windows-nt/Source/XPSP1/NT/termsrv/reskit/smc/tclient/lib/queues.c

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2020-09-26 03:20:57 -05:00
/*++
* File name:
* queues.c
* Contents:
* Supports the linked lists for the clients
* and events
* Two linked lists:
* g_pClientQHead - list of all clients running within smclient
* g_pWaitQHead - all events we are waiting for from smclient
*
* Copyright (C) 1998-1999 Microsoft Corp.
--*/
#include <windows.h>
#include <stdio.h>
#include <malloc.h>
#include <process.h>
#include <string.h>
#include <stdlib.h>
#include <ctype.h>
#include "tclient.h"
#include "protocol.h"
#include "gdata.h"
#include "bmpcache.h"
/*
*
* ClientQ functions
*
*/
/*++
* Function:
* _AddToClientQ
* Description:
* Adds a client on the top of the list
* Arguments:
* pClient - the client context
* Called by:
* SCConnect
--*/
VOID _AddToClientQ(PCONNECTINFO pClient)
{
EnterCriticalSection(g_lpcsGuardWaitQueue);
pClient->pNext = g_pClientQHead;
g_pClientQHead = pClient;
LeaveCriticalSection(g_lpcsGuardWaitQueue);
}
/*++
* Function:
* _RemoveFromClientQ
* Description:
* Removes a client context from the list
* Arguments:
* pClient - the client context
* Return value:
* TRUE on success
* Called by:
* SCDisconnect
--*/
BOOL _RemoveFromClientQ(PCONNECTINFO pClient)
{
PCONNECTINFO pIter, pPrev = NULL;
EnterCriticalSection(g_lpcsGuardWaitQueue);
pIter = g_pClientQHead;
while (pIter && pIter != pClient) {
pPrev = pIter;
pIter = pIter->pNext;
}
if (pIter) {
if (!pPrev) g_pClientQHead = pIter->pNext;
else pPrev->pNext = pIter->pNext;
pIter->pNext = NULL;
}
LeaveCriticalSection(g_lpcsGuardWaitQueue);
return (pIter != NULL);
}
/*++
* Function:
* _SetClientDead
* Description:
* Marks a client context as dead
* Arguments:
* dwClientProcessId - ID for the client process
* Return value:
* TRUE on success
* Called by:
* _FeedbackWndProc within feedback thread
--*/
BOOL _SetClientDead(LONG_PTR lClientProcessId)
{
PCONNECTINFO pIter;
EnterCriticalSection(g_lpcsGuardWaitQueue);
pIter = g_pClientQHead;
while (pIter && pIter->lProcessId != lClientProcessId)
{
pIter = pIter->pNext;
}
if (pIter) pIter->dead = TRUE;
LeaveCriticalSection(g_lpcsGuardWaitQueue);
return (pIter != NULL);
}
/*++
* Function:
* _CheckIsAcceptable
* Description:
* Checks if we can accept feedback from this RDP client
* i.e. if this client is member of the client queue
* Arguments:
* dwProcessId - clients process Id
* Return value:
* Pointer to connection context. NULL if not found
* Called by:
* _FeedbackWndProc within feedback thread
--*/
PCONNECTINFO _CheckIsAcceptable(LONG_PTR lProcessId, BOOL bRClxType)
{
PCONNECTINFO pIter;
EnterCriticalSection(g_lpcsGuardWaitQueue);
pIter = g_pClientQHead;
while(pIter &&
(pIter->lProcessId != lProcessId || pIter->RClxMode != bRClxType))
{
pIter = pIter->pNext;
}
LeaveCriticalSection(g_lpcsGuardWaitQueue);
return (pIter);
}
/*++
* Function:
* _AddStrToClientBuffer
* Description:
* Add a string to the clients history buffer
* When smclient calls Wait4Str it first checks that buffer
* Arguments:
* str - the string
* dwProcessId - the client process Id
