Leaked source code of windows server 2003
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/**********************************************************************
Copyright (c) 1992-1999 Microsoft Corporation
modmsg.c
DESCRIPTION:
Non-fixed code for doing output mapping. Keep out of the reach
of children. This prescription may be refilled twice. May cause
temporary distortion of reality in your vicinity.
HISTORY:
02/21/94 [jimge] created.
*********************************************************************/
#include "preclude.h"
#include <windows.h>
#include <windowsx.h>
#include <mmsystem.h>
#include <mmddk.h>
#include "idf.h"
#include <mmreg.h>
#include <memory.h>
#include "midimap.h"
#include "res.h"
#include "debug.h"
//=========================== Globals ======================================
//
extern HANDLE hMutexConfig; // Located in DRVPROC.C
BOOL gfReconfigured = FALSE;
//=========================== Prototypes ===================================
//
PRIVATE MMRESULT FNLOCAL SendChannelInitString(
HMIDIOUT hmidi,
PBYTE pbinit,
DWORD cbinit);
/***************************************************************************
@doc internal
@api DWORD | modGetDevCaps | Handles the MODM_GETDEVCAPS message.
@parm LPMIDIOUTCAPS | pmoc | Pointer to a caps structure to fill in.
@parm DWORD | cbmoc | How big the caller thinks the structure is.
@rdesc Some MMSYSERR_xxx code.
***************************************************************************/
DWORD FNGLOBAL modGetDevCaps(
LPMIDIOUTCAPS pmoc,
DWORD cbmoc)
{
MIDIOUTCAPS moc;
MIDIOUTCAPS mocWork;
DWORD cbCopy;
WORD wMask;
UINT idx;
MMRESULT mmr;
PPORT pport;
moc.wMid = MM_MICROSOFT;
moc.wPid = MM_MIDI_MAPPER;
moc.vDriverVersion = 0x0500;
LoadString(ghinst, IDS_MIDIMAPPER, moc.szPname, sizeof(moc.szPname)/sizeof(moc.szPname[0]));
moc.wTechnology = MOD_MAPPER;
moc.wVoices = 0;
moc.wNotes = 0;
moc.wChannelMask = 0;
wMask = 1;
for (idx = 0; idx < MAX_CHANNELS; idx++)
{
if (gapChannel[idx])
moc.wChannelMask |= wMask;
wMask <<= 1;
}
// If any underlying device supports cache patches, we must support it.
// Only support volume or lrvolume, however, if ALL devices support it.
//
do
{
gfReconfigured = FALSE;
moc.dwSupport = MIDICAPS_STREAM|MIDICAPS_VOLUME|MIDICAPS_LRVOLUME;
for (pport = gpportList; pport; pport=pport->pNext)
{
mmr = midiOutGetDevCaps(pport->uDeviceID, &mocWork, sizeof(mocWork));
// This prevents a corrupt gpportList in the event of a pnp event
// during a midiOutGetDevCaps call...
if (gfReconfigured)
break;
if (MMSYSERR_NOERROR != mmr)
continue;
if (!(mocWork.dwSupport & MIDICAPS_LRVOLUME))
moc.dwSupport &= ~MIDICAPS_LRVOLUME;
if (!(mocWork.dwSupport & MIDICAPS_VOLUME))
moc.dwSupport &= ~(MIDICAPS_VOLUME|MIDICAPS_LRVOLUME);
moc.dwSupport |= (mocWork.dwSupport & MIDICAPS_CACHE);
}
}
while (gfReconfigured);
CLR_ALLOWVOLUME;
if (moc.dwSupport & MIDICAPS_VOLUME)
SET_ALLOWVOLUME;
CLR_ALLOWCACHE;
if (moc.dwSupport & MIDICAPS_CACHE)
SET_ALLOWCACHE;
cbCopy = min(cbmoc, sizeof(moc));
hmemcpy((LPSTR)pmoc, (LPSTR)&moc, cbCopy);
return MMSYSERR_NOERROR;
}
/***************************************************************************
@doc internal
@api DWORD | modOpen | Handles the MODM_OPEN message.
