Leaked source code of windows server 2003
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/**********************************************************************
Copyright (c) 1992-1999 Microsoft Corporation
drvproc.c
DESCRIPTION:
Driver procedure for the Midi Mapper.
HISTORY:
06/09/93 [t-kyleb] created.
*********************************************************************/
#include "preclude.h"
#include <windows.h>
#include <windowsx.h>
#include <mmsystem.h>
#include <mmddk.h>
#include "idf.h"
#include <memory.h>
#include "midimap.h"
#include "debug.h"
//=========================== Globals ======================================
//
PCHANNEL gapChannel[MAX_CHANNELS] = {NULL};
WORD gwConfigWhere = 0;
UINT gcPorts = 0;
WORD gwFlags = 0;
HINSTANCE ghinst = NULL;
PPORT gpportList = NULL;
PINSTANCE gpinstanceList = NULL;
PINSTANCE gpIoctlInstance = NULL;
PINSTRUMENT gpinstrumentList = NULL;
QUEUE gqFreeSyncObjs;
HMIDISTRM ghMidiStrm = NULL;
TCHAR szVersion[] = TEXT (__DATE__)
TEXT ("@")
TEXT (__TIME__);
DWORD gdwVolume = 0xFFFFFFFFL;
HANDLE hMutexRefCnt = NULL;
static const TCHAR gszRefCnt[] = TEXT ("MidiMapper_modLongMessage_RefCnt");
HANDLE hMutexConfig = NULL;
static const TCHAR gszReconfigure[] = TEXT("MidiMapper_Reconfig");
//=========================== Prototypes ===================================
//
PRIVATE LRESULT FNLOCAL GetMapperStatus(
LPMAPPERSTATUS lpStat);
/***************************************************************************
@doc INTERNAL
@api LRESULT | DriverProc | The entry point for an installable driver.
@parm DWORD | dwID | For most messages, <p dwID> is the DWORD value
that the driver returns in response to a <m DRV_OPEN> message.
Each time that the driver is opened, through the <f DrvOpen> API,
the driver receives a <m DRV_OPEN> message and can return an
arbitrary, non-zero value. The installable driver interface
saves this value and returns a unique driver handle to the
application. Whenever the application sends a message to the
driver using the driver handle, the interface routes the message
to this entry point and passes the corresponding <p dwID>.
This mechanism allows the driver to use the same or different
identifiers for multiple opens but ensures that driver handles
are unique at the application interface layer.
The following messages are not related to a particular open
instance of the driver. For these messages, the dwID will always
be zero.
DRV_LOAD, DRV_FREE, DRV_ENABLE, DRV_DISABLE, DRV_OPEN
@parm HDRVR | hdrvr | This is the handle returned to the application
by the driver interface.
@parm UINT | umsg | The requested action to be performed. Message
values below <m DRV_RESERVED> are used for globally defined messages.
Message values from <m DRV_RESERVED> to <m DRV_USER> are used for
defined driver protocols. Messages above <m DRV_USER> are used
for driver specific messages.
@parm LPARAM | lParam1 | Data for this message. Defined separately for
each message
@parm LPARAM | lParam2 | Data for this message. Defined separately for
each message
@rdesc Defined separately for each message.
****************************************************************************/
LRESULT FNEXPORT DriverProc(
DWORD_PTR dwID,
HDRVR hdrvr,
UINT umsg,
LPARAM lParam1,
LPARAM lParam2)
{
//
// NOTE DS is not valid here.
//
switch (umsg)
{
case DRV_LOAD:
return(1L);
case DRV_FREE:
return(0L);
case DRV_OPEN:
case DRV_CLOSE:
return(1L);
case DRV_ENABLE:
// Prevent Synchronization problems
// During Configuration
if (NULL != hMutexConfig)
WaitForSingleObject (hMutexConfig, INFINITE);
SET_ENABLED;
DPF(1, TEXT ("Enable!"));
Configure(0);
if (NULL != hMutexConfig)
ReleaseMutex (hMutexConfig);
return(0L);
case DRV_DISABLE:
CLR_ENABLED;
return(0L);
case DRV_INSTALL:
case DRV_REMOVE:
// If the user installs or removes the driver then let them
// know that they will have to restart.
//
return((LRESULT)DRVCNF_RESTART);
case DRV_ENABLE_DEBUG:
return(DbgEnable((BOOL)lParam1));
case DRV_SET_DEBUG_LEVEL:
return(DbgSetLevel((UINT)lParam1));
case DRV_GETMAPPERSTATUS:
return GetMapperStatus((LPMAPPERSTATUS)lParam1);
#ifdef DEBUG
case DRV_REGISTERDEBUGCB:
DbgRegisterCallback((HWND)lParam1);
return 1L;
case DRV_GETNEXTLOGENTRY:
return (LRESULT)DbgGetNextLogEntry((LPTSTR)lParam1, (UINT)lParam2);
#endif
// Let the default handler handle everything else.
