windows-nt/Source/XPSP1/NT/com/ole32/dcomss/olescm/scmrot.cxx

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//+-------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1992 - 1993.
//
// File: scmrot.hxx
//
// Contents: Implementation of classes for the ROT in the SCM
//
// Functions: RoundTo8 - round size to 8 byte boundary
// CalcIfdSize - calculate size needed for marhaled interface
// SizeMnkEqBufForRotEntry - calculate size for moniker eq buffer
// AllocateAndCopy - create copy of a marshaled interface
// GetEntryFromScmReg - convert SCMREGKEY to ROT entry ptr
//
// History: 20-Jan-95 Ricksa Created
//
//--------------------------------------------------------------------------
#include "act.hxx"
#if 0 // #ifdef _CHICAGO_
CStaticPortableMutex CScmRot::_mxs; // mutex semaphore
#endif
//+-------------------------------------------------------------------------
//
// Function: RoundTo8
//
// Synopsis: Round size to next 8 byte boundary
//
// Arguments: [sizeToRound] - Size to round
//
// Returns: Input rounded to the next 8 byte boundary
//
// History: 20-Jan-95 Ricksa Created
//
//--------------------------------------------------------------------------
inline size_t RoundTo8(size_t sizeToRound)
{
return (sizeToRound + 7) & ~7;
}
//+-------------------------------------------------------------------------
//
// Function: CalcIfdSize
//
// Synopsis: Calculate size required by a marshaled interface
//
// Arguments: [pifd] - interface whose size to calculate
//
// Returns: size required for interface
//
// Algorithm: Get size from the interface and round to next 8 bytes so
// data packed following this buffer will be nicely aligned.
//
// History: 20-Jan-95 Ricksa Created
//
//--------------------------------------------------------------------------
size_t CalcIfdSize(InterfaceData *pifd)
{
CairoleDebugOut((DEB_ROT, "%p _IN CalcIfdSize ( %p )\n", NULL,
pifd));
size_t sizeRet = RoundTo8(IFD_SIZE(pifd));
CairoleDebugOut((DEB_ROT, "%p OUT CalcIfdSize ( %lx )\n", NULL,
sizeRet));
return sizeRet;
}
//+-------------------------------------------------------------------------
//
// Function: SizeMnkEqBufForRotEntry
//
// Synopsis: Calculate 8 byte aligned size for moniker equality buffer
//
// Arguments: [pmnkeqbuf] - Moniker equality buffer
//
// Returns: 8 byte aligned size of moniker buffer.
//
// Algorithm: Calculate size for the moniker equality buffer from input
// buffer and then round to next 8 byte boundary
//
// History: 20-Jan-95 Ricksa Created
//
//--------------------------------------------------------------------------
size_t SizeMnkEqBufForRotEntry(MNKEQBUF *pmnkeqbuf)
{
CairoleDebugOut((DEB_ROT, "%p _IN SizeMnkEqBufForRotEntry ( %p )\n", NULL,
pmnkeqbuf));
size_t sizeRet = RoundTo8((sizeof(MNKEQBUF) - 1) + pmnkeqbuf->cdwSize);
CairoleDebugOut((DEB_ROT, "%p OUT SizeMnkEqBufForRotEntry ( %lx )\n", NULL,
sizeRet));
return sizeRet;
}
//+-------------------------------------------------------------------------
//
// Function: AllocateAndCopy
//
// Synopsis: Make a copy of the input marshaled interface
//
// Arguments: [pifdIn] - input marshaled interface.
//
// Returns: Copy of input marshaled interface.
//
// Algorithm: Calculate size required for marshaled interface. Allocate
// memory for the interface and then copy input interface into
// the new buffer.
