Leaked source code of windows server 2003
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/*==========================================================================
*
* Copyright (C) 2000 Microsoft Corporation. All Rights Reserved.
*
* File: DPLMsgQ.h
* Content: DirectPlay Lobby Message Queues Header File
*@@BEGIN_MSINTERNAL
* History:
* Date By Reason
* ==== == ======
* 02/21/00 mjn Created
* 04/26/00 mjn Fixed AddData() to return HRESULT
* 07/07/2000 rmt
*@@END_MSINTERNAL
*
***************************************************************************/
#ifndef __DPLMSGQ_H__
#define __DPLMSGQ_H__
//**********************************************************************
// Constant definitions
//**********************************************************************
//
// Message Queue Object IDs
//
#define DPL_MSGQ_OBJECT_IDCHAR_FILEMAP _T('F')
#define DPL_MSGQ_OBJECT_IDCHAR_MUTEX _T('M')
#define DPL_MSGQ_OBJECT_IDCHAR_EVENT _T('E')
#define DPL_MSGQ_OBJECT_IDCHAR_EVENT2 _T('V')
#define DPL_MSGQ_OBJECT_IDCHAR_SEMAPHORE _T('S')
//
// Message Queue Object Suffixes
//
#define DPL_MSGQ_OBJECT_SUFFIX_CLIENT _T('C')
#define DPL_MSGQ_OBJECT_SUFFIX_APPLICATION _T('A')
//
// Message Queue Flags
//
#define DPL_MSGQ_FLAG_AVAILABLE 0x00001
#define DPL_MSGQ_FLAG_RECEIVING 0x00010
#define DPL_MSGQ_OPEN_FLAG_NO_CREATE 0x10000
//
// Message Queue File Size
//
// Increased so user can send a 64K message
#define DPL_MSGQ_SIZE 0x010030
//
// Internal Message IDs
//
#define DPL_MSGQ_MSGID_SEND 0x0001
#define DPL_MSGQ_MSGID_TERMINATE 0x0003
#define DPL_MSGQ_MSGID_IDLE 0x0004
#define DPL_MSGQ_MSGFLAGS_QUEUESYSTEM 0x0001
#define DPL_MSGQ_MSGFLAGS_USER1 0x0002
#define DPL_MSGQ_MSGFLAGS_USER2 0x0004
#define DPL_MSGQ_SIGNATURE 'QMLD'
#undef DPF_SUBCOMP
#define DPF_SUBCOMP DN_SUBCOMP_LOBBY
//**********************************************************************
// Macro definitions
//**********************************************************************
//**********************************************************************
// Structure definitions
//**********************************************************************
#pragma pack(push,4)
//
// Message Queue File Map Info
//
typedef struct _DPL_MSGQ_INFO
{
DWORD dwFlags; // Queue usage flags
DWORD dwStartOffset;
DWORD dwEndOffset;
DWORD dwFreeBytes;
DWORD dwQueueSize;
LONG lRefCount; // Number of connections
} DPL_MSGQ_INFO, *PDPL_MSGQ_INFO;
//
// Message Queue Send Message
//
typedef struct _DPL_MSGQ_SEND
{
DWORD dwCurrentSize; // Size of this frame (in BYTES)
DWORD dwTotalSize; // Total size of message
DWORD dwMsgId; // Message ID
DPNHANDLE hSender;
DWORD dwFlags;
DWORD dwCurrentOffset; // Offset of this frame in message
} DPL_MSGQ_HEADER, *PDPL_MSGQ_HEADER;
//
// Message Queue Terminate Message
//
typedef struct _DPL_MSGQ_TERMINATE
{
DWORD dwMsgId;
} DPL_MSGQ_TERMINATE, *PDPL_MSGQ_TERMINATE;
#pragma pack(pop)
//
// Message Handler Callback
//
typedef HRESULT (*PFNDPLMSGQMESSAGEHANDLER)(PVOID,const DPNHANDLE,DWORD, BYTE *const,const DWORD);
//**********************************************************************
// Variable definitions
//**********************************************************************
//**********************************************************************
// Function prototypes
//**********************************************************************
BOOL DPLIsApplicationAvailable(const DWORD dwPid);
HRESULT DPLMakeApplicationUnavailable(const DWORD dwPid);
