windows-nt/Source/XPSP1/NT/com/ole32/common/olescm.cxx
2020-09-26 16:20:57 +08:00

411 lines
13 KiB
C++

//+---------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1992 - 1993.
//
// File: olescm.cxx
//
// Contents: Functions shared between OLE32 and the SCM
//
// Classes:
//
// Functions:
//
// History: 10-03-95 kevinro Created
//
//----------------------------------------------------------------------------
#include <windows.h>
#include <ole2sp.h>
#include <ole2com.h>
static const WCHAR wszOle32Dll[] = L"OLE32.DLL";
#define OLE32_DLL wszOle32Dll
#define OLE32_BYTE_LEN sizeof(OLE32_DLL)
#define OLE32_CHAR_LEN (sizeof(OLE32_DLL) / sizeof(WCHAR) - 1)
//
// Threading Model Registry Constants
//
const WCHAR wszDllThreadModel[] = L"ThreadingModel";
const WCHAR wszAptModel[] = L"Apartment";
const WCHAR wszBothModel[] = L"Both";
const WCHAR wszFreeModel[] = L"Free";
const WCHAR wszNeutralModel[] = L"Neutral";
// Thread model match table. The table's first index is the threading
// model of the process and can be either APT_THREADED or
// FREE_THREADED. The second index is any one of the types of threading
// model's for DLLs.
BOOL afThreadModelMatch[2][4] =
{{TRUE, FALSE, TRUE, TRUE},
{FALSE, TRUE, FALSE, TRUE}};
//+---------------------------------------------------------------------------
//
// Function: CompareDllName
//
// Synopsis: Give a DLL path, this sees if the path is equal to a given
// DLL name or the last component of the is the same as the
// DLL name.
//
// Arguments: [pwszPath] -- DLL path
// [pwszDllName] -- name of DLL to compare with
//
// Returns: TRUE - The input path is equal or its last component is equal
// to the input Dll name.
// FALSE - Not equal at all.
//
// History: 6-15-95 ricksa Created
//
// Notes: This is a helper function used by the routines that convert
// ole2.dll to ole32.dll and to convert paths that end in ole32.dll
// into ole32.dll.
//
//----------------------------------------------------------------------------
BOOL
wCompareDllName(LPCWSTR pwszPath, LPCWSTR pwszDllName, DWORD dwDllNameLen)
{
BOOL fResult = TRUE;
if (lstrcmpiW(pwszDllName, pwszPath) != 0)
{
// Check if the last component is the same path
DWORD dwPathLen = lstrlenW(pwszPath);
if (dwPathLen > dwDllNameLen)
{
// Point to the last where the slash would be if the substitute
// path is the last component
LPCWSTR pwszLastComponent = pwszPath + dwPathLen - (dwDllNameLen + 1);
// Is there a slash in that position
if ((*pwszLastComponent == '\\') || (*pwszLastComponent == '/'))
{
// Point to where the last component should be
pwszLastComponent++;
// Does the last component match?
if (lstrcmpiW(pwszLastComponent, pwszDllName) == 0)
{
goto CompareDllName_Exit;
}
}
}
fResult = FALSE;
}
CompareDllName_Exit:
return fResult;
}
//+-------------------------------------------------------------------------
//
// Function: wThreadModelMatch
//
// Synopsis: Determines whether caller and DLL thread models match
//
// Arguments: [dwCallerThreadModel] - Caller thread model
// [dwDllThreadModel] - DLL thread model
//
// Returns: TRUE - DLL can be loaded caller
// FALSE - DLL cannot be loaded into caller.
//
// Algorithm: If the caller's thread model is apartment, then check
// whether the DLL is one of apartment, single threaded or
// both threaded. If it is, then return TRUE. Otherwise,
// for free threading return TRUE if the DLL model is either
// both or free threaded. If neither of the above is TRUE
// then return FALSE.
//
// History: 10-Nov-94 Ricksa Created
//
//--------------------------------------------------------------------------
BOOL wThreadModelMatch(
DWORD dwCallerThreadModel,
DWORD dwDllThreadModel,
DWORD dwContext)
{
BOOL fResult = afThreadModelMatch[dwCallerThreadModel] [dwDllThreadModel];
if (dwContext & CLSCTX_PS_DLL)
{
fResult = TRUE;
}
return fResult;
}
//+-------------------------------------------------------------------------
//
// Function: wQueryStripRegValue
//
// Synopsis: Get the DLL information for a 32 bit DLL and
// strip off any leading and trailing "
//
// Arguments: [hkey] - class handle
// [pwszSubKey] - key to open
// [pwszValue] - where to return data
// [pcbValue] - length of above buffer in bytes
//
// Returns: ERROR_SUCCESS - read DLL path information
// Other - registry entries could not be found
//
// Algorithm: Read the value requested.
// If first character is not ", exit
// Otherwise, copy data after quote to beginning of buffer.
