;
ULONG extBlockIndex = This->extBigBlockDepotStart;
assert(depotIndex >= COUNT_BBDEPOTINHEADER);
if (This->extBigBlockDepotStart == BLOCK_END_OF_CHAIN)
return BLOCK_UNUSED;
while (extBlockCount > 0)
{
extBlockIndex = Storage32Impl_GetNextExtendedBlock(This, extBlockIndex);
extBlockCount--;
}
if (extBlockIndex != BLOCK_UNUSED)
{
BYTE* depotBuffer;
depotBuffer = StorageImpl_GetROBigBlock(This, extBlockIndex);
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if (depotBuffer != 0)
{
StorageUtl_ReadDWord(depotBuffer,
extBlockOffset * sizeof(ULONG),
&blockIndex);
StorageImpl_ReleaseBigBlock(This, depotBuffer);
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}
}
return blockIndex;
}
/******************************************************************************
* Storage32Impl_SetExtDepotBlock
*
* Associates the specified block index to the specified depot index.
* This method is only for depot indexes equal or greater than
* COUNT_BBDEPOTINHEADER.
*/
void Storage32Impl_SetExtDepotBlock(StorageImpl* This,
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ULONG depotIndex,
ULONG blockIndex)
{
ULONG depotBlocksPerExtBlock = (This->bigBlockSize / sizeof(ULONG)) - 1;
ULONG numExtBlocks = depotIndex - COUNT_BBDEPOTINHEADER;
ULONG extBlockCount = numExtBlocks / depotBlocksPerExtBlock;
ULONG extBlockOffset = numExtBlocks % depotBlocksPerExtBlock;
ULONG extBlockIndex = This->extBigBlockDepotStart;
assert(depotIndex >= COUNT_BBDEPOTINHEADER);
while (extBlockCount > 0)
{
extBlockIndex = Storage32Impl_GetNextExtendedBlock(This, extBlockIndex);
extBlockCount--;
}
if (extBlockIndex != BLOCK_UNUSED)
{
BYTE* depotBuffer;
depotBuffer = StorageImpl_GetBigBlock(This, extBlockIndex);
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if (depotBuffer != 0)
{
StorageUtl_WriteDWord(depotBuffer,
extBlockOffset * sizeof(ULONG),
blockIndex);
StorageImpl_ReleaseBigBlock(This, depotBuffer);
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}
}
}
/******************************************************************************
* Storage32Impl_AddExtBlockDepot
*
* Creates an extended depot block.
*/
ULONG Storage32Impl_AddExtBlockDepot(StorageImpl* This)
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{
ULONG numExtBlocks = This->extBigBlockDepotCount;
ULONG nextExtBlock = This->extBigBlockDepotStart;
BYTE* depotBuffer = NULL;
ULONG index = BLOCK_UNUSED;
ULONG nextBlockOffset = This->bigBlockSize - sizeof(ULONG);
ULONG blocksPerDepotBlock = This->bigBlockSize / sizeof(ULONG);
ULONG depotBlocksPerExtBlock = blocksPerDepotBlock - 1;
index = (COUNT_BBDEPOTINHEADER + (numExtBlocks * depotBlocksPerExtBlock)) *
blocksPerDepotBlock;
if ((numExtBlocks == 0) && (nextExtBlock == BLOCK_END_OF_CHAIN))
{
/*
* The first extended block.
*/
This->extBigBlockDepotStart = index;
}
else
{
int i;
/*
* Follow the chain to the last one.
*/
for (i = 0; i < (numExtBlocks - 1); i++)
{
nextExtBlock = Storage32Impl_GetNextExtendedBlock(This, nextExtBlock);
}
/*
* Add the new extended block to the chain.
*/
depotBuffer = StorageImpl_GetBigBlock(This, nextExtBlock);
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StorageUtl_WriteDWord(depotBuffer, nextBlockOffset, index);
StorageImpl_ReleaseBigBlock(This, depotBuffer);
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}
/*
* Initialize this block.
*/
depotBuffer = StorageImpl_GetBigBlock(This, index);
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memset(depotBuffer, BLOCK_UNUSED, This->bigBlockSize);
StorageImpl_ReleaseBigBlock(This, depotBuffer);
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return index;
}
/******************************************************************************
* Storage32Impl_FreeBigBlock
*
* This method will flag the specified block as free in the big block depot.
*/
void StorageImpl_FreeBigBlock(
StorageImpl* This,
ULONG blockIndex)
{
StorageImpl_SetNextBlockInChain(This, blockIndex, BLOCK_UNUSED);
if (blockIndex < This->prevFreeBlock)
This->prevFreeBlock = blockIndex;
}
/************************************************************************
* Storage32Impl_GetNextBlockInChain
*
* This method will retrieve the block index of the next big block in
* in the chain.
*
* Params: This - Pointer to the Storage object.
* blockIndex - Index of the block to retrieve the chain
* for.
*
* Returns: This method returns the index of the next block in the chain.
* It will return the constants:
* BLOCK_SPECIAL - If the block given was not part of a
* chain.
* BLOCK_END_OF_CHAIN - If the block given was the last in
* a chain.
* BLOCK_UNUSED - If the block given was not past of a chain
* and is available.
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* BLOCK_EXTBBDEPOT - This block is part of the extended
* big block depot.
*
* See Windows documentation for more details on IStorage methods.
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*/
ULONG StorageImpl_GetNextBlockInChain(
StorageImpl* This,
ULONG blockIndex)
{
ULONG offsetInDepot = blockIndex * sizeof (ULONG);
ULONG depotBlockCount = offsetInDepot / This->bigBlockSize;
ULONG depotBlockOffset = offsetInDepot % This->bigBlockSize;
ULONG nextBlockIndex = BLOCK_SPECIAL;
void* depotBuffer;
ULONG depotBlockIndexPos;
assert(depotBlockCount < This->bigBlockDepotCount);
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/*
* Cache the currently accessed depot block.
*/
if (depotBlockCount != This->indexBlockDepotCached)
{
This->indexBlockDepotCached = depotBlockCount;
if (depotBlockCount < COUNT_BBDEPOTINHEADER)
{
depotBlockIndexPos = This->bigBlockDepotStart[depotBlockCount];
}
else
{
/*
* We have to look in the extended depot.
*/
depotBlockIndexPos = Storage32Impl_GetExtDepotBlock(This, depotBlockCount);
}
depotBuffer = StorageImpl_GetROBigBlock(This, depotBlockIndexPos);
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if (depotBuffer!=0)
{
int index;
for (index = 0; index < NUM_BLOCKS_PER_DEPOT_BLOCK; index++)
{
StorageUtl_ReadDWord(depotBuffer, index*sizeof(ULONG), &nextBlockIndex);
This->blockDepotCached[index] = nextBlockIndex;
}
StorageImpl_ReleaseBigBlock(This, depotBuffer);
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}
}
nextBlockIndex = This->blockDepotCached[depotBlockOffset/sizeof(ULONG)];
return nextBlockIndex;
}
/******************************************************************************
* Storage32Impl_GetNextExtendedBlock
*
* Given an extended block this method will return the next extended block.
*
* NOTES:
* The last ULONG of an extended block is the block index of the next
* extended block. Extended blocks are marked as BLOCK_EXTBBDEPOT in the
* depot.
*
* Return values:
* - The index of the next extended block
* - BLOCK_UNUSED: there is no next extended block.
* - Any other return values denotes failure.
*/
ULONG Storage32Impl_GetNextExtendedBlock(StorageImpl* This, ULONG blockIndex)
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{
ULONG nextBlockIndex = BLOCK_SPECIAL;
ULONG depotBlockOffset = This->bigBlockSize - sizeof(ULONG);
void* depotBuffer;
depotBuffer = StorageImpl_GetROBigBlock(This, blockIndex);
if (depotBuffer!=0)
{
StorageUtl_ReadDWord(depotBuffer, depotBlockOffset, &nextBlockIndex);
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StorageImpl_ReleaseBigBlock(This, depotBuffer);
}
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return nextBlockIndex;
}
/******************************************************************************
* Storage32Impl_SetNextBlockInChain
*
* This method will write the index of the specified block's next block
* in the big block depot.
*
* For example: to create the chain 3 -> 1 -> 7 -> End of Chain
* do the following
*
* Storage32Impl_SetNextBlockInChain(This, 3, 1);
* Storage32Impl_SetNextBlockInChain(This, 1, 7);
* Storage32Impl_SetNextBlockInChain(This, 7, BLOCK_END_OF_CHAIN);
*
*/
void StorageImpl_SetNextBlockInChain(
StorageImpl* This,
ULONG blockIndex,
ULONG nextBlock)
{
ULONG offsetInDepot = blockIndex * sizeof (ULONG);
ULONG depotBlockCount = offsetInDepot / This->bigBlockSize;
ULONG depotBlockOffset = offsetInDepot % This->bigBlockSize;
ULONG depotBlockIndexPos;
void* depotBuffer;
assert(depotBlockCount < This->bigBlockDepotCount);
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assert(blockIndex != nextBlock);
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if (depotBlockCount < COUNT_BBDEPOTINHEADER)
{
depotBlockIndexPos = This->bigBlockDepotStart[depotBlockCount];
}
else
{
/*
* We have to look in the extended depot.
*/
depotBlockIndexPos = Storage32Impl_GetExtDepotBlock(This, depotBlockCount);
}
depotBuffer = StorageImpl_GetBigBlock(This, depotBlockIndexPos);
if (depotBuffer!=0)
{
StorageUtl_WriteDWord(depotBuffer, depotBlockOffset, nextBlock);
StorageImpl_ReleaseBigBlock(This, depotBuffer);
}
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/*
* Update the cached block depot, if necessary.
*/
if (depotBlockCount == This->indexBlockDepotCached)
{
This->blockDepotCached[depotBlockOffset/sizeof(ULONG)] = nextBlock;
}
}
/******************************************************************************
* Storage32Impl_LoadFileHeader
*
* This method will read in the file header, i.e. big block index -1.
*/
HRESULT StorageImpl_LoadFileHeader(
StorageImpl* This)
{
HRESULT hr = STG_E_FILENOTFOUND;
void* headerBigBlock = NULL;
int index;
/*
* Get a pointer to the big block of data containing the header.
*/
headerBigBlock = StorageImpl_GetROBigBlock(This, -1);
/*
* Extract the information from the header.
*/
if (headerBigBlock!=0)
{
/*
* Check for the "magic number" signature and return an error if it is not
* found.
*/
if (memcmp(headerBigBlock, STORAGE_oldmagic, sizeof(STORAGE_oldmagic))==0)
{
StorageImpl_ReleaseBigBlock(This, headerBigBlock);
return STG_E_OLDFORMAT;
}
if (memcmp(headerBigBlock, STORAGE_magic, sizeof(STORAGE_magic))!=0)
{
StorageImpl_ReleaseBigBlock(This, headerBigBlock);
return STG_E_INVALIDHEADER;
}
StorageUtl_ReadWord(
headerBigBlock,
OFFSET_BIGBLOCKSIZEBITS,
&This->bigBlockSizeBits);
StorageUtl_ReadWord(
headerBigBlock,
OFFSET_SMALLBLOCKSIZEBITS,
&This->smallBlockSizeBits);
StorageUtl_ReadDWord(
headerBigBlock,
OFFSET_BBDEPOTCOUNT,
&This->bigBlockDepotCount);
StorageUtl_ReadDWord(
headerBigBlock,
OFFSET_ROOTSTARTBLOCK,
&This->rootStartBlock);
StorageUtl_ReadDWord(
headerBigBlock,
OFFSET_SBDEPOTSTART,
&This->smallBlockDepotStart);
StorageUtl_ReadDWord(
headerBigBlock,
OFFSET_EXTBBDEPOTSTART,
&This->extBigBlockDepotStart);
StorageUtl_ReadDWord(
headerBigBlock,
OFFSET_EXTBBDEPOTCOUNT,
&This->extBigBlockDepotCount);
for (index = 0; index < COUNT_BBDEPOTINHEADER; index ++)
{
StorageUtl_ReadDWord(
headerBigBlock,
OFFSET_BBDEPOTSTART + (sizeof(ULONG)*index),
&(This->bigBlockDepotStart[index]));
}
/*
* Make the bitwise arithmetic to get the size of the blocks in bytes.
*/
if ((1 << 2) == 4)
{
This->bigBlockSize = 0x000000001 << (DWORD)This->bigBlockSizeBits;
This->smallBlockSize = 0x000000001 << (DWORD)This->smallBlockSizeBits;
}
else
{
This->bigBlockSize = 0x000000001 >> (DWORD)This->bigBlockSizeBits;
This->smallBlockSize = 0x000000001 >> (DWORD)This->smallBlockSizeBits;
}
/*
* Right now, the code is making some assumptions about the size of the
* blocks, just make sure they are what we're expecting.
*/
assert( (This->bigBlockSize==DEF_BIG_BLOCK_SIZE) &&
(This->smallBlockSize==DEF_SMALL_BLOCK_SIZE));
/*
* Release the block.
*/
StorageImpl_ReleaseBigBlock(This, headerBigBlock);
hr = S_OK;
}
return hr;
}
/******************************************************************************
* Storage32Impl_SaveFileHeader
*
* This method will save to the file the header, i.e. big block -1.
*/
void StorageImpl_SaveFileHeader(
StorageImpl* This)
{
BYTE headerBigBlock[BIG_BLOCK_SIZE];
int index;
BOOL success;
/*
* Get a pointer to the big block of data containing the header.
*/
success = StorageImpl_ReadBigBlock(This, -1, headerBigBlock);
/*
* If the block read failed, the file is probably new.
*/
if (!success)
{
/*
* Initialize for all unknown fields.
*/
memset(headerBigBlock, 0, BIG_BLOCK_SIZE);
/*
* Initialize the magic number.
*/
memcpy(headerBigBlock, STORAGE_magic, sizeof(STORAGE_magic));
/*
* And a bunch of things we don't know what they mean
*/
StorageUtl_WriteWord(headerBigBlock, 0x18, 0x3b);
StorageUtl_WriteWord(headerBigBlock, 0x1a, 0x3);
StorageUtl_WriteWord(headerBigBlock, 0x1c, (WORD)-2);
StorageUtl_WriteDWord(headerBigBlock, 0x38, (DWORD)0x1000);
StorageUtl_WriteDWord(headerBigBlock, 0x40, (DWORD)0x0001);
}
/*
* Write the information to the header.
*/
if (headerBigBlock!=0)
{
StorageUtl_WriteWord(
headerBigBlock,
OFFSET_BIGBLOCKSIZEBITS,
This->bigBlockSizeBits);
StorageUtl_WriteWord(
headerBigBlock,
OFFSET_SMALLBLOCKSIZEBITS,
This->smallBlockSizeBits);
StorageUtl_WriteDWord(
headerBigBlock,
OFFSET_BBDEPOTCOUNT,
This->bigBlockDepotCount);
StorageUtl_WriteDWord(
headerBigBlock,
OFFSET_ROOTSTARTBLOCK,
This->rootStartBlock);
StorageUtl_WriteDWord(
headerBigBlock,
OFFSET_SBDEPOTSTART,
This->smallBlockDepotStart);
StorageUtl_WriteDWord(
headerBigBlock,
OFFSET_EXTBBDEPOTSTART,
This->extBigBlockDepotStart);
StorageUtl_WriteDWord(
headerBigBlock,
OFFSET_EXTBBDEPOTCOUNT,
This->extBigBlockDepotCount);
for (index = 0; index < COUNT_BBDEPOTINHEADER; index ++)
{
StorageUtl_WriteDWord(
headerBigBlock,
OFFSET_BBDEPOTSTART + (sizeof(ULONG)*index),
(This->bigBlockDepotStart[index]));
}
}
/*
* Write the big block back to the file.
*/
StorageImpl_WriteBigBlock(This, -1, headerBigBlock);
}
/******************************************************************************
* Storage32Impl_ReadProperty
*
* This method will read the specified property from the property chain.