* Called by:
* _CheckForWaitingWorker
--*/
VOID _AddStrToClientBuffer(LPCWSTR str, LONG_PTR lProcessId)
{
PCONNECTINFO pIter;
EnterCriticalSection(g_lpcsGuardWaitQueue);
pIter = g_pClientQHead;
while(pIter && pIter->lProcessId != lProcessId)
{
pIter = pIter->pNext;
}
if (pIter)
{
int strsize = wcslen(str);
if (strsize >= MAX_STRING_LENGTH) strsize = MAX_STRING_LENGTH-1;
wcsncpy( pIter->Feedback[pIter->nFBend],
str,
strsize);
pIter->Feedback[pIter->nFBend][strsize] = 0;
pIter->nFBend++;
pIter->nFBend %= FEEDBACK_SIZE;
if (pIter->nFBsize < FEEDBACK_SIZE)
pIter->nFBsize++;
}
LeaveCriticalSection(g_lpcsGuardWaitQueue);
}
/*
*
* WaitQ functions
*
*/
/*++
* Function:
* _AddToWaitQNoCheck
* Description:
* Adds an waiting event to the list with checking in the history list
* Arguments:
* pCI - client context
* pWait - the event
* Called by:
* RegisterChat
--*/
VOID _AddToWaitQNoCheck(PCONNECTINFO pCI, PWAIT4STRING pWait)
{
ASSERT(pCI);
EnterCriticalSection(g_lpcsGuardWaitQueue);
pWait->pNext = g_pWaitQHead;
g_pWaitQHead = pWait;
LeaveCriticalSection(g_lpcsGuardWaitQueue);
}
/*++
* Function:
* _AddToWaitQueue
* Description:
* Add an event to the list. If the event is waiting for string(s)
* the history buffer is checked first
* Arguments:
* pCI - client context
* pWait - the event
* Called by:
* _WaitSomething
--*/
VOID _AddToWaitQueue(PCONNECTINFO pCI, PWAIT4STRING pWait)
{
BOOL bDone = FALSE;
int i, strn;
ASSERT(pCI);
// exit if we are dead
if (/*!pWait->waitstr[0] && */pCI->dead)
{
SetEvent(pWait->evWait);
goto exitpt;
}
EnterCriticalSection(g_lpcsGuardWaitQueue);
// Check if we're already received this feedback
if (pWait->WaitType == WAIT_STRING)
// look if the string already came
for(i = 0; !bDone && i < pCI->nFBsize; i++)
{
strn = (FEEDBACK_SIZE + pCI->nFBend - i - 1) % FEEDBACK_SIZE;
if (!pCI->Feedback[strn][0]) continue;
bDone = (wcsstr(pCI->Feedback[strn], pWait->waitstr) != NULL);
}
// In case of waiting multiple strings
else if (pWait->WaitType == WAIT_MSTRINGS)
{
for(i = 0; !bDone && i < pCI->nFBsize; i++)
{
WCHAR *wszComp = pWait->waitstr;
WCHAR *wszLast = pWait->waitstr + pWait->strsize;
int idx = 0;
strn = (FEEDBACK_SIZE + pCI->nFBend - i - 1) % FEEDBACK_SIZE;
if (!pCI->Feedback[strn][0]) continue;
while (wszComp < wszLast && *wszComp && !bDone)
{
if (wcsstr(pCI->Feedback[strn], wszComp))
{
int i;
// Save the string
for(i = 0; wszComp[i]; i++)
pCI->szWait4MultipleStrResult[i] = (char)wszComp[i];
// and the index
pCI->szWait4MultipleStrResult[i] = 0;
pCI->nWait4MultipleStrResult = idx;
bDone = TRUE;
}
else
{
// Advance to next string
wszComp += wcslen(wszComp) + 1;
idx ++;
}
}
}
}
else if (pWait->WaitType == WAIT_CLIPBOARD &&
pWait->pOwner->bRClxClipboardReceived)
{
bDone = TRUE;
}
else if (pWait->WaitType == WAIT_DATA &&
pWait->pOwner->pRClxDataChain)
{
bDone = TRUE;
}
// The string (or anything else) is in the history list
// Set the event
if (bDone)
{
SetEvent(pWait->evWait);
pCI->nFBsize = pCI->nFBend = 0;
}
pWait->pNext = g_pWaitQHead;
g_pWaitQHead = pWait;
LeaveCriticalSection(g_lpcsGuardWaitQueue);
exitpt:
;
}
/*++
* Function:
* _RemoveFromWaitQueue