@parm LPDWORD | lpdwInstance | Points to a DWORD where we can store
our instance data. We save our PINSTANCE here.
@parm LPMIDIOPENDESC | lpmidiopendesc | Points to parameters from
MMSYSTEM describing the caller's callback, etc.
@parm DWORD | fdwOpen | Flags describing the callback type.
@rdesc Some MMSYSERR_xxx code.
***************************************************************************/
DWORD FNGLOBAL modOpen(
PDWORD_PTR lpdwInstance,
LPMIDIOPENDESC lpmidiopendesc,
DWORD fdwOpen)
{
PINSTANCE pinstance = NULL;
PPORT pport;
MMRESULT mmrc = MMSYSERR_NOERROR;
UINT idx;
UINT idx2;
UINT auDeviceID[MAX_CHANNELS];
// Open in MIDI_IO_CONTROL -- only allows reconfigure message. This MUST
// ALWAYS succeed so we have a chance of recovery on reconfigure no matter
// how badly messed up the old config was.
//
if (!(fdwOpen & MIDI_IO_CONTROL))
{
if (IS_DEVSOPENED)
return MMSYSERR_ALLOCATED;
// Mapper is single instance now
//
assert(NULL == gpinstanceList);
}
else
{
if (NULL != gpIoctlInstance)
return MMSYSERR_ALLOCATED;
}
#ifdef DEBUG
if (fdwOpen & MIDI_IO_COOKED)
DPF(2, TEXT ("Mapper opened in polymsg mode!!!"));
#endif
// Alloc this zero-init so all the initial channel mappings in
// rgpChannel are NULL.
//
if (NULL == (pinstance = (PINSTANCE)LocalAlloc(LPTR, sizeof(INSTANCE))))
return MMSYSERR_NOMEM;
pinstance->hmidi = lpmidiopendesc->hMidi;
pinstance->dwCallback = lpmidiopendesc->dwCallback;
pinstance->dwInstance = lpmidiopendesc->dwInstance;
pinstance->fdwOpen = fdwOpen;
// Create Translation buffer
if (! InitTransBuffer (pinstance))
{
LocalFree ((HGLOBAL)pinstance);
return MMSYSERR_NOMEM;
}
if (fdwOpen & MIDI_IO_CONTROL)
{
*lpdwInstance = (DWORD_PTR)pinstance;
gpIoctlInstance = pinstance;
DriverCallback(
pinstance->dwCallback,
HIWORD(pinstance->fdwOpen),
(HDRVR)(pinstance->hmidi),
MM_MOM_OPEN,
pinstance->dwInstance,
0L,
0L);
return MMSYSERR_NOERROR;
}
DPF(2, TEXT ("modOpen pinstance %04X"), (WORD)pinstance);
*lpdwInstance = 0; // Assume failure
if (IS_CONFIGERR)
{
DPF(1, TEXT ("Open failed because configuration invalid"));
mmrc = MIDIERR_NOMAP;
goto midi_Out_Open_Cleanup;
}
if (fdwOpen & MIDI_IO_COOKED)
{
// Build list of device ID's (stream id's emuerate ports) and
// assign stream id's to channels.
//
for (idx = 0, pport = gpportList; pport; idx++,pport=pport->pNext)
{
auDeviceID[idx] = pport->uDeviceID;
for (idx2 = 0; idx2 < MAX_CHANNELS; idx2++)
if (gapChannel[idx2] && gapChannel[idx2]->pport == pport)
gapChannel[idx2]->dwStreamID = (DWORD)idx;
}
// Attempt to open.
//
mmrc = midiStreamOpen(&ghMidiStrm, auDeviceID, idx, (DWORD_PTR)modmCallback, 0L, CALLBACK_FUNCTION);
// Fall through to cleanup code
//
}
else
{
// Run through the port list and try to open all referenced ports
//
for (pport = gpportList; pport; pport=pport->pNext)
{
if (NULL == pport->hmidi)
{
mmrc = midiOutOpen(&pport->hmidi,
pport->uDeviceID,
(DWORD_PTR)modmCallback,
(DWORD_PTR)pport,
CALLBACK_FUNCTION|MIDI_IO_SHARED);
if (MMSYSERR_NOERROR != mmrc)
{
DPF(1, TEXT ("Could not open pport %04X device %u"), (WORD)pport, pport->uDeviceID);
// Just in case....