*/
BOOL StorageImpl_ReadProperty(
StorageImpl* This,
ULONG index,
StgProperty* buffer)
{
BYTE currentProperty[PROPSET_BLOCK_SIZE];
ULARGE_INTEGER offsetInPropSet;
BOOL readSuccessful;
ULONG bytesRead;
1999-03-12 18:06:46 +01:00
offsetInPropSet.s.HighPart = 0;
offsetInPropSet.s.LowPart = index * PROPSET_BLOCK_SIZE;
readSuccessful = BlockChainStream_ReadAt(
This->rootBlockChain,
offsetInPropSet,
PROPSET_BLOCK_SIZE,
currentProperty,
&bytesRead);
if (readSuccessful)
{
memset(buffer->name, 0, sizeof(buffer->name));
memcpy(
buffer->name,
currentProperty+OFFSET_PS_NAME,
PROPERTY_NAME_BUFFER_LEN );
memcpy(&buffer->propertyType, currentProperty + OFFSET_PS_PROPERTYTYPE, 1);
StorageUtl_ReadWord(
currentProperty,
OFFSET_PS_NAMELENGTH,
&buffer->sizeOfNameString);
StorageUtl_ReadDWord(
currentProperty,
OFFSET_PS_PREVIOUSPROP,
&buffer->previousProperty);
StorageUtl_ReadDWord(
currentProperty,
OFFSET_PS_NEXTPROP,
&buffer->nextProperty);
StorageUtl_ReadDWord(
currentProperty,
OFFSET_PS_DIRPROP,
&buffer->dirProperty);
StorageUtl_ReadGUID(
currentProperty,
OFFSET_PS_GUID,
&buffer->propertyUniqueID);
StorageUtl_ReadDWord(
currentProperty,
OFFSET_PS_TSS1,
&buffer->timeStampS1);
StorageUtl_ReadDWord(
currentProperty,
OFFSET_PS_TSD1,
&buffer->timeStampD1);
StorageUtl_ReadDWord(
currentProperty,
OFFSET_PS_TSS2,
&buffer->timeStampS2);
StorageUtl_ReadDWord(
currentProperty,
OFFSET_PS_TSD2,
&buffer->timeStampD2);
StorageUtl_ReadDWord(
currentProperty,
OFFSET_PS_STARTBLOCK,
&buffer->startingBlock);
StorageUtl_ReadDWord(
currentProperty,
OFFSET_PS_SIZE,
&buffer->size.s.LowPart);
buffer->size.s.HighPart = 0;
}
return readSuccessful;
}
/*********************************************************************
* Write the specified property into the property chain
*/
BOOL StorageImpl_WriteProperty(
StorageImpl* This,
ULONG index,
StgProperty* buffer)
{
BYTE currentProperty[PROPSET_BLOCK_SIZE];
ULARGE_INTEGER offsetInPropSet;
BOOL writeSuccessful;
ULONG bytesWritten;
offsetInPropSet.s.HighPart = 0;
offsetInPropSet.s.LowPart = index * PROPSET_BLOCK_SIZE;
memset(currentProperty, 0, PROPSET_BLOCK_SIZE);
memcpy(
currentProperty + OFFSET_PS_NAME,
buffer->name,
PROPERTY_NAME_BUFFER_LEN );
memcpy(currentProperty + OFFSET_PS_PROPERTYTYPE, &buffer->propertyType, 1);
StorageUtl_WriteWord(
currentProperty,
OFFSET_PS_NAMELENGTH,
buffer->sizeOfNameString);
StorageUtl_WriteDWord(
currentProperty,
OFFSET_PS_PREVIOUSPROP,
buffer->previousProperty);
StorageUtl_WriteDWord(
currentProperty,
OFFSET_PS_NEXTPROP,
buffer->nextProperty);
StorageUtl_WriteDWord(
currentProperty,
OFFSET_PS_DIRPROP,
buffer->dirProperty);
StorageUtl_WriteGUID(
currentProperty,
OFFSET_PS_GUID,
&buffer->propertyUniqueID);
StorageUtl_WriteDWord(
currentProperty,
OFFSET_PS_TSS1,
buffer->timeStampS1);
StorageUtl_WriteDWord(
currentProperty,
OFFSET_PS_TSD1,
buffer->timeStampD1);
StorageUtl_WriteDWord(
currentProperty,
OFFSET_PS_TSS2,
buffer->timeStampS2);
StorageUtl_WriteDWord(
currentProperty,
OFFSET_PS_TSD2,
buffer->timeStampD2);
StorageUtl_WriteDWord(
currentProperty,
OFFSET_PS_STARTBLOCK,
buffer->startingBlock);
StorageUtl_WriteDWord(
currentProperty,
OFFSET_PS_SIZE,
buffer->size.s.LowPart);
writeSuccessful = BlockChainStream_WriteAt(This->rootBlockChain,
offsetInPropSet,
PROPSET_BLOCK_SIZE,
currentProperty,
&bytesWritten);
return writeSuccessful;
}
BOOL StorageImpl_ReadBigBlock(
StorageImpl* This,
ULONG blockIndex,
void* buffer)
{
void* bigBlockBuffer;
bigBlockBuffer = StorageImpl_GetROBigBlock(This, blockIndex);
if (bigBlockBuffer!=0)
{
memcpy(buffer, bigBlockBuffer, This->bigBlockSize);
StorageImpl_ReleaseBigBlock(This, bigBlockBuffer);
return TRUE;
}
return FALSE;
}
BOOL StorageImpl_WriteBigBlock(
StorageImpl* This,
ULONG blockIndex,
void* buffer)
{
void* bigBlockBuffer;
bigBlockBuffer = StorageImpl_GetBigBlock(This, blockIndex);
if (bigBlockBuffer!=0)
{
memcpy(bigBlockBuffer, buffer, This->bigBlockSize);
StorageImpl_ReleaseBigBlock(This, bigBlockBuffer);
return TRUE;
}
return FALSE;
}
void* StorageImpl_GetROBigBlock(
StorageImpl* This,
ULONG blockIndex)
{
return BIGBLOCKFILE_GetROBigBlock(This->bigBlockFile, blockIndex);
}
void* StorageImpl_GetBigBlock(
StorageImpl* This,
ULONG blockIndex)
{
return BIGBLOCKFILE_GetBigBlock(This->bigBlockFile, blockIndex);
}
void StorageImpl_ReleaseBigBlock(
StorageImpl* This,
void* pBigBlock)
{
BIGBLOCKFILE_ReleaseBigBlock(This->bigBlockFile, pBigBlock);
}
/******************************************************************************
* Storage32Impl_SmallBlocksToBigBlocks
*
* This method will convert a small block chain to a big block chain.
* The small block chain will be destroyed.
*/
BlockChainStream* Storage32Impl_SmallBlocksToBigBlocks(
StorageImpl* This,
SmallBlockChainStream** ppsbChain)
{
ULONG bbHeadOfChain = BLOCK_END_OF_CHAIN;
ULARGE_INTEGER size, offset;
1999-02-24 11:36:34 +01:00
ULONG cbRead, cbWritten, cbTotalRead, cbTotalWritten;
ULONG propertyIndex;
BOOL successRead, successWrite;
StgProperty chainProperty;
1999-07-31 19:34:43 +02:00
BYTE *buffer;
BlockChainStream *bbTempChain = NULL;
BlockChainStream *bigBlockChain = NULL;
/*
* Create a temporary big block chain that doesn't have
* an associated property. This temporary chain will be
* used to copy data from small blocks to big blocks.
*/
bbTempChain = BlockChainStream_Construct(This,
&bbHeadOfChain,
PROPERTY_NULL);
/*
* Grow the big block chain.
*/
size = SmallBlockChainStream_GetSize(*ppsbChain);
BlockChainStream_SetSize(bbTempChain, size);
/*
* Copy the contents of the small block chain to the big block chain
* by small block size increments.
*/
offset.s.LowPart = 0;
offset.s.HighPart = 0;
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cbTotalRead = 0;
cbTotalWritten = 0;
buffer = (BYTE *) HeapAlloc(GetProcessHeap(),0,DEF_SMALL_BLOCK_SIZE);
do
{
successRead = SmallBlockChainStream_ReadAt(*ppsbChain,
offset,
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DEF_SMALL_BLOCK_SIZE,
buffer,
&cbRead);
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cbTotalRead += cbRead;
successWrite = BlockChainStream_WriteAt(bbTempChain,
offset,
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cbRead,
buffer,
&cbWritten);
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cbTotalWritten += cbWritten;
offset.s.LowPart += This->smallBlockSize;
} while (successRead && successWrite);
HeapFree(GetProcessHeap(),0,buffer);
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assert(cbTotalRead == cbTotalWritten);
/*
* Destroy the small block chain.
*/
propertyIndex = (*ppsbChain)->ownerPropertyIndex;
size.s.HighPart = 0;
size.s.LowPart = 0;
SmallBlockChainStream_SetSize(*ppsbChain, size);
SmallBlockChainStream_Destroy(*ppsbChain);
*ppsbChain = 0;
/*
* Change the property information. This chain is now a big block chain
* and it doesn't reside in the small blocks chain anymore.
*/
StorageImpl_ReadProperty(This, propertyIndex, &chainProperty);
chainProperty.startingBlock = bbHeadOfChain;
StorageImpl_WriteProperty(This, propertyIndex, &chainProperty);
/*
* Destroy the temporary propertyless big block chain.
* Create a new big block chain associated with this property.
*/
BlockChainStream_Destroy(bbTempChain);
bigBlockChain = BlockChainStream_Construct(This,
NULL,
propertyIndex);
return bigBlockChain;
}
/******************************************************************************
** Storage32InternalImpl implementation
*/
StorageInternalImpl* StorageInternalImpl_Construct(
StorageImpl* ancestorStorage,
ULONG rootPropertyIndex)
{
StorageInternalImpl* newStorage;
/*
* Allocate space for the new storage object
*/
newStorage = HeapAlloc(GetProcessHeap(), 0, sizeof(StorageInternalImpl));
if (newStorage!=0)
{
memset(newStorage, 0, sizeof(StorageInternalImpl));
/*
* Initialize the virtual function table.
*/
ICOM_VTBL(newStorage) = &Storage32InternalImpl_Vtbl;
newStorage->v_destructor = &StorageInternalImpl_Destroy;
/*
* Keep the ancestor storage pointer and nail a reference to it.
*/
newStorage->ancestorStorage = ancestorStorage;
StorageBaseImpl_AddRef((IStorage*)(newStorage->ancestorStorage));
/*
* Keep the index of the root property set for this storage,
*/
newStorage->rootPropertySetIndex = rootPropertyIndex;
return newStorage;
}
return 0;
}
void StorageInternalImpl_Destroy(
StorageInternalImpl* This)
{
StorageBaseImpl_Release((IStorage*)This->ancestorStorage);
HeapFree(GetProcessHeap(), 0, This);
}
/******************************************************************************
**
** Storage32InternalImpl_Commit
**
** The non-root storages cannot be opened in transacted mode thus this function
** does nothing.
*/
HRESULT WINAPI StorageInternalImpl_Commit(
IStorage* iface,
DWORD grfCommitFlags) /* [in] */
{
return S_OK;
}
/******************************************************************************
**
** Storage32InternalImpl_Revert
**
** The non-root storages cannot be opened in transacted mode thus this function
** does nothing.
*/
HRESULT WINAPI StorageInternalImpl_Revert(
IStorage* iface)
{
return S_OK;
}
/******************************************************************************
** IEnumSTATSTGImpl implementation
*/
IEnumSTATSTGImpl* IEnumSTATSTGImpl_Construct(
StorageImpl* parentStorage,
ULONG firstPropertyNode)
{
IEnumSTATSTGImpl* newEnumeration;
newEnumeration = HeapAlloc(GetProcessHeap(), 0, sizeof(IEnumSTATSTGImpl));
if (newEnumeration!=0)
{
/*
* Set-up the virtual function table and reference count.
*/
ICOM_VTBL(newEnumeration) = &IEnumSTATSTGImpl_Vtbl;
newEnumeration->ref = 0;
/*
* We want to nail-down the reference to the storage in case the
* enumeration out-lives the storage in the client application.
*/
newEnumeration->parentStorage = parentStorage;
IStorage_AddRef((IStorage*)newEnumeration->parentStorage);
newEnumeration->firstPropertyNode = firstPropertyNode;
/*
* Initialize the search stack
*/
newEnumeration->stackSize = 0;
newEnumeration->stackMaxSize = ENUMSTATSGT_SIZE_INCREMENT;
newEnumeration->stackToVisit =
HeapAlloc(GetProcessHeap(), 0, sizeof(ULONG)*ENUMSTATSGT_SIZE_INCREMENT);
/*
* Make sure the current node of the iterator is the first one.
*/
IEnumSTATSTGImpl_Reset((IEnumSTATSTG*)newEnumeration);
}
return newEnumeration;
}
void IEnumSTATSTGImpl_Destroy(IEnumSTATSTGImpl* This)
{
IStorage_Release((IStorage*)This->parentStorage);
HeapFree(GetProcessHeap(), 0, This->stackToVisit);
HeapFree(GetProcessHeap(), 0, This);
}
HRESULT WINAPI IEnumSTATSTGImpl_QueryInterface(
IEnumSTATSTG* iface,
REFIID riid,
void** ppvObject)
{
IEnumSTATSTGImpl* const This=(IEnumSTATSTGImpl*)iface;
/*
* Perform a sanity check on the parameters.
*/
if (ppvObject==0)
return E_INVALIDARG;
/*
* Initialize the return parameter.
*/
*ppvObject = 0;
/*
* Compare the riid with the interface IDs implemented by this object.
*/
if (memcmp(&IID_IUnknown, riid, sizeof(IID_IUnknown)) == 0)
{
*ppvObject = (IEnumSTATSTG*)This;
}
else if (memcmp(&IID_IStorage, riid, sizeof(IID_IEnumSTATSTG)) == 0)
{
*ppvObject = (IEnumSTATSTG*)This;
}
/*
* Check that we obtained an interface.
*/
if ((*ppvObject)==0)
return E_NOINTERFACE;
/*
* Query Interface always increases the reference count by one when it is
* successful
*/
IEnumSTATSTGImpl_AddRef((IEnumSTATSTG*)This);
return S_OK;
}
ULONG WINAPI IEnumSTATSTGImpl_AddRef(
IEnumSTATSTG* iface)
{
IEnumSTATSTGImpl* const This=(IEnumSTATSTGImpl*)iface;
This->ref++;
return This->ref;
}
ULONG WINAPI IEnumSTATSTGImpl_Release(
IEnumSTATSTG* iface)
{
IEnumSTATSTGImpl* const This=(IEnumSTATSTGImpl*)iface;
ULONG newRef;
This->ref--;
newRef = This->ref;
/*
* If the reference count goes down to 0, perform suicide.
*/
if (newRef==0)
{
IEnumSTATSTGImpl_Destroy(This);
}
return newRef;;
}
HRESULT WINAPI IEnumSTATSTGImpl_Next(
IEnumSTATSTG* iface,
ULONG celt,
STATSTG* rgelt,
ULONG* pceltFetched)
{
IEnumSTATSTGImpl* const This=(IEnumSTATSTGImpl*)iface;
StgProperty currentProperty;
STATSTG* currentReturnStruct = rgelt;
ULONG objectFetched = 0;
ULONG currentSearchNode;
/*
* Perform a sanity check on the parameters.
*/
if ( (rgelt==0) || ( (celt!=1) && (pceltFetched==0) ) )
return E_INVALIDARG;
/*
* To avoid the special case, get another pointer to a ULONG value if
* the caller didn't supply one.
*/
if (pceltFetched==0)
pceltFetched = &objectFetched;
/*
* Start the iteration, we will iterate until we hit the end of the
* linked list or until we hit the number of items to iterate through
*/
*pceltFetched = 0;
/*
* Start with the node at the top of the stack.
*/
currentSearchNode = IEnumSTATSTGImpl_PopSearchNode(This, FALSE);
while ( ( *pceltFetched < celt) &&
( currentSearchNode!=PROPERTY_NULL) )
{
/*
* Remove the top node from the stack
*/
IEnumSTATSTGImpl_PopSearchNode(This, TRUE);
/*
* Read the property from the storage.
*/
StorageImpl_ReadProperty(This->parentStorage,
currentSearchNode,
&currentProperty);
/*
* Copy the information to the return buffer.
*/
StorageUtl_CopyPropertyToSTATSTG(currentReturnStruct,
&currentProperty,
STATFLAG_DEFAULT);
/*
* Step to the next item in the iteration
*/
(*pceltFetched)++;
currentReturnStruct++;
/*
* Push the next search node in the search stack.
*/
IEnumSTATSTGImpl_PushSearchNode(This, currentProperty.nextProperty);
/*
* continue the iteration.
*/
currentSearchNode = IEnumSTATSTGImpl_PopSearchNode(This, FALSE);
}
if (*pceltFetched == celt)
return S_OK;
return S_FALSE;
}
HRESULT WINAPI IEnumSTATSTGImpl_Skip(
IEnumSTATSTG* iface,
ULONG celt)
{
IEnumSTATSTGImpl* const This=(IEnumSTATSTGImpl*)iface;
StgProperty currentProperty;
ULONG objectFetched = 0;
ULONG currentSearchNode;
/*
* Start with the node at the top of the stack.
*/
currentSearchNode = IEnumSTATSTGImpl_PopSearchNode(This, FALSE);
while ( (objectFetched < celt) &&
(currentSearchNode!=PROPERTY_NULL) )
{
/*
* Remove the top node from the stack
*/
IEnumSTATSTGImpl_PopSearchNode(This, TRUE);
/*
* Read the property from the storage.
*/
StorageImpl_ReadProperty(This->parentStorage,
currentSearchNode,
&currentProperty);
/*
* Step to the next item in the iteration
*/
objectFetched++;
/*
* Push the next search node in the search stack.
*/
IEnumSTATSTGImpl_PushSearchNode(This, currentProperty.nextProperty);
/*
* continue the iteration.