//
// History: 20-Jan-95 Ricksa Created
//
//--------------------------------------------------------------------------
InterfaceData *AllocateAndCopy(InterfaceData *pifdIn)
{
CairoleDebugOut((DEB_ROT, "%p _IN AllocateAndCopy ( %p )\n", NULL, pifdIn));
DWORD dwSizeObj = CalcIfdSize(pifdIn);
InterfaceData *pifd = (InterfaceData *) MIDL_user_allocate(dwSizeObj);
if (pifd)
{
// Copy all the data. Remember that pifdIn was allocated rounded
// to an 8 byte boundary so we will not run off the end of the
// memory buffer
memcpy(pifd, pifdIn, dwSizeObj);
}
CairoleDebugOut((DEB_ROT, "%p OUT AllocateAndCopy ( %lx )\n", NULL, pifd));
return pifd;
}
//+-------------------------------------------------------------------------
//
// Function: GetEntryFromScmReg
//
// Synopsis: Convert SCMREGKEY into a pointer to a ROT entry if possible
//
// Arguments: [psrk] - Pointer to a SCMREGKEY
//
// Returns: NULL - psrk not valid
// ROT entry for the given input key
//
// Algorithm: Take the pointer portion of the key and make sure that
// it points to enough memory so that we can validate the
// signiture in the object. Then validate the signiture in
// the object and return a pointer to the object.
//
// History: 20-Jan-95 Ricksa Created
//
//--------------------------------------------------------------------------
CScmRotEntry *GetEntryFromScmReg(SCMREGKEY *psrk)
{
CairoleDebugOut((DEB_ROT, "%p _IN GetEntryFromScmReg ( %p )\n",
NULL, psrk));
CScmRotEntry *psreRet = NULL;
CScmRotEntry *psre = (CScmRotEntry *) psrk->dwEntryLoc;
// Make sure pointer is pointer to valid memory - it s/b read write
// memory since we allocated it and updated it.
if (!IsBadReadPtr(psre, sizeof(*psre))
&& !IsBadWritePtr(psre, sizeof(*psre)))
{
// Make sure signitures are valid
if (psre->IsValid(psrk->dwScmId))
{
psreRet = psre;
}
}
CairoleDebugOut((DEB_ROT, "%p OUT GetEntryFromScmReg ( %lx )\n",
NULL, psreRet));
return psreRet;
}
//+-------------------------------------------------------------------------
//
// Member: CScmRotEntry::CScmRotEntry
//
// Synopsis: Create a ROT entry for a registration
//
// Arguments: [dwScmRotId] - signiture for item
// [pmkeqbuf] - moniker equality buffer to use
// [pfiletime] - file time to use
// [dwProcessID] - process id to use
// [pifdObject] - marshaled interface for the object
// [pifdObjectName] - marshaled moniker for the object
//
// Algorithm: Initialize data and calcualte offsets into the object for
// the variable length data.
//
// History: 20-Jan-95 Ricksa Created
//
//--------------------------------------------------------------------------
CScmRotEntry::CScmRotEntry(
DWORD dwScmRotId,
MNKEQBUF *pmkeqbuf,
FILETIME *pfiletime,
DWORD dwProcessID,
#if 1 // #ifndef _CHICAGO_
CToken *pToken,
#endif
WCHAR *pwszWinstaDesktop,
InterfaceData *pifdObject,
InterfaceData *pifdObjectName)
: _dwSig(SCMROT_SIG),
_dwScmRotId(dwScmRotId),
_dwProcessID(dwProcessID),
_filetimeLastChange(*pfiletime),
_pifdObject((InterfaceData *) &_ab[0])
{
CairoleDebugOut((DEB_ROT, "%p _IN CScmRotEntry::CScmRotEntry "