//
pport->hmidi = NULL;
for (pport = gpportList; pport; pport=pport->pNext)
if (NULL != pport->hmidi)
{
midiOutClose(pport->hmidi);
pport->hmidi = NULL;
}
// Return whatever caused the underlying open to fail
//
break;
}
}
}
}
midi_Out_Open_Cleanup:
if (MMSYSERR_NOERROR != mmrc)
{
// Cleanup
CleanupTransBuffer (pinstance);
if (pinstance) LocalFree((HLOCAL)pinstance);
return mmrc;
}
gdwVolume = 0xFFFFFFFFL;
SET_DEVSOPENED;
// We've succeeded; put the instance into the global instance list
// and return it as our instance data.
//
pinstance->pNext = gpinstanceList;
gpinstanceList = pinstance;
*lpdwInstance = (DWORD_PTR)pinstance;
// Lock the segments we need. If we're doing packed mode mapping,
// we don't need the cooked mode segment in memory. However, the
// cooked mode mapper DOES call the packed routines, so we need to
// lock both in that case.
//
if (fdwOpen & MIDI_IO_COOKED)
{
LockMapperData();
LockPackedMapper();
LockCookedMapper();
}
else
{
LockMapperData();
LockPackedMapper();
}
// Do the (useless) callback
//
DriverCallback(
pinstance->dwCallback,
HIWORD(pinstance->fdwOpen),
(HDRVR)(pinstance->hmidi),
MM_MOM_OPEN,
pinstance->dwInstance,
0L,
0L);
return MMSYSERR_NOERROR;
}
/***************************************************************************
@doc internal
@api DWORD | modPrepare | Handles the MODM_PREPARE message.
@parm LPMIDIHDR | lpmh | The user header to prepare.
@rdesc Some MMSYSERR_xxx code.
@comm
Create some shadow headers.
For the case of mapper opened for stream
we only require one shadow header that we can pass along to our
mapped-to stream. We need this because the mapped-to stream and
the mapped-from stream will both want to use the dwReserved[]
fields in the MIDIHDR.
For the case of mapper opened not-for-stream
This must be a long message header that we want to propogate to all
ports. Therefore we have gcPorts shadow headers and each one is
prepared on one node of the global port list.
In either case, we return MMSYSERR_NOTSUPPORTED on success so that
MMSYSTEM will take its default action and page lock the user MIDIHDR
for us.
***************************************************************************/
DWORD FNGLOBAL modPrepare(
LPMIDIHDR lpmh)
{
LPMIDIHDR lpmhNew;
LPMIDIHDR lpmhWork;
MMRESULT mmrcRet = MMSYSERR_NOERROR;
PPORT pport;
PPORT pportWork;
PSHADOWBLOCK psb = NULL;
psb = (PSHADOWBLOCK)LocalAlloc(LPTR, sizeof(*psb));
if (NULL == psb)
{
mmrcRet = MMSYSERR_NOMEM;
goto modPrepare_Cleanup;
}
psb->cRefCnt = 0;
psb->dwBufferLength = lpmh->dwBufferLength;
if (ghMidiStrm)
{
psb->lpmhShadow = (LPMIDIHDR)GlobalAllocPtr(
GMEM_MOVEABLE|GMEM_SHARE,
sizeof(*lpmhNew));
if (NULL == psb->lpmhShadow)
{
mmrcRet = MMSYSERR_NOMEM;
goto modPrepare_Cleanup;
}
lpmhNew = psb->lpmhShadow;
*lpmhNew = *lpmh;
lpmhNew->dwReserved[MH_SHADOWEE] = (DWORD_PTR)lpmh;
lpmh->dwReserved[MH_SHADOW] = (DWORD_PTR)psb;
lpmhNew->dwFlags |= MHDR_SHADOWHDR;
mmrcRet = midiOutPrepareHeader((HMIDIOUT)ghMidiStrm,
lpmhNew,
sizeof(*lpmhNew));
if (MMSYSERR_NOERROR != mmrcRet)
lpmh->dwReserved[MH_SHADOW] = 0;
}
else
{
LPMIDIHDR31 lpmh31 = (LPMIDIHDR31)lpmh;
// Prepare shadow headers for sending to multiple non-stream
// drivers
//
// NOTE: The parent header is a 3.1 style header; the children
// are 4.0 and thus are longer.