*/
currentSearchNode = IEnumSTATSTGImpl_PopSearchNode(This, FALSE);
}
if (objectFetched == celt)
return S_OK;
return S_FALSE;
}
HRESULT WINAPI IEnumSTATSTGImpl_Reset(
IEnumSTATSTG* iface)
{
IEnumSTATSTGImpl* const This=(IEnumSTATSTGImpl*)iface;
StgProperty rootProperty;
BOOL readSuccessful;
/*
* Re-initialize the search stack to an empty stack
*/
This->stackSize = 0;
/*
* Read the root property from the storage.
*/
readSuccessful = StorageImpl_ReadProperty(
This->parentStorage,
This->firstPropertyNode,
&rootProperty);
if (readSuccessful)
{
assert(rootProperty.sizeOfNameString!=0);
/*
* Push the search node in the search stack.
*/
IEnumSTATSTGImpl_PushSearchNode(This, rootProperty.dirProperty);
}
return S_OK;
}
HRESULT WINAPI IEnumSTATSTGImpl_Clone(
IEnumSTATSTG* iface,
IEnumSTATSTG** ppenum)
{
IEnumSTATSTGImpl* const This=(IEnumSTATSTGImpl*)iface;
IEnumSTATSTGImpl* newClone;
/*
* Perform a sanity check on the parameters.
*/
if (ppenum==0)
return E_INVALIDARG;
newClone = IEnumSTATSTGImpl_Construct(This->parentStorage,
This->firstPropertyNode);
/*
* The new clone enumeration must point to the same current node as
* the ole one.
*/
newClone->stackSize = This->stackSize ;
newClone->stackMaxSize = This->stackMaxSize ;
newClone->stackToVisit =
HeapAlloc(GetProcessHeap(), 0, sizeof(ULONG) * newClone->stackMaxSize);
memcpy(
newClone->stackToVisit,
This->stackToVisit,
sizeof(ULONG) * newClone->stackSize);
*ppenum = (IEnumSTATSTG*)newClone;
/*
* Don't forget to nail down a reference to the clone before
* returning it.
*/
IEnumSTATSTGImpl_AddRef(*ppenum);
return S_OK;
}
INT IEnumSTATSTGImpl_FindParentProperty(
IEnumSTATSTGImpl *This,
ULONG childProperty,
StgProperty *currentProperty,
ULONG *thisNodeId)
{
ULONG currentSearchNode;
ULONG foundNode;
/*
* To avoid the special case, get another pointer to a ULONG value if
* the caller didn't supply one.
*/
if (thisNodeId==0)
thisNodeId = &foundNode;
/*
* Start with the node at the top of the stack.
*/
currentSearchNode = IEnumSTATSTGImpl_PopSearchNode(This, FALSE);
while (currentSearchNode!=PROPERTY_NULL)
{
/*
* Store the current node in the returned parameters
*/
*thisNodeId = currentSearchNode;
/*
* Remove the top node from the stack
*/
IEnumSTATSTGImpl_PopSearchNode(This, TRUE);
/*
* Read the property from the storage.
*/
StorageImpl_ReadProperty(
This->parentStorage,
currentSearchNode,
currentProperty);
if (currentProperty->previousProperty == childProperty)
return PROPERTY_RELATION_PREVIOUS;
else if (currentProperty->nextProperty == childProperty)
return PROPERTY_RELATION_NEXT;
else if (currentProperty->dirProperty == childProperty)
return PROPERTY_RELATION_DIR;
/*
* Push the next search node in the search stack.
*/
IEnumSTATSTGImpl_PushSearchNode(This, currentProperty->nextProperty);
/*
* continue the iteration.
*/
currentSearchNode = IEnumSTATSTGImpl_PopSearchNode(This, FALSE);
}
return PROPERTY_NULL;
}
ULONG IEnumSTATSTGImpl_FindProperty(
IEnumSTATSTGImpl* This,
const OLECHAR* lpszPropName,
StgProperty* currentProperty)
{
ULONG currentSearchNode;
/*
* Start with the node at the top of the stack.
*/
currentSearchNode = IEnumSTATSTGImpl_PopSearchNode(This, FALSE);
while (currentSearchNode!=PROPERTY_NULL)
{
/*
* Remove the top node from the stack
*/
IEnumSTATSTGImpl_PopSearchNode(This, TRUE);
/*
* Read the property from the storage.
*/
StorageImpl_ReadProperty(This->parentStorage,
currentSearchNode,
currentProperty);
if ( propertyNameCmp(
(OLECHAR*)currentProperty->name,
(OLECHAR*)lpszPropName) == 0)
return currentSearchNode;
/*
* Push the next search node in the search stack.
*/
IEnumSTATSTGImpl_PushSearchNode(This, currentProperty->nextProperty);
/*
* continue the iteration.
*/
currentSearchNode = IEnumSTATSTGImpl_PopSearchNode(This, FALSE);
}
return PROPERTY_NULL;
}
void IEnumSTATSTGImpl_PushSearchNode(
IEnumSTATSTGImpl* This,
ULONG nodeToPush)
{
StgProperty rootProperty;
BOOL readSuccessful;
/*
* First, make sure we're not trying to push an unexisting node.
*/
if (nodeToPush==PROPERTY_NULL)
return;
/*
* First push the node to the stack
*/
if (This->stackSize == This->stackMaxSize)
{
This->stackMaxSize += ENUMSTATSGT_SIZE_INCREMENT;
This->stackToVisit = HeapReAlloc(
GetProcessHeap(),
0,
This->stackToVisit,
sizeof(ULONG) * This->stackMaxSize);
}
This->stackToVisit[This->stackSize] = nodeToPush;
This->stackSize++;
/*
* Read the root property from the storage.
*/
readSuccessful = StorageImpl_ReadProperty(
This->parentStorage,
nodeToPush,
&rootProperty);
if (readSuccessful)
{
assert(rootProperty.sizeOfNameString!=0);
/*
* Push the previous search node in the search stack.
*/
IEnumSTATSTGImpl_PushSearchNode(This, rootProperty.previousProperty);
}
}
ULONG IEnumSTATSTGImpl_PopSearchNode(
IEnumSTATSTGImpl* This,
BOOL remove)
{
ULONG topNode;
if (This->stackSize == 0)
return PROPERTY_NULL;
topNode = This->stackToVisit[This->stackSize-1];
if (remove)
This->stackSize--;
return topNode;
}
/******************************************************************************
** StorageUtl implementation
*/
void StorageUtl_ReadWord(void* buffer, ULONG offset, WORD* value)
{
memcpy(value, (BYTE*)buffer+offset, sizeof(WORD));
}
void StorageUtl_WriteWord(void* buffer, ULONG offset, WORD value)
{
memcpy((BYTE*)buffer+offset, &value, sizeof(WORD));
}
void StorageUtl_ReadDWord(void* buffer, ULONG offset, DWORD* value)
{
memcpy(value, (BYTE*)buffer+offset, sizeof(DWORD));
}
void StorageUtl_WriteDWord(void* buffer, ULONG offset, DWORD value)
{
memcpy((BYTE*)buffer+offset, &value, sizeof(DWORD));
}
void StorageUtl_ReadGUID(void* buffer, ULONG offset, GUID* value)
{
StorageUtl_ReadDWord(buffer, offset, &(value->Data1));
StorageUtl_ReadWord(buffer, offset+4, &(value->Data2));
StorageUtl_ReadWord(buffer, offset+6, &(value->Data3));
memcpy(value->Data4, (BYTE*)buffer+offset+8, sizeof(value->Data4));
}
void StorageUtl_WriteGUID(void* buffer, ULONG offset, GUID* value)
{
StorageUtl_WriteDWord(buffer, offset, value->Data1);
StorageUtl_WriteWord(buffer, offset+4, value->Data2);
StorageUtl_WriteWord(buffer, offset+6, value->Data3);
memcpy((BYTE*)buffer+offset+8, value->Data4, sizeof(value->Data4));
}
void StorageUtl_CopyPropertyToSTATSTG(
STATSTG* destination,
StgProperty* source,
int statFlags)
{
/*
* The copy of the string occurs only when the flag is not set
*/
if ((statFlags & STATFLAG_NONAME) != 0)
{
destination->pwcsName = 0;
}
else
{
destination->pwcsName =
CoTaskMemAlloc((lstrlenW(source->name)+1)*sizeof(WCHAR));
strcpyW((LPWSTR)destination->pwcsName, source->name);
}
switch (source->propertyType)
{
case PROPTYPE_STORAGE:
case PROPTYPE_ROOT:
destination->type = STGTY_STORAGE;
break;
case PROPTYPE_STREAM:
destination->type = STGTY_STREAM;
break;
default:
destination->type = STGTY_STREAM;
break;
}
destination->cbSize = source->size;
/*
currentReturnStruct->mtime = {0}; TODO
currentReturnStruct->ctime = {0};
currentReturnStruct->atime = {0};
*/
destination->grfMode = 0;
destination->grfLocksSupported = 0;
destination->clsid = source->propertyUniqueID;
destination->grfStateBits = 0;
destination->reserved = 0;
}
/******************************************************************************
** BlockChainStream implementation
*/
BlockChainStream* BlockChainStream_Construct(
StorageImpl* parentStorage,
ULONG* headOfStreamPlaceHolder,
ULONG propertyIndex)
{
BlockChainStream* newStream;
1999-03-12 18:06:46 +01:00
ULONG blockIndex;
newStream = HeapAlloc(GetProcessHeap(), 0, sizeof(BlockChainStream));
newStream->parentStorage = parentStorage;
newStream->headOfStreamPlaceHolder = headOfStreamPlaceHolder;
newStream->ownerPropertyIndex = propertyIndex;
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newStream->lastBlockNoInSequence = 0xFFFFFFFF;
newStream->tailIndex = BLOCK_END_OF_CHAIN;
newStream->numBlocks = 0;
blockIndex = BlockChainStream_GetHeadOfChain(newStream);
while (blockIndex != BLOCK_END_OF_CHAIN)
{
newStream->numBlocks++;
newStream->tailIndex = blockIndex;
blockIndex = StorageImpl_GetNextBlockInChain(
parentStorage,
blockIndex);
}
return newStream;
}
void BlockChainStream_Destroy(BlockChainStream* This)
{
HeapFree(GetProcessHeap(), 0, This);
}
/******************************************************************************
* BlockChainStream_GetHeadOfChain
*
* Returns the head of this stream chain.
* Some special chains don't have properties, their heads are kept in
* This->headOfStreamPlaceHolder.
*
*/
ULONG BlockChainStream_GetHeadOfChain(BlockChainStream* This)
{
StgProperty chainProperty;
BOOL readSuccessful;
if (This->headOfStreamPlaceHolder != 0)
return *(This->headOfStreamPlaceHolder);
if (This->ownerPropertyIndex != PROPERTY_NULL)
{
readSuccessful = StorageImpl_ReadProperty(
This->parentStorage,
This->ownerPropertyIndex,
&chainProperty);
if (readSuccessful)
{
return chainProperty.startingBlock;
}
}
return BLOCK_END_OF_CHAIN;
}
/******************************************************************************
* BlockChainStream_GetCount
*
* Returns the number of blocks that comprises this chain.
* This is not the size of the stream as the last block may not be full!
*
*/
ULONG BlockChainStream_GetCount(BlockChainStream* This)
{
ULONG blockIndex;
ULONG count = 0;
blockIndex = BlockChainStream_GetHeadOfChain(This);
while (blockIndex != BLOCK_END_OF_CHAIN)
{
count++;
blockIndex = StorageImpl_GetNextBlockInChain(
This->parentStorage,
blockIndex);
}
return count;
}
/******************************************************************************
* BlockChainStream_ReadAt
*
* Reads a specified number of bytes from this chain at the specified offset.
* bytesRead may be NULL.
* Failure will be returned if the specified number of bytes has not been read.
*/
BOOL BlockChainStream_ReadAt(BlockChainStream* This,
ULARGE_INTEGER offset,
ULONG size,
void* buffer,
ULONG* bytesRead)
{
ULONG blockNoInSequence = offset.s.LowPart / This->parentStorage->bigBlockSize;
ULONG offsetInBlock = offset.s.LowPart % This->parentStorage->bigBlockSize;
ULONG bytesToReadInBuffer;
ULONG blockIndex;
BYTE* bufferWalker;
BYTE* bigBlockBuffer;
/*
* Find the first block in the stream that contains part of the buffer.
*/
if ( (This->lastBlockNoInSequence == 0xFFFFFFFF) ||
(This->lastBlockNoInSequenceIndex == BLOCK_END_OF_CHAIN) ||
(blockNoInSequence < This->lastBlockNoInSequence) )
{
blockIndex = BlockChainStream_GetHeadOfChain(This);
This->lastBlockNoInSequence = blockNoInSequence;
}
else
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{
ULONG temp = blockNoInSequence;
blockIndex = This->lastBlockNoInSequenceIndex;
blockNoInSequence -= This->lastBlockNoInSequence;
This->lastBlockNoInSequence = temp;
}
while ( (blockNoInSequence > 0) && (blockIndex != BLOCK_END_OF_CHAIN))
{
blockIndex =
StorageImpl_GetNextBlockInChain(This->parentStorage, blockIndex);
blockNoInSequence--;
}
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This->lastBlockNoInSequenceIndex = blockIndex;
/*
* Start reading the buffer.
*/
*bytesRead = 0;
bufferWalker = buffer;
while ( (size > 0) && (blockIndex != BLOCK_END_OF_CHAIN) )
{
/*
* Calculate how many bytes we can copy from this big block.
*/
bytesToReadInBuffer =
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min(This->parentStorage->bigBlockSize - offsetInBlock, size);
/*
* Copy those bytes to the buffer
*/
bigBlockBuffer =
StorageImpl_GetROBigBlock(This->parentStorage, blockIndex);
memcpy(bufferWalker, bigBlockBuffer + offsetInBlock, bytesToReadInBuffer);
StorageImpl_ReleaseBigBlock(This->parentStorage, bigBlockBuffer);
/*
* Step to the next big block.
*/
blockIndex =
StorageImpl_GetNextBlockInChain(This->parentStorage, blockIndex);
bufferWalker += bytesToReadInBuffer;
size -= bytesToReadInBuffer;
*bytesRead += bytesToReadInBuffer;
offsetInBlock = 0; /* There is no offset on the next block */
}
return (size == 0);
}
/******************************************************************************
* BlockChainStream_WriteAt
*
* Writes the specified number of bytes to this chain at the specified offset.
* bytesWritten may be NULL.
* Will fail if not all specified number of bytes have been written.
*/
BOOL BlockChainStream_WriteAt(BlockChainStream* This,
ULARGE_INTEGER offset,
ULONG size,
const void* buffer,
ULONG* bytesWritten)
{
ULONG blockNoInSequence = offset.s.LowPart / This->parentStorage->bigBlockSize;
ULONG offsetInBlock = offset.s.LowPart % This->parentStorage->bigBlockSize;
ULONG bytesToWrite;
ULONG blockIndex;
BYTE* bufferWalker;
BYTE* bigBlockBuffer;
/*
* Find the first block in the stream that contains part of the buffer.
*/
if ( (This->lastBlockNoInSequence == 0xFFFFFFFF) ||
(This->lastBlockNoInSequenceIndex == BLOCK_END_OF_CHAIN) ||
(blockNoInSequence < This->lastBlockNoInSequence) )
{
blockIndex = BlockChainStream_GetHeadOfChain(This);
This->lastBlockNoInSequence = blockNoInSequence;
}
else
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{
ULONG temp = blockNoInSequence;
blockIndex = This->lastBlockNoInSequenceIndex;
blockNoInSequence -= This->lastBlockNoInSequence;
This->lastBlockNoInSequence = temp;
}
while ( (blockNoInSequence > 0) && (blockIndex != BLOCK_END_OF_CHAIN))
{
blockIndex =
StorageImpl_GetNextBlockInChain(This->parentStorage, blockIndex);
blockNoInSequence--;
}
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This->lastBlockNoInSequenceIndex = blockIndex;
/*
* Here, I'm casting away the constness on the buffer variable
* This is OK since we don't intend to modify that buffer.
*/
*bytesWritten = 0;
bufferWalker = (BYTE*)buffer;
while ( (size > 0) && (blockIndex != BLOCK_END_OF_CHAIN) )
{
/*
* Calculate how many bytes we can copy from this big block.
*/
bytesToWrite =
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min(This->parentStorage->bigBlockSize - offsetInBlock, size);
/*
* Copy those bytes to the buffer
*/
bigBlockBuffer = StorageImpl_GetBigBlock(This->parentStorage, blockIndex);
memcpy(bigBlockBuffer + offsetInBlock, bufferWalker, bytesToWrite);
StorageImpl_ReleaseBigBlock(This->parentStorage, bigBlockBuffer);
/*
* Step to the next big block.
*/
blockIndex =
StorageImpl_GetNextBlockInChain(This->parentStorage, blockIndex);
bufferWalker += bytesToWrite;
size -= bytesToWrite;
*bytesWritten += bytesToWrite;
offsetInBlock = 0; /* There is no offset on the next block */
}
return (size == 0);
}
/******************************************************************************
* BlockChainStream_Shrink
*
* Shrinks this chain in the big block depot.
*/
BOOL BlockChainStream_Shrink(BlockChainStream* This,
ULARGE_INTEGER newSize)
{
ULONG blockIndex, extraBlock;
ULONG numBlocks;
ULONG count = 1;
/*
* Reset the last accessed block cache.