* Description:
* Removes an event from the list
* Arguments:
* pWait - the event
* Return value:
* TRUE if the event is found and removed
* Called by:
* _WaitSomething, _RemoveFromWaitQIndirect
--*/
BOOL _RemoveFromWaitQueue(PWAIT4STRING pWait)
{
PWAIT4STRING pIter, pPrev = NULL;
EnterCriticalSection(g_lpcsGuardWaitQueue);
pIter = g_pWaitQHead;
while (pIter && pIter != pWait) {
pPrev = pIter;
pIter = pIter->pNext;
}
if (pIter) {
if (!pPrev) g_pWaitQHead = pIter->pNext;
else pPrev->pNext = pIter->pNext;
pIter->pNext = NULL;
}
LeaveCriticalSection(g_lpcsGuardWaitQueue);
return (pIter != NULL);
}
/*++
* Function:
* _RemoveFromWaitQIndirect
* Description:
* Same as _RemoveFromWaitQueue but identifies the event
* by client context and waited string
* Arguments:
* pCI - the client context
* lpszWait4 - the string
* Return value:
* the event
* Called by:
* UnregisterChat
--*/
PWAIT4STRING _RemoveFromWaitQIndirect(PCONNECTINFO pCI, LPCWSTR lpszWait4)
{
PWAIT4STRING pIter;
ASSERT(pCI);
// Search the list
EnterCriticalSection(g_lpcsGuardWaitQueue);
pIter = g_pWaitQHead;
while (pIter &&
(pIter->pOwner != pCI ||
wcscmp(pIter->waitstr, lpszWait4))
)
pIter = pIter->pNext;
LeaveCriticalSection(g_lpcsGuardWaitQueue);
if (pIter)
{
_RemoveFromWaitQueue(pIter);
}
return pIter;
}
/*++
* Function:
* _RetrieveFromWaitQByEvent
* Description:
* Searches the waiting list by event handler
* Arguments:
* hEvent - the handler
* Return value:
* The event structure
* Called by:
* _WaitSomething when responds on chat sequence
--*/
PWAIT4STRING _RetrieveFromWaitQByEvent(HANDLE hEvent)
{
PWAIT4STRING pIter;
EnterCriticalSection(g_lpcsGuardWaitQueue);
pIter = g_pWaitQHead;
while (pIter &&
pIter->evWait != hEvent)
pIter = pIter->pNext;
LeaveCriticalSection(g_lpcsGuardWaitQueue);
return pIter;
}
/*++
* Function:
* _RetrieveFromWaitQByOwner
* Description:
* Searches the waiting list by owner record
* Arguments:
* pCI - pointer to the owner context
* Return value:
* The event structure
* Called by:
* RClx_MsgReceived
--*/
PWAIT4STRING
_RetrieveFromWaitQByOwner(PCONNECTINFO pCI)
{
PWAIT4STRING pIter;
EnterCriticalSection(g_lpcsGuardWaitQueue);
pIter = g_pWaitQHead;
while (pIter &&
pIter->pOwner != pCI)
pIter = pIter->pNext;
LeaveCriticalSection(g_lpcsGuardWaitQueue);
return pIter;
}
/*++
* Function:
* _FlushFromWaitQ
* Description:
* Flush everithing that we are waiting for from the list
* the client is going to DIE
* Arguments:
* pCI - client context
* Called by:
* _CloseConnectInfo
--*/
VOID _FlushFromWaitQ(PCONNECTINFO pCI)
{
PWAIT4STRING pIter, pPrev, pNext;
ASSERT(pCI);
pPrev = NULL;
EnterCriticalSection(g_lpcsGuardWaitQueue);
pIter = g_pWaitQHead;
do {
while (pIter && pIter->pOwner != pCI) {
pPrev = pIter;
pIter = pIter->pNext;
}
if (pIter) {
if (!pPrev) g_pWaitQHead = pIter->pNext;
else pPrev->pNext = pIter->pNext;
pNext = pIter->pNext;
pIter->pNext = NULL;
// Important stuff
if (pIter->evWait)
CloseHandle(pIter->evWait);
free(pIter);
pIter = pNext;
}
} while (pIter);
LeaveCriticalSection(g_lpcsGuardWaitQueue);
}
/*++
* Function:
* _CheckForWaitingWorker
* Description:
* Check the received string against the waited events
* Arguments:
* wszFeed - the received string
* dwProcessId - Id of the sender
* Return value:
* TRUE if an event is found and signaled
* Called by:
* _TextOutReceived, _GlyphReceived
--*/
BOOL _CheckForWaitingWorker(LPCWSTR wszFeed, LONG_PTR lProcessId)
{
PWAIT4STRING pIter;
BOOL bRun;
CHAR szBuff[ MAX_STRING_LENGTH ];
CHAR *szPBuff;
DWORD dwBuffLen;
LPCWSTR wszPFeed;
if ( NULL != g_pfnPrintMessage )
{
wszPFeed = wszFeed;
while ( *wszPFeed )
{
if ( (unsigned short)(*wszPFeed) > 0xff )
break;
wszPFeed ++;
}
if ( *wszPFeed )
{
szBuff[0] = '\\';
szBuff[1] = 'u';
szPBuff = szBuff + 2;
wszPFeed = wszFeed;
dwBuffLen = MAX_STRING_LENGTH - 3;
while ( 4 <= dwBuffLen &&
0 != *wszPFeed)
{
DWORD dwLen;
if ( dwBuffLen < 4 )
break;
dwLen = _snprintf( szPBuff, dwBuffLen + 1, "%02x",
(BYTE)((*wszPFeed) & 0xff ));
szPBuff += dwLen;
dwBuffLen -= dwLen;
dwLen = _snprintf( szPBuff, dwBuffLen + 1, "%02x",
(BYTE)(((*wszPFeed) >> 8) & 0xff ));
szPBuff += dwLen;
dwBuffLen -= dwLen;
wszPFeed ++;
}
*szPBuff = 0;
TRACE((ALIVE_MESSAGE, "Received: %s\n", szBuff));
} else {
TRACE((ALIVE_MESSAGE, "Received: %S\n", wszFeed));
}
}
_AddStrToClientBuffer(wszFeed, lProcessId);
EnterCriticalSection(g_lpcsGuardWaitQueue);
pIter = g_pWaitQHead;
bRun = TRUE;
while(pIter && bRun)
{
if (pIter->lProcessId == lProcessId)
{
// Check for expected string (one)
if (pIter->WaitType == WAIT_STRING &&
wcsstr(wszFeed, pIter->waitstr))
bRun = FALSE;
else
// Check for expected strings (many)
if (pIter->WaitType == WAIT_MSTRINGS)
{
WCHAR *wszComp = pIter->waitstr;
WCHAR *wszLast = pIter->waitstr + pIter->strsize;
int idx = 0;
while (wszComp < wszLast && *wszComp && bRun)
{
if (wcsstr(wszFeed, wszComp))
{
int i;
PCONNECTINFO pOwner = pIter->pOwner;
// Save the string
for(i = 0; wszComp[i]; i++)
pOwner->szWait4MultipleStrResult[i] = (char)wszComp[i];
pOwner->szWait4MultipleStrResult[i] = 0;
pOwner->nWait4MultipleStrResult = idx;
bRun = FALSE;
}
else
{
// Advance to next string
wszComp += wcslen(wszComp) + 1;
idx ++;
}
}
}
}
// Advance to the next pointer
if (bRun)
pIter = pIter->pNext;
}
if (pIter)
{
SetEvent(pIter->evWait);
}
LeaveCriticalSection(g_lpcsGuardWaitQueue);
return (pIter != NULL);
}
/*++
* Function:
* _TextOutReceived
* Description:
* TextOut order is received from the client, the string is
* in shared memory. Unmaps the memory and checks if the
* strings is waited by anybody. Also adds the string
* to the client history buffer
* Arguments:
* dwProcessId - senders Id
* hMapF - handle to shared memory, which contains the string
* Return value:
* TRUE if a client is found and signaled
* Called by:
* _FeedbackWndProc within feedback thread
--*/
BOOL _TextOutReceived(LONG_PTR lProcessId, HANDLE hMapF)
{
PFEEDBACKINFO pView;
PCONNECTINFO pIterCl;
HANDLE hDupMapF;
BOOL rv = FALSE;
EnterCriticalSection(g_lpcsGuardWaitQueue);
pIterCl = g_pClientQHead;
while(pIterCl && pIterCl->lProcessId != lProcessId)
pIterCl = pIterCl->pNext;
LeaveCriticalSection(g_lpcsGuardWaitQueue);
if (!pIterCl)
goto exitpt;
if (!DuplicateHandle(pIterCl->hProcess,
hMapF,
GetCurrentProcess(),
&hDupMapF,