"( %lx , %p , %p , %lx , %p , %p )\n", this, pmkeqbuf, pfiletime,
dwProcessID, pifdObject, pifdObjectName));
#ifndef _CHICAGO_
_pToken = pToken;
if ( _pToken )
_pToken->AddRef();
#endif
// Copy data for object to preallocated area
_pifdObject->ulCntData = pifdObject->ulCntData;
memcpy(&_pifdObject->abData[0], &pifdObject->abData[0],
_pifdObject->ulCntData);
// Calculate the location of the equality buffer in the allocated data
DWORD dwOffsetMnkEqBuf = CalcIfdSize(_pifdObject);
_pmkeqbufKey = (MNKEQBUF *) &_ab[dwOffsetMnkEqBuf];
// Copy data for moniker equality buffer into preallocated area
_pmkeqbufKey->cdwSize = pmkeqbuf->cdwSize;
memcpy(&_pmkeqbufKey->abEqData[0], &pmkeqbuf->abEqData[0],
_pmkeqbufKey->cdwSize);
// Calculate the location of the moniker name buffer
_pifdObjectName = (InterfaceData *)
&_ab[dwOffsetMnkEqBuf + SizeMnkEqBufForRotEntry(_pmkeqbufKey)];
// Copy in the data for the moniker name
_pifdObjectName->ulCntData = pifdObjectName->ulCntData;
memcpy(&_pifdObjectName->abData[0], &pifdObjectName->abData[0],
_pifdObjectName->ulCntData);
if ( pwszWinstaDesktop )
{
_pwszWinstaDesktop = (WCHAR *)
&_ab[dwOffsetMnkEqBuf + SizeMnkEqBufForRotEntry(_pmkeqbufKey) + CalcIfdSize(_pifdObjectName)];
lstrcpyW( _pwszWinstaDesktop, pwszWinstaDesktop );
}
else
{
_pwszWinstaDesktop = NULL;
}
CairoleDebugOut((DEB_ROT, "%p OUT CScmRotEntry::CScmRotEntry \n",
this));
}
//+-------------------------------------------------------------------------
//
// Member: CScmRotEntry::IsEqual
//
// Synopsis: Determine if input key is equal to the ROT entry's key
//
// Arguments: [pKey] - Key to use for the test
// [cbKey] - Count of bytes in key
//
// Returns: TRUE - input key equals this object's key
// FALSE - keys are not equal
//
// Algorithm: If the two sizes are equal then compare the actual data
// buffers and return the result of that compare.
//
// History: 20-Jan-95 Ricksa Created
//
//--------------------------------------------------------------------------
BOOL CScmRotEntry::IsEqual(LPVOID pKey, UINT cbKey)
{
CairoleDebugOut((DEB_ROT, "%p _IN CScmRotEntry::IsEqual "
"( %p , %lx )\n", this, pKey, cbKey));
BOOL fRet = FALSE;
if (cbKey == _pmkeqbufKey->cdwSize)
{
fRet = memcmp(pKey, &_pmkeqbufKey->abEqData[0], cbKey) == 0;
}
CairoleDebugOut((DEB_ROT, "%p OUT CScmRotEntry::IsEqual ( %lx )\n",
this, fRet));
return fRet;
}
//+-------------------------------------------------------------------------
//
// Member: CScmRot::Register
//
// Synopsis: Add entry to the ROT
//
// Arguments: [pmkeqbuf] - moniker equality buffer to use
// [pfiletime] - file time to use
// [dwProcessID] - process id to use
// [pifdObject] - marshaled interface for the object
// [pifdObjectName] - marshaled moniker for the object
//
// Returns: NOERROR - successfully registered
// E_OUTOFMEMORY
//
// Algorithm: Lock the ROT from all other threads. The create a new
// entry and determine if there is an eqivalent entry in
// the ROT. Calculate the hash value and then put the
// entry into our hash table. Finally, build a registration
// key to return to the caller.