*/
This->lastBlockNoInSequence = 0xFFFFFFFF;
This->lastBlockNoInSequenceIndex = BLOCK_END_OF_CHAIN;
/*
* Figure out how many blocks are needed to contain the new size
*/
numBlocks = newSize.s.LowPart / This->parentStorage->bigBlockSize;
if ((newSize.s.LowPart % This->parentStorage->bigBlockSize) != 0)
numBlocks++;
blockIndex = BlockChainStream_GetHeadOfChain(This);
/*
* Go to the new end of chain
*/
while (count < numBlocks)
{
blockIndex =
StorageImpl_GetNextBlockInChain(This->parentStorage, blockIndex);
count++;
}
/* Get the next block before marking the new end */
extraBlock =
StorageImpl_GetNextBlockInChain(This->parentStorage, blockIndex);
/* Mark the new end of chain */
StorageImpl_SetNextBlockInChain(
This->parentStorage,
blockIndex,
BLOCK_END_OF_CHAIN);
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This->tailIndex = blockIndex;
This->numBlocks = numBlocks;
/*
* Mark the extra blocks as free
*/
while (extraBlock != BLOCK_END_OF_CHAIN)
{
blockIndex =
StorageImpl_GetNextBlockInChain(This->parentStorage, extraBlock);
StorageImpl_FreeBigBlock(This->parentStorage, extraBlock);
extraBlock = blockIndex;
}
return TRUE;
}
/******************************************************************************
* BlockChainStream_Enlarge
*
* Grows this chain in the big block depot.
*/
BOOL BlockChainStream_Enlarge(BlockChainStream* This,
ULARGE_INTEGER newSize)
{
ULONG blockIndex, currentBlock;
ULONG newNumBlocks;
ULONG oldNumBlocks = 0;
blockIndex = BlockChainStream_GetHeadOfChain(This);
/*
* Empty chain. Create the head.
*/
if (blockIndex == BLOCK_END_OF_CHAIN)
{
blockIndex = StorageImpl_GetNextFreeBigBlock(This->parentStorage);
StorageImpl_SetNextBlockInChain(This->parentStorage,
blockIndex,
BLOCK_END_OF_CHAIN);
if (This->headOfStreamPlaceHolder != 0)
{
*(This->headOfStreamPlaceHolder) = blockIndex;
}
else
{
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StgProperty chainProp;
assert(This->ownerPropertyIndex != PROPERTY_NULL);
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StorageImpl_ReadProperty(
This->parentStorage,
This->ownerPropertyIndex,
&chainProp);
chainProp.startingBlock = blockIndex;
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StorageImpl_WriteProperty(
This->parentStorage,
This->ownerPropertyIndex,
&chainProp);
}
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This->tailIndex = blockIndex;
This->numBlocks = 1;
}
/*
* Figure out how many blocks are needed to contain this stream
*/
newNumBlocks = newSize.s.LowPart / This->parentStorage->bigBlockSize;
if ((newSize.s.LowPart % This->parentStorage->bigBlockSize) != 0)
newNumBlocks++;
/*
* Go to the current end of chain
*/
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if (This->tailIndex == BLOCK_END_OF_CHAIN)
{
currentBlock = blockIndex;
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while (blockIndex != BLOCK_END_OF_CHAIN)
{
This->numBlocks++;
currentBlock = blockIndex;
blockIndex =
StorageImpl_GetNextBlockInChain(This->parentStorage, currentBlock);
}
This->tailIndex = currentBlock;
}
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currentBlock = This->tailIndex;
oldNumBlocks = This->numBlocks;
/*
* Add new blocks to the chain
*/
if (oldNumBlocks < newNumBlocks)
{
while (oldNumBlocks < newNumBlocks)
{
blockIndex = StorageImpl_GetNextFreeBigBlock(This->parentStorage);
StorageImpl_SetNextBlockInChain(
This->parentStorage,
currentBlock,
blockIndex);
StorageImpl_SetNextBlockInChain(
This->parentStorage,
blockIndex,
BLOCK_END_OF_CHAIN);
currentBlock = blockIndex;
oldNumBlocks++;
}
This->tailIndex = blockIndex;
This->numBlocks = newNumBlocks;
}
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return TRUE;
}
/******************************************************************************
* BlockChainStream_SetSize
*
* Sets the size of this stream. The big block depot will be updated.
* The file will grow if we grow the chain.
*
* TODO: Free the actual blocks in the file when we shrink the chain.
* Currently, the blocks are still in the file. So the file size
* doesn't shrink even if we shrink streams.
*/
BOOL BlockChainStream_SetSize(
BlockChainStream* This,
ULARGE_INTEGER newSize)
{
ULARGE_INTEGER size = BlockChainStream_GetSize(This);
if (newSize.s.LowPart == size.s.LowPart)
return TRUE;
if (newSize.s.LowPart < size.s.LowPart)
{
BlockChainStream_Shrink(This, newSize);
}
else
{
ULARGE_INTEGER fileSize =
BIGBLOCKFILE_GetSize(This->parentStorage->bigBlockFile);
ULONG diff = newSize.s.LowPart - size.s.LowPart;
/*
* Make sure the file stays a multiple of blocksize
*/
if ((diff % This->parentStorage->bigBlockSize) != 0)
diff += (This->parentStorage->bigBlockSize -
(diff % This->parentStorage->bigBlockSize) );
fileSize.s.LowPart += diff;
BIGBLOCKFILE_SetSize(This->parentStorage->bigBlockFile, fileSize);
BlockChainStream_Enlarge(This, newSize);
}
return TRUE;
}
/******************************************************************************
* BlockChainStream_GetSize
*
* Returns the size of this chain.
* Will return the block count if this chain doesn't have a property.
*/
ULARGE_INTEGER BlockChainStream_GetSize(BlockChainStream* This)
{
StgProperty chainProperty;
if(This->headOfStreamPlaceHolder == NULL)
{
/*
* This chain is a data stream read the property and return
* the appropriate size
*/
StorageImpl_ReadProperty(
This->parentStorage,
This->ownerPropertyIndex,
&chainProperty);
return chainProperty.size;
}
else
{
/*
* this chain is a chain that does not have a property, figure out the
* size by making the product number of used blocks times the
* size of them
*/
ULARGE_INTEGER result;
result.s.HighPart = 0;
result.s.LowPart =
BlockChainStream_GetCount(This) *
This->parentStorage->bigBlockSize;
return result;
}
}
/******************************************************************************
** SmallBlockChainStream implementation
*/
SmallBlockChainStream* SmallBlockChainStream_Construct(
StorageImpl* parentStorage,
ULONG propertyIndex)
{
SmallBlockChainStream* newStream;
newStream = HeapAlloc(GetProcessHeap(), 0, sizeof(SmallBlockChainStream));
newStream->parentStorage = parentStorage;
newStream->ownerPropertyIndex = propertyIndex;
return newStream;
}
void SmallBlockChainStream_Destroy(
SmallBlockChainStream* This)
{
HeapFree(GetProcessHeap(), 0, This);
}
/******************************************************************************
* SmallBlockChainStream_GetHeadOfChain
*
* Returns the head of this chain of small blocks.
*/
ULONG SmallBlockChainStream_GetHeadOfChain(
SmallBlockChainStream* This)
{
StgProperty chainProperty;
BOOL readSuccessful;
if (This->ownerPropertyIndex)
{
readSuccessful = StorageImpl_ReadProperty(
This->parentStorage,
This->ownerPropertyIndex,
&chainProperty);
if (readSuccessful)
{
return chainProperty.startingBlock;
}
}
return BLOCK_END_OF_CHAIN;
}
/******************************************************************************
* SmallBlockChainStream_GetNextBlockInChain
*
* Returns the index of the next small block in this chain.
*
* Return Values:
* - BLOCK_END_OF_CHAIN: end of this chain
* - BLOCK_UNUSED: small block 'blockIndex' is free
*/
ULONG SmallBlockChainStream_GetNextBlockInChain(
SmallBlockChainStream* This,
ULONG blockIndex)
{
ULARGE_INTEGER offsetOfBlockInDepot;
DWORD buffer;
ULONG nextBlockInChain = BLOCK_END_OF_CHAIN;
ULONG bytesRead;
BOOL success;
offsetOfBlockInDepot.s.HighPart = 0;
offsetOfBlockInDepot.s.LowPart = blockIndex * sizeof(ULONG);
/*
* Read those bytes in the buffer from the small block file.
*/
success = BlockChainStream_ReadAt(
This->parentStorage->smallBlockDepotChain,
offsetOfBlockInDepot,
sizeof(DWORD),
&buffer,
&bytesRead);
if (success)
{
StorageUtl_ReadDWord(&buffer, 0, &nextBlockInChain);
}
return nextBlockInChain;
}
/******************************************************************************
* SmallBlockChainStream_SetNextBlockInChain
*
* Writes the index of the next block of the specified block in the small
* block depot.
* To set the end of chain use BLOCK_END_OF_CHAIN as nextBlock.
* To flag a block as free use BLOCK_UNUSED as nextBlock.
*/
void SmallBlockChainStream_SetNextBlockInChain(
SmallBlockChainStream* This,
ULONG blockIndex,
ULONG nextBlock)
{
ULARGE_INTEGER offsetOfBlockInDepot;
DWORD buffer;
ULONG bytesWritten;
offsetOfBlockInDepot.s.HighPart = 0;
offsetOfBlockInDepot.s.LowPart = blockIndex * sizeof(ULONG);
StorageUtl_WriteDWord(&buffer, 0, nextBlock);
/*
* Read those bytes in the buffer from the small block file.
*/
BlockChainStream_WriteAt(
This->parentStorage->smallBlockDepotChain,
offsetOfBlockInDepot,
sizeof(DWORD),
&buffer,
&bytesWritten);
}
/******************************************************************************
* SmallBlockChainStream_FreeBlock
*
* Flag small block 'blockIndex' as free in the small block depot.
*/
void SmallBlockChainStream_FreeBlock(
SmallBlockChainStream* This,
ULONG blockIndex)
{
SmallBlockChainStream_SetNextBlockInChain(This, blockIndex, BLOCK_UNUSED);
}
/******************************************************************************
* SmallBlockChainStream_GetNextFreeBlock
*
* Returns the index of a free small block. The small block depot will be
* enlarged if necessary. The small block chain will also be enlarged if
* necessary.
*/
ULONG SmallBlockChainStream_GetNextFreeBlock(
SmallBlockChainStream* This)
{
ULARGE_INTEGER offsetOfBlockInDepot;
DWORD buffer;
ULONG bytesRead;
ULONG blockIndex = 0;
ULONG nextBlockIndex = BLOCK_END_OF_CHAIN;
BOOL success = TRUE;
ULONG smallBlocksPerBigBlock;
offsetOfBlockInDepot.s.HighPart = 0;
/*
* Scan the small block depot for a free block
*/
while (nextBlockIndex != BLOCK_UNUSED)
{
offsetOfBlockInDepot.s.LowPart = blockIndex * sizeof(ULONG);
success = BlockChainStream_ReadAt(
This->parentStorage->smallBlockDepotChain,
offsetOfBlockInDepot,
sizeof(DWORD),
&buffer,
&bytesRead);
/*
* If we run out of space for the small block depot, enlarge it
*/
if (success)
{
StorageUtl_ReadDWord(&buffer, 0, &nextBlockIndex);
if (nextBlockIndex != BLOCK_UNUSED)
blockIndex++;
}
else
{
ULONG count =
BlockChainStream_GetCount(This->parentStorage->smallBlockDepotChain);
ULONG sbdIndex = This->parentStorage->smallBlockDepotStart;
ULONG nextBlock, newsbdIndex;
BYTE* smallBlockDepot;
nextBlock = sbdIndex;
while (nextBlock != BLOCK_END_OF_CHAIN)
{
sbdIndex = nextBlock;
nextBlock =
StorageImpl_GetNextBlockInChain(This->parentStorage, sbdIndex);
}
newsbdIndex = StorageImpl_GetNextFreeBigBlock(This->parentStorage);
if (sbdIndex != BLOCK_END_OF_CHAIN)
StorageImpl_SetNextBlockInChain(
This->parentStorage,
sbdIndex,
newsbdIndex);
StorageImpl_SetNextBlockInChain(
This->parentStorage,
newsbdIndex,
BLOCK_END_OF_CHAIN);
/*
* Initialize all the small blocks to free
*/
smallBlockDepot =
StorageImpl_GetBigBlock(This->parentStorage, newsbdIndex);
memset(smallBlockDepot, BLOCK_UNUSED, This->parentStorage->bigBlockSize);
StorageImpl_ReleaseBigBlock(This->parentStorage, smallBlockDepot);
if (count == 0)
{
/*
* We have just created the small block depot.
*/
StgProperty rootProp;
ULONG sbStartIndex;
/*
* Save it in the header
*/
This->parentStorage->smallBlockDepotStart = newsbdIndex;
StorageImpl_SaveFileHeader(This->parentStorage);
/*
* And allocate the first big block that will contain small blocks
*/
sbStartIndex =
StorageImpl_GetNextFreeBigBlock(This->parentStorage);
StorageImpl_SetNextBlockInChain(
This->parentStorage,
sbStartIndex,
BLOCK_END_OF_CHAIN);
StorageImpl_ReadProperty(
This->parentStorage,
This->parentStorage->rootPropertySetIndex,
&rootProp);
rootProp.startingBlock = sbStartIndex;
rootProp.size.s.HighPart = 0;
rootProp.size.s.LowPart = This->parentStorage->bigBlockSize;
StorageImpl_WriteProperty(
This->parentStorage,
This->parentStorage->rootPropertySetIndex,
&rootProp);
}
}
}
smallBlocksPerBigBlock =
This->parentStorage->bigBlockSize / This->parentStorage->smallBlockSize;
/*
* Verify if we have to allocate big blocks to contain small blocks
*/
if (blockIndex % smallBlocksPerBigBlock == 0)
{
StgProperty rootProp;
ULONG blocksRequired = (blockIndex / smallBlocksPerBigBlock) + 1;
StorageImpl_ReadProperty(
This->parentStorage,
This->parentStorage->rootPropertySetIndex,
&rootProp);
if (rootProp.size.s.LowPart <
(blocksRequired * This->parentStorage->bigBlockSize))
{
rootProp.size.s.LowPart += This->parentStorage->bigBlockSize;
BlockChainStream_SetSize(
This->parentStorage->smallBlockRootChain,
rootProp.size);
StorageImpl_WriteProperty(
This->parentStorage,
This->parentStorage->rootPropertySetIndex,
&rootProp);
}
}
return blockIndex;
}
/******************************************************************************
* SmallBlockChainStream_ReadAt
*
* Reads a specified number of bytes from this chain at the specified offset.
* bytesRead may be NULL.
* Failure will be returned if the specified number of bytes has not been read.
*/
BOOL SmallBlockChainStream_ReadAt(
SmallBlockChainStream* This,
ULARGE_INTEGER offset,
ULONG size,
void* buffer,
ULONG* bytesRead)
{
ULARGE_INTEGER offsetInBigBlockFile;
ULONG blockNoInSequence =
offset.s.LowPart / This->parentStorage->smallBlockSize;
ULONG offsetInBlock = offset.s.LowPart % This->parentStorage->smallBlockSize;
ULONG bytesToReadInBuffer;
ULONG blockIndex;
ULONG bytesReadFromBigBlockFile;
BYTE* bufferWalker;
/*
* This should never happen on a small block file.
*/
assert(offset.s.HighPart==0);
/*
* Find the first block in the stream that contains part of the buffer.
*/
blockIndex = SmallBlockChainStream_GetHeadOfChain(This);
while ( (blockNoInSequence > 0) && (blockIndex != BLOCK_END_OF_CHAIN))
{
blockIndex = SmallBlockChainStream_GetNextBlockInChain(This, blockIndex);
blockNoInSequence--;
}
/*
* Start reading the buffer.
*/
*bytesRead = 0;
bufferWalker = buffer;
while ( (size > 0) && (blockIndex != BLOCK_END_OF_CHAIN) )
{
/*
* Calculate how many bytes we can copy from this small block.
*/
bytesToReadInBuffer =
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min(This->parentStorage->smallBlockSize - offsetInBlock, size);
/*
* Calculate the offset of the small block in the small block file.
*/
offsetInBigBlockFile.s.HighPart = 0;
offsetInBigBlockFile.s.LowPart =
blockIndex * This->parentStorage->smallBlockSize;
offsetInBigBlockFile.s.LowPart += offsetInBlock;
/*
* Read those bytes in the buffer from the small block file.
*/
BlockChainStream_ReadAt(This->parentStorage->smallBlockRootChain,
offsetInBigBlockFile,
bytesToReadInBuffer,
bufferWalker,
&bytesReadFromBigBlockFile);
assert(bytesReadFromBigBlockFile == bytesToReadInBuffer);
/*
* Step to the next big block.