//
psb->lpmhShadow = (LPMIDIHDR)GlobalAllocPtr(
GMEM_MOVEABLE|GMEM_SHARE|GMEM_ZEROINIT,
sizeof(*lpmhNew)*gcPorts);
if (NULL == psb->lpmhShadow)
{
mmrcRet = MMSYSERR_NOMEM;
goto modPrepare_Cleanup;
}
lpmhNew = psb->lpmhShadow;
lpmhWork = lpmhNew;
for (pport = gpportList; pport; pport = pport->pNext, lpmhWork++)
{
*(LPMIDIHDR31)lpmhWork = *lpmh31;
lpmhWork->dwFlags |= MHDR_SHADOWHDR;
mmrcRet = midiOutPrepareHeader(pport->hmidi,
lpmhWork,
sizeof(*lpmhWork));
if (MMSYSERR_NOERROR != mmrcRet)
{
lpmhWork = lpmhNew;
for (pportWork = gpportList; pportWork != pport; pportWork = pportWork->pNext, lpmhWork++)
midiOutUnprepareHeader(pport->hmidi, lpmhWork, sizeof(*lpmhWork));
goto modPrepare_Cleanup;
}
lpmhWork->dwReserved[MH_SHADOWEE] = (DWORD_PTR)lpmh31;
}
DPF(1, TEXT ("Prepare: User header %p Shadow %p"), lpmh, lpmhNew);
lpmh31->reserved = (DWORD_PTR)psb;
}
// This will force MMSYSTEM to do default prepare on the parent header --
// i.e. page lock it for us.
//
modPrepare_Cleanup:
if (MMSYSERR_NOERROR != mmrcRet)
{
if (psb)
{
if (psb->lpmhShadow) GlobalFreePtr(psb->lpmhShadow);
LocalFree((HLOCAL)psb);
}
}
return (MMSYSERR_NOERROR != mmrcRet) ? mmrcRet : MMSYSERR_NOTSUPPORTED;
}
/***************************************************************************
@doc internal
@api DWORD | modUnprepare | Handles the MODM_UNPREPARE message.
@parm LPMIDIHDR | lpmh | The user header to unprepare.
@rdesc Some MMSYSERR_xxx code.
@comm
Fully undo the effects of the modPrepare call.
Unprepare and free all shadow headers.
Return MMSYSERR_NOTSUPPORTED so MMSYSTEM will correctly handle the
final unprepare of the user header.
***************************************************************************/
DWORD FNGLOBAL modUnprepare(
LPMIDIHDR lpmh)
{
LPMIDIHDR lpmhNew;
MMRESULT mmrc;
PPORT pport;
PSHADOWBLOCK psb;
if (ghMidiStrm)
{
psb = (PSHADOWBLOCK)(UINT_PTR)lpmh->dwReserved[MH_SHADOW];
lpmhNew = psb->lpmhShadow;
lpmhNew->dwBufferLength = psb->dwBufferLength;
mmrc = midiOutUnprepareHeader((HMIDIOUT)ghMidiStrm,
lpmhNew,
sizeof(*lpmhNew));
if (MMSYSERR_NOERROR != mmrc)
return mmrc;
LocalFree((HLOCAL)psb);
GlobalFreePtr(lpmhNew);
lpmh->dwReserved[MH_SHADOW] = 0;
}
else
{
LPMIDIHDR31 lpmh31 = (LPMIDIHDR31)lpmh;
psb = (PSHADOWBLOCK)(UINT_PTR)lpmh31->reserved;
lpmhNew = psb->lpmhShadow;
for (pport = gpportList; pport; pport = pport->pNext, ++lpmhNew)
{
lpmhNew->dwBufferLength = psb->dwBufferLength;
midiOutUnprepareHeader(pport->hmidi, lpmhNew, sizeof(*lpmhNew));
}
GlobalFreePtr(psb->lpmhShadow);
LocalFree((HLOCAL)psb);
lpmh31->reserved = 0;
}
// Need the default action of unprepare in MMSYSTEM here
//
return MMSYSERR_NOTSUPPORTED;
}
/***************************************************************************
@doc internal
@api DWORD | modClose | Handles the MODM_CLOSE message.