DWORD WINAPI DPLProcessMessageQueue(PVOID pvReceiveQueue);
//**********************************************************************
// Class prototypes
//**********************************************************************
class CMessageQueue
{
public:
CMessageQueue()
{
m_dwPID = 0;
m_hFileMap = NULL;
m_hEvent = NULL;
m_hMutex = NULL;
m_hSemaphore = NULL;
m_pFileMapAddress = NULL;
m_pInfo = NULL;
m_pvContext = NULL;
m_pfnMessageHandler = NULL;
m_hSender = 0xFFFFFFFF;
m_hReceiveThreadRunningEvent = NULL;
m_dwIdleTimeout = INFINITE;
};
// ~CMessageQueue() { };
#undef DPF_MODNAME
#define DPF_MODNAME "CMessageQueue::SetMessageHandler"
void CMessageQueue::SetMessageHandler(PVOID pvContext,PFNDPLMSGQMESSAGEHANDLER pfn )
{
DNASSERT(pfn != NULL);
m_pvContext = pvContext;
m_pfnMessageHandler = pfn;
};
void CMessageQueue::SetSenderHandle(DPNHANDLE hSender)
{
m_hSender = hSender;
};
#undef DPF_MODNAME
#define DPF_MODNAME "CMessageQueue::CallMessageHandler"
HRESULT CMessageQueue::CallMessageHandler(const DPNHANDLE hSender,
DWORD dwMessageFlags,
BYTE *const pBuffer,
const DWORD dwBufferSize)
{
DNASSERT(m_pfnMessageHandler != NULL);
return((m_pfnMessageHandler)(m_pvContext,hSender,dwMessageFlags,pBuffer,dwBufferSize));
};
HRESULT CMessageQueue::Open(const DWORD dwPID,
const TCHAR cSuffix,
const DWORD dwQueueSize,
const DWORD dwIdleTimeout,
const DWORD dwFlags
);
void CMessageQueue::Close(void);
LONG CMessageQueue::GetRefCount(void)
{
DWORD lRefCount;
if (m_pInfo == NULL)
return(0);
Lock();
lRefCount = m_pInfo->lRefCount;
Unlock();
return(lRefCount);
};
HRESULT CMessageQueue::AddData(BYTE *const pBuffer,
const DWORD dwSize);
HRESULT CMessageQueue::Send(BYTE *const pBuffer,
const DWORD dwSize,
const DWORD dwTimeOut,
const DWORD dwMessageFlags,
const DWORD dwFlags);
#undef DPF_MODNAME
#define DPF_MODNAME "CMessageQueue::Lock"
void CMessageQueue::Lock(void)
{
DNASSERT(m_hMutex != NULL);
DNWaitForSingleObject(m_hMutex,INFINITE);
};
#undef DPF_MODNAME
#define DPF_MODNAME "CMessageQueue::Unlock"
void CMessageQueue::Unlock(void)
{
DNASSERT(m_hMutex != NULL);
DNReleaseMutex(m_hMutex);
};
#undef DPF_MODNAME
#define DPF_MODNAME "CMessageQueue::WaitForMessages"
DWORD CMessageQueue::WaitForMessages(void)
{
DNASSERT(m_hSemaphore != NULL);
return DNWaitForSingleObject(m_hSemaphore,m_dwIdleTimeout);
};
#undef DPF_MODNAME
#define DPF_MODNAME "CMessageQueue::IndicateMessage"
void CMessageQueue::IndicateMessage(void)
{
DNASSERT(m_hSemaphore != NULL);
DNReleaseSemaphore(m_hSemaphore,1,NULL);
};
#undef DPF_MODNAME
#define DPF_MODNAME "CMessageQueue::WaitForConsumption"
BOOL CMessageQueue::WaitForConsumption(const DWORD dwTimeOut)
{
DWORD dwError;
DNASSERT(m_hEvent != NULL);
dwError = DNWaitForSingleObject(m_hEvent,dwTimeOut);
if (dwError==WAIT_OBJECT_0)
{
return(TRUE);
}
return(FALSE);
};
#undef DPF_MODNAME
#define DPF_MODNAME "CMessageQueue::IndicateConsumption"
void CMessageQueue::IndicateConsumption(void)
{
DNASSERT(m_hEvent != NULL);
//DNSetEvent(m_hEvent); // Will auto-reset (i.e. pulse)
DNReleaseSemaphore( m_hEvent, 1, NULL );
};
#undef DPF_MODNAME
#define DPF_MODNAME "CMessageQueue::MakeAvailable"
void CMessageQueue::MakeAvailable(void)
{
DNASSERT(m_pInfo != NULL);
Lock();
m_pInfo->dwFlags |= DPL_MSGQ_FLAG_AVAILABLE;
Unlock();
};
#undef DPF_MODNAME
#define DPF_MODNAME "CMessageQueue::MakeUnavailable"
HRESULT CMessageQueue::MakeUnavailable(void)
{
HRESULT hResultCode;
DNASSERT(m_pInfo != NULL);
Lock();