//
default:
DPF(1, TEXT ("DriverProc unsupported=%08lX"), (DWORD)umsg);
return(DefDriverProc(dwID, hdrvr, umsg, lParam1, lParam2));
}
} //** DriverProc()
/***************************************************************************
@doc internal
@api LRESULT | GetMapperStatus | Return information about the current
mapper setup to a debug application.
@parm LPMAPPERSTATUS | lpStat | Pointer to a structure to receive
the mapper information. lpStat->cbStruct must be filled in.
@rdesc | Always returns 0;
***************************************************************************/
PRIVATE LRESULT FNLOCAL GetMapperStatus(
LPMAPPERSTATUS lpStat)
{
MAPPERSTATUS stat;
if (lpStat->cbStruct < sizeof(stat))
DPF(1, TEXT ("MAPPERSTATUS struct too small -- recompile MAPWATCH!!!"));
stat.cbStruct = lpStat->cbStruct;
// stat.DS = __segname("_DATA");
stat.ghinst = ghinst;
stat.gwFlags = gwFlags;
stat.gwConfigWhere = gwConfigWhere;
stat.pgapChannel = gapChannel;
stat.gpportList = gpportList;
stat.gpinstanceList = gpinstanceList;
stat.gpinstrumentList = gpinstrumentList;
stat.lpszVersion = szVersion;
hmemcpy(lpStat, &stat, (UINT)lpStat->cbStruct);
return 0;
}
/***************************************************************************
@doc internal
@api BOOL | DllEntryPoint | Entry point for the DLL
@parm HINSTANCE | hinstDLL | handle of DLL module
@parm DWORD | fdwReason | Why function was called
@parm LPVOID | lpvReserved | Reserved = must be NULL
@rdesc | Should always return TRUE for success.
***************************************************************************/
BOOL WINAPI DllEntryPoint(
HINSTANCE hinstDLL,
DWORD fdwReason,
LPVOID lpvReserved)
{
static TCHAR BCODE szSection[] = TEXT ("MIDIMAP");
static TCHAR BCODE szSystemIni[] = TEXT ("system.ini");
static HANDLE hThread = NULL;
DWORD dw;
switch (fdwReason)
{
case DLL_PROCESS_ATTACH:
#ifdef DEBUG
{
UINT uDebugLevel;
uDebugLevel = DbgInitialize(TRUE);
DPF(0, TEXT ("DllEntryPoint - DLL_PROCESS_ATTACH (hinstDLL=%.4Xh, lpvReserved=%.08lXh)"),
hinstDLL, lpvReserved);
DPF(0, TEXT ("Debug Level = %u"), uDebugLevel);
if (2 <= uDebugLevel)
DebugBreak();
}
#endif
// Save our instance handle in a global.
//
ghinst = hinstDLL;
// Initialize Synchronization object
//
QueueInit(&gqFreeSyncObjs);
// Initialize modLongMessage RefCnt Synchronization Object
hMutexRefCnt = CreateMutex (NULL, FALSE, gszRefCnt);
// Initialize Configure Synchronization Object
hMutexConfig = CreateMutex (NULL, FALSE, NULL);
break;
case DLL_THREAD_ATTACH:
#ifdef DEBUG
DPF(0, TEXT ("DllEntryPoint - DLL_THREAD_ATTACH (hinstDLL=%.4Xh, lpvReserved=%.08lXh)"),
hinstDLL, lpvReserved);
#endif
break;
case DLL_THREAD_DETACH:
#ifdef DEBUG
DPF(0, TEXT ("DllEntryPoint - DLL_THREAD_DETACH (hinstDLL=%.4Xh, lpvReserved=%.08lXh)"),
hinstDLL, lpvReserved);
#endif
break;
case DLL_PROCESS_DETACH:
// Cleanup Configure Synchronization Object
//
if (NULL != hMutexConfig) CloseHandle (hMutexConfig);
// Cleanup modLongMessage RefCnt Synchronization Object
//
if (NULL != hMutexRefCnt) CloseHandle (hMutexRefCnt);
// Cleanup Synchronization object
//
QueueCleanup(&gqFreeSyncObjs);
// cleanup instance handle
//
ghinst = NULL;
#ifdef DEBUG
DPF(0, TEXT ("DllEntryPoint - DLL_PROCESS_DETACH (hinstDLL=%.4Xh, lpvReserved=%.08lXh)"),
hinstDLL, lpvReserved);
#endif
break;
} // End switch (fdwReason)
return TRUE;
} // End DllEntryPoint