@parm PINSTANCE | pinstance | Pointer to an open instance to close.
@rdesc Some MMSYSERR_xxx code.
***************************************************************************/
DWORD FNGLOBAL modClose(
PINSTANCE pinstance)
{
PPORT pport;
DPF(1, TEXT ("Mapper close"));
// Close underlying streams on the query can-close (which is first)
// and just succeed the actual close
//
assert(pinstance);
if (pinstance->fdwOpen & MIDI_IO_CONTROL)
{
assert(pinstance == gpIoctlInstance);
gpIoctlInstance = NULL;
goto modClose_Cleanup;
}
// Assert that we're the only thing in the instance list
//
assert(gpinstanceList == pinstance);
assert(pinstance->pNext == NULL);
gpinstanceList = NULL;
if (pinstance->fdwOpen & MIDI_IO_COOKED)
UnlockCookedMapper();
UnlockMapperData();
UnlockPackedMapper();
if (ghMidiStrm)
{
midiStreamClose(ghMidiStrm);
ghMidiStrm = NULL;
}
else
{
for (pport = gpportList; pport; pport = pport->pNext)
{
if (NULL != pport->hmidi)
{
midiOutClose(pport->hmidi);
pport->hmidi = NULL;
}
}
}
CLR_DEVSOPENED;
// If reconfigure due, do it!
//
if (IS_RECONFIGURE)
{
// Prevent Synchronization problems
// During Configuration
if (NULL != hMutexConfig)
WaitForSingleObject (hMutexConfig, INFINITE);
DPF(1, TEXT ("Delayed reconfigure now being done"));
UpdateInstruments(FALSE, 0);
if (NULL != hMutexConfig)
ReleaseMutex (hMutexConfig);
CLR_RECONFIGURE;
}
modClose_Cleanup:
DriverCallback(
pinstance->dwCallback,
HIWORD(pinstance->fdwOpen),
(HDRVR)(pinstance->hmidi),
MM_MOM_CLOSE,
pinstance->dwInstance,
0L,
0L);
// Free up instance memory.
//
CleanupTransBuffer (pinstance);
LocalFree((HLOCAL)pinstance);
return MMSYSERR_NOERROR;
}
/***************************************************************************
@doc internal
@api DWORD | modGetPosition | Get the current position in the MIDI stream.
@parm LPINSTANCE | pinstance | Stream we want the position in.
@parm LPMMTIME | lpmmt | Pointer to a standard MMTIME struct to fill in.
@parm DWORD | cbmmt | Size of the MMTIME structure passed.
@comment
Pass the structure along to the first open subsidiary stream.
This will be considered the de facto timebase until there's a
way to set it.
@rdesc MMSYSERR_xxx
***************************************************************************/
DWORD FNGLOBAL modGetPosition(
PINSTANCE pinstance,
LPMMTIME lpmmt,
DWORD cbmmt)
{
return midiStreamPosition(ghMidiStrm,
lpmmt,
(UINT)cbmmt);
}
DWORD FNGLOBAL modSetVolume(
DWORD dwVolume)
{
PPORT pport;
MMRESULT mmrc;
MMRESULT mmrc2;
// Walk the port list and send the volume change to everyone
//
mmrc2 = MMSYSERR_NOERROR;
for (pport = gpportList; pport; pport = pport->pNext)
{
mmrc = midiOutSetVolume(pport->hmidi, dwVolume);
if (MMSYSERR_NOERROR != mmrc)
mmrc2 = mmrc;
}
return mmrc2;
}