//
// History: 20-Jan-95 Ricksa Created
//
//--------------------------------------------------------------------------
HRESULT CScmRot::Register(
#if 1 // #ifndef _CHICAGO_
CProcess *pProcess,
#endif
WCHAR *pwszWinstaDesktop,
MNKEQBUF *pmnkeqbuf,
InterfaceData *pifdObject,
InterfaceData *pifdObjectName,
FILETIME *pfiletime,
DWORD dwProcessID,
WCHAR *pwszServerExe,
SCMREGKEY *psrkRegister)
{
CairoleDebugOut((DEB_ROT, "%p _IN CScmRot::Register "
"( %p , %p , %p , %p , %lx , %p )\n", this, pmnkeqbuf, pifdObject,
pifdObjectName, pfiletime, dwProcessID, psrkRegister));
// Assume that there is a memory problem
HRESULT hr = E_OUTOFMEMORY;
CToken * pToken;
pToken = pProcess->GetToken();
if ( pwszServerExe )
{
HKEY hKey;
LONG RegStatus;
WCHAR wszAppid[40];
DWORD Size;
RegStatus = ERROR_SUCCESS;
// The pwszServerExe string may contain an AppId string or
// a module name. If it looks like a GUID string, we can bypass
// the AppId lookup. Otherwise, we go to the Registry to
if ( pwszServerExe[0] == L'{' )
{
// Use the given string as the AppId
lstrcpyn(wszAppid, pwszServerExe, sizeof(wszAppid)/sizeof(WCHAR));
}
else
{
// Try to map the Exe name to an AppId
if ( ! ghAppidMachine )
RegStatus = OpenClassesRootKeys();
if ( ERROR_SUCCESS == RegStatus )
{
RegStatus = RegOpenKeyEx( ghAppidMachine,
pwszServerExe,
NULL,
KEY_READ,
&hKey );
}
if ( ERROR_SUCCESS == RegStatus )
{
Size = sizeof(wszAppid);
RegStatus = RegQueryValueEx( hKey,
L"AppId",
NULL,
NULL,
(BYTE *)wszAppid,
&Size );
RegCloseKey( hKey );
}
if ( RegStatus != ERROR_SUCCESS )
return CO_E_WRONG_SERVER_IDENTITY;
}
CAppidData Appid( wszAppid, pToken );
BOOL Access;
Access = FALSE;
// Load appid info from the matching side of the registry
DWORD dwAppidFlags = 0;
#if defined(_WIN64)
dwAppidFlags = pProcess->Is64Bit() ? CAT_REG64_ONLY : CAT_REG32_ONLY;
#endif
hr = Appid.Load(dwAppidFlags);
if ( S_OK == hr )
Access = Appid.CertifyServer( pProcess );
if ( ! Access )
return CO_E_WRONG_SERVER_IDENTITY;
//
// NULL these to indicate that any client can connect to this
// registration.
//
pwszWinstaDesktop = NULL;
pToken = NULL;
}
// Lock for the duration of the call
CPortableLock lck(_mxs);
// Bump the id
_dwIdCntr++;
// Build a record to put into the table
CScmRotEntry *psreNew = new(
pwszWinstaDesktop ? (lstrlenW(pwszWinstaDesktop)+1)*sizeof(WCHAR) : 0,
CalcIfdSize(pifdObject),
SizeMnkEqBufForRotEntry(pmnkeqbuf),
CalcIfdSize(pifdObjectName))
CScmRotEntry(_dwIdCntr, pmnkeqbuf, pfiletime, dwProcessID,
#ifndef _CHICAGO_
pToken,
#else
NULL,
#endif
pwszWinstaDesktop, pifdObject, pifdObjectName);
if (psreNew != NULL)
{
DWORD dwHash;
CScmRotEntry * psreRunning;
#ifndef _CHICAGO_
psreRunning = GetRotEntry( pToken, pwszWinstaDesktop, pmnkeqbuf );
#else
psreRunning = GetRotEntry( NULL, pwszWinstaDesktop, pmnkeqbuf );
#endif
dwHash = ScmRotHash(&pmnkeqbuf->abEqData[0], pmnkeqbuf->cdwSize, 0);
// Put record into the hash table
_sht.SetAt(dwHash, psreNew);
#if 1 // #ifndef _CHICAGO_
// Update the hint table
_rht.SetIndicator(dwHash);
#endif // !_CHICAGO_
// Build return value
psreNew->SetScmRegKey(psrkRegister);
// Map return result based on prior existence of the object.
hr = (psreRunning == NULL)
? NOERROR : MK_S_MONIKERALREADYREGISTERED;
}
CairoleDebugOut((DEB_ROT, "%p OUT CScmRot::Register "
" ( %lx )\n", this, hr));
return hr;
}
//+-------------------------------------------------------------------------
//
// Member: CScmRot::Revoke
//
// Synopsis: Remove entry from the ROT
//
// Arguments: [psrkRegister] - registration to revoke
// [fServer] - whether this is the object server
// [ppifdObject] - output marshaled interface (optional)
// [ppifdName] - output marshaled moniker (optional)
//
// Returns: NOERROR - successfully removed.