*/
blockIndex = SmallBlockChainStream_GetNextBlockInChain(This, blockIndex);
bufferWalker += bytesToReadInBuffer;
size -= bytesToReadInBuffer;
*bytesRead += bytesToReadInBuffer;
offsetInBlock = 0; /* There is no offset on the next block */
}
return (size == 0);
}
/******************************************************************************
* SmallBlockChainStream_WriteAt
*
* Writes the specified number of bytes to this chain at the specified offset.
* bytesWritten may be NULL.
* Will fail if not all specified number of bytes have been written.
*/
BOOL SmallBlockChainStream_WriteAt(
SmallBlockChainStream* This,
ULARGE_INTEGER offset,
ULONG size,
const void* buffer,
ULONG* bytesWritten)
{
ULARGE_INTEGER offsetInBigBlockFile;
ULONG blockNoInSequence =
offset.s.LowPart / This->parentStorage->smallBlockSize;
ULONG offsetInBlock = offset.s.LowPart % This->parentStorage->smallBlockSize;
ULONG bytesToWriteInBuffer;
ULONG blockIndex;
ULONG bytesWrittenFromBigBlockFile;
BYTE* bufferWalker;
/*
* This should never happen on a small block file.
*/
assert(offset.s.HighPart==0);
/*
* Find the first block in the stream that contains part of the buffer.
*/
blockIndex = SmallBlockChainStream_GetHeadOfChain(This);
while ( (blockNoInSequence > 0) && (blockIndex != BLOCK_END_OF_CHAIN))
{
blockIndex = SmallBlockChainStream_GetNextBlockInChain(This, blockIndex);
blockNoInSequence--;
}
/*
* Start writing the buffer.
*
* Here, I'm casting away the constness on the buffer variable
* This is OK since we don't intend to modify that buffer.
*/
*bytesWritten = 0;
bufferWalker = (BYTE*)buffer;
while ( (size > 0) && (blockIndex != BLOCK_END_OF_CHAIN) )
{
/*
* Calculate how many bytes we can copy to this small block.
*/
bytesToWriteInBuffer =
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min(This->parentStorage->smallBlockSize - offsetInBlock, size);
/*
* Calculate the offset of the small block in the small block file.
*/
offsetInBigBlockFile.s.HighPart = 0;
offsetInBigBlockFile.s.LowPart =
blockIndex * This->parentStorage->smallBlockSize;
offsetInBigBlockFile.s.LowPart += offsetInBlock;
/*
* Write those bytes in the buffer to the small block file.
*/
BlockChainStream_WriteAt(This->parentStorage->smallBlockRootChain,
offsetInBigBlockFile,
bytesToWriteInBuffer,
bufferWalker,
&bytesWrittenFromBigBlockFile);
assert(bytesWrittenFromBigBlockFile == bytesToWriteInBuffer);
/*
* Step to the next big block.
*/
blockIndex = SmallBlockChainStream_GetNextBlockInChain(This, blockIndex);
bufferWalker += bytesToWriteInBuffer;
size -= bytesToWriteInBuffer;
*bytesWritten += bytesToWriteInBuffer;
offsetInBlock = 0; /* There is no offset on the next block */
}
return (size == 0);
}
/******************************************************************************
* SmallBlockChainStream_Shrink
*
* Shrinks this chain in the small block depot.
*/
BOOL SmallBlockChainStream_Shrink(
SmallBlockChainStream* This,
ULARGE_INTEGER newSize)
{
ULONG blockIndex, extraBlock;
ULONG numBlocks;
ULONG count = 0;
numBlocks = newSize.s.LowPart / This->parentStorage->smallBlockSize;
if ((newSize.s.LowPart % This->parentStorage->smallBlockSize) != 0)
numBlocks++;
blockIndex = SmallBlockChainStream_GetHeadOfChain(This);
/*
* Go to the new end of chain
*/
while (count < numBlocks)
{
blockIndex = SmallBlockChainStream_GetNextBlockInChain(This, blockIndex);
count++;
}
/*
* If the count is 0, we have a special case, the head of the chain was
* just freed.
*/
if (count == 0)
{
StgProperty chainProp;
StorageImpl_ReadProperty(This->parentStorage,
This->ownerPropertyIndex,
&chainProp);
chainProp.startingBlock = BLOCK_END_OF_CHAIN;
StorageImpl_WriteProperty(This->parentStorage,
This->ownerPropertyIndex,
&chainProp);
/*
* We start freeing the chain at the head block.
*/
extraBlock = blockIndex;
}
else
{
/* Get the next block before marking the new end */
extraBlock = SmallBlockChainStream_GetNextBlockInChain(This, blockIndex);
/* Mark the new end of chain */
SmallBlockChainStream_SetNextBlockInChain(
This,
blockIndex,
BLOCK_END_OF_CHAIN);
}
/*
* Mark the extra blocks as free
*/
while (extraBlock != BLOCK_END_OF_CHAIN)
{
blockIndex = SmallBlockChainStream_GetNextBlockInChain(This, extraBlock);
SmallBlockChainStream_FreeBlock(This, extraBlock);
extraBlock = blockIndex;
}
return TRUE;
}
/******************************************************************************
* SmallBlockChainStream_Enlarge
*
* Grows this chain in the small block depot.
*/
BOOL SmallBlockChainStream_Enlarge(
SmallBlockChainStream* This,
ULARGE_INTEGER newSize)
{
ULONG blockIndex, currentBlock;
ULONG newNumBlocks;
ULONG oldNumBlocks = 0;
blockIndex = SmallBlockChainStream_GetHeadOfChain(This);
/*
* Empty chain
*/
if (blockIndex == BLOCK_END_OF_CHAIN)
{
StgProperty chainProp;
StorageImpl_ReadProperty(This->parentStorage, This->ownerPropertyIndex,
&chainProp);
chainProp.startingBlock = SmallBlockChainStream_GetNextFreeBlock(This);
StorageImpl_WriteProperty(This->parentStorage, This->ownerPropertyIndex,
&chainProp);
blockIndex = chainProp.startingBlock;
SmallBlockChainStream_SetNextBlockInChain(
This,
blockIndex,
BLOCK_END_OF_CHAIN);
}
currentBlock = blockIndex;
/*
* Figure out how many blocks are needed to contain this stream
*/
newNumBlocks = newSize.s.LowPart / This->parentStorage->smallBlockSize;
if ((newSize.s.LowPart % This->parentStorage->smallBlockSize) != 0)
newNumBlocks++;
/*
* Go to the current end of chain
*/
while (blockIndex != BLOCK_END_OF_CHAIN)
{
oldNumBlocks++;
currentBlock = blockIndex;
blockIndex = SmallBlockChainStream_GetNextBlockInChain(This, currentBlock);
}
/*
* Add new blocks to the chain
*/
while (oldNumBlocks < newNumBlocks)
{
blockIndex = SmallBlockChainStream_GetNextFreeBlock(This);
SmallBlockChainStream_SetNextBlockInChain(This, currentBlock, blockIndex);
SmallBlockChainStream_SetNextBlockInChain(
This,
blockIndex,
BLOCK_END_OF_CHAIN);
currentBlock = blockIndex;
oldNumBlocks++;
}
return TRUE;
}
/******************************************************************************
* SmallBlockChainStream_GetCount
*
* Returns the number of blocks that comprises this chain.
* This is not the size of this chain as the last block may not be full!
*/
ULONG SmallBlockChainStream_GetCount(SmallBlockChainStream* This)
{
ULONG blockIndex;
ULONG count = 0;
blockIndex = SmallBlockChainStream_GetHeadOfChain(This);
while (blockIndex != BLOCK_END_OF_CHAIN)
{
count++;
blockIndex = SmallBlockChainStream_GetNextBlockInChain(This, blockIndex);
}
return count;
}
/******************************************************************************
* SmallBlockChainStream_SetSize
*
* Sets the size of this stream.
* The file will grow if we grow the chain.
*
* TODO: Free the actual blocks in the file when we shrink the chain.
* Currently, the blocks are still in the file. So the file size
* doesn't shrink even if we shrink streams.
*/
BOOL SmallBlockChainStream_SetSize(
SmallBlockChainStream* This,
ULARGE_INTEGER newSize)
{
ULARGE_INTEGER size = SmallBlockChainStream_GetSize(This);
if (newSize.s.LowPart == size.s.LowPart)
return TRUE;
if (newSize.s.LowPart < size.s.LowPart)
{
SmallBlockChainStream_Shrink(This, newSize);
}
else
{
SmallBlockChainStream_Enlarge(This, newSize);
}
return TRUE;
}
/******************************************************************************
* SmallBlockChainStream_GetSize
*
* Returns the size of this chain.
*/
ULARGE_INTEGER SmallBlockChainStream_GetSize(SmallBlockChainStream* This)
{
StgProperty chainProperty;
StorageImpl_ReadProperty(
This->parentStorage,
This->ownerPropertyIndex,
&chainProperty);
return chainProperty.size;
}
/******************************************************************************
* StgCreateDocfile [OLE32.144]
*/
HRESULT WINAPI StgCreateDocfile(
LPCOLESTR pwcsName,
DWORD grfMode,
DWORD reserved,
IStorage **ppstgOpen)
{
StorageImpl* newStorage = 0;
HANDLE hFile = INVALID_HANDLE_VALUE;
HRESULT hr = S_OK;
DWORD shareMode;
DWORD accessMode;
DWORD creationMode;
DWORD fileAttributes;
WCHAR tempFileName[MAX_PATH];
TRACE("(%s, %lx, %ld, %p)\n",
debugstr_w(pwcsName), grfMode,
reserved, ppstgOpen);
/*
* Validate the parameters
*/
if (ppstgOpen == 0)
return STG_E_INVALIDPOINTER;
/*
* Validate the STGM flags
*/
if ( FAILED( validateSTGM(grfMode) ))
return STG_E_INVALIDFLAG;
/*
* Generate a unique name.
*/
if (pwcsName == 0)
{
WCHAR tempPath[MAX_PATH];
WCHAR prefix[] = { 'S', 'T', 'O', 0 };
if (!(grfMode & STGM_SHARE_EXCLUSIVE))
return STG_E_INVALIDFLAG;
if (!(grfMode & (STGM_WRITE|STGM_READWRITE)))
return STG_E_INVALIDFLAG;
memset(tempPath, 0, sizeof(tempPath));
memset(tempFileName, 0, sizeof(tempFileName));
if ((GetTempPathW(MAX_PATH, tempPath)) == 0 )
tempPath[0] = '.';
if (GetTempFileNameW(tempPath, prefix, 0, tempFileName) != 0)
pwcsName = tempFileName;
else
return STG_E_INSUFFICIENTMEMORY;
creationMode = TRUNCATE_EXISTING;
}
else
{
creationMode = GetCreationModeFromSTGM(grfMode);
}
/*
* Interpret the STGM value grfMode
*/
shareMode = GetShareModeFromSTGM(grfMode);
accessMode = GetAccessModeFromSTGM(grfMode);
if (grfMode & STGM_DELETEONRELEASE)
fileAttributes = FILE_FLAG_RANDOM_ACCESS | FILE_FLAG_DELETE_ON_CLOSE;
else
fileAttributes = FILE_ATTRIBUTE_NORMAL | FILE_FLAG_RANDOM_ACCESS;
if (grfMode & STGM_TRANSACTED)
FIXME("Transacted mode not implemented.\n");
/*
* Initialize the "out" parameter.
*/
*ppstgOpen = 0;
hFile = CreateFileW(pwcsName,
accessMode,
shareMode,
NULL,
creationMode,
fileAttributes,
0);
if (hFile == INVALID_HANDLE_VALUE)
{
return E_FAIL;
}
/*
* Allocate and initialize the new IStorage32object.
*/
newStorage = HeapAlloc(GetProcessHeap(), 0, sizeof(StorageImpl));
if (newStorage == 0)
return STG_E_INSUFFICIENTMEMORY;
hr = StorageImpl_Construct(
newStorage,
hFile,
NULL,
grfMode,
TRUE,
TRUE);
if (FAILED(hr))
{
HeapFree(GetProcessHeap(), 0, newStorage);
return hr;
}
/*
* Get an "out" pointer for the caller.
*/
hr = StorageBaseImpl_QueryInterface(
(IStorage*)newStorage,
(REFIID)&IID_IStorage,
(void**)ppstgOpen);
return hr;
}
/******************************************************************************
* StgOpenStorage [OLE32.148]
*/
HRESULT WINAPI StgOpenStorage(
const OLECHAR *pwcsName,
IStorage *pstgPriority,
DWORD grfMode,
SNB snbExclude,
DWORD reserved,
IStorage **ppstgOpen)
{
StorageImpl* newStorage = 0;
HRESULT hr = S_OK;
HANDLE hFile = 0;
DWORD shareMode;
DWORD accessMode;
TRACE("(%s, %p, %lx, %p, %ld, %p)\n",
debugstr_w(pwcsName), pstgPriority, grfMode,
snbExclude, reserved, ppstgOpen);
/*
* Perform a sanity check
*/
if (( pwcsName == 0) || (ppstgOpen == 0) )
return STG_E_INVALIDPOINTER;
/*
* Validate the STGM flags
*/
if ( FAILED( validateSTGM(grfMode) ))
return STG_E_INVALIDFLAG;
/*
* Interpret the STGM value grfMode
*/
shareMode = GetShareModeFromSTGM(grfMode);
accessMode = GetAccessModeFromSTGM(grfMode);
/*
* Initialize the "out" parameter.
*/
*ppstgOpen = 0;
hFile = CreateFileW( pwcsName,
accessMode,
shareMode,
NULL,
OPEN_EXISTING,
FILE_ATTRIBUTE_NORMAL | FILE_FLAG_RANDOM_ACCESS,
0);
if (hFile==INVALID_HANDLE_VALUE)
{
HRESULT hr = E_FAIL;
DWORD last_error = GetLastError();
switch (last_error)
{
case ERROR_FILE_NOT_FOUND:
hr = STG_E_FILENOTFOUND;
break;
case ERROR_PATH_NOT_FOUND:
hr = STG_E_PATHNOTFOUND;
break;
case ERROR_ACCESS_DENIED:
case ERROR_WRITE_PROTECT:
hr = STG_E_ACCESSDENIED;
break;
case ERROR_SHARING_VIOLATION:
hr = STG_E_SHAREVIOLATION;
break;
default:
hr = E_FAIL;
}
return hr;
}
/*
* Allocate and initialize the new IStorage32object.
*/
newStorage = HeapAlloc(GetProcessHeap(), 0, sizeof(StorageImpl));
if (newStorage == 0)
return STG_E_INSUFFICIENTMEMORY;
hr = StorageImpl_Construct(
newStorage,
hFile,
NULL,
grfMode,
TRUE,
FALSE);
if (FAILED(hr))
{
HeapFree(GetProcessHeap(), 0, newStorage);
/*
* According to the docs if the file is not a storage, return STG_E_FILEALREADYEXISTS
*/
if(hr == STG_E_INVALIDHEADER)
return STG_E_FILEALREADYEXISTS;
return hr;
}
/*
* Get an "out" pointer for the caller.
*/
hr = StorageBaseImpl_QueryInterface(
(IStorage*)newStorage,
(REFIID)&IID_IStorage,
(void**)ppstgOpen);
return hr;
}
/******************************************************************************
* StgCreateDocfileOnILockBytes [OLE32.145]
*/
HRESULT WINAPI StgCreateDocfileOnILockBytes(
ILockBytes *plkbyt,
DWORD grfMode,
DWORD reserved,
IStorage** ppstgOpen)
{
StorageImpl* newStorage = 0;
HRESULT hr = S_OK;
/*
* Validate the parameters
*/
if ((ppstgOpen == 0) || (plkbyt == 0))
return STG_E_INVALIDPOINTER;
/*
* Allocate and initialize the new IStorage object.
*/
newStorage = HeapAlloc(GetProcessHeap(), 0, sizeof(StorageImpl));
if (newStorage == 0)
return STG_E_INSUFFICIENTMEMORY;
hr = StorageImpl_Construct(
newStorage,
0,
plkbyt,
grfMode,
FALSE,
TRUE);
if (FAILED(hr))
{
HeapFree(GetProcessHeap(), 0, newStorage);
return hr;
}
/*
* Get an "out" pointer for the caller.
*/
hr = StorageBaseImpl_QueryInterface(
(IStorage*)newStorage,
(REFIID)&IID_IStorage,
(void**)ppstgOpen);
return hr;
}
/******************************************************************************
* StgOpenStorageOnILockBytes [OLE32.149]
*/
HRESULT WINAPI StgOpenStorageOnILockBytes(
ILockBytes *plkbyt,
IStorage *pstgPriority,
DWORD grfMode,
SNB snbExclude,
DWORD reserved,
IStorage **ppstgOpen)
{
StorageImpl* newStorage = 0;
HRESULT hr = S_OK;
/*
* Perform a sanity check
*/
if ((plkbyt == 0) || (ppstgOpen == 0))
return STG_E_INVALIDPOINTER;
/*
* Validate the STGM flags
*/
if ( FAILED( validateSTGM(grfMode) ))
return STG_E_INVALIDFLAG;
/*
* Initialize the "out" parameter.
*/
*ppstgOpen = 0;
/*
* Allocate and initialize the new IStorage object.
