/****************************************************************************\ * * Module Name : winmm.c * * Multimedia support library * * This module contains the entry point, startup and termination code * * Copyright (c) 1991-2001 Microsoft Corporation * \****************************************************************************/ #define UNICODE #include "nt.h" #include "ntrtl.h" #include "nturtl.h" #include "winmmi.h" #include "mmioi.h" #include "mci.h" #include #include #include #include #include #include #include #include #include "winuserp.h" #include "audiosrvc.h" #include "agfxp.h" #define _INC_WOW_CONVERSIONS #include "mmwow32.h" BOOL WaveInit(void); BOOL MidiInit(void); BOOL AuxInit(void); BOOL MixerInit(void); void InitDevices(void); HANDLE mmDrvOpen(LPWSTR szAlias); void WOWAppExit(HANDLE hTask); void MigrateSoundEvents(void); UINT APIENTRY mmDrvInstall(HANDLE hDriver, WCHAR * wszDrvEntry, DRIVERMSGPROC drvMessage, UINT wFlags); STATIC void NEAR PASCAL mregAddIniScheme(LPTSTR lszSection, LPTSTR lszSchemeID, LPTSTR lszSchemeName, LPTSTR lszINI); STATIC void NEAR PASCAL mregCreateSchemeID(LPTSTR szSchemeName, LPTSTR szSchemeID); int lstrncmpi (LPTSTR pszA, LPTSTR pszB, size_t cch); void RemoveMediaPath (LPTSTR pszTarget, LPTSTR pszSource); MMRESULT waveOutDesertHandle(HWAVEOUT hWaveOut); MMRESULT waveInDesertHandle(HWAVEIN hWaveIn); MMRESULT midiOutDesertHandle(HMIDIOUT hMidiOut); MMRESULT midiInDesertHandle(HMIDIIN hMidiIn); MMRESULT mixerDesertHandle(HMIXER hmx); #ifndef cchLENGTH #define cchLENGTH(_sz) (sizeof(_sz) / sizeof(_sz[0])) #endif /**************************************************************************** global data ****************************************************************************/ HANDLE ghInst; // Module handle BOOL gfDisablePreferredDeviceReordering = FALSE; BOOL WinmmRunningInServer; // Are we running in the user/base server? BOOL WinmmRunningInWOW; // Are we running in WOW BOOL WinmmRunningInSession; // Are we running in remote session WCHAR SessionProtocolName[WPROTOCOLNAME_LENGTH]; // | // The tls is used simply as an indication that the thread has entered // waveOutOpen or waveOutGetDevCaps for a non-mapper device. Then, we detect // re-entrancy into either of these APIs. In the case of re-entrancy we // might have a driver that is enumerating and caching device IDs. To improve // the chances of such a driver working, we disable preferred device // reordering in this case. Note we rely on the OS to initialize the tls to 0. // DWORD gTlsIndex = TLS_OUT_OF_INDEXES; // Thread local storage index; CRITICAL_SECTION DriverListCritSec; // Protect driver interface globals CRITICAL_SECTION DriverLoadFreeCritSec; // Protect driver load/unload CRITICAL_SECTION NumDevsCritSec; // Protect Numdevs/Device ID's CRITICAL_SECTION MapperInitCritSec; // Protect test of mapper initialized HANDLE hClientPnpInfo = NULL; PMMPNPINFO pClientPnpInfo = NULL; CRITICAL_SECTION PnpCritSec; RTL_RESOURCE gHandleListResource; // Serializes access to handles. BOOL gfLogon = FALSE; HANDLE hEventApiInit = NULL; WAVEDRV waveoutdrvZ; // wave output device driver list head WAVEDRV waveindrvZ; // wave input device driver list head MIDIDRV midioutdrvZ; // midi output device driver list MIDIDRV midiindrvZ; // midi input device driver list AUXDRV auxdrvZ; // aux device driver list UINT wTotalMidiOutDevs; // total midi output devices UINT wTotalMidiInDevs; // total midi input devices UINT wTotalWaveOutDevs; // total wave output devices UINT wTotalWaveInDevs; // total wave input devices UINT wTotalAuxDevs; // total auxiliary output devices LONG cPnpEvents; // number of processed pnp events LONG cPreferredDeviceChanges = 0; // number of processed preferred device changes typedef struct tag_wdmdeviceinterface *PWDMDEVICEINTERFACE; typedef struct tag_wdmdeviceinterface { PWDMDEVICEINTERFACE Next; DWORD cUsage; LONG cPnpEvents; WCHAR szDeviceInterface[0]; } WDMDEVICEINTERFACE, *PWDMDEVICEINTERFACE; WDMDEVICEINTERFACE wdmDevZ; LPCRITICAL_SECTION acs[] = { &HandleListCritSec, &DriverListCritSec, &DriverLoadFreeCritSec, &MapperInitCritSec, &NumDevsCritSec, &PnpCritSec, &WavHdrCritSec, &SoundCritSec, &midiStrmHdrCritSec, &joyCritSec, &mciGlobalCritSec, &mciCritSec, &TimerThreadCritSec, &ResolutionCritSec }; // HACK!!! SERVICE_STATUS_HANDLE hss; SERVICE_STATUS gss; #ifdef DEBUG_RETAIL BYTE fIdReverse; // reverse wave/midi id's #endif // For sounds: STATIC TCHAR gszControlIniTime[] = TEXT("ControlIniTimeStamp"); TCHAR gszControlPanel[] = TEXT("Control Panel"); TCHAR gszSchemesRootKey[] = TEXT("AppEvents\\Schemes"); TCHAR gszJustSchemesKey[] = TEXT("Schemes"); TCHAR aszExplorer[] = TEXT("Explorer"); TCHAR aszDefault[] = TEXT(".Default"); TCHAR aszCurrent[] = TEXT(".Current"); TCHAR gszAppEventsKey[] = TEXT("AppEvents"); TCHAR gszSchemeAppsKey[] = TEXT("Apps"); TCHAR aszSoundsSection[] = TEXT("Sounds"); TCHAR aszSoundSection[] = TEXT("Sound"); TCHAR aszActiveKey[] = TEXT("Active"); TCHAR aszBoolOne[] = TEXT("1"); TCHAR asz2Format[] = TEXT("%s\\%s"); TCHAR asz3Format[] = TEXT("%s\\%s\\%s"); TCHAR asz4Format[] = TEXT("%s\\%s\\%s\\%s"); TCHAR asz5Format[] = TEXT("%s\\%s\\%s\\%s\\%s"); TCHAR asz6Format[] = TEXT("%s\\%s\\%s\\%s\\%s\\%s"); STATIC TCHAR aszSchemeLabelsKey[] = TEXT("EventLabels"); STATIC TCHAR aszSchemeNamesKey[] = TEXT("Names"); STATIC TCHAR aszControlINI[] = TEXT("control.ini"); STATIC TCHAR aszWinINI[] = TEXT("win.ini"); STATIC TCHAR aszSchemesSection[] = TEXT("SoundSchemes"); STATIC TCHAR gszSoundScheme[] = TEXT("SoundScheme.%s"); STATIC TCHAR aszCurrentSection[] = TEXT("Current"); STATIC TCHAR aszYourOldScheme[] = TEXT("Your Old Scheme"); STATIC TCHAR aszNone[] = TEXT(""); STATIC TCHAR aszDummyDrv[] = TEXT("mmsystem.dll"); STATIC TCHAR aszDummySnd[] = TEXT("SystemDefault"); STATIC TCHAR aszDummySndValue[] = TEXT(","); STATIC TCHAR aszExtendedSounds[] = TEXT("ExtendedSounds"); STATIC TCHAR aszExtendedSoundsYes[] = TEXT("yes"); STATIC TCHAR gszApp[] = TEXT("App"); STATIC TCHAR gszSystem[] = TEXT("System"); STATIC TCHAR gszAsterisk[] = TEXT("Asterisk"); STATIC TCHAR gszDefault[] = TEXT("Default"); STATIC TCHAR gszExclamation[] = TEXT("Exclamation"); STATIC TCHAR gszExit[] = TEXT("Exit"); STATIC TCHAR gszQuestion[] = TEXT("Question"); STATIC TCHAR gszStart[] = TEXT("Start"); STATIC TCHAR gszHand[] = TEXT("Hand"); STATIC TCHAR gszClose[] = TEXT("Close"); STATIC TCHAR gszMaximize[] = TEXT("Maximize"); STATIC TCHAR gszMinimize[] = TEXT("Minimize"); STATIC TCHAR gszOpen[] = TEXT("Open"); STATIC TCHAR gszRestoreDown[] = TEXT("RestoreDown"); STATIC TCHAR gszRestoreUp[] = TEXT("RestoreUp"); STATIC TCHAR aszOptionalClips[] = REGSTR_PATH_SETUP REGSTR_KEY_SETUP TEXT("\\OptionalComponents\\Clips"); STATIC TCHAR aszInstalled[] = TEXT("Installed"); STATIC TCHAR * gpszSounds[] = { gszClose, gszMaximize, gszMinimize, gszOpen, gszRestoreDown, gszRestoreUp, gszAsterisk, gszDefault, gszExclamation, gszExit, gszQuestion, gszStart, gszHand }; STATIC TCHAR aszMigration[] = TEXT("Migrated Schemes"); #define wCurrentSchemeMigrationLEVEL 1 static struct { LPCTSTR pszEvent; int idDescription; LPCTSTR pszApp; } gaEventLabels[] = { { TEXT("AppGPFault"), STR_LABEL_APPGPFAULT, aszDefault }, { TEXT("Close"), STR_LABEL_CLOSE, aszDefault }, { TEXT("EmptyRecycleBin"), STR_LABEL_EMPTYRECYCLEBIN, aszExplorer }, { TEXT("Maximize"), STR_LABEL_MAXIMIZE, aszDefault }, { TEXT("MenuCommand"), STR_LABEL_MENUCOMMAND, aszDefault }, { TEXT("MenuPopup"), STR_LABEL_MENUPOPUP, aszDefault }, { TEXT("Minimize"), STR_LABEL_MINIMIZE, aszDefault }, { TEXT("Open"), STR_LABEL_OPEN, aszDefault }, { TEXT("RestoreDown"), STR_LABEL_RESTOREDOWN, aszDefault }, { TEXT("RestoreUp"), STR_LABEL_RESTOREUP, aszDefault }, { TEXT("RingIn"), STR_LABEL_RINGIN, aszDefault }, { TEXT("RingOut"), STR_LABEL_RINGOUT, aszDefault }, { TEXT("SystemAsterisk"), STR_LABEL_SYSTEMASTERISK, aszDefault }, { TEXT(".Default"), STR_LABEL_SYSTEMDEFAULT, aszDefault }, { TEXT("SystemExclamation"), STR_LABEL_SYSTEMEXCLAMATION, aszDefault }, { TEXT("SystemExit"), STR_LABEL_SYSTEMEXIT, aszDefault }, { TEXT("SystemHand"), STR_LABEL_SYSTEMHAND, aszDefault }, { TEXT("SystemQuestion"), STR_LABEL_SYSTEMQUESTION, aszDefault }, { TEXT("SystemStart"), STR_LABEL_SYSTEMSTART, aszDefault }, }; TCHAR gszDefaultBeepOldAlias[] = TEXT("SystemDefault"); #define nEVENTLABELS (sizeof(gaEventLabels)/sizeof(gaEventLabels[0])) STATIC TCHAR gszChimes[] = TEXT("chimes.wav"); STATIC TCHAR gszDing[] = TEXT("ding.wav"); STATIC TCHAR gszTada[] = TEXT("tada.wav"); STATIC TCHAR gszChord[] = TEXT("chord.wav"); STATIC TCHAR * gpszKnownWAVFiles[] = { gszChord, gszTada, gszChimes, gszDing, }; #define INISECTION 768 #define BIGINISECTION 2048 TCHAR szNull[] = TEXT(""); TCHAR aszSetup[] = REGSTR_PATH_SETUP; TCHAR aszValMedia[] = REGSTR_VAL_MEDIA; TCHAR aszValMediaUnexpanded[] = TEXT("MediaPathUnexpanded"); extern HANDLE hInstalledDriverList; // List of installed driver instances extern int cInstalledDrivers; // High water count of installed driver instances HANDLE ghSessionNotification = NULL; HANDLE ghSessionNotificationEvent = NULL; BOOL gfSessionDisconnected = FALSE; #define g_szWinmmConsoleAudioEvent L"Global\\WinMMConsoleAudioEvent" //============================================================================= //=== Reg helpers === //============================================================================= LONG RegPrepareEnum(HKEY hkey, PDWORD pcSubkeys, PTSTR *ppstrSubkeyNameBuffer, PDWORD pcchSubkeyNameBuffer) { DWORD cSubkeys; DWORD cchMaxSubkeyName; LONG lresult; lresult = RegQueryInfoKey(hkey, NULL, NULL, NULL, &cSubkeys, &cchMaxSubkeyName, NULL, NULL, NULL, NULL, NULL, NULL); if (ERROR_SUCCESS == lresult) { PTSTR SubkeyName; SubkeyName = (PTSTR)HeapAlloc(hHeap, 0, (cchMaxSubkeyName+1) * sizeof(TCHAR)); if (SubkeyName) { *pcSubkeys = cSubkeys; *ppstrSubkeyNameBuffer = SubkeyName; *pcchSubkeyNameBuffer = cchMaxSubkeyName+1; } else { lresult = ERROR_OUTOFMEMORY; } } return lresult; } LONG RegEnumOpenKey(HKEY hkey, DWORD dwIndex, PTSTR SubkeyName, DWORD cchSubkeyName, REGSAM samDesired, PHKEY phkeyResult) { LONG lresult; lresult = RegEnumKeyEx(hkey, dwIndex, SubkeyName, &cchSubkeyName, NULL, NULL, NULL, NULL); if (ERROR_SUCCESS == lresult) { HKEY hkeyResult; lresult = RegOpenKeyEx(hkey, SubkeyName, 0, samDesired, &hkeyResult); if (ERROR_SUCCESS == lresult) *phkeyResult = hkeyResult; } return lresult; } /************************************************************************** Terminal server helper functions **************************************************************************/ BOOL IsPersonalTerminalServicesEnabled( VOID ) { static BOOL fRet; static BOOL fVerified = FALSE; DWORDLONG dwlConditionMask; OSVERSIONINFOEX osVersionInfo; if ( fVerified ) goto exitpt; RtlZeroMemory(&osVersionInfo, sizeof(OSVERSIONINFOEX)); osVersionInfo.dwOSVersionInfoSize = sizeof(OSVERSIONINFOEX); osVersionInfo.wProductType = VER_NT_WORKSTATION; osVersionInfo.wSuiteMask = VER_SUITE_SINGLEUSERTS; dwlConditionMask = 0; VER_SET_CONDITION(dwlConditionMask, VER_PRODUCT_TYPE, VER_EQUAL); VER_SET_CONDITION(dwlConditionMask, VER_SUITENAME, VER_OR); fRet = VerifyVersionInfo( &osVersionInfo, VER_PRODUCT_TYPE | VER_SUITENAME, dwlConditionMask ); fVerified = TRUE; exitpt: return(fRet); } // // Check if console audio is enabled in remote session // BOOL IsTsConsoleAudio( VOID ) { BOOL RemoteConsoleAudio = FALSE; // Allow audio play at the console static HANDLE hConsoleAudioEvent = NULL; if (NtCurrentPeb()->SessionId == 0 || IsPersonalTerminalServicesEnabled()) { if (hConsoleAudioEvent == NULL) { hConsoleAudioEvent = OpenEvent(SYNCHRONIZE, FALSE, g_szWinmmConsoleAudioEvent); } if (hConsoleAudioEvent != NULL) { DWORD status; status = WaitForSingleObject(hConsoleAudioEvent, 0); if (status == WAIT_OBJECT_0) { RemoteConsoleAudio = TRUE; } } else { dprintf(("Remote session: console audio event NULL with error: %d\n", GetLastError())); } } return RemoteConsoleAudio; } // // returns TRUE if we are on the console // BOOL IsActiveConsoleSession( VOID ) { return (USER_SHARED_DATA->ActiveConsoleId == NtCurrentPeb()->SessionId); } void InitSession(void); BOOL WaveReInit(void); // // Check if the session is changed and load additional audio drivers // this is a case only for reconnecting the console from Terminal Server // BOOL CheckSessionChanged(VOID) { static BOOL bCalled = FALSE; static BOOL bWasntRedirecting; BOOL bOld; BOOL bDontRedirect; BOOL bRefreshPreferredDevices; bRefreshPreferredDevices = FALSE; bDontRedirect = IsActiveConsoleSession() || IsTsConsoleAudio(); if ( !InterlockedExchange( &bCalled, TRUE )) { bWasntRedirecting = !bDontRedirect; } bOld = InterlockedExchange( &bWasntRedirecting, bDontRedirect); if ( bOld ^ bWasntRedirecting ) { // // session conditions changed // dprintf(( "Session state changed: %s", (bWasntRedirecting)?"CONSOLE":"SESSION" )); // // close the old registry handle // mmRegFree(); // // add new devices // InitSession(); WaveReInit(); bRefreshPreferredDevices = TRUE; } return bRefreshPreferredDevices; } /***************************************************************************** * * WTSCurrentSessionIsDisonnected * * Determines whether current session is disconnected. * ****************************************************************************/ BOOL WTSCurrentSessionIsDisconnected(void) { if (NULL == ghSessionNotification) { // We create the event signalled so that we'll get the connect state // from audiosrv on first successful pass through this function. WinAssert(NULL == ghSessionNotificationEvent); ghSessionNotificationEvent = CreateEvent(NULL, FALSE, TRUE, NULL); if (ghSessionNotificationEvent) { LONG lresult; lresult = winmmRegisterSessionNotificationEvent(ghSessionNotificationEvent, &ghSessionNotification); if (lresult) { CloseHandle(ghSessionNotificationEvent); ghSessionNotificationEvent = NULL; ghSessionNotification = NULL; } } } if (ghSessionNotification) { WinAssert(ghSessionNotificationEvent); if (WAIT_OBJECT_0 == WaitForSingleObjectEx(ghSessionNotificationEvent, 0, TRUE)) { INT ConnectState; LONG lresult; // Get new state from audiosrv lresult = winmmSessionConnectState(&ConnectState); if (!lresult) { gfSessionDisconnected = (WTSDisconnected == ConnectState); } } } return gfSessionDisconnected; } /************************************************************************** @doc EXTERNAL @api BOOL | mmDeleteMultipleCriticalSections | This procedure deletes multiple critical sections. @parm LPCRITICAL_SECTION* | ppCritcalSections | Pointer to an array of pointers to critical sections @parm LONG | nCount | Number of critical sections pointers in the array. @rdesc VOID **************************************************************************/ void mmDeleteMultipleCriticalSections(LPCRITICAL_SECTION *ppCriticalSections, LONG nCount) { int i; for (i = 0; i < nCount; i++) DeleteCriticalSection(ppCriticalSections[i]); return; } /************************************************************************** @doc EXTERNAL @api BOOL | mmInitializeMultipleCriticalSections | This procedure initializes multiple critical sections. @parm LPCRITICAL_SECTION* | ppCritcalSections | Pointer to an array of pointers to critical sections @parm LONG | nCount | Number of critical sections pointers in the array. @rdesc The return value is TRUE if the initialization completed ok, FALSE if not. **************************************************************************/ BOOL mmInitializeMultipleCriticalSections(LPCRITICAL_SECTION *ppCriticalSections, LONG nCount) { int i; // Must be signed for loops to work properly for (i = 0; i < nCount; i++) { if (!mmInitializeCriticalSection(ppCriticalSections[i])) break; } if (i == nCount) return TRUE; // Back up index to the last successful initialization i--; // There must have been a failure. Clean up the ones that succeeded. for ( ; i >= 0; i--) { DeleteCriticalSection(ppCriticalSections[i]); } return FALSE; } /* * Initialization for terminal server */ void InitSession(void) { WSINFO SessionInfo; BOOL bCons = (BOOL)IsActiveConsoleSession(); if ( bCons || IsTsConsoleAudio() ) WinmmRunningInSession = FALSE; else WinmmRunningInSession = TRUE; if (WinmmRunningInSession) { memset( &SessionInfo, 0, sizeof(SessionInfo)); GetWinStationInfo(&SessionInfo); lstrcpyW(SessionProtocolName, SessionInfo.ProtocolName); dprintf(("Remote session protocol %ls", SessionProtocolName)); dprintf(("Remote audio driver name %ls", SessionInfo.AudioDriverName)); } else { SessionProtocolName[0] = 0; } } /************************************************************************** @doc INTERNAL @api VOID | DeletePnpInfo | Frees the pClientPnpInfo file mapping @rdesc There is no return value **************************************************************************/ void DeletePnpInfo(void) { if (pClientPnpInfo) { BOOL f; WinAssert(hClientPnpInfo); f = UnmapViewOfFile(pClientPnpInfo); WinAssert(f); pClientPnpInfo = NULL; f = CloseHandle(hClientPnpInfo); WinAssert(f); hClientPnpInfo = NULL; } return; } /************************************************************************** @doc EXTERNAL @api BOOL | DllProcessAttach | This procedure is called whenever a process attaches to the DLL. @parm PVOID | hModule | Handle of the DLL. @rdesc The return value is TRUE if the initialisation completed ok, FALSE if not. **************************************************************************/ BOOL DllProcessAttach(PVOID hModule) { HANDLE hModWow32; PIMAGE_NT_HEADERS NtHeaders; // For checking if we're in the server. BOOL fSuccess; #if DBG CHAR strname[MAX_PATH]; GetModuleFileNameA(NULL, strname, sizeof(strname)); dprintf2(("Process attaching, exe=%hs (Pid %x Tid %x)", strname, GetCurrentProcessId(), GetCurrentThreadId())); #endif // We don't need to know when threads start DisableThreadLibraryCalls(hModule); // Get access to the process heap. This is cheaper in terms of // overall resource being chewed up than creating our own heap. hHeap = RtlProcessHeap(); if (hHeap == NULL) { return FALSE; } // Allocate our tls gTlsIndex = TlsAlloc(); if (TLS_OUT_OF_INDEXES == gTlsIndex) return FALSE; // // Find out if we're in WOW // #ifdef _WIN64 WinmmRunningInWOW = FALSE; #else if ( (hModWow32 = GetModuleHandleW( L"WOW32.DLL" )) != NULL ) { WinmmRunningInWOW = TRUE; GetVDMPointer = (LPGETVDMPOINTER)GetProcAddress( hModWow32, "WOWGetVDMPointer"); lpWOWHandle32 = (LPWOWHANDLE32)GetProcAddress( hModWow32, "WOWHandle32" ); lpWOWHandle16 = (LPWOWHANDLE16)GetProcAddress( hModWow32, "WOWHandle16" ); } else { WinmmRunningInWOW = FALSE; } #endif // // This checks if we're running in CSRSS and this will never happen as of // Win2k // WinmmRunningInServer = FALSE; if (mmInitializeMultipleCriticalSections(acs, sizeof(acs)/sizeof(acs[0]))) { NTSTATUS nts; hEventApiInit = CreateEvent(NULL, TRUE, FALSE, NULL); __try { RtlInitializeResource(&gHandleListResource); nts = STATUS_SUCCESS; } __except (EXCEPTION_EXECUTE_HANDLER) { nts = GetExceptionCode(); } if ((hEventApiInit) && (NT_SUCCESS(nts))) { InitDebugLevel(); InitSession(); InitDevices(); // it is important that the MCI window initialisation is done AFTER // we have initialised Wave, Midi, etc. devices. Note the server // uses Wave devices, but nothing else (e.g. MCI, midi...) if (!WinmmRunningInServer) { mciGlobalInit(); } } else { // EventApiInit Create failed if (hEventApiInit) CloseHandle(hEventApiInit); hEventApiInit = NULL; mmDeleteMultipleCriticalSections(acs, sizeof(acs)/sizeof(acs[0])); TlsFree(gTlsIndex); return (FALSE); } } else { // Failed to initialize critical sections. TlsFree(gTlsIndex); return (FALSE); } // Added to remove warning. return TRUE; } /************************************************************************** @doc EXTERNAL @api BOOL | DllInstanceInit | This procedure is called whenever a process attaches or detaches from the DLL. @parm PVOID | hModule | Handle of the DLL. @parm ULONG | Reason | What the reason for the call is. @parm PCONTEXT | pContext | Some random other information. @rdesc The return value is TRUE if the initialisation completed ok, FALSE if not. **************************************************************************/ BOOL DllInstanceInit(PVOID hModule, ULONG Reason, PCONTEXT pContext) { PIMAGE_NT_HEADERS NtHeaders; // For checking if we're in the server. HANDLE hModWow32; DWORD dwThread; BOOL f; ghInst = (HANDLE) hModule; DBG_UNREFERENCED_PARAMETER(pContext); if (Reason == DLL_PROCESS_ATTACH) { return DllProcessAttach(hModule); } else if (Reason == DLL_PROCESS_DETACH) { dprintf2(("Process ending (Pid %x Tid %x)", GetCurrentProcessId(), GetCurrentThreadId())); // Squirt("Entering process detach"); // Can't really use RPC during DllMain, so let's just close first