FILE_MAP_READ,
FALSE,
0))
{
TRACE((ERROR_MESSAGE,
"TEXTOUT:Can't dup file handle, GetLastError = %d\n",
GetLastError()));
goto exitpt;
}
pView = MapViewOfFile(hDupMapF,
FILE_MAP_READ,
0,
0,
sizeof(*pView));
if (!pView)
{
TRACE((ERROR_MESSAGE,
"TEXTOUT:Can't map a view, GetLastError = %d\n",
GetLastError()));
goto exitpt1;
}
rv = _CheckForWaitingWorker(pView->string, lProcessId);
exitpt1:
UnmapViewOfFile(pView);
CloseHandle(hDupMapF);
exitpt:
return rv;
}
/*++
* Function:
* _GlyphReceived
* Description:
* Same as _TextOutReceived but for GlyphOut order
* the glyph is in shared memory. It is converted to
* string by calling Glyph2String!bmpcache.c
* Arguments:
* dwProcessId - senders Id
* hMapF - handle to shared memory
* Return value:
* TRUE if a client is found and signaled
* Called by:
* _FeedbackWndProc within feedback thread
--*/
BOOL _GlyphReceived(LONG_PTR lProcessId, HANDLE hMapF)
{
WCHAR wszFeed[MAX_STRING_LENGTH];
BOOL rv = FALSE;
PBMPFEEDBACK pView;
PCONNECTINFO pIterCl;
HANDLE hDupMapF;
UINT nSize;
EnterCriticalSection(g_lpcsGuardWaitQueue);
pIterCl = g_pClientQHead;
while(pIterCl && pIterCl->lProcessId != lProcessId)
pIterCl = pIterCl->pNext;
LeaveCriticalSection(g_lpcsGuardWaitQueue);
if (!pIterCl)
goto exitpt;
if (!DuplicateHandle( pIterCl->hProcess,
hMapF,
GetCurrentProcess(),
&hDupMapF,
FILE_MAP_READ,
FALSE,
0))
{
TRACE((ERROR_MESSAGE,
"GLYPH:Can't dup file handle, GetLastError = %d\n",
GetLastError()));
goto exitpt;
}
pView = MapViewOfFile(hDupMapF,
FILE_MAP_READ,
0,
0,
sizeof(*pView));
if (!pView)
{
TRACE((ERROR_MESSAGE,
"GLYPH:Can't map a view, GetLastError = %d\n",
GetLastError()));
goto exitpt1;
}
// Get bitmap size
nSize = pView->bmpsize;
if (!nSize)
goto exitpt1;
// unmap
UnmapViewOfFile(pView);
// remap the whole structure
pView = MapViewOfFile(hDupMapF,
FILE_MAP_READ,
0,
0,
sizeof(*pView) + nSize);
if (!pView)
{
TRACE((ERROR_MESSAGE,
"GLYPH:Can't map a view, GetLastError = %d\n",
GetLastError()));
goto exitpt1;
}
if (!Glyph2String(pView, wszFeed, sizeof(wszFeed)/sizeof(WCHAR)))
{
goto exitpt1;
} else {
}
rv = _CheckForWaitingWorker(wszFeed, lProcessId);
exitpt1:
UnmapViewOfFile(pView);
CloseHandle(hDupMapF);
exitpt:
return rv;
}
/*++
* Function:
* _CheckForWorkerWaitingDisconnect
* Description:
* Signals a worker (client thread) wich waits for a disconnect event
* Arguments:
* dwProcessId - clients Id
* Return value:
* TRUE if a client is found and signaled
* Called by:
* _FeedbackWndProc within feedback thread
--*/
BOOL _CheckForWorkerWaitingDisconnect(LONG_PTR lProcessId)
{
PWAIT4STRING pIter;
EnterCriticalSection(g_lpcsGuardWaitQueue);
pIter = g_pWaitQHead;
while(pIter &&
(pIter->WaitType != WAIT_DISC ||
pIter->lProcessId != lProcessId))
{
pIter = pIter->pNext;
}
if (pIter)
{
SetEvent(pIter->evWait);
}
LeaveCriticalSection(g_lpcsGuardWaitQueue);
return (pIter != NULL);
}
/*++
* Function:
* _CheckForWorkerWaitingConnect
* Description:
* Signals a worker waiting for a connection
* Arguments:
* hwndClient - clients window handle, this is needed for
* sending messages to the client
* dwProcessId - client Id
* Return value:
* TRUE if a client is found and signaled
* Called by:
* _FeedbackWndProc within feedback thread
--*/
BOOL _CheckForWorkerWaitingConnect(HWND hwndClient, LONG_PTR lProcessId)
{
PWAIT4STRING pIter;
EnterCriticalSection(g_lpcsGuardWaitQueue);
pIter = g_pWaitQHead;
while(pIter &&
(pIter->WaitType != WAIT_CONN ||
pIter->lProcessId != lProcessId))
{
pIter = pIter->pNext;
}
if (pIter)
{
PCONNECTINFO pOwner = pIter->pOwner;
if (pOwner)
pOwner->hClient = hwndClient;
else
TRACE((WARNING_MESSAGE, "FEED: WAIT4 w/o owner structure"));
SetEvent(pIter->evWait);
}
LeaveCriticalSection(g_lpcsGuardWaitQueue);
return (pIter != NULL);
}
/*++
* Function:
* _CheckForWorkerWaitingConnectAndSetId
* Description:
* This is intended for RCLX mode. dwProcessId is zero
* so this function look for such a client and sets its dwProcessId
* Signals a worker waiting for a connection
* Arguments:
* hwndClient - clients window handle, this is needed for
* sending messages to the client
* dwProcessId - client Id
* Return value:
* connection context, NULL if not found
* Called by:
* _FeedbackWndProc within feedback thread
--*/
PCONNECTINFO
_CheckForWorkerWaitingConnectAndSetId(HWND hwndClient, LONG_PTR lProcessId)
{
PWAIT4STRING pIter;
PCONNECTINFO pOwner = NULL;
EnterCriticalSection(g_lpcsGuardWaitQueue);
pIter = g_pWaitQHead;
while(pIter &&
(pIter->WaitType != WAIT_CONN ||
pIter->lProcessId))
{
pIter = pIter->pNext;
}
if (pIter)
{
pOwner = pIter->pOwner;
if (pOwner)
{
ASSERT(pOwner->RClxMode);
pOwner->hClient = hwndClient;
pOwner->lProcessId = lProcessId;
pIter->lProcessId = lProcessId; // Disable next lookup in
// the same entry
}
else
TRACE((WARNING_MESSAGE, "FEED: WAIT4 w/o owner structure"));
SetEvent(pIter->evWait);
}
LeaveCriticalSection(g_lpcsGuardWaitQueue);
return (pOwner);
}
/*++
* Function:
* _CheckForWorkerWaitingReconnectAndSetNewId
* Description:
* This is intended for RCLX mode. When mstsc wants to reconnect
* looks for dwLookupId as an ID to reconnect
* then sets the new ID
* then gets
* Arguments:
* hwndClient - clients window handle, this is needed for
* sending messages to the client
* dwLookupId, dwNewId
* Return value:
* connection context, NULL if not found
* Called by:
* _FeedbackWndProc within feedback thread
--*/
PCONNECTINFO
_CheckForWorkerWaitingReconnectAndSetNewId(
HWND hwndClient,
DWORD dwLookupId,
LONG_PTR lNewId)
{
PWAIT4STRING pIter;
PCONNECTINFO pOwner = NULL;
EnterCriticalSection(g_lpcsGuardWaitQueue);
pIter = g_pWaitQHead;
while(pIter &&
(pIter->WaitType != WAIT_CONN ||
!pIter->pOwner ||
pIter->pOwner->dwThreadId != dwLookupId ||
!(pIter->pOwner->bWillCallAgain)))
{
pIter = pIter->pNext;
}
if (pIter)
{
pOwner = pIter->pOwner;
if (pOwner)
{
ASSERT(pOwner->RClxMode);
pOwner->hClient = hwndClient;
pOwner->lProcessId = lNewId;
pIter->lProcessId = lNewId; // Disable next lookup in
// the same entry
pOwner->bWillCallAgain = FALSE;
}
else
TRACE((WARNING_MESSAGE, "FEED: WAIT4 w/o owner structure"));
SetEvent(pIter->evWait);
}
LeaveCriticalSection(g_lpcsGuardWaitQueue);
return (pOwner);
}
/*++
* Function:
* _CancelWaitingWorker
* Description:
* Releases a worker waiting for any event.