*/
newStorage = HeapAlloc(GetProcessHeap(), 0, sizeof(StorageImpl));
if (newStorage == 0)
return STG_E_INSUFFICIENTMEMORY;
hr = StorageImpl_Construct(
newStorage,
0,
plkbyt,
grfMode,
FALSE,
FALSE);
if (FAILED(hr))
{
HeapFree(GetProcessHeap(), 0, newStorage);
return hr;
}
/*
* Get an "out" pointer for the caller.
*/
hr = StorageBaseImpl_QueryInterface(
(IStorage*)newStorage,
(REFIID)&IID_IStorage,
(void**)ppstgOpen);
return hr;
}
1999-11-21 01:49:20 +01:00
/******************************************************************************
* StgSetTimes [ole32.150]
*
*
*/
HRESULT WINAPI StgSetTimes(WCHAR * str, FILETIME * a, FILETIME * b, FILETIME *c )
{
FIXME("(%p, %p, %p, %p),stub!\n", str, a, b, c);
return FALSE;
}
/******************************************************************************
* StgIsStorageILockBytes [OLE32.147]
*
* Determines if the ILockBytes contains a storage object.
*/
HRESULT WINAPI StgIsStorageILockBytes(ILockBytes *plkbyt)
{
BYTE sig[8];
ULARGE_INTEGER offset;
offset.s.HighPart = 0;
offset.s.LowPart = 0;
ILockBytes_ReadAt(plkbyt, offset, sig, sizeof(sig), NULL);
if (memcmp(sig, STORAGE_magic, sizeof(STORAGE_magic)) == 0)
return S_OK;
return S_FALSE;
}
/******************************************************************************
* WriteClassStg [OLE32.158]
*
* This method will store the specified CLSID in the specified storage object
*/
HRESULT WINAPI WriteClassStg(IStorage* pStg, REFCLSID rclsid)
{
HRESULT hRes;
assert(pStg != 0);
hRes = IStorage_SetClass(pStg, rclsid);
return hRes;
}
/***********************************************************************
* ReadClassStg
*
* This method reads the CLSID previously written to a storage object with the WriteClassStg.
*/
HRESULT WINAPI ReadClassStg(IStorage *pstg,CLSID *pclsid){
STATSTG pstatstg;
HRESULT hRes;
TRACE("()\n");
if(pclsid==NULL)
return E_POINTER;
/*
* read a STATSTG structure (contains the clsid) from the storage
*/
hRes=IStorage_Stat(pstg,&pstatstg,STATFLAG_DEFAULT);
if(SUCCEEDED(hRes))
*pclsid=pstatstg.clsid;
return hRes;
}
/***********************************************************************
* OleLoadFromStream
*
* This function loads an object from stream
*/
HRESULT WINAPI OleLoadFromStream(IStream *pStm,REFIID iidInterface,void** ppvObj)
{
CLSID clsid;
HRESULT res;
LPPERSISTSTREAM xstm;
TRACE("(%p,%s,%p)\n",pStm,debugstr_guid(iidInterface),ppvObj);
res=ReadClassStm(pStm,&clsid);
if (!SUCCEEDED(res))
return res;
res=CoCreateInstance(&clsid,NULL,CLSCTX_INPROC_SERVER,iidInterface,ppvObj);
if (!SUCCEEDED(res))
return res;
res=IUnknown_QueryInterface((IUnknown*)*ppvObj,&IID_IPersistStream,(LPVOID*)&xstm);
if (!SUCCEEDED(res)) {
IUnknown_Release((IUnknown*)*ppvObj);
return res;
}
res=IPersistStream_Load(xstm,pStm);
IPersistStream_Release(xstm);
/* FIXME: all refcounts ok at this point? I think they should be:
* pStm : unchanged
* ppvObj : 1
* xstm : 0 (released)
*/
return res;
}
/***********************************************************************
* OleSaveToStream
*
* This function saves an object with the IPersistStream interface on it
* to the specified stream.
*/
HRESULT WINAPI OleSaveToStream(IPersistStream *pPStm,IStream *pStm)
{
CLSID clsid;
HRESULT res;
TRACE("(%p,%p)\n",pPStm,pStm);
res=IPersistStream_GetClassID(pPStm,&clsid);
if (SUCCEEDED(res)){
res=WriteClassStm(pStm,&clsid);
if (SUCCEEDED(res))
res=IPersistStream_Save(pPStm,pStm,TRUE);
}
TRACE("Finished Save\n");
return res;
}
/****************************************************************************
* This method validate a STGM parameter that can contain the values below
*
* STGM_DIRECT 0x00000000
* STGM_TRANSACTED 0x00010000
* STGM_SIMPLE 0x08000000
*
* STGM_READ 0x00000000
* STGM_WRITE 0x00000001
* STGM_READWRITE 0x00000002
*
* STGM_SHARE_DENY_NONE 0x00000040
* STGM_SHARE_DENY_READ 0x00000030
* STGM_SHARE_DENY_WRITE 0x00000020
* STGM_SHARE_EXCLUSIVE 0x00000010
*
* STGM_PRIORITY 0x00040000
* STGM_DELETEONRELEASE 0x04000000
*
* STGM_CREATE 0x00001000
* STGM_CONVERT 0x00020000
* STGM_FAILIFTHERE 0x00000000
*
* STGM_NOSCRATCH 0x00100000
* STGM_NOSNAPSHOT 0x00200000
*/
static HRESULT validateSTGM(DWORD stgm)
{
BOOL bSTGM_TRANSACTED = ((stgm & STGM_TRANSACTED) == STGM_TRANSACTED);
BOOL bSTGM_SIMPLE = ((stgm & STGM_SIMPLE) == STGM_SIMPLE);
BOOL bSTGM_DIRECT = ! (bSTGM_TRANSACTED || bSTGM_SIMPLE);
BOOL bSTGM_WRITE = ((stgm & STGM_WRITE) == STGM_WRITE);
BOOL bSTGM_READWRITE = ((stgm & STGM_READWRITE) == STGM_READWRITE);
BOOL bSTGM_READ = ! (bSTGM_WRITE || bSTGM_READWRITE);
BOOL bSTGM_SHARE_DENY_NONE =
((stgm & STGM_SHARE_DENY_NONE) == STGM_SHARE_DENY_NONE);
BOOL bSTGM_SHARE_DENY_READ =
((stgm & STGM_SHARE_DENY_READ) == STGM_SHARE_DENY_READ);
BOOL bSTGM_SHARE_DENY_WRITE =
((stgm & STGM_SHARE_DENY_WRITE) == STGM_SHARE_DENY_WRITE);
BOOL bSTGM_SHARE_EXCLUSIVE =
((stgm & STGM_SHARE_EXCLUSIVE) == STGM_SHARE_EXCLUSIVE);
BOOL bSTGM_CREATE = ((stgm & STGM_CREATE) == STGM_CREATE);
BOOL bSTGM_CONVERT = ((stgm & STGM_CONVERT) == STGM_CONVERT);
BOOL bSTGM_NOSCRATCH = ((stgm & STGM_NOSCRATCH) == STGM_NOSCRATCH);
BOOL bSTGM_NOSNAPSHOT = ((stgm & STGM_NOSNAPSHOT) == STGM_NOSNAPSHOT);
/*
* STGM_DIRECT | STGM_TRANSACTED | STGM_SIMPLE
*/
if ( ! bSTGM_DIRECT )
if( bSTGM_TRANSACTED && bSTGM_SIMPLE )
return E_FAIL;
/*
* STGM_WRITE | STGM_READWRITE | STGM_READ
*/
if ( ! bSTGM_READ )
if( bSTGM_WRITE && bSTGM_READWRITE )
return E_FAIL;
/*
* STGM_SHARE_DENY_NONE | others
* (I assume here that DENY_READ implies DENY_WRITE)
*/
if ( bSTGM_SHARE_DENY_NONE )
if ( bSTGM_SHARE_DENY_READ ||
bSTGM_SHARE_DENY_WRITE ||
bSTGM_SHARE_EXCLUSIVE)
return E_FAIL;
/*
* STGM_CREATE | STGM_CONVERT
* if both are false, STGM_FAILIFTHERE is set to TRUE
*/
if ( bSTGM_CREATE && bSTGM_CONVERT )
return E_FAIL;
/*
* STGM_NOSCRATCH requires STGM_TRANSACTED
*/
if ( bSTGM_NOSCRATCH && ! bSTGM_TRANSACTED )
return E_FAIL;
/*
* STGM_NOSNAPSHOT requires STGM_TRANSACTED and
* not STGM_SHARE_EXCLUSIVE or STGM_SHARE_DENY_WRITE`
*/
if (bSTGM_NOSNAPSHOT)
{
if ( ! ( bSTGM_TRANSACTED &&
!(bSTGM_SHARE_EXCLUSIVE || bSTGM_SHARE_DENY_WRITE)) )
return E_FAIL;
}
return S_OK;
}
/****************************************************************************
* GetShareModeFromSTGM
*
* This method will return a share mode flag from a STGM value.
* The STGM value is assumed valid.
*/
static DWORD GetShareModeFromSTGM(DWORD stgm)
{
DWORD dwShareMode = 0;
BOOL bSTGM_SHARE_DENY_NONE =
((stgm & STGM_SHARE_DENY_NONE) == STGM_SHARE_DENY_NONE);
BOOL bSTGM_SHARE_DENY_READ =
((stgm & STGM_SHARE_DENY_READ) == STGM_SHARE_DENY_READ);
BOOL bSTGM_SHARE_DENY_WRITE =
((stgm & STGM_SHARE_DENY_WRITE) == STGM_SHARE_DENY_WRITE);
BOOL bSTGM_SHARE_EXCLUSIVE =
((stgm & STGM_SHARE_EXCLUSIVE) == STGM_SHARE_EXCLUSIVE);
if ((bSTGM_SHARE_EXCLUSIVE) || (bSTGM_SHARE_DENY_READ))
dwShareMode = 0;
if (bSTGM_SHARE_DENY_NONE)
dwShareMode = FILE_SHARE_READ | FILE_SHARE_WRITE;
if (bSTGM_SHARE_DENY_WRITE)
dwShareMode = FILE_SHARE_READ;
return dwShareMode;
}
/****************************************************************************
* GetAccessModeFromSTGM
*
* This method will return an access mode flag from a STGM value.
* The STGM value is assumed valid.
*/
static DWORD GetAccessModeFromSTGM(DWORD stgm)
{
DWORD dwDesiredAccess = GENERIC_READ;
BOOL bSTGM_WRITE = ((stgm & STGM_WRITE) == STGM_WRITE);
BOOL bSTGM_READWRITE = ((stgm & STGM_READWRITE) == STGM_READWRITE);
BOOL bSTGM_READ = ! (bSTGM_WRITE || bSTGM_READWRITE);
if (bSTGM_READ)
dwDesiredAccess = GENERIC_READ;
if (bSTGM_WRITE)
dwDesiredAccess |= GENERIC_WRITE;
if (bSTGM_READWRITE)
dwDesiredAccess = GENERIC_READ | GENERIC_WRITE;
return dwDesiredAccess;
}
/****************************************************************************
* GetCreationModeFromSTGM
*
* This method will return a creation mode flag from a STGM value.
* The STGM value is assumed valid.
*/
static DWORD GetCreationModeFromSTGM(DWORD stgm)
{
if ( stgm & STGM_CREATE)
return CREATE_ALWAYS;
if (stgm & STGM_CONVERT) {
FIXME("STGM_CONVERT not implemented!\n");
return CREATE_NEW;
}
/* All other cases */
if (stgm & ~ (STGM_CREATE|STGM_CONVERT))
FIXME("unhandled storage mode : 0x%08lx\n",stgm & ~ (STGM_CREATE|STGM_CONVERT));
return CREATE_NEW;
}
/*************************************************************************
* OLECONVERT_LoadOLE10 [Internal]
*
* Loads the OLE10 STREAM to memory
*
* PARAMS
* pOleStream [I] The OLESTREAM
* pData [I] Data Structure for the OLESTREAM Data
*
* RETURNS
* Success: S_OK
* Failure: CONVERT10_E_OLESTREAM_GET for invalid Get
* CONVERT10_E_OLESTREAM_FMT if the OLEID is invalide
*
* NOTES
* This function is used by OleConvertOLESTREAMToIStorage only.
*
* Memory allocated for pData must be freed by the caller
*/
HRESULT OLECONVERT_LoadOLE10(LPOLESTREAM pOleStream, OLECONVERT_OLESTREAM_DATA *pData, BOOL bStrem1)
{
DWORD dwSize;
HRESULT hRes = S_OK;
int nTryCnt=0;
int max_try = 6;
pData->pData = NULL;
pData->pstrOleObjFileName = (CHAR *) NULL;
for( nTryCnt=0;nTryCnt < max_try; nTryCnt++)
{
/* Get the OleID */
dwSize = pOleStream->lpstbl->Get(pOleStream, (void *)&(pData->dwOleID), sizeof(pData->dwOleID));
if(dwSize != sizeof(pData->dwOleID))
{
hRes = CONVERT10_E_OLESTREAM_GET;
}
else if(pData->dwOleID != OLESTREAM_ID)
{
hRes = CONVERT10_E_OLESTREAM_FMT;
}
else
{
hRes = S_OK;
break;
}
}
if(hRes == S_OK)
{
/* Get the TypeID...more info needed for this field */
dwSize = pOleStream->lpstbl->Get(pOleStream, (void *)&(pData->dwTypeID), sizeof(pData->dwTypeID));
if(dwSize != sizeof(pData->dwTypeID))
{
hRes = CONVERT10_E_OLESTREAM_GET;
}
}
if(hRes == S_OK)
{
if(pData->dwTypeID != 0)
{
/* Get the lenght of the OleTypeName */
dwSize = pOleStream->lpstbl->Get(pOleStream, (void *) &(pData->dwOleTypeNameLength), sizeof(pData->dwOleTypeNameLength));
if(dwSize != sizeof(pData->dwOleTypeNameLength))
{
hRes = CONVERT10_E_OLESTREAM_GET;
}
if(hRes == S_OK)
{
if(pData->dwOleTypeNameLength > 0)
{
/* Get the OleTypeName */
dwSize = pOleStream->lpstbl->Get(pOleStream, (void *)pData->strOleTypeName, pData->dwOleTypeNameLength);
if(dwSize != pData->dwOleTypeNameLength)
{
hRes = CONVERT10_E_OLESTREAM_GET;
}
}
}
if(bStrem1)
{
dwSize = pOleStream->lpstbl->Get(pOleStream, (void *)&(pData->dwOleObjFileNameLength), sizeof(pData->dwOleObjFileNameLength));
if(dwSize != sizeof(pData->dwOleObjFileNameLength))
{
hRes = CONVERT10_E_OLESTREAM_GET;
}
if(hRes == S_OK)
{
2000-03-24 21:42:08 +01:00
if(pData->dwOleObjFileNameLength < 1) /* there is no file name exist */
pData->dwOleObjFileNameLength = sizeof(pData->dwOleObjFileNameLength);
pData->pstrOleObjFileName = (CHAR *)malloc(pData->dwOleObjFileNameLength);
if(pData->pstrOleObjFileName)
{
dwSize = pOleStream->lpstbl->Get(pOleStream, (void *)(pData->pstrOleObjFileName),pData->dwOleObjFileNameLength);
if(dwSize != pData->dwOleObjFileNameLength)
{
hRes = CONVERT10_E_OLESTREAM_GET;
}
}
else
hRes = CONVERT10_E_OLESTREAM_GET;
}
}
else
{
/* Get the Width of the Metafile */
dwSize = pOleStream->lpstbl->Get(pOleStream, (void *)&(pData->dwMetaFileWidth), sizeof(pData->dwMetaFileWidth));
if(dwSize != sizeof(pData->dwMetaFileWidth))
{
hRes = CONVERT10_E_OLESTREAM_GET;
}
if(hRes == S_OK)
{
/* Get the Height of the Metafile */
dwSize = pOleStream->lpstbl->Get(pOleStream, (void *)&(pData->dwMetaFileHeight), sizeof(pData->dwMetaFileHeight));
if(dwSize != sizeof(pData->dwMetaFileHeight))
{
hRes = CONVERT10_E_OLESTREAM_GET;
}
}
}
if(hRes == S_OK)
{
/* Get the Lenght of the Data */
dwSize = pOleStream->lpstbl->Get(pOleStream, (void *)&(pData->dwDataLength), sizeof(pData->dwDataLength));
if(dwSize != sizeof(pData->dwDataLength))
{
hRes = CONVERT10_E_OLESTREAM_GET;
}
}
2000-03-24 21:42:08 +01:00
if(hRes == S_OK) /* I don't know what is this 8 byts information is we have to figure out */
{
2000-03-24 21:42:08 +01:00
if(!bStrem1) /* if it is a second OLE stream data */
{
pData->dwDataLength -= 8;
dwSize = pOleStream->lpstbl->Get(pOleStream, (void *)(pData->strUnknown), sizeof(pData->strUnknown));
if(dwSize != sizeof(pData->strUnknown))
{
hRes = CONVERT10_E_OLESTREAM_GET;
}
}
}
if(hRes == S_OK)
{
if(pData->dwDataLength > 0)
{
pData->pData = (BYTE *)HeapAlloc(GetProcessHeap(),0,pData->dwDataLength);
/* Get Data (ex. IStorage, Metafile, or BMP) */
if(pData->pData)
{
dwSize = pOleStream->lpstbl->Get(pOleStream, (void *)pData->pData, pData->dwDataLength);
if(dwSize != pData->dwDataLength)
{
hRes = CONVERT10_E_OLESTREAM_GET;
}
}
else
{
hRes = CONVERT10_E_OLESTREAM_GET;
}
}
}
}
}
return hRes;
}
/*************************************************************************
* OLECONVERT_SaveOLE10 [Internal]
*
* Saves the OLE10 STREAM From memory
*
* PARAMS
* pData [I] Data Structure for the OLESTREAM Data
* pOleStream [I] The OLESTREAM to save
*
* RETURNS
* Success: S_OK
* Failure: CONVERT10_E_OLESTREAM_PUT for invalid Put
*
* NOTES
* This function is used by OleConvertIStorageToOLESTREAM only.