// E_INVALIDARG
//
// Algorithm: Convert SCMREGKEY to anentry in the ROT. Remove the
// entry from the hash table. If this is the object server
// for the entry, then return the marshaled interfaces
// so the object server can release them.
//
// History: 20-Jan-95 Ricksa Created
//
//--------------------------------------------------------------------------
HRESULT CScmRot::Revoke(
SCMREGKEY *psrkRegister,
BOOL fServer,
InterfaceData **ppifdObject,
InterfaceData **ppifdName)
{
CairoleDebugOut((DEB_ROT, "%p _IN CScmRot::Revoke "
"( %p , %lx , %p , %p )\n", this, fServer, ppifdObject, ppifdName));
HRESULT hr = E_INVALIDARG;
// Lock for the duration of the call
CPortableLock lck(_mxs);
// Verify registration key
CScmRotEntry *psreToRemove = GetEntryFromScmReg(psrkRegister);
if (psreToRemove != NULL)
{
// Get the has value
DWORD dwHash = ScmRotHash(psreToRemove->Key(), psreToRemove->cKey(), 0);
// Remove object from the list
_sht.RemoveEntry(dwHash, psreToRemove);
// Is this a server doing a revoke?
if (fServer)
{
// Error handling here - suppose these allocations fail, what
// can we do? The bottom line is nothing. This will cause a
// memory leak in the server because they can't release the
// marshaled data. However, this is assumed to be a rare
// occurance and will really only cause the moniker to live
// longer than it ought to which should not be too serious.
*ppifdObject = AllocateAndCopy(psreToRemove->GetObject());
*ppifdName = AllocateAndCopy(psreToRemove->GetMoniker());
}
// Free the entry
delete psreToRemove;
#if 1 // #ifndef _CHICAGO_
// See if bucket is empty
if (_sht.IsBucketEmpty(dwHash))
{
// Update the hint table.
_rht.ClearIndicator(dwHash);
}
#endif // !_CHICAGO_
hr = S_OK;
}
CairoleDebugOut((DEB_ROT, "%p OUT CScmRot::Revoke "
" ( %lx ) [ %p, %p ] \n", this, hr,
(ppifdObject != NULL) ? *ppifdObject : NULL,
(ppifdName != NULL) ? *ppifdName : NULL));
return hr;
}
//+-------------------------------------------------------------------------
//
// Member: CScmRot::IsRunning
//
// Synopsis: Determine if there is a registered entry for an item
//
// Arguments: [pmnkeqbuf] - Moniker equality buffer to search for
//
// Returns: NOERROR - moniker is registered as running
// S_FALSE - moniker is not running.
//
// Algorithm: Get the entry for the moniker equality buffer if there is
// one. If there is one, then return NOERROR otherwise return
// S_FALSE.
//
// History: 20-Jan-95 Ricksa Created
//
//--------------------------------------------------------------------------
HRESULT CScmRot::IsRunning(
#if 1 // #ifndef _CHICAGO_
CToken *pToken,
#endif
WCHAR *pwszWinstaDesktop,
MNKEQBUF *pmnkeqbuf)
{
CairoleDebugOut((DEB_ROT, "%p _IN CScmRot::IsRunning "
"( %p )\n", this, pmnkeqbuf));
// Lock for the duration of the call
CPortableLock lck(_mxs);
#if 1 // #ifndef _CHICAGO_
CScmRotEntry *psreRunning = GetRotEntry( pToken, pwszWinstaDesktop, pmnkeqbuf );
#else
CScmRotEntry *psreRunning = GetRotEntry(pwszWinstaDesktop, pmnkeqbuf);
#endif
HRESULT hr = (psreRunning != NULL) ? S_OK : S_FALSE;
CairoleDebugOut((DEB_ROT, "%p OUT CScmRot::IsRunning "
" ( %lx ) \n", this, hr));
return hr;
}
//+-------------------------------------------------------------------------
//
// Member: CScmRot::GetObject
//
// Synopsis: Get running object for input
//
// Arguments: [dwProcessID] - process id of object (optional)
// [pmnkeqbuf] - moniker equality buffer
// [psrkRegister] - output registration id.