* Eventualy the client is disconnected
* Arguments:
* dwProcessId - client Id
* Return value:
* TRUE if a client is found and signaled
* Called by:
* _FeedbackWndProc within feedback thread
--*/
BOOL _CancelWaitingWorker(LONG_PTR lProcessId)
{
PWAIT4STRING pIter;
EnterCriticalSection(g_lpcsGuardWaitQueue);
pIter = g_pWaitQHead;
while(pIter &&
pIter->lProcessId != lProcessId)
{
pIter = pIter->pNext;
}
if (pIter)
{
SetEvent(pIter->evWait);
}
LeaveCriticalSection(g_lpcsGuardWaitQueue);
return (pIter != NULL);
}
/*++
* Function:
* _CheckForWorkerWaitingClipboard
* Description:
* Releases a worker waiting for client's clipboard content.
* Arguments:
* dwProcessId - client Id
* Return value:
* TRUE if a client is found and signaled
* Called by:
* _FeedbackWndProc within feedback thread
--*/
BOOL _CheckForWorkerWaitingClipboard(
PCONNECTINFO pRClxOwner,
UINT uiFormat,
UINT nSize,
PVOID pClipboard,
LONG_PTR lProcessId)
{
PWAIT4STRING pIter = NULL;
HGLOBAL ghNewClipboard = NULL;
LPVOID pNewClipboard = NULL;
ASSERT(pRClxOwner);
TRACE((ALIVE_MESSAGE, "Clipboard received, FormatID=%d, Size=%d\n",
uiFormat, nSize));
if (nSize)
{
// Copy the clipboard content to new buffer
ghNewClipboard = GlobalAlloc(GMEM_MOVEABLE|GMEM_DDESHARE, nSize);
if (!ghNewClipboard)
{
TRACE((ERROR_MESSAGE, "_CheckForWorkerWaitingClipboard: can't allocate %d bytes\n", nSize));
goto exitpt;
}
pNewClipboard = GlobalLock(ghNewClipboard);
if (!pNewClipboard)
{
TRACE((ERROR_MESSAGE, "_CheckForWorkerWaitingClipboard: can't lock global memory\n"));
goto exitpt;
}
memcpy(pNewClipboard, pClipboard, nSize);
// Unlock the clipboard buffer
GlobalUnlock(ghNewClipboard);
pNewClipboard = NULL;
} else {
pClipboard = NULL;
}
EnterCriticalSection(g_lpcsGuardWaitQueue);
pIter = g_pWaitQHead;
while(pIter &&
(pIter->lProcessId != lProcessId ||
pIter->WaitType != WAIT_CLIPBOARD))
{
pIter = pIter->pNext;
}
if (pIter)
{
PCONNECTINFO pOwner = pIter->pOwner;
// Put the buffer in the worker's context
if (pOwner)
{
ASSERT(pOwner->RClxMode);
ASSERT(pOwner == pRClxOwner);
// pOwner->ghClipboard should be NULL
ASSERT(pOwner->ghClipboard == NULL);
pOwner->ghClipboard = ghNewClipboard;
pOwner->uiClipboardFormat = uiFormat;
pOwner->nClipboardSize = nSize;
}
else
TRACE((WARNING_MESSAGE, "FEED: WAIT4 w/o owner structure"));
SetEvent(pIter->evWait);
} else {
// Can't find anybody waiting, add it to the context owner
pRClxOwner->ghClipboard = ghNewClipboard;
pRClxOwner->uiClipboardFormat = uiFormat;
pRClxOwner->nClipboardSize = nSize;
}
pRClxOwner->bRClxClipboardReceived = TRUE;
LeaveCriticalSection(g_lpcsGuardWaitQueue);
exitpt:
if (!pIter)
// worker not found, clear the allocated buffer
{
if (ghNewClipboard)
GlobalFree(ghNewClipboard);
}
return (pIter != NULL);
}
BOOL
_SetSessionID(LONG_PTR lProcessId, UINT uSessionId)
{
PCONNECTINFO pIter, pPrev = NULL;
EnterCriticalSection(g_lpcsGuardWaitQueue);
pIter = g_pClientQHead;
while (pIter &&
pIter->lProcessId != lProcessId)
pIter = pIter->pNext;
if (pIter)
pIter->uiSessionId = (uSessionId)?uSessionId:-1;
LeaveCriticalSection(g_lpcsGuardWaitQueue);
return (pIter != NULL);
}