AudioSrvBindingFree(); if (ghSessionNotification) { WinAssert(ghSessionNotificationEvent); winmmUnregisterSessionNotification(ghSessionNotification); CloseHandle(ghSessionNotificationEvent); ghSessionNotification = NULL; ghSessionNotificationEvent = NULL; } else { WinAssert(!ghSessionNotificationEvent); } if (!WinmmRunningInServer) { TimeCleanup(0); // DLL cleanup } mmRegFree(); JoyCleanup(); //qzheng DeletePnpInfo(); if (hInstalledDriverList) { GlobalFree ((HGLOBAL)hInstalledDriverList); hInstalledDriverList = NULL; cInstalledDrivers = 0; // Count of installed drivers } InvalidatePreferredDevices(); if (hEventApiInit) CloseHandle(hEventApiInit); mmDeleteMultipleCriticalSections(acs, sizeof(acs)/sizeof(acs[0])); RtlDeleteResource(&gHandleListResource); TlsFree(gTlsIndex); } else if (Reason == 999) { // This is a dummy call to an entry point in ADVAPI32.DLL. By // statically linking to the library we avoid the following: // An application links to winmm.dll and advapi32.dll // When the application loads the list of dependent dlls is built, // and a list of the dll init routines is created. It happens // that the winmm init routine is called first. // IF there is a sound card in the system, winmm's dll init routine // call LoadLibrary on the sound driver DLL. This DLL WILL // reference advapi32.dll - and call entry points in advapi32. // Unfortunately the init routine of advapi32.dll is marked as // having RUN - although that is not yet the case as we are still // within the load routine for winmm. // When the advapi32 entry point runs, it relies on its init // routine having completed; specifically a CriticalSection should // have been initialised. This is not the case, and BOOM! // The workaround is to ensure that advapi32.dll runs its init // routine first. This is done by making sure that WINMM has a // static link to the dll. ImpersonateSelf(999); // This routine will never be called. // If it is called, it will fail. } return TRUE; } /***************************************************************************** * @doc EXTERNAL MMSYSTEM * * @api void | WOWAppExit | This function cleans up when a (WOW) application * terminates. * * @parm HANDLE | hTask | Thread id of application (equivalent to windows task * handle). * * @rdesc Nothing * * @comm Note that NOT ALL threads are WOW threads. We rely here on the * fact that ONLY MCI creates threads other than WOW threads which * use our low level device resources. * * Note also that once a thread is inside here no other threads can * go through here so, since we clean up MCI devices first, their * low level devices will be freed before we get to their threads. * ****************************************************************************/ void WOWAppExit(HANDLE hTask) { MCIDEVICEID DeviceID; HANDLE h, hNext; dprintf3(("WOW Multi-media - thread %x exiting", hTask)); // // Free MCI devices allocated by this task (thread). // EnterCriticalSection(&mciCritSec); for (DeviceID=1; DeviceID < MCI_wNextDeviceID; DeviceID++) { if (MCI_VALID_DEVICE_ID(DeviceID) && MCI_lpDeviceList[DeviceID]->hCreatorTask == hTask) { // // Note that the loop control variables are globals so will be // reloaded on each iteration. // // Also no new devices will be opened by APPs because this is WOW // // Hence it's safe (and essential!) to leave the critical // section which we send the close command // dprintf2(("MCI device %ls (%d) not released.", MCI_lpDeviceList[DeviceID]->lpstrInstallName, DeviceID)); LeaveCriticalSection(&mciCritSec); mciSendCommandW(DeviceID, MCI_CLOSE, 0, 0); EnterCriticalSection(&mciCritSec); } } LeaveCriticalSection(&mciCritSec); // // Free any timers // TimeCleanup((DWORD)(DWORD_PTR)hTask); // // free all WAVE/MIDI/MMIO handles // // ISSUE-2001/01/16-FrankYe This violates the order in which locks should // be acquired. The HandleListCritSec should be the last lock taken, // but here it is held while calling winmm APIs EnterCriticalSection(&HandleListCritSec); h = GetHandleFirst(); while (h) { hNext = GetHandleNext(h); if (GetHandleOwner(h) == hTask) { HANDLE hdrvDestroy; // // hack for the wave/midi mapper, always free handles backward. // if (hNext && GetHandleOwner(hNext) == hTask) { h = hNext; continue; } // // do this so even if the close fails we will not // find it again. // SetHandleOwner(h, NULL); // // set the hdrvDestroy global so DriverCallback will not // do anything for this device // hdrvDestroy = h; switch(GetHandleType(h)) { case TYPE_WAVEOUT: dprintf1(("WaveOut handle (%04X) was not released.", h)); waveOutReset((HWAVEOUT)h); waveOutClose((HWAVEOUT)h); break; case TYPE_WAVEIN: dprintf1(("WaveIn handle (%04X) was not released.", h)); waveInReset((HWAVEIN)h); waveInClose((HWAVEIN)h); break; case TYPE_MIDIOUT: dprintf1(("MidiOut handle (%04X) was not released.", h)); midiOutReset((HMIDIOUT)h); midiOutClose((HMIDIOUT)h); break; case TYPE_MIDIIN: dprintf1(("MidiIn handle (%04X) was not released.", h)); midiInReset((HMIDIIN)h); midiInClose((HMIDIIN)h); break; // // This is not required because WOW does not open any // mmio files. // // case TYPE_MMIO: // dprintf1(("MMIO handle (%04X) was not released.", h)); // if (mmioClose((HMMIO)h, 0) != 0) // mmioClose((HMMIO)h, MMIO_FHOPEN); // break; } // // unset hdrvDestroy so DriverCallback will work. // some hosebag drivers (like the TIMER driver) // may pass NULL as their driver handle. // so dont set it to NULL. // hdrvDestroy = (HANDLE)-1; // // the reason we start over is because a single free may cause // multiple free's (ie MIDIMAPPER has another HMIDI open, ...) // h = GetHandleFirst(); } else { h = GetHandleNext(h); } } LeaveCriticalSection(&HandleListCritSec); // // Clean up an installed IO procs for mmio // // This is not required because wow does not install any io procs. // // mmioCleanupIOProcs(hTask); // // If avicap32.dll is loaded, then ask it to clean up // capture drivers { HMODULE hmod; hmod = GetModuleHandle(TEXT("avicap32.dll")); if (hmod) { typedef void (*AppCleanupProc)(HANDLE); AppCleanupProc fp; fp = (AppCleanupProc) GetProcAddress(hmod, "AppCleanup"); if (fp) { fp(hTask); } } } } BOOL IsWinlogon(void) { TCHAR szTarget[] = TEXT("winlogon.Exe"); TCHAR szTemp[MAX_PATH]; UINT ii; static BOOL fAlreadyChecked = FALSE; static BOOL fIsWinlogon = FALSE; if (fAlreadyChecked) return fIsWinlogon; if (0 == GetModuleFileName(NULL, szTemp, sizeof(szTemp)/sizeof(szTemp[0]))) { // // GetModuleFileName fails... // return FALSE; } for (ii = lstrlen(szTemp) - 1; ii; ii--) { if ('\\' == szTemp[ii]) { ii++; fIsWinlogon = !lstrcmpi(&(szTemp[ii]), szTarget); fAlreadyChecked = TRUE; return fIsWinlogon; } } return FALSE; } void FreeUnusedDrivers(PMMDRV pmmdrvZ) { PMMDRV pmmdrv = pmmdrvZ->Next; while (pmmdrv != pmmdrvZ) { PMMDRV pmmdrvNext = pmmdrv->Next; ASSERT(pmmdrv->hDriver); if ((0 == pmmdrv->NumDevs) && (0 == (pmmdrv->fdwDriver & MMDRV_DESERTED))) { // For pnp driver we send