// [ppifdObject] - marshaled interface for registration
//
// Returns: NOERROR - got object
// MK_E_UNAVAILABLE - registration could not be found
//
// Algorithm: If not process ID is input, then search for the first
// matching entry that we can find. Otherwise, search the
// hash for the entry with both the same key and the same
// process id.
//
// History: 20-Jan-95 Ricksa Created
//
//--------------------------------------------------------------------------
HRESULT CScmRot::GetObject(
#if 1 // #ifndef _CHICAGO_
CToken *pToken,
#endif
WCHAR *pwszWinstaDesktop,
DWORD dwProcessID,
MNKEQBUF *pmnkeqbuf,
SCMREGKEY *psrkRegister,
InterfaceData **ppifdObject)
{
CairoleDebugOut((DEB_ROT, "%p _IN CScmRot::GetObject "
"( %lx , %p , %p , %p )\n", this, dwProcessID, pmnkeqbuf, psrkRegister,
ppifdObject));
HRESULT hr = MK_E_UNAVAILABLE;
// Lock for the duration of the call
CPortableLock lck(_mxs);
CScmRotEntry *psreRunning;
if (dwProcessID == 0)
{
psreRunning = GetRotEntry( pToken, pwszWinstaDesktop, pmnkeqbuf );
}
else
{
// Special search based on process ID - get the head of the list
// for the bucket
psreRunning = (CScmRotEntry *) _sht.GetBucketList(
ScmRotHash(&pmnkeqbuf->abEqData[0], pmnkeqbuf->cdwSize, 0));
// Search list for a matching entry
while (psreRunning != NULL)
{
if ((psreRunning->GetProcessID() == dwProcessID)
&& psreRunning->IsEqual(&pmnkeqbuf->abEqData[0],
pmnkeqbuf->cdwSize))
{
// We found a match so we are done.
break;
}
// Try the next item in the bucket.
psreRunning = (CScmRotEntry *) psreRunning->GetNext();
}
}
if (psreRunning != NULL)
{
hr = E_OUTOFMEMORY;
*ppifdObject = AllocateAndCopy(psreRunning->GetObject());
if (*ppifdObject != NULL)
{
hr = NOERROR;
}
// Build return registration key
psreRunning->SetScmRegKey(psrkRegister);
}
CairoleDebugOut((DEB_ROT, "%p OUT CScmRot::GetObject "
" ( %lx ) [ %p ] \n", this, hr, *ppifdObject));
return hr;
}
//+-------------------------------------------------------------------------
//
// Member: CScmRot::NoteChangeTime
//
// Synopsis: Set the time of last change for a ROT entry
//
// Arguments: [psrkRegister] - ID of entry to change
// [pfiletime] - new time for the entry.
//
// Returns: NOERROR - time set
// E_INVALIDARG - ROT entry could not be found
//
// Algorithm: Convert SCMREGKEY into a pointer to a ROT entry and then
// update the time of that entry.
//
// History: 20-Jan-95 Ricksa Created
//
//--------------------------------------------------------------------------
HRESULT CScmRot::NoteChangeTime(
SCMREGKEY *psrkRegister,
FILETIME *pfiletime)
{
CairoleDebugOut((DEB_ROT, "%p _IN CScmRot::NoteChangeTime "
"( %p , %p )\n", this, psrkRegister, pfiletime));
HRESULT hr = E_INVALIDARG;
// Lock for the duration of the call
CPortableLock lck(_mxs);
CScmRotEntry *psre = GetEntryFromScmReg(psrkRegister);
if (psre != NULL)
{
psre->SetTime(pfiletime);
hr = S_OK;
}
CairoleDebugOut((DEB_ROT, "%p OUT CScmRot::NoteChangeTime "
" ( %lx ) \n", this, hr));
return hr;
}
//+-------------------------------------------------------------------------
//
// Member: CScmRot::GetTimeOfLastChange
//
// Synopsis: Get time of last change for a moniker in the ROT
//
// Arguments: [pmnkeqbuf] - Moniker equality buffer
// [pfiletime] - Where to put the time
//
// Returns: NOERROR - got the time
// MK_E_UNAVAILABLE - couldn't find an entry/
//
// Algorithm: Search the hash for an entry with the same moniker. If
// found, then copy out the time.
//
// History: 20-Jan-95 Ricksa Created
//
//--------------------------------------------------------------------------
HRESULT CScmRot::GetTimeOfLastChange(
#if 1 // #ifndef _CHICAGO_
CToken *pToken,
#endif
WCHAR *pwszWinstaDesktop,
MNKEQBUF *pmnkeqbuf,
FILETIME *pfiletime)
{
CairoleDebugOut((DEB_ROT, "%p _IN CScmRot::GetTimeOfLastChange "
"( %p , %p )\n", this, pmnkeqbuf, pfiletime));
HRESULT hr = MK_E_UNAVAILABLE;
// Lock for the duration of the call
CPortableLock lck(_mxs);
#if 1 // #ifndef _CHICAGO_
CScmRotEntry *psreRunning = GetRotEntry( pToken, pwszWinstaDesktop, pmnkeqbuf );
#else
CScmRotEntry *psreRunning = GetRotEntry(pwszWinstaDesktop, pmnkeqbuf);
#endif
if (psreRunning != NULL)
{
psreRunning->GetTime(pfiletime);
hr = S_OK;
}
CairoleDebugOut((DEB_ROT, "%p OUT CScmRot::GetTimeOfLastChange "
" ( %lx ) \n", this, hr));
return hr;
}
//+-------------------------------------------------------------------------
//
// Member: CScmRot::EnumRunning
//
// Synopsis: Get a list of all the monikers that are currently running
//
// Arguments: [ppMkIFList] - Where to put list of monikers running
//
// Returns: NOERROR - got list
// E_OUTOFMEMORY - couldn't allocate space for the list
//
// Algorithm: Loop through the ROT copying out the marshaled moniker buffers
//
// History: 20-Jan-95 Ricksa Created
//
//--------------------------------------------------------------------------
HRESULT CScmRot::EnumRunning(
#if 1 // #ifndef _CHICAGO_
CToken *pToken,
#endif
WCHAR *pwszWinstaDesktop,
MkInterfaceList **ppMkIFList)
{
CairoleDebugOut((DEB_ROT, "%p _IN CScmRot::EnumRunning "
"( %p )\n", this, ppMkIFList));
HRESULT hr = E_OUTOFMEMORY;
// Lock for the duration of the call
CPortableLock lck(_mxs);
*ppMkIFList = NULL;
MkInterfaceList *pMkIFList = NULL;
// This is the upper limit on how much space we'll need.
DWORD dwSize = sizeof(MkInterfaceList) +
(_sht.GetCount() - 1) * sizeof(InterfaceData *);
// Allocate buffer
pMkIFList = (MkInterfaceList *) MIDL_user_allocate(dwSize);
// We use this to keep track fof the number of monikers we are returning
DWORD dwOffset = 0;
if (pMkIFList != NULL)
{
// Iterate list getting the pointers
CScmHashIter shi(&_sht);
CScmRotEntry *psre;
while ((psre = (CScmRotEntry *) shi.GetNext()) != NULL)
{
InterfaceData *pifdForOutput;
if ( psre->WinstaDesktop() &&
(lstrcmpW( pwszWinstaDesktop, psre->WinstaDesktop() ) != 0) )
continue;
#ifndef _CHICAGO_
if ( S_OK != pToken->MatchToken2(psre->Token(), FALSE) )
continue;
if ( gbSAFERROTChecksEnabled )
{
HRESULT hr = pToken->CompareSaferLevels(psre->Token());
// S_FALSE: pToken is of lesser authorization, i.e., this
// is untrusted code calling into trusted code.
if (hr == S_FALSE)
{
DbgPrint("RPCSS: SCMROT: SAFER level did not match.\n");
continue;
}
}
#endif
pifdForOutput = AllocateAndCopy(psre->GetMoniker());
if (pifdForOutput == NULL)
{
goto Exit;
}
// Put copy in the array
pMkIFList->apIFDList[dwOffset] = pifdForOutput;
// We bump the count because it makes clean up easier
dwOffset++;
}
// Teller caller and cleanup that everything went ok.
hr = S_OK;
// Set the output buffer to the buffer we have allocated.