//
//
// History: 05-Jan-94 BillMo Created
// 26-Sep-95 BruceMa Support environment variable expansion
// for shell viewers
//
//--------------------------------------------------------------------------
LONG
wQueryStripRegValue(HKEY hKey, // handle of key to query
LPCWSTR pwszSubKey, // address of name of subkey to query
LPWSTR pwszValue, // address of buffer for returned string
PLONG pcbValue) // address of buffer for size of returned string
{
HKEY hSubKey;
DWORD dwType;
LONG lErr ;
Win4Assert(pwszValue != NULL);
Win4Assert(pcbValue != NULL);
//
// Open the subkey if there is a string
//
if (pwszSubKey != NULL)
{
lErr = RegOpenKeyExW(hKey, pwszSubKey, NULL, KEY_READ, &hSubKey);
}
else
{
hSubKey = hKey;
lErr = ERROR_SUCCESS;
}
// Read the value into the user's buffer
if (lErr == ERROR_SUCCESS)
{
lErr = RegQueryValueExW(hSubKey, NULL , NULL, &dwType,
(BYTE *) pwszValue, (ULONG *) pcbValue);
if (lErr == ERROR_SUCCESS)
{
WCHAR *pwszScan = pwszValue; // used to scan along string
WCHAR *pwszDest = pwszValue; // used as destination when copying
// if the name is quoted then ...
if (*pwszScan == '\"')
{
pwszScan++;
// copy all non-quote characters down to base of buffer
// until end of quoted string
while (*pwszScan != '\0' && *pwszScan != '\"')
{
*pwszDest++ = *pwszScan++;
}
// terminate string and get length in bytes including nul
*pwszDest++ = '\0';
*pcbValue = (int)(pwszDest - pwszValue) * sizeof(WCHAR);
}
// find first non-white space character
pwszScan = pwszValue;
while (_istspace(*pwszScan))
pwszScan++;
// if there are no non-white space characters this will be true
if (*pwszScan == L'\0')
{
lErr = ERROR_FILE_NOT_FOUND;
*pcbValue = 0;
}
// Chicago does not support ExpandEnvironmentStrings
#ifndef _CHICAGO_
// If the value type is REG_EXPAND_SZ then do environment variable
// expansion
if (dwType == REG_EXPAND_SZ)
{
// Expand any embedded environemnt variable expressions
WCHAR wszTemp[MAX_PATH];
lstrcpyW(wszTemp, pwszValue);
*pcbValue = ExpandEnvironmentStrings(wszTemp, pwszValue,MAX_PATH);
}
#endif // !_CHICAGO_
}
//
// Only close the sub key if we actually opened it.
//
if (hSubKey != hKey)
{
RegCloseKey(hSubKey);
}
}
return lErr;
}
//+-------------------------------------------------------------------------
//
// Function: GetDllInfo
//
// Synopsis: Get the DLL information for a 32 bit DLL
//
// Arguments: [hClsRegEntry] - class handle
// [pwszKey] - key to open
// [pwszDllName] - where to return DLL path
// [pclDllName] - length of above buffer
// [pulDllThreadType] - where to return DLL threading information
//
// Returns: ERROR_SUCCESS - read DLL path information
// Other - registry entries could not be found
//
// Algorithm: Open the DLL key. Then read the DLL path name. Finally read
// the threading model information if it is specified.
//
// History: 09-Nov-94 Ricksa Created
//
//--------------------------------------------------------------------------
LONG wGetDllInfo(
HKEY hClsRegEntry,
LPCWSTR pwszKey,
LPWSTR pwszDllName,
LONG* pclDllName,
ULONG* pulDllThreadType)
{
HKEY hDllEntry = NULL;
//
// Attempt to open the specified registry key.
//
LONG lerr = RegOpenKeyW(hClsRegEntry, pwszKey, &hDllEntry);
if (ERROR_SUCCESS == lerr)
{
//
// Try to read the DLL name.
//
lerr = wQueryStripRegValue(hDllEntry, NULL, pwszDllName, pclDllName);
if (ERROR_SUCCESS == lerr)
{
//
// A DLL name is registered. If the DLL is OLE32.DLL, then we
// know all about and don't have to dig more info from the
// the registry. Otherwise, we do need to keep digging.
//
if (wCompareDllName(pwszDllName, OLE32_DLL, OLE32_CHAR_LEN))
{
memcpy(pwszDllName, OLE32_DLL, OLE32_BYTE_LEN);
*pclDllName = OLE32_CHAR_LEN;
*pulDllThreadType = BOTH_THREADED;
}
else
{
//
// Assume there is no registry entry.
//
*pulDllThreadType = SINGLE_THREADED;
//
// Buffer to hold entry for the registry data.
//
WCHAR wszModelBuf[MAX_PATH];
DWORD cdwModelBuf = sizeof(wszModelBuf);
DWORD dwRegEntType;
//
// Read the DLL threading model from the registry.
//
lerr = RegQueryValueExW(hDllEntry,
wszDllThreadModel,
NULL,
&dwRegEntType,
(LPBYTE) &wszModelBuf[0],
&cdwModelBuf);
//
// If there is a thread model descriptor, set the thread
// type accordingly.
//
if (ERROR_SUCCESS == lerr)
{
if (REG_SZ != dwRegEntType)
{
Win4Assert(L"ThreadingModel Key Type incorrect");
}
else if (0 == lstrcmpiW(wszAptModel, wszModelBuf))
{
//
// An APARTMENT model object.
//
*pulDllThreadType = APT_THREADED;
}
else if (0 == lstrcmpiW(wszBothModel, wszModelBuf))
{
//
// A BOTH model object.
//
*pulDllThreadType = BOTH_THREADED;
}
else if (lstrcmpiW(wszFreeModel, wszModelBuf) == 0)
{
//
// A FREE_THREADED model object.
//
*pulDllThreadType = FREE_THREADED;
}
else if (0 == lstrcmpiW(wszNeutralModel, wszModelBuf))
{
//
// A NEUTRAL_THREADED object.
//
*pulDllThreadType = NEUTRAL_THREADED;
}
else
{
Win4Assert(L"ThreadingModel Value incorrect");
}
}
//
// When we get to this point, we got a DLL entry so we remap
// any errors to success because they only mean that we could
// not get a model from the registry.
//
lerr = ERROR_SUCCESS;
}
}
RegCloseKey(hDllEntry);
}
return lerr;
}