*
*/
HRESULT OLECONVERT_SaveOLE10(OLECONVERT_OLESTREAM_DATA *pData, LPOLESTREAM pOleStream)
{
DWORD dwSize;
HRESULT hRes = S_OK;
/* Set the OleID */
dwSize = pOleStream->lpstbl->Put(pOleStream, (void *)&(pData->dwOleID), sizeof(pData->dwOleID));
if(dwSize != sizeof(pData->dwOleID))
{
hRes = CONVERT10_E_OLESTREAM_PUT;
}
if(hRes == S_OK)
{
/* Set the TypeID */
dwSize = pOleStream->lpstbl->Put(pOleStream, (void *)&(pData->dwTypeID), sizeof(pData->dwTypeID));
if(dwSize != sizeof(pData->dwTypeID))
{
hRes = CONVERT10_E_OLESTREAM_PUT;
}
}
if(pData->dwOleID == OLESTREAM_ID && pData->dwTypeID != 0 && hRes == S_OK)
{
/* Set the Lenght of the OleTypeName */
dwSize = pOleStream->lpstbl->Put(pOleStream, (void *)&(pData->dwOleTypeNameLength), sizeof(pData->dwOleTypeNameLength));
if(dwSize != sizeof(pData->dwOleTypeNameLength))
{
hRes = CONVERT10_E_OLESTREAM_PUT;
}
if(hRes == S_OK)
{
if(pData->dwOleTypeNameLength > 0)
{
/* Set the OleTypeName */
dwSize = pOleStream->lpstbl->Put(pOleStream, (void *) pData->strOleTypeName, pData->dwOleTypeNameLength);
if(dwSize != pData->dwOleTypeNameLength)
{
hRes = CONVERT10_E_OLESTREAM_PUT;
}
}
}
if(hRes == S_OK)
{
/* Set the width of the Metafile */
dwSize = pOleStream->lpstbl->Put(pOleStream, (void *)&(pData->dwMetaFileWidth), sizeof(pData->dwMetaFileWidth));
if(dwSize != sizeof(pData->dwMetaFileWidth))
{
hRes = CONVERT10_E_OLESTREAM_PUT;
}
}
if(hRes == S_OK)
{
/* Set the height of the Metafile */
dwSize = pOleStream->lpstbl->Put(pOleStream, (void *)&(pData->dwMetaFileHeight), sizeof(pData->dwMetaFileHeight));
if(dwSize != sizeof(pData->dwMetaFileHeight))
{
hRes = CONVERT10_E_OLESTREAM_PUT;
}
}
if(hRes == S_OK)
{
/* Set the lenght of the Data */
dwSize = pOleStream->lpstbl->Put(pOleStream, (void *)&(pData->dwDataLength), sizeof(pData->dwDataLength));
if(dwSize != sizeof(pData->dwDataLength))
{
hRes = CONVERT10_E_OLESTREAM_PUT;
}
}
if(hRes == S_OK)
{
if(pData->dwDataLength > 0)
{
/* Set the Data (eg. IStorage, Metafile, Bitmap) */
dwSize = pOleStream->lpstbl->Put(pOleStream, (void *) pData->pData, pData->dwDataLength);
if(dwSize != pData->dwDataLength)
{
hRes = CONVERT10_E_OLESTREAM_PUT;
}
}
}
}
return hRes;
}
/*************************************************************************
* OLECONVERT_GetOLE20FromOLE10[Internal]
*
* This function copies OLE10 Data (the IStorage in the OLESTREAM) to disk,
* opens it, and copies the content to the dest IStorage for
* OleConvertOLESTREAMToIStorage
*
*
* PARAMS
* pDestStorage [I] The IStorage to copy the data to
* pBuffer [I] Buffer that contains the IStorage from the OLESTREAM
* nBufferLength [I] The size of the buffer
*
* RETURNS
* Nothing
*
* NOTES
*
*
*/
void OLECONVERT_GetOLE20FromOLE10(LPSTORAGE pDestStorage, BYTE *pBuffer, DWORD nBufferLength)
{
HRESULT hRes;
HANDLE hFile;
IStorage *pTempStorage;
DWORD dwNumOfBytesWritten;
WCHAR wstrTempDir[MAX_PATH], wstrTempFile[MAX_PATH];
WCHAR wstrPrefix[] = {'s', 'i', 's', 0};
/* Create a temp File */
GetTempPathW(MAX_PATH, wstrTempDir);
GetTempFileNameW(wstrTempDir, wstrPrefix, 0, wstrTempFile);
2000-03-08 19:25:22 +01:00
hFile = CreateFileW(wstrTempFile, GENERIC_WRITE, 0, NULL, CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, 0);
if(hFile != INVALID_HANDLE_VALUE)
{
/* Write IStorage Data to File */
WriteFile(hFile, pBuffer, nBufferLength, &dwNumOfBytesWritten, NULL);
CloseHandle(hFile);
/* Open and copy temp storage to the Dest Storage */
hRes = StgOpenStorage(wstrTempFile, NULL, STGM_READ, NULL, 0, &pTempStorage);
if(hRes == S_OK)
{
2000-03-08 19:25:22 +01:00
hRes = StorageImpl_CopyTo(pTempStorage, 0, NULL, NULL, pDestStorage);
StorageBaseImpl_Release(pTempStorage);
}
DeleteFileW(wstrTempFile);
}
}
/*************************************************************************
* OLECONVERT_WriteOLE20ToBuffer [Internal]
*
* Saves the OLE10 STREAM From memory
*
* PARAMS
* pStorage [I] The Src IStorage to copy
* pData [I] The Dest Memory to write to.
*
* RETURNS
* The size in bytes allocated for pData
*
* NOTES
* Memory allocated for pData must be freed by the caller
*
* Used by OleConvertIStorageToOLESTREAM only.
*
*/
DWORD OLECONVERT_WriteOLE20ToBuffer(LPSTORAGE pStorage, BYTE **pData)
{
HANDLE hFile;
HRESULT hRes;
DWORD nDataLength = 0;
IStorage *pTempStorage;
WCHAR wstrTempDir[MAX_PATH], wstrTempFile[MAX_PATH];
WCHAR wstrPrefix[] = {'s', 'i', 's', 0};
*pData = NULL;
/* Create temp Storage */
GetTempPathW(MAX_PATH, wstrTempDir);
GetTempFileNameW(wstrTempDir, wstrPrefix, 0, wstrTempFile);
2000-03-08 19:25:22 +01:00
hRes = StgCreateDocfile(wstrTempFile, STGM_CREATE | STGM_READWRITE | STGM_SHARE_EXCLUSIVE, 0, &pTempStorage);
if(hRes == S_OK)
{
/* Copy Src Storage to the Temp Storage */
2000-03-08 19:25:22 +01:00
StorageImpl_CopyTo(pStorage, 0, NULL, NULL, pTempStorage);
StorageBaseImpl_Release(pTempStorage);
/* Open Temp Storage as a file and copy to memory */
2000-03-08 19:25:22 +01:00
hFile = CreateFileW(wstrTempFile, GENERIC_READ, 0, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, 0);
if(hFile != INVALID_HANDLE_VALUE)
{
nDataLength = GetFileSize(hFile, NULL);
*pData = (BYTE *) HeapAlloc(GetProcessHeap(),0,nDataLength);
ReadFile(hFile, *pData, nDataLength, &nDataLength, 0);
CloseHandle(hFile);
}
DeleteFileW(wstrTempFile);
}
return nDataLength;
}
/*************************************************************************
* OLECONVERT_CreateOleStream [Internal]
*
* Creates the "\001OLE" stream in the IStorage if neccessary.
*
* PARAMS
* pStorage [I] Dest storage to create the stream in
*
* RETURNS
* Nothing
*
* NOTES
* This function is used by OleConvertOLESTREAMToIStorage only.
*
* This stream is still unknown, MS Word seems to have extra data
* but since the data is stored in the OLESTREAM there should be
* no need to recreate the stream. If the stream is manually
* deleted it will create it with this default data.
*
*/
void OLECONVERT_CreateOleStream(LPSTORAGE pStorage)
{
HRESULT hRes;
IStream *pStream;
WCHAR wstrStreamName[] = {1,'O', 'l', 'e', 0};
BYTE pOleStreamHeader [] =
{
0x01, 0x00, 0x00, 0x02, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00
};
/* Create stream if not present */
hRes = IStorage_CreateStream(pStorage, wstrStreamName,
STGM_WRITE | STGM_SHARE_EXCLUSIVE, 0, 0, &pStream );
if(hRes == S_OK)
{
/* Write default Data */
hRes = IStream_Write(pStream, pOleStreamHeader, sizeof(pOleStreamHeader), NULL);
IStream_Release(pStream);
}
}
/*************************************************************************
* OLECONVERT_CreateCompObjStream [Internal]
*
* Creates a "\001CompObj" is the destination IStorage if necessary.
*
* PARAMS
* pStorage [I] The dest IStorage to create the CompObj Stream
* if necessary.
* strOleTypeName [I] The ProgID
*
* RETURNS
* Success: S_OK
* Failure: REGDB_E_CLASSNOTREG if cannot reconstruct the stream
*
* NOTES
* This function is used by OleConvertOLESTREAMToIStorage only.
*
* The stream data is stored in the OLESTREAM and there should be
* no need to recreate the stream. If the stream is manually
* deleted it will attempt to create it by querying the registry.
*
*
*/
HRESULT OLECONVERT_CreateCompObjStream(LPSTORAGE pStorage, LPCSTR strOleTypeName)
{
IStream *pStream;
HRESULT hStorageRes, hRes = S_OK;
OLECONVERT_ISTORAGE_COMPOBJ IStorageCompObj;
WCHAR wstrStreamName[] = {1,'C', 'o', 'm', 'p', 'O', 'b', 'j', 0};
BYTE pCompObjUnknown1[] = {0x01, 0x00, 0xFE, 0xFF, 0x03, 0x0A, 0x00, 0x00, 0xFF, 0xFF, 0xFF, 0xFF};
BYTE pCompObjUnknown2[] = {0xF4, 0x39, 0xB2, 0x71};
/* Initialize the CompObj structure */
memset(&IStorageCompObj, 0, sizeof(IStorageCompObj));
memcpy(&(IStorageCompObj.byUnknown1), pCompObjUnknown1, sizeof(pCompObjUnknown1));
memcpy(&(IStorageCompObj.byUnknown2), pCompObjUnknown2, sizeof(pCompObjUnknown2));
/* Create a CompObj stream if it doesn't exist */
hStorageRes = IStorage_CreateStream(pStorage, wstrStreamName,
STGM_WRITE | STGM_SHARE_EXCLUSIVE, 0, 0, &pStream );
if(hStorageRes == S_OK)
{
/* copy the OleTypeName to the compobj struct */
IStorageCompObj.dwOleTypeNameLength = strlen(strOleTypeName)+1;
strcpy(IStorageCompObj.strOleTypeName, strOleTypeName);
/* copy the OleTypeName to the compobj struct */
2001-02-28 06:31:02 +01:00
/* Note: in the test made, these were Identical */
IStorageCompObj.dwProgIDNameLength = strlen(strOleTypeName)+1;
strcpy(IStorageCompObj.strProgIDName, strOleTypeName);
/* Get the CLSID */
hRes = CLSIDFromProgID16(IStorageCompObj.strProgIDName, &(IStorageCompObj.clsid));
if(hRes == S_OK)
{
HKEY hKey;
LONG hErr;
/* Get the CLSID Default Name from the Registry */
hErr = RegOpenKeyA(HKEY_CLASSES_ROOT, IStorageCompObj.strProgIDName, &hKey);
if(hErr == ERROR_SUCCESS)
{
char strTemp[OLESTREAM_MAX_STR_LEN];
IStorageCompObj.dwCLSIDNameLength = OLESTREAM_MAX_STR_LEN;
hErr = RegQueryValueA(hKey, NULL, strTemp, &(IStorageCompObj.dwCLSIDNameLength));
if(hErr == ERROR_SUCCESS)
{
strcpy(IStorageCompObj.strCLSIDName, strTemp);
}
RegCloseKey(hKey);
}
}
/* Write CompObj Structure to stream */
hRes = IStream_Write(pStream, IStorageCompObj.byUnknown1, sizeof(IStorageCompObj.byUnknown1), NULL);
WriteClassStm(pStream,&(IStorageCompObj.clsid));
hRes = IStream_Write(pStream, &(IStorageCompObj.dwCLSIDNameLength), sizeof(IStorageCompObj.dwCLSIDNameLength), NULL);
if(IStorageCompObj.dwCLSIDNameLength > 0)
{
hRes = IStream_Write(pStream, IStorageCompObj.strCLSIDName, IStorageCompObj.dwCLSIDNameLength, NULL);
}
hRes = IStream_Write(pStream, &(IStorageCompObj.dwOleTypeNameLength) , sizeof(IStorageCompObj.dwOleTypeNameLength), NULL);
if(IStorageCompObj.dwOleTypeNameLength > 0)
{
hRes = IStream_Write(pStream, IStorageCompObj.strOleTypeName , IStorageCompObj.dwOleTypeNameLength, NULL);
}
hRes = IStream_Write(pStream, &(IStorageCompObj.dwProgIDNameLength) , sizeof(IStorageCompObj.dwProgIDNameLength), NULL);
if(IStorageCompObj.dwProgIDNameLength > 0)
{
hRes = IStream_Write(pStream, IStorageCompObj.strProgIDName , IStorageCompObj.dwProgIDNameLength, NULL);
}
hRes = IStream_Write(pStream, IStorageCompObj.byUnknown2 , sizeof(IStorageCompObj.byUnknown2), NULL);
IStream_Release(pStream);
}
return hRes;
}
/*************************************************************************
* OLECONVERT_CreateOlePresStream[Internal]
*
* Creates the "\002OlePres000" Stream with the Metafile data
*
* PARAMS
* pStorage [I] The dest IStorage to create \002OLEPres000 stream in.
* dwExtentX [I] Width of the Metafile
* dwExtentY [I] Height of the Metafile
* pData [I] Metafile data
* dwDataLength [I] Size of the Metafile data
*
* RETURNS
* Success: S_OK
* Failure: CONVERT10_E_OLESTREAM_PUT for invalid Put
*
* NOTES
* This function is used by OleConvertOLESTREAMToIStorage only.
*
*/
void OLECONVERT_CreateOlePresStream(LPSTORAGE pStorage, DWORD dwExtentX, DWORD dwExtentY , BYTE *pData, DWORD dwDataLength)
{
HRESULT hRes;
IStream *pStream;
WCHAR wstrStreamName[] = {2, 'O', 'l', 'e', 'P', 'r', 'e', 's', '0', '0', '0', 0};
BYTE pOlePresStreamHeader [] =
{
0xFF, 0xFF, 0xFF, 0xFF, 0x03, 0x00, 0x00, 0x00,
0x04, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00,
0xFF, 0xFF, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00
};
BYTE pOlePresStreamHeaderEmpty [] =
{
0x00, 0x00, 0x00, 0x00,
0x04, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00,
0xFF, 0xFF, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00
};
/* Create the OlePres000 Stream */
hRes = IStorage_CreateStream(pStorage, wstrStreamName,
STGM_CREATE | STGM_WRITE | STGM_SHARE_EXCLUSIVE, 0, 0, &pStream );
if(hRes == S_OK)
{
DWORD nHeaderSize;
OLECONVERT_ISTORAGE_OLEPRES OlePres;
memset(&OlePres, 0, sizeof(OlePres));
/* Do we have any metafile data to save */
if(dwDataLength > 0)
{
memcpy(OlePres.byUnknown1, pOlePresStreamHeader, sizeof(pOlePresStreamHeader));
nHeaderSize = sizeof(pOlePresStreamHeader);
}
else
{
memcpy(OlePres.byUnknown1, pOlePresStreamHeaderEmpty, sizeof(pOlePresStreamHeaderEmpty));
nHeaderSize = sizeof(pOlePresStreamHeaderEmpty);
}
/* Set width and height of the metafile */
OlePres.dwExtentX = dwExtentX;
OlePres.dwExtentY = -dwExtentY;
/* Set Data and Lenght */
if(dwDataLength > sizeof(METAFILEPICT16))
{
OlePres.dwSize = dwDataLength - sizeof(METAFILEPICT16);
OlePres.pData = &(pData[8]);
}
/* Save OlePres000 Data to Stream */
hRes = IStream_Write(pStream, OlePres.byUnknown1, nHeaderSize, NULL);
hRes = IStream_Write(pStream, &(OlePres.dwExtentX), sizeof(OlePres.dwExtentX), NULL);
hRes = IStream_Write(pStream, &(OlePres.dwExtentY), sizeof(OlePres.dwExtentY), NULL);
hRes = IStream_Write(pStream, &(OlePres.dwSize), sizeof(OlePres.dwSize), NULL);
if(OlePres.dwSize > 0)
{
hRes = IStream_Write(pStream, OlePres.pData, OlePres.dwSize, NULL);
}
IStream_Release(pStream);
}
}
/*************************************************************************
* OLECONVERT_CreateOle10NativeStream [Internal]
*
* Creates the "\001Ole10Native" Stream (should contain a BMP)
*
* PARAMS
* pStorage [I] Dest storage to create the stream in
* pData [I] Ole10 Native Data (ex. bmp)
* dwDataLength [I] Size of the Ole10 Native Data
*
* RETURNS
* Nothing
*
* NOTES
* This function is used by OleConvertOLESTREAMToIStorage only.