if (m_pInfo->dwFlags & DPL_MSGQ_FLAG_AVAILABLE)
{
m_pInfo->dwFlags &= (~DPL_MSGQ_FLAG_AVAILABLE);
hResultCode = DPN_OK;
}
else
{
hResultCode = DPNERR_ALREADYCONNECTED;
}
Unlock();
return(hResultCode);
};
#undef DPF_MODNAME
#define DPF_MODNAME "CMessageQueue::MakeReceiving"
void CMessageQueue::MakeReceiving(void)
{
DNASSERT(m_pInfo != NULL);
Lock();
m_pInfo->dwFlags |= DPL_MSGQ_FLAG_RECEIVING;
Unlock();
DNSetEvent(m_hReceiveThreadRunningEvent);
};
#undef DPF_MODNAME
#define DPF_MODNAME "CMessageQueue::MakeNotReceiving"
void CMessageQueue::MakeNotReceiving(void)
{
DNASSERT(m_pInfo != NULL);
DNResetEvent(m_hReceiveThreadRunningEvent);
Lock();
m_pInfo->dwFlags &= (~DPL_MSGQ_FLAG_RECEIVING);
Unlock();
};
#undef DPF_MODNAME
#define DPF_MODNAME "CMessageQueue::WaitForReceiveThread"
BOOL CMessageQueue::WaitForReceiveThread(const DWORD dwTimeOut)
{
DWORD dwError;
DNASSERT(m_hEvent != NULL);
dwError = DNWaitForSingleObject(m_hReceiveThreadRunningEvent,dwTimeOut);
if (dwError==WAIT_OBJECT_0)
{
return(TRUE);
}
return(FALSE);
};
#undef DPF_MODNAME
#define DPF_MODNAME "CMessageQueue::IsOpen"
BOOL CMessageQueue::IsOpen(void) const
{
if (m_hFileMap!= NULL) return(TRUE);
else return(FALSE);
};
#undef DPF_MODNAME
#define DPF_MODNAME "CMessageQueue::IsAvailable"
BOOL CMessageQueue::IsAvailable(void) const
{
DNASSERT(m_pInfo != NULL);
if (m_pInfo->dwFlags & DPL_MSGQ_FLAG_AVAILABLE)
return(TRUE);
else
return(FALSE);
};
#undef DPF_MODNAME
#define DPF_MODNAME "CMessageQueue::IsReceiving"
BOOL CMessageQueue::IsReceiving(void) const
{
DNASSERT(m_pInfo != NULL);
if (m_pInfo->dwFlags & DPL_MSGQ_FLAG_RECEIVING)
return(TRUE);
else
return(FALSE);
};
HRESULT GetNextMessage( PDPL_MSGQ_HEADER pMsgHeader, PBYTE pbPayload, DWORD *pdwBufferSize );
/*
#undef DPF_MODNAME
#define DPF_MODNAME "CMessageQueue::Realign"
void CMessageQueue::Realign(void)
{
DNASSERT(m_pInfo != NULL);
m_pInfo->dwFirstMsgOffset = 0;
m_pInfo->dwFreeSpaceAtEnd = m_pInfo->dwTotalUsableSpace
- (m_pInfo->dwNextFreeOffset - m_pInfo->dwFirstMsgOffset);
m_pInfo->dwTotalFreeSpace = m_pInfo->dwFreeSpaceAtEnd;
};*/
void CMessageQueue::Terminate(void);
private:
// GetData
//
// Get dwSize bytes from the queue. If the queue is empty this function will return
// DPNERR_DOESNOTEXIST. Once this function returns the dwSize bytes will be consumed
//
// Needs LOCK()
//
HRESULT GetData( BYTE *pbData, DWORD dwSize );
// Consume
//
// Marks dwSize bytes as consumed
//
// Needs LOCK()
void Consume( const DWORD dwSize );
DWORD m_dwSig; // Signature (ensure initialized)
DWORD m_dwPID; // Queue PID
PBYTE m_pFileMapAddress; // File Mapping address
DPL_MSGQ_INFO *m_pInfo; // Message queue file mapping info
PBYTE m_pData; // Message data starts here
DNHANDLE m_hReceiveThreadRunningEvent;
// Notes:
// Each message queue has four shared memory items: file map, mutex, event, semaphore.
// The file map is a circular queue of messages.
// The mutex controls access to the file map.
// The event signals when an item has been taken off the queue by the consumer.
// The semaphore indicates to the consumer that there are messages in the queue
DNHANDLE m_hFileMap; // File Mapping handle
DNHANDLE m_hMutex; // Mutex handle
DNHANDLE m_hEvent; // Event handle
DNHANDLE m_hSemaphore; // Semaphore handle
PFNDPLMSGQMESSAGEHANDLER m_pfnMessageHandler;
PVOID m_pvContext;
DPNHANDLE m_hSender; // For all SEND messages
DWORD m_dwIdleTimeout; // Amount of time between idle messages
};
#undef DPF_MODNAME
#endif // __DPLMSGQ_H__