DRVM_EXIT if (pmmdrv->cookie) pmmdrv->drvMessage(0, DRVM_EXIT, 0L, 0L, (DWORD_PTR)pmmdrv->cookie); DrvClose(pmmdrv->hDriver, 0, 0); DeleteCriticalSection(&pmmdrv->MixerCritSec); // Remove from list pmmdrv->Prev->Next = pmmdrv->Next; pmmdrv->Next->Prev = pmmdrv->Prev; // Zero memory to help catch reuse bugs ZeroMemory(pmmdrv, sizeof(*pmmdrv)); HeapFree(hHeap, 0, pmmdrv); } pmmdrv = pmmdrvNext; } return; } extern BOOL IMixerLoadDrivers( void ); void InitDevices(void) { cPnpEvents = 0; // Initialize various lists ZeroMemory(&wdmDevZ, sizeof(wdmDevZ)); ZeroMemory(&waveoutdrvZ, sizeof(waveoutdrvZ)); ZeroMemory(&waveindrvZ, sizeof(waveindrvZ)); waveoutdrvZ.Next = waveoutdrvZ.Prev = &waveoutdrvZ; waveindrvZ.Next = waveindrvZ.Prev = &waveindrvZ; ZeroMemory(&midioutdrvZ, sizeof(midioutdrvZ)); ZeroMemory(&midiindrvZ, sizeof(midiindrvZ)); midioutdrvZ.Next = midioutdrvZ.Prev = &midioutdrvZ; midiindrvZ.Next = midiindrvZ.Prev = &midiindrvZ; ZeroMemory(&auxdrvZ, sizeof(auxdrvZ)); auxdrvZ.Next = auxdrvZ.Prev = &auxdrvZ; ZeroMemory(&mixerdrvZ, sizeof(mixerdrvZ)); mixerdrvZ.Next = mixerdrvZ.Prev = &mixerdrvZ; // Now initialize different device classes WaveInit(); // // The server only needs wave to do message beeps. // if (!WinmmRunningInServer) { MidiInit(); if (!TimeInit()) { dprintf1(("Failed to initialize timer services")); } midiEmulatorInit(); AuxInit(); JoyInit(); MixerInit(); // IMixerLoadDrivers(); // // Clear up any drivers which don't have any devices (we do it this // way so we don't keep loading and unloading mmdrv.dll). // // Note - we only load the mappers if there are real devices so we // don't need to worry about unloading them. // FreeUnusedDrivers(&waveindrvZ); FreeUnusedDrivers(&midioutdrvZ); FreeUnusedDrivers(&midiindrvZ); FreeUnusedDrivers(&auxdrvZ); } FreeUnusedDrivers(&waveoutdrvZ); } /***************************************************************************** * @doc EXTERNAL MMSYSTEM * * @api UINT | mmsystemGetVersion | This function returns the current * version number of the Multimedia extensions system software. * * @rdesc The return value specifies the major and minor version numbers of * the Multimedia extensions. The high-order byte specifies the major * version number. The low-order byte specifies the minor version number. * ****************************************************************************/ UINT APIENTRY mmsystemGetVersion(void) { return(MMSYSTEM_VERSION); } #define MAXDRIVERORDINAL 9 /**************************************************************************** strings ****************************************************************************/ STATICDT SZCODE szWodMessage[] = WOD_MESSAGE; STATICDT SZCODE szWidMessage[] = WID_MESSAGE; STATICDT SZCODE szModMessage[] = MOD_MESSAGE; STATICDT SZCODE szMidMessage[] = MID_MESSAGE; STATICDT SZCODE szAuxMessage[] = AUX_MESSAGE; STATICDT SZCODE szMxdMessage[] = MXD_MESSAGE; STATICDT WSZCODE wszWave[] = L"wave"; STATICDT WSZCODE wszMidi[] = L"midi"; STATICDT WSZCODE wszAux[] = L"aux"; STATICDT WSZCODE wszMixer[] = L"mixer"; STATICDT WSZCODE wszMidiMapper[] = L"midimapper"; STATICDT WSZCODE wszWaveMapper[] = L"wavemapper"; STATICDT WSZCODE wszAuxMapper[] = L"auxmapper"; STATICDT WSZCODE wszMixerMapper[] = L"mixermapper"; WSZCODE wszNull[] = L""; WSZCODE wszSystemIni[] = L"system.ini"; WSZCODE wszDrivers[] = DRIVERS_SECTION; /* ** WaveMapperInit ** ** Initialize the wave mapper if it's not already initialized. ** */ BOOL WaveMapperInitialized = FALSE; void WaveMapperInit(void) { HDRVR h = NULL; BOOL fLoadOutput = TRUE; BOOL fLoadInput = TRUE; EnterNumDevs("WaveMapperInit"); EnterCriticalSection(&MapperInitCritSec); if (WaveMapperInitialized) { LeaveCriticalSection(&MapperInitCritSec); LeaveNumDevs("WaveMapperInit"); return; } /* The wave mapper. * * MMSYSTEM allows the user to install a special wave driver which is * not visible to the application as a physical device (it is not * included in the number returned from getnumdevs). * * An application opens the wave mapper when it does not care which * physical device is used to input or output waveform data. Thus * it is the wave mapper's task to select a physical device that can * render the application-specified waveform format or to convert the * data into a format that is renderable by an available physical * device. */ if (wTotalWaveInDevs + wTotalWaveOutDevs > 0) { if (0 != (h = mmDrvOpen(wszWaveMapper))) { fLoadOutput = mmDrvInstall(h, wszWaveMapper, NULL, MMDRVI_MAPPER|MMDRVI_WAVEOUT|MMDRVI_HDRV); if (!WinmmRunningInServer) { h = mmDrvOpen(wszWaveMapper); fLoadInput = mmDrvInstall(h, wszWaveMapper, NULL, MMDRVI_MAPPER|MMDRVI_WAVEIN |MMDRVI_HDRV); } } WaveMapperInitialized |= ((0 != h) && (fLoadOutput) && (fLoadInput))?TRUE:FALSE; } LeaveCriticalSection(&MapperInitCritSec); LeaveNumDevs("WaveMapperInit"); } /* ** MidiMapperInit ** ** Initialize the MIDI mapper if it's not already initialized. ** */ BOOL MidiMapperInitialized = FALSE; void MidiMapperInit(void) { HDRVR h; EnterNumDevs("MidiMapperInit"); EnterCriticalSection(&MapperInitCritSec); if (MidiMapperInitialized) { LeaveCriticalSection(&MapperInitCritSec); LeaveNumDevs("MidiMapperInit"); return; } /* The midi mapper. * * MMSYSTEM allows the user to install a special midi driver which is * not visible to the application as a physical device (it is not * included in the number returned from getnumdevs). * * An application opens the midi mapper when it does not care which * physical device is used to input or output midi data. It * is the midi mapper's task to modify the midi data so that it is * suitable for playback on the connected synthesizer hardware. */ // EnterNumDevs("MidiMapperInit"); if (wTotalMidiInDevs + wTotalMidiOutDevs > 0) { if (0 != (h = mmDrvOpen(wszMidiMapper))) { mmDrvInstall(h, wszMidiMapper, NULL, MMDRVI_MAPPER|MMDRVI_MIDIOUT|MMDRVI_HDRV); h = mmDrvOpen(wszMidiMapper); mmDrvInstall(h, wszMidiMapper, NULL, MMDRVI_MAPPER|MMDRVI_MIDIIN |MMDRVI_HDRV); } MidiMapperInitialized = TRUE; } // LeaveNumDevs("MidiMapperInit"); LeaveCriticalSection(&MapperInitCritSec); LeaveNumDevs("MidiMapperInit"); } /***************************************************************************** * @doc INTERNAL WAVE * * @api BOOL | WaveInit | This function initialises the wave services. * * @rdesc Returns TRUE if the services of all loaded wave drivers are * correctly initialised, FALSE if an error occurs. * * @comm the wave devices are loaded in the following order * * \Device\WaveIn0 * \Device\WaveIn1 * \Device\WaveIn2 * \Device\WaveIn3 * ****************************************************************************/ BOOL WaveInit(void) { WCHAR szKey[ (sizeof(wszWave) + sizeof( WCHAR )) / sizeof( WCHAR ) ]; int i; HDRVR h; // Find the real WAVE drivers lstrcpyW(szKey, wszWave); szKey[ (sizeof(szKey) / sizeof( WCHAR )) - 1 ] = (WCHAR)'\0'; for (i=0; i<=MAXDRIVERORDINAL; i++) { h = mmDrvOpen(szKey); if (h) { mmDrvInstall(h, szKey, NULL, MMDRVI_WAVEOUT|MMDRVI_HDRV); if (!WinmmRunningInServer) { h = mmDrvOpen(szKey); mmDrvInstall(h, szKey, NULL, MMDRVI_WAVEIN |MMDRVI_HDRV); } } szKey[ (sizeof(wszWave) / sizeof(WCHAR)) - 1] = (WCHAR)('1' + i); } return TRUE; } BOOL WaveReInit(void) { WCHAR szKey[ (sizeof(wszWave) + sizeof( WCHAR )) / sizeof( WCHAR ) ]; int i; HDRVR h; EnterCriticalSection(&NumDevsCritSec); // Find the real WAVE drivers lstrcpyW(szKey, wszWave); szKey[ (sizeof(szKey) / sizeof( WCHAR )) - 1 ] = (WCHAR)'\0'; for (i=0; i<=MAXDRIVERORDINAL; i++) { h = mmDrvOpen(szKey); if (h) { mmDrvInstall(h, szKey, NULL, MMDRVI_WAVEOUT|MMDRVI_HDRV); if (!WinmmRunningInServer) { h = mmDrvOpen(szKey); mmDrvInstall(h, szKey, NULL, MMDRVI_WAVEIN |MMDRVI_HDRV); } } szKey[ (sizeof(wszWave) / sizeof(WCHAR)) - 1] = (WCHAR)('1' + i); } FreeUnusedDrivers(&waveoutdrvZ); LeaveCriticalSection(&NumDevsCritSec); return TRUE; } /***************************************************************************** * @doc INTERNAL MIDI * * @api BOOL | MidiInit | This function initialises the midi services. * * @rdesc The return value is TRUE if the services are initialised, FALSE if * an error occurs * * @comm the midi devices are loaded from SYSTEM.INI in the following order * * midi * midi1 * midi2 * midi3 * ****************************************************************************/ BOOL MidiInit(void) { WCHAR szKey[ (sizeof(wszMidi) + sizeof( WCHAR )) / sizeof( WCHAR ) ]; int i; HDRVR h; // Find the real MIDI drivers lstrcpyW(szKey, wszMidi); szKey[ (sizeof(szKey) / sizeof( WCHAR )) - 1 ] = (WCHAR)'\0'; for (i=0; i<=MAXDRIVERORDINAL; i++) { h = mmDrvOpen(szKey); if (h) { mmDrvInstall(h, szKey, NULL, MMDRVI_MIDIOUT|MMDRVI_HDRV); h = mmDrvOpen(szKey); mmDrvInstall(h, szKey, NULL, MMDRVI_MIDIIN |MMDRVI_HDRV); } szKey[ (sizeof(wszMidi) / sizeof(WCHAR)) - 1] = (WCHAR)('1' + i); } return TRUE; } /***************************************************************************** * @doc INTERNAL AUX * * @api BOOL | AuxInit | This function initialises the auxiliary output * services. * * @rdesc The return value is TRUE if the services are initialised, FALSE if * an error occurs * * @comm SYSTEM.INI is searched for auxn.drv=.... where n can be from 1 to 4. * Each driver is loaded and the number of devices it supports is read * from it. * * AUX devices are loaded from SYSTEM.INI in the following order * * aux * aux1 * aux2 * aux3 * ****************************************************************************/ BOOL AuxInit(void) { WCHAR szKey[ (sizeof(wszAux) + sizeof( WCHAR )) / sizeof( WCHAR ) ]; int i; HDRVR h; // Find the real Aux drivers lstrcpyW(szKey, wszAux); szKey[ (sizeof(szKey) / sizeof( WCHAR )) - 1 ] = (WCHAR)'\0'; for (i=0; i<=MAXDRIVERORDINAL; i++) { h = mmDrvOpen(szKey); if (h) { mmDrvInstall(h, szKey, NULL, MMDRVI_AUX|MMDRVI_HDRV); } // advance driver ordinal szKey[ (sizeof(wszAux) / sizeof(WCHAR)) - 1] = (WCHAR)('1' + i); } /* The aux mapper. * * MMSYSTEM allows the user to install a special aux driver which is * not visible to the application as a physical device (it is not * included in the number returned from getnumdevs). * * I'm not sure why anyone would do this but I'll provide the * capability for symmetry. * */ if (wTotalAuxDevs > 0) { h = mmDrvOpen(wszAuxMapper); if (h) { mmDrvInstall(h, wszAuxMapper, NULL, MMDRVI_MAPPER|MMDRVI_AUX|MMDRVI_HDRV); } } return TRUE; } /***************************************************************************** * @doc INTERNAL MIXER * * @api BOOL | MixerInit | This function initialises the mixer drivers * services. * * @rdesc The return value is TRUE if the services are initialised, FALSE if * an error occurs * * @comm SYSTEM.INI is searched for mixern.drv=.... where n can be from 1 to 4. * Each driver is loaded and the number of devices it supports is read * from it. * * MIXER devices are loaded from SYSTEM.INI in the following order * * mixer * mixer1 * mixer2 * mixer3 * ****************************************************************************/ BOOL MixerInit(void) { WCHAR szKey[ (sizeof(wszMixer) + sizeof( WCHAR )) / sizeof( WCHAR ) ]; int i; HDRVR h; // Find the real Mixer drivers lstrcpyW(szKey, wszMixer); szKey[ (sizeof(szKey) / sizeof( WCHAR )) - 1 ] = (WCHAR)'\0'; for (i=0; i<=MAXDRIVERORDINAL; i++) { h = mmDrvOpen(szKey); if (h) { mmDrvInstall(h, szKey, NULL, MMDRVI_MIXER|MMDRVI_HDRV); } // advance driver ordinal szKey[ (sizeof(wszMixer) / sizeof(WCHAR)) - 1] = (WCHAR)('1' + i); } #ifdef MIXER_MAPPER /* The Mixer mapper. * * MMSYSTEM allows the user to install a special aux driver which is * not visible to the application as a physical device (it is not * included in the number returned from getnumdevs). * * I'm not sure why anyone would do this but I'll provide the * capability for symmetry. * */ if (guTotalMixerDevs > 0) { h = mmDrvOpen(wszMixerMapper); if (h) { mmDrvInstall(h, wszMixerMapper, NULL, MMDRVI_MAPPER|MMDRVI_MIXER|MMDRVI_HDRV); } } #endif return TRUE; } /***************************************************************************** * * @doc INTERNAL * * @api HANDLE | mmDrvOpen | This function load's an installable driver, but * first checks weather it exists in the [Drivers] section. * * @parm LPSTR | szAlias | driver alias to load * * @rdesc The return value is return value from DrvOpen or NULL if the alias * was not found in the [Drivers] section. * ****************************************************************************/ HANDLE mmDrvOpen(LPWSTR szAlias) { WCHAR buf[300]; // Make this large to bypass GetPrivate... bug if ( winmmGetPrivateProfileString( wszDrivers, szAlias, wszNull, buf, sizeof(buf) / sizeof(WCHAR), wszSystemIni) ) { return (HANDLE)DrvOpen(szAlias, NULL, 0L); } else { return NULL; } } /***************************************************************************** * @doc INTERNAL * * @api HANDLE | mmDrvInstall | This function installs/removes a WAVE/MIDI driver * * @parm HANDLE | hDriver | Module handle or driver handle containing driver * * @parm WCHAR * | wszDrvEntry | String corresponding to hDriver to be stored for * later use * * @parm DRIVERMSGPROC | drvMessage | driver message procedure, if NULL * the standard name will be used (looked for with GetProcAddress) * * @parm UINT | wFlags | flags * * @flag MMDRVI_TYPE | driver type mask * @flag MMDRVI_WAVEIN | install driver as a wave input driver * @flag MMDRVI_WAVEOUT | install driver as a wave ouput driver * @flag MMDRVI_MIDIIN | install driver as a midi input driver * @flag MMDRVI_MIDIOUT | install driver as a midi output driver * @flag MMDRVI_AUX | install driver as a aux driver * @flag MMDRVI_MIXER | install driver as a mixer driver * * @flag MMDRVI_MAPPER | install this driver as the mapper * @flag MMDRVI_HDRV | hDriver is a installable driver * @flag MMDRVI_REMOVE | remove the driver * * @rdesc returns NULL if unable to install driver * ****************************************************************************/ UINT APIENTRY mmDrvInstall( HANDLE hDriver, WCHAR * wszDrvEntry, DRIVERMSGPROC drvMessage, UINT wFlags ) { #define SZ_SIZE 128 int i; DWORD dw; PMMDRV pdrvZ; PMMDRV pdrv; SIZE_T cbdrv; HANDLE hModule; UINT msg_num_devs; UINT *pTotalDevs; CHAR *szMessage; WCHAR sz[SZ_SIZE]; BOOL fMixerCritSec; fMixerCritSec = FALSE; pdrvZ = NULL; pdrv = NULL; if (hDriver && (wFlags & MMDRVI_HDRV)) { hModule = DrvGetModuleHandle(hDriver); } else { hModule = hDriver; hDriver = NULL; } switch (wFlags & MMDRVI_TYPE) { case MMDRVI_WAVEOUT: pdrvZ = &waveoutdrvZ; cbdrv = sizeof(WAVEDRV); msg_num_devs = WODM_GETNUMDEVS; pTotalDevs = &wTotalWaveOutDevs; szMessage = szWodMessage; break; case MMDRVI_WAVEIN: pdrvZ = &waveindrvZ; cbdrv = sizeof(WAVEDRV); msg_num_devs = WIDM_GETNUMDEVS; pTotalDevs = &wTotalWaveInDevs; szMessage = szWidMessage; break; case MMDRVI_MIDIOUT: pdrvZ = &midioutdrvZ; cbdrv = sizeof(MIDIDRV); msg_num_devs = MODM_GETNUMDEVS; pTotalDevs = &wTotalMidiOutDevs; szMessage = szModMessage; break; case MMDRVI_MIDIIN: pdrvZ = &midiindrvZ; cbdrv = sizeof(MIDIDRV); msg_num_devs = MIDM_GETNUMDEVS; pTotalDevs = &wTotalMidiInDevs; szMessage = szMidMessage; break; case MMDRVI_AUX: pdrvZ = &auxdrvZ; cbdrv = sizeof(AUXDRV); msg_num_devs = AUXDM_GETNUMDEVS; pTotalDevs = &wTotalAuxDevs; szMessage = szAuxMessage; break; case MMDRVI_MIXER: pdrvZ = &mixerdrvZ; cbdrv = sizeof(MIXERDRV); msg_num_devs = MXDM_GETNUMDEVS; pTotalDevs = &guTotalMixerDevs; szMessage = szMxdMessage; break; default: goto error_exit; } if (drvMessage == NULL && hModule != NULL) drvMessage = (DRIVERMSGPROC)GetProcAddress(hModule, szMessage); if (drvMessage == NULL) goto error_exit; // // try to find the driver already installed // pdrv = pdrvZ->Next; while (pdrv != pdrvZ && pdrv->drvMessage != drvMessage) pdrv = pdrv->Next; if (pdrv != pdrvZ) { pdrv = NULL; goto error_exit; // we found it, don't reinstall it } // // Make a new MMDRV for the device. // pdrv = HeapAlloc(hHeap, HEAP_ZERO_MEMORY, cbdrv); if (!pdrv) goto error_exit; pdrv->hDriver = hDriver; pdrv->Usage = 1; pdrv->cookie = 0; // This is 0 for non-WDM drivers. pdrv->fdwDriver = (wFlags & MMDRVI_MAPPER) ? MMDRV_MAPPER : 0; pdrv->fdwDriver |= DrvIsPreXp(hDriver) ? MMDRV_PREXP : 0; pdrv->drvMessage = drvMessage; WinAssert(lstrlenA(szMessage) < sizeof(pdrv->wszMessage)/sizeof(WCHAR)); mbstowcs(pdrv->wszMessage, szMessage, sizeof(pdrv->wszMessage)/sizeof(WCHAR)); lstrcpyW( pdrv->wszSessProtocol, SessionProtocolName ); winmmGetPrivateProfileString(wszDrivers, // ini section wszDrvEntry, // key name wszDrvEntry, // default if no match sz, // return buffer SZ_SIZE, // sizeof of return buffer wszSystemIni); // ini. file lstrcpyW(pdrv->wszDrvEntry,sz); if (!mmInitializeCriticalSection(&pdrv->MixerCritSec)) goto error_exit; fMixerCritSec = TRUE; // // Mixer drivers get extra message?! // if (MMDRVI_MIXER == (wFlags & MMDRVI_TYPE)) { // // send the init message, if the driver returns a error, should we // unload them??? // dw = drvMessage(0, MXDM_INIT,0L,0L,0L); } // // call driver to get num-devices it supports // dw = drvMessage(0,msg_num_devs,0L,0L,0L); // // the device returned a error, or has no devices // // if (HIWORD(dw) != 0 || LOWORD(dw) == 0) if ((HIWORD(dw) != 0) || (0 == LOWORD(dw))) goto error_exit; pdrv->NumDevs = LOWORD(dw); // // dont increment number of dev's for the mapper // if (!(pdrv->fdwDriver & MMDRV_MAPPER)) *pTotalDevs += pdrv->NumDevs; // // add to end of the driver list // mregAddDriver(pdrvZ, pdrv); return TRUE; // return a non-zero value error_exit: if (hDriver && !(wFlags & MMDRVI_REMOVE)) DrvClose(hDriver, 0, 0); if (fMixerCritSec) DeleteCriticalSection(&pdrv->MixerCritSec); WinAssert(pdrv != pdrvZ); if (pdrv) HeapFree(hHeap, 0, pdrv); return FALSE; #undef SZ_SIZE } /************************************************************************** wdmDevInterfaceInstall Notes: Assumes that the NumDevsCritSec is owned as necessary **************************************************************************/ HANDLE wdmDevInterfaceInstall ( LPCWSTR pszDev, LONG cPnpEvents ) { PWDMDEVICEINTERFACE pwdmDev; EnterCriticalSection(&NumDevsCritSec); // // Look for device interface... // pwdmDev = wdmDevZ.Next; while (pwdmDev) { WinAssert(pwdmDev->cUsage); if (!lstrcmpiW(pwdmDev->szDeviceInterface, pszDev)) { pwdmDev->cUsage++; pwdmDev->cPnpEvents = cPnpEvents; break; } pwdmDev = pwdmDev->Next; } if (!pwdmDev) { SIZE_T cbszDev; // // Device interface not found... // cbszDev = (lstrlen(pszDev) + 1) * sizeof(pszDev[0]); pwdmDev = HeapAlloc(hHeap, HEAP_ZERO_MEMORY, sizeof(*pwdmDev) + cbszDev); if (pwdmDev) { pwdmDev->cUsage = 1; pwdmDev->cPnpEvents = cPnpEvents; lstrcpyW(pwdmDev->szDeviceInterface, pszDev); pwdmDev->Next = wdmDevZ.Next; wdmDevZ.Next = pwdmDev; } } LeaveCriticalSection(&NumDevsCritSec); return (pwdmDev ? pwdmDev->szDeviceInterface : NULL); } /************************************************************************** wdmDevInterfaceInc Notes: Enters/Leaves the NumDevsCritSec **************************************************************************/ BOOL wdmDevInterfaceInc ( PCWSTR dwCookie ) { PWDMDEVICEINTERFACE pwdmDev; if (NULL == dwCookie) { return FALSE; } EnterCriticalSection(&NumDevsCritSec); // // Look for device interface... // pwdmDev = wdmDevZ.Next; while (pwdmDev) { WinAssert(pwdmDev->cUsage); if (dwCookie == pwdmDev->szDeviceInterface) { pwdmDev->cUsage++; LeaveCriticalSection(&NumDevsCritSec); return TRUE; } pwdmDev = pwdmDev->Next; } // // If we get down here, it means that we're trying to increment the // reference to a interface that doesn't exist anymore // WinAssert(FALSE); LeaveCriticalSection(&NumDevsCritSec); return FALSE; } /************************************************************************** wdmDevInterfaceDec Notes: Enters/Leaves the NumDevsCritSec **************************************************************************/ BOOL wdmDevInterfaceDec ( PCWSTR dwCookie ) { PWDMDEVICEINTERFACE pwdmDevPrev; if (NULL == dwCookie) { return FALSE; } EnterCriticalSection(&NumDevsCritSec); // // Look for device interface... // pwdmDevPrev = &wdmDevZ; while (pwdmDevPrev->Next) { PWDMDEVICEINTERFACE pwdmDev = pwdmDevPrev->Next; WinAssert(pwdmDev->cUsage); if (dwCookie == pwdmDev->szDeviceInterface) { if (0 == --pwdmDev->cUsage) { pwdmDevPrev->Next = pwdmDev->Next; HeapFree(hHeap, 0, pwdmDev); } LeaveCriticalSection(&NumDevsCritSec); return TRUE; } pwdmDevPrev = pwdmDev; } // // If we get down here it means that we are trying to decrement the // reference to an interface that doesn't exist anymore. // WinAssert(FALSE); LeaveCriticalSection(&NumDevsCritSec); return FALSE; } //--------------------------------------------------------------------------; // // void CleanUpHandles // // Description: // Given a particular subsystem and device interface, cleans up the // handles. // // Arguments: // UINT uFlags: Has one of MMDRVI_* flags to indictate which class of // handle needs to be checked for desertion. // // HANDLE cookie: Device interface // // Return (void): // // History: // 01/25/99 Fwong Adding Pnp Support. // //--------------------------------------------------------------------------; void CleanUpHandles ( UINT wFlags, PCWSTR cookie ) { HANDLE hMM; UINT uType; PHNDL pSearch; BOOL fFound; // Convert MMDRVI_* type flags to TYPE_* switch(wFlags & MMDRVI_TYPE) { case MMDRVI_WAVEOUT: uType = TYPE_WAVEOUT; break; case MMDRVI_WAVEIN: uType = TYPE_WAVEIN; break; case MMDRVI_MIDIOUT: uType = TYPE_MIDIOUT; break; case MMDRVI_MIDIIN: uType = TYPE_MIDIIN; break; case MMDRVI_MIXER: uType = TYPE_MIXER; break; case MMDRVI_AUX: uType = TYPE_AUX; break; default: uType = TYPE_UNKNOWN; WinAssert(TYPE_UNKNOWN != uType); } // Note: Since we are not freeing any handles (just marking them // deserted), we don't have to mess with the HandleListCritSec for (pSearch = pHandleList; NULL != pSearch; pSearch = pSearch->pNext) { if ((cookie != pSearch->cookie) || (uType != pSearch->uType)) { continue; } // Both the cookie and type match... hMM = PHtoH(pSearch); switch (uType) { case TYPE_WAVEOUT: waveOutDesertHandle((HWAVEOUT)hMM); break; case TYPE_WAVEIN: waveInDesertHandle((HWAVEIN)hMM); break; case TYPE_MIDIOUT: midiOutDesertHandle((HMIDIOUT)hMM); break; case TYPE_MIDIIN: midiInDesertHandle((HMIDIIN)hMM); break; case TYPE_MIXER: mixerDesertHandle((HMIXER)hMM); break; case TYPE_AUX: // We don't expect open handles of this type WinAssert(TYPE_AUX != uType); break; } } } // CleanUpHandles() UINT APIENTRY wdmDrvInstall ( HANDLE hDriver, LPTSTR pszDriverFile, HANDLE cookie, UINT wFlags ) { int i; DWORD dw; PMMDRV pdrvZ; PMMDRV pdrv; SIZE_T cbdrv; HANDLE hModule; UINT msg_init; UINT msg_num_devs; UINT *pTotalDevs; CHAR *szMessage; DRIVERMSGPROC pfnDrvMessage; WCHAR sz[MAX_PATH]; BOOL fMixerCritSec; // Squirt("Entering wdmDrvInstall"); fMixerCritSec = FALSE; pdrv = NULL; pfnDrvMessage = NULL; if (hDriver && (wFlags & MMDRVI_HDRV)) { hModule = DrvGetModuleHandle(hDriver); } else { hModule = hDriver; hDriver = NULL; } switch (wFlags & MMDRVI_TYPE) { case MMDRVI_WAVEOUT: pdrvZ = &waveoutdrvZ; cbdrv = sizeof(WAVEDRV); msg_init = WODM_INIT; msg_num_devs = WODM_GETNUMDEVS; pTotalDevs = &wTotalWaveOutDevs; szMessage = szWodMessage; break; case MMDRVI_WAVEIN: pdrvZ = &waveindrvZ; cbdrv = sizeof(WAVEDRV); msg_init = WIDM_INIT; msg_num_devs = WIDM_GETNUMDEVS; pTotalDevs = &wTotalWaveInDevs; szMessage = szWidMessage; break; case MMDRVI_MIDIOUT: pdrvZ = &midioutdrvZ; cbdrv = sizeof(MIDIDRV); msg_init = MODM_INIT; msg_num_devs = MODM_GETNUMDEVS; pTotalDevs = &wTotalMidiOutDevs; szMessage = szModMessage; break; case MMDRVI_MIDIIN: pdrvZ = &midiindrvZ; cbdrv = sizeof(MIDIDRV); msg_init = MIDM_INIT; msg_num_devs = MIDM_GETNUMDEVS; pTotalDevs = &wTotalMidiInDevs; szMessage = szMidMessage; break; case MMDRVI_AUX: pdrvZ = &auxdrvZ; cbdrv = sizeof(AUXDRV); msg_init = AUXM_INIT; msg_num_devs = AUXDM_GETNUMDEVS; pTotalDevs = &wTotalAuxDevs; szMessage = szAuxMessage; break; case MMDRVI_MIXER: pdrvZ = &mixerdrvZ; cbdrv = sizeof(MIXERDRV); msg_init = MXDM_INIT; msg_num_devs = MXDM_GETNUMDEVS; pTotalDevs = &guTotalMixerDevs; szMessage = szMxdMessage; break; default: goto error_exit; } pfnDrvMessage = (DRIVERMSGPROC)GetProcAddress(hModule, szMessage); if (NULL == pfnDrvMessage) goto error_exit; // // either install or remove the specified driver // if (wFlags & MMDRVI_REMOVE) { // // try to find the driver already installed // for (pdrv = pdrvZ->Next; pdrv != pdrvZ; pdrv = pdrv->Next) { if (pdrv->fdwDriver & MMDRV_DESERTED) continue; if (cookie) { // This is a wdm driver so we're matching up with cookie. if (pdrv->cookie == cookie) break; } else { // ISSUE-2001/01/14-FrankYe Will this ever be called // on non WDM driver??? // Not WDM driver, so matching up with pfnDrvMessage. if (pdrv->drvMessage == pfnDrvMessage) break; } } // // Driver not found. // if (pdrv == pdrvZ) pdrv = NULL; if (NULL == pdrv) goto error_exit; // // don't decrement number of dev's for the mapper // // Note: Moved this to before the usage check... // if (!(pdrv->fdwDriver & MMDRV_MAPPER)) *pTotalDevs -= pdrv->NumDevs; // // Mark no devs otherwise the device mapping will be skewed. // pdrv->NumDevs = 0; // // Mark this driver as removed // pdrv->fdwDriver |= MMDRV_DESERTED; CleanUpHandles(wFlags & MMDRVI_TYPE, pdrv->cookie); mregDecUsagePtr(pdrv); return TRUE; } else { // // try to find the driver already installed // for (pdrv = pdrvZ->Next; pdrv != pdrvZ; pdrv = pdrv->Next) { if (pdrv->fdwDriver & MMDRV_DESERTED) continue; if (cookie) { // This is a wdm driver so we're matching up with cookie. if (pdrv->cookie == cookie) break; } else { // ISSUE-2001/01/14-FrankYe Will this ever be called // on non WDM driver??? // Not WDM driver, so matching up with pfnDrvMessage. if (pdrv->drvMessage == pfnDrvMessage) break; } } // // If driver found, don't re-install. // if (pdrv != pdrvZ) { pdrv = NULL; goto error_exit; } // // Create a MMDRV for the device // pdrv = HeapAlloc(hHeap, HEAP_ZERO_MEMORY, cbdrv); if (!pdrv) goto error_exit; // // Initialize MMDRV structure // pdrv->hDriver = hDriver; pdrv->NumDevs = 0; pdrv->Usage = 1; pdrv->cookie = cookie; pdrv->fdwDriver = (wFlags & MMDRVI_MAPPER) ? MMDRV_MAPPER : 0; pdrv->fdwDriver |= DrvIsPreXp(hDriver) ? MMDRV_PREXP : 0; pdrv->drvMessage = pfnDrvMessage; WinAssert(lstrlenA(szMessage) < sizeof(pdrv->wszMessage)/sizeof(WCHAR)); mbstowcs(pdrv->wszMessage, szMessage, sizeof(pdrv->wszMessage)/sizeof(WCHAR)); lstrcpyW(pdrv->wszDrvEntry, pszDriverFile); if (!mmInitializeCriticalSection(&pdrv->MixerCritSec)) goto error_exit; fMixerCritSec = TRUE; // // Sending init message // dw = pfnDrvMessage(0,msg_init,0L,0L,(DWORD_PTR)cookie); // // call driver to get num-devices it supports // dw = pfnDrvMessage(0,msg_num_devs,0L,(DWORD_PTR)cookie,0L); // // the device returned a error, or has no devices // if (0 != HIWORD(dw) || 0 == LOWORD(dw)) goto error_exit; pdrv->NumDevs = LOWORD(dw); wdmDevInterfaceInc(cookie); // Squirt("Driver [%ls:0x%04x] supports %d devices", pszDriverFile, wFlags & MMDRVI_TYPE, dw); // // dont increment number of dev's for the mapper // if (!(pdrv->fdwDriver & MMDRV_MAPPER)) *pTotalDevs += pdrv->NumDevs; // // add to end of the driver list // mregAddDriver(pdrvZ, pdrv); // Squirt("Installed driver"); return TRUE; } error_exit: // ISSUE-2001/01/05-FrankYe On add, if msg_init was sent it might be good // to also send DRVM_EXIT before closing the driver. if (fMixerCritSec) DeleteCriticalSection(&pdrv->MixerCritSec); if (pdrv) HeapFree(hHeap, 0, pdrv); return FALSE; } void KickMapper ( UINT uFlags ) { PMMDRV pmd; DWORD dw; DRIVERMSGPROC pfnDrvMessage = NULL; MMRESULT mmr; switch (uFlags & MMDRVI_TYPE) { case MMDRVI_WAVEOUT: { mmr = waveReferenceDriverById(&waveoutdrvZ, WAVE_MAPPER, &pmd