*ppMkIFList = pMkIFList;
// Set the size of the object to return
pMkIFList->dwSize = dwOffset;
}
Exit:
if (FAILED(hr))
{
// We failed so clean up
if (pMkIFList != NULL)
{
// Clean up the moniker interfaces that were allocated
for (DWORD i = 0; i < dwOffset; i++)
{
MIDL_user_free(pMkIFList->apIFDList[i]);
}
// Clean up the table structure itself
MIDL_user_free(pMkIFList);
}
}
CairoleDebugOut((DEB_ROT, "%p OUT CScmRot::EnumRunning "
" ( %lx ) [ %p ]\n", this, hr, *ppMkIFList));
return hr;
}
//+-------------------------------------------------------------------------
//
// Member: CScmRot::GetRotEntry
//
// Synopsis: Search ROT for entry that matches the equality buffer input.
//
// Arguments: [pmnkeqbuf] - Moniker equality buffer to search for.
//
// Returns: NULL - no entry could be found
// Pointer to ROT entry with matching key
//
// Algorithm: Calculate the hash value for the input buffer. The search
// the hash table for the matching value.
//
// History: 20-Jan-95 Ricksa Created
//
//--------------------------------------------------------------------------
CScmRotEntry *CScmRot::GetRotEntry(
#if 1 // #ifndef _CHICAGO_
CToken *pToken,
#endif
WCHAR *pwszWinstaDesktop,
MNKEQBUF *pmnkeqbuf)
{
CairoleDebugOut((DEB_ROT, "%p _IN CScmRot::GetRotEntry "
"( %p )\n", this, pmnkeqbuf));
DWORD dwHash;
CScmRotEntry * psre;
dwHash = ScmRotHash(&pmnkeqbuf->abEqData[0], pmnkeqbuf->cdwSize, 0);
psre = (CScmRotEntry *) _sht.GetBucketList( dwHash );
for ( ; psre != NULL; psre = (CScmRotEntry *) psre->GetNext() )
{
if ( psre->IsEqual(&pmnkeqbuf->abEqData[0], pmnkeqbuf->cdwSize) )
{
//
// Note that this routine is actually called during a Register
// to see if there is a duplicate moniker and also during a
// client Lookup. This makes things a little complicated.
//
// The winsta\desktop param can only be null in two instances.
// + While doing a Register from a service or RunAs server. The
// pToken will also be null.
// + While doing a ROT lookup during a secure remote activation.
// The pToken will be non-null. We only check that the SIDs
// match in this case.
//
// During an usecure activation the pToken will be NULL. The
// winsta/desktop will actually be "" in this case (see
// Activation) to allow us to distinguish just this case.
//
// The ROT entry's winsta\desktop can be null if a service or RunAs
// server registered a globally available object.
//
// Existing registration is globally available.
if ( ! psre->WinstaDesktop() )
break;
//
// NULL token and winsta/desktop means a server is doing a register
// for a globally available object, return the match.
// NULL token but non-null ("") winsta/desktop is a lookup from a
// remote unsecure client, no match.
//
if ( ! pToken )
{
if ( ! pwszWinstaDesktop )
break;
else
continue;
}
Win4Assert( psre->Token() );
if ( pwszWinstaDesktop &&
(lstrcmpW( pwszWinstaDesktop, psre->WinstaDesktop() ) != 0) )
continue;
// Check to make sure the token matches
if(S_OK != pToken->MatchToken2(psre->Token(), FALSE))
continue;
// Check to make sure that the safer token matches
if ( gbSAFERROTChecksEnabled )
{
HRESULT hr = pToken->CompareSaferLevels(psre->Token());
// S_FALSE: pToken is of lesser authorization, i.e., this
// is untrusted code calling into trusted code.
if (hr == S_FALSE)
{
DbgPrint("RPCSS: SCMROT: SAFER level did not match.\n");
continue;
}
}
break;
}
}
CairoleDebugOut((DEB_ROT, "%p OUT CScmRot::GetRotEntry "
" ( %p )\n", this, psre));
return psre;
}