*
* Might need to verify the data and return appropriate error message
*
*/
void OLECONVERT_CreateOle10NativeStream(LPSTORAGE pStorage, BYTE *pData, DWORD dwDataLength)
{
HRESULT hRes;
IStream *pStream;
WCHAR wstrStreamName[] = {1, 'O', 'l', 'e', '1', '0', 'N', 'a', 't', 'i', 'v', 'e', 0};
/* Create the Ole10Native Stream */
hRes = IStorage_CreateStream(pStorage, wstrStreamName,
STGM_CREATE | STGM_WRITE | STGM_SHARE_EXCLUSIVE, 0, 0, &pStream );
if(hRes == S_OK)
{
/* Write info to stream */
hRes = IStream_Write(pStream, &dwDataLength, sizeof(dwDataLength), NULL);
hRes = IStream_Write(pStream, pData, dwDataLength, NULL);
IStream_Release(pStream);
}
}
/*************************************************************************
* OLECONVERT_GetOLE10ProgID [Internal]
*
* Finds the ProgID (or OleTypeID) from the IStorage
*
* PARAMS
* pStorage [I] The Src IStorage to get the ProgID
* strProgID [I] the ProgID string to get
* dwSize [I] the size of the string
*
* RETURNS
* Success: S_OK
* Failure: REGDB_E_CLASSNOTREG if cannot reconstruct the stream
*
* NOTES
* This function is used by OleConvertIStorageToOLESTREAM only.
*
*
*/
HRESULT OLECONVERT_GetOLE10ProgID(LPSTORAGE pStorage, char *strProgID, DWORD *dwSize)
{
HRESULT hRes;
IStream *pStream;
LARGE_INTEGER iSeekPos;
OLECONVERT_ISTORAGE_COMPOBJ CompObj;
WCHAR wstrStreamName[] = {1,'C', 'o', 'm', 'p', 'O', 'b', 'j', 0};
/* Open the CompObj Stream */
hRes = IStorage_OpenStream(pStorage, wstrStreamName, NULL,
STGM_READ | STGM_SHARE_EXCLUSIVE, 0, &pStream );
if(hRes == S_OK)
{
/*Get the OleType from the CompObj Stream */
iSeekPos.s.LowPart = sizeof(CompObj.byUnknown1) + sizeof(CompObj.clsid);
iSeekPos.s.HighPart = 0;
IStream_Seek(pStream, iSeekPos, STREAM_SEEK_SET, NULL);
IStream_Read(pStream, &CompObj.dwCLSIDNameLength, sizeof(CompObj.dwCLSIDNameLength), NULL);
iSeekPos.s.LowPart = CompObj.dwCLSIDNameLength;
IStream_Seek(pStream, iSeekPos, STREAM_SEEK_CUR , NULL);
IStream_Read(pStream, &CompObj.dwOleTypeNameLength, sizeof(CompObj.dwOleTypeNameLength), NULL);
iSeekPos.s.LowPart = CompObj.dwOleTypeNameLength;
IStream_Seek(pStream, iSeekPos, STREAM_SEEK_CUR , NULL);
IStream_Read(pStream, dwSize, sizeof(*dwSize), NULL);
if(*dwSize > 0)
{
IStream_Read(pStream, strProgID, *dwSize, NULL);
}
IStream_Release(pStream);
}
else
{
STATSTG stat;
LPOLESTR wstrProgID;
/* Get the OleType from the registry */
REFCLSID clsid = &(stat.clsid);
IStorage_Stat(pStorage, &stat, STATFLAG_NONAME);
hRes = ProgIDFromCLSID(clsid, &wstrProgID);
if(hRes == S_OK)
{
*dwSize = WideCharToMultiByte(CP_ACP, 0, wstrProgID, -1, strProgID, *dwSize, NULL, FALSE);
}
}
return hRes;
}
/*************************************************************************
* OLECONVERT_GetOle10PresData [Internal]
*
* Converts IStorage "/001Ole10Native" stream to a OLE10 Stream
*
* PARAMS
* pStorage [I] Src IStroage
* pOleStream [I] Dest OleStream Mem Struct
*
* RETURNS
* Nothing
*
* NOTES
* This function is used by OleConvertIStorageToOLESTREAM only.
*
* Memory allocated for pData must be freed by the caller
*
*
*/
void OLECONVERT_GetOle10PresData(LPSTORAGE pStorage, OLECONVERT_OLESTREAM_DATA *pOleStreamData)
{
HRESULT hRes;
IStream *pStream;
WCHAR wstrStreamName[] = {1, 'O', 'l', 'e', '1', '0', 'N', 'a', 't', 'i', 'v', 'e', 0};
/* Initialize Default data for OLESTREAM */
pOleStreamData[0].dwOleID = OLESTREAM_ID;
pOleStreamData[0].dwTypeID = 2;
pOleStreamData[1].dwOleID = OLESTREAM_ID;
pOleStreamData[1].dwTypeID = 0;
pOleStreamData[0].dwMetaFileWidth = 0;
pOleStreamData[0].dwMetaFileHeight = 0;
pOleStreamData[0].pData = NULL;
pOleStreamData[1].pData = NULL;
/* Open Ole10Native Stream */
hRes = IStorage_OpenStream(pStorage, wstrStreamName, NULL,
STGM_READ | STGM_SHARE_EXCLUSIVE, 0, &pStream );
if(hRes == S_OK)
{
/* Read Size and Data */
IStream_Read(pStream, &(pOleStreamData->dwDataLength), sizeof(pOleStreamData->dwDataLength), NULL);
if(pOleStreamData->dwDataLength > 0)
{
pOleStreamData->pData = (LPSTR) HeapAlloc(GetProcessHeap(),0,pOleStreamData->dwDataLength);
IStream_Read(pStream, pOleStreamData->pData, pOleStreamData->dwDataLength, NULL);
}
IStream_Release(pStream);
}
}
/*************************************************************************
* OLECONVERT_GetOle20PresData[Internal]
*
* Converts IStorage "/002OlePres000" stream to a OLE10 Stream
*
* PARAMS
* pStorage [I] Src IStroage
* pOleStreamData [I] Dest OleStream Mem Struct
*
* RETURNS
* Nothing
*
* NOTES
* This function is used by OleConvertIStorageToOLESTREAM only.
*
* Memory allocated for pData must be freed by the caller
*/
void OLECONVERT_GetOle20PresData(LPSTORAGE pStorage, OLECONVERT_OLESTREAM_DATA *pOleStreamData)
{
HRESULT hRes;
IStream *pStream;
OLECONVERT_ISTORAGE_OLEPRES olePress;
WCHAR wstrStreamName[] = {2, 'O', 'l', 'e', 'P', 'r', 'e', 's', '0', '0', '0', 0};
/* Initialize Default data for OLESTREAM */
pOleStreamData[0].dwOleID = OLESTREAM_ID;
pOleStreamData[0].dwTypeID = 2;
pOleStreamData[0].dwMetaFileWidth = 0;
pOleStreamData[0].dwMetaFileHeight = 0;
pOleStreamData[0].dwDataLength = OLECONVERT_WriteOLE20ToBuffer(pStorage, &(pOleStreamData[0].pData));
pOleStreamData[1].dwOleID = OLESTREAM_ID;
pOleStreamData[1].dwTypeID = 0;
pOleStreamData[1].dwOleTypeNameLength = 0;
pOleStreamData[1].strOleTypeName[0] = 0;
pOleStreamData[1].dwMetaFileWidth = 0;
pOleStreamData[1].dwMetaFileHeight = 0;
pOleStreamData[1].pData = NULL;
pOleStreamData[1].dwDataLength = 0;
/* Open OlePress000 stream */
hRes = IStorage_OpenStream(pStorage, wstrStreamName, NULL,
STGM_READ | STGM_SHARE_EXCLUSIVE, 0, &pStream );
if(hRes == S_OK)
{
LARGE_INTEGER iSeekPos;
METAFILEPICT16 MetaFilePict;
char strMetafilePictName[] = "METAFILEPICT";
/* Set the TypeID for a Metafile */
pOleStreamData[1].dwTypeID = 5;
/* Set the OleTypeName to Metafile */
pOleStreamData[1].dwOleTypeNameLength = strlen(strMetafilePictName) +1;
strcpy(pOleStreamData[1].strOleTypeName, strMetafilePictName);
iSeekPos.s.HighPart = 0;
iSeekPos.s.LowPart = sizeof(olePress.byUnknown1);
/* Get Presentation Data */
IStream_Seek(pStream, iSeekPos, STREAM_SEEK_SET, NULL);
IStream_Read(pStream, &(olePress.dwExtentX), sizeof(olePress.dwExtentX), NULL);
IStream_Read(pStream, &(olePress.dwExtentY), sizeof(olePress.dwExtentY), NULL);
IStream_Read(pStream, &(olePress.dwSize), sizeof(olePress.dwSize), NULL);
/*Set width and Height */
pOleStreamData[1].dwMetaFileWidth = olePress.dwExtentX;
pOleStreamData[1].dwMetaFileHeight = -olePress.dwExtentY;
if(olePress.dwSize > 0)
{
/* Set Length */
pOleStreamData[1].dwDataLength = olePress.dwSize + sizeof(METAFILEPICT16);
/* Set MetaFilePict struct */
MetaFilePict.mm = 8;
MetaFilePict.xExt = olePress.dwExtentX;
MetaFilePict.yExt = olePress.dwExtentY;
MetaFilePict.hMF = 0;
/* Get Metafile Data */
pOleStreamData[1].pData = (BYTE *) HeapAlloc(GetProcessHeap(),0,pOleStreamData[1].dwDataLength);
memcpy(pOleStreamData[1].pData, &MetaFilePict, sizeof(MetaFilePict));
IStream_Read(pStream, &(pOleStreamData[1].pData[sizeof(MetaFilePict)]), pOleStreamData[1].dwDataLength-sizeof(METAFILEPICT16), NULL);
}
IStream_Release(pStream);
}
}
/*************************************************************************
* OleConvertOLESTREAMToIStorage [OLE32.87]
*
* Read info on MSDN
*
* TODO
* DVTARGETDEVICE paramenter is not handled
* Still unsure of some mem fields for OLE 10 Stream
* Still some unknowns for the IStorage: "\002OlePres000", "\001CompObj",
* and "\001OLE" streams
*
*/
HRESULT WINAPI OleConvertOLESTREAMToIStorage (
LPOLESTREAM pOleStream,
LPSTORAGE pstg,
const DVTARGETDEVICE* ptd)
{
int i;
HRESULT hRes=S_OK;
OLECONVERT_OLESTREAM_DATA pOleStreamData[2];
memset(pOleStreamData, 0, sizeof(pOleStreamData));
if(ptd != NULL)
{
FIXME("DVTARGETDEVICE is not NULL, unhandled parameter\n");
}
if(pstg == NULL || pOleStream == NULL)
{
hRes = E_INVALIDARG;
}
if(hRes == S_OK)
{
/* Load the OLESTREAM to Memory */
hRes = OLECONVERT_LoadOLE10(pOleStream, &pOleStreamData[0], TRUE);
}
if(hRes == S_OK)
{
/* Load the OLESTREAM to Memory (part 2)*/
hRes = OLECONVERT_LoadOLE10(pOleStream, &pOleStreamData[1], FALSE);
}
if(hRes == S_OK)
{
if(pOleStreamData[0].dwDataLength > sizeof(STORAGE_magic))
{
/* Do we have the IStorage Data in the OLESTREAM */
if(memcmp(pOleStreamData[0].pData, STORAGE_magic, sizeof(STORAGE_magic)) ==0)
{
OLECONVERT_GetOLE20FromOLE10(pstg, pOleStreamData[0].pData, pOleStreamData[0].dwDataLength);
OLECONVERT_CreateOlePresStream(pstg, pOleStreamData[1].dwMetaFileWidth, pOleStreamData[1].dwMetaFileHeight, pOleStreamData[1].pData, pOleStreamData[1].dwDataLength);
}
else
{
/* It must be an original OLE 1.0 source */
OLECONVERT_CreateOle10NativeStream(pstg, pOleStreamData[0].pData, pOleStreamData[0].dwDataLength);
}
}
else
{
/* It must be an original OLE 1.0 source */
OLECONVERT_CreateOle10NativeStream(pstg, pOleStreamData[0].pData, pOleStreamData[0].dwDataLength);
}
/* Create CompObj Stream if necessary */
hRes = OLECONVERT_CreateCompObjStream(pstg, pOleStreamData[0].strOleTypeName);
if(hRes == S_OK)
{
/*Create the Ole Stream if necessary */
OLECONVERT_CreateOleStream(pstg);
}
}
/* Free allocated memory */
for(i=0; i < 2; i++)
{
if(pOleStreamData[i].pData != NULL)
{
HeapFree(GetProcessHeap(),0,pOleStreamData[i].pData);
}
if(pOleStreamData[i].pstrOleObjFileName != NULL)
{
HeapFree(GetProcessHeap(),0,pOleStreamData[i].pstrOleObjFileName);
pOleStreamData[i].pstrOleObjFileName = NULL;
}
}
return hRes;
}
/*************************************************************************
* OleConvertIStorageToOLESTREAM [OLE32.85]
*
* Read info on MSDN
*
* Read info on MSDN
*
* TODO
* Still unsure of some mem fields for OLE 10 Stream
* Still some unknowns for the IStorage: "\002OlePres000", "\001CompObj",
* and "\001OLE" streams.
*
*/
HRESULT WINAPI OleConvertIStorageToOLESTREAM (
LPSTORAGE pstg,
LPOLESTREAM pOleStream)
{
int i;
HRESULT hRes = S_OK;
IStream *pStream;
OLECONVERT_OLESTREAM_DATA pOleStreamData[2];
WCHAR wstrStreamName[] = {1, 'O', 'l', 'e', '1', '0', 'N', 'a', 't', 'i', 'v', 'e', 0};
memset(pOleStreamData, 0, sizeof(pOleStreamData));
if(pstg == NULL || pOleStream == NULL)
{
hRes = E_INVALIDARG;
}
if(hRes == S_OK)
{
/* Get the ProgID */
pOleStreamData[0].dwOleTypeNameLength = OLESTREAM_MAX_STR_LEN;
hRes = OLECONVERT_GetOLE10ProgID(pstg, pOleStreamData[0].strOleTypeName, &(pOleStreamData[0].dwOleTypeNameLength));
}
if(hRes == S_OK)
{
/*Was it originaly Ole10 */
hRes = IStorage_OpenStream(pstg, wstrStreamName, 0, STGM_READ | STGM_SHARE_EXCLUSIVE, 0, &pStream);
if(hRes == S_OK)
{
IStream_Release(pStream);
/*Get Presentation Data for Ole10Native */
OLECONVERT_GetOle10PresData(pstg, pOleStreamData);
}
else
{
/*Get Presentation Data (OLE20)*/
OLECONVERT_GetOle20PresData(pstg, pOleStreamData);
}
/* Save OLESTREAM */
hRes = OLECONVERT_SaveOLE10(&(pOleStreamData[0]), pOleStream);
if(hRes == S_OK)
{
hRes = OLECONVERT_SaveOLE10(&(pOleStreamData[1]), pOleStream);
}
}
/* Free allocated memory */
for(i=0; i < 2; i++)
{
if(pOleStreamData[i].pData != NULL)
{
HeapFree(GetProcessHeap(),0,pOleStreamData[i].pData);
}
}
return hRes;
}
2001-04-09 20:33:03 +02:00
/***********************************************************************
* GetConvertStg (OLE32.68)
*/
2001-04-09 20:33:03 +02:00
HRESULT WINAPI GetConvertStg(LPGUID guid) {
FIXME("(%s), unimplemented stub!\n",debugstr_guid(guid));
return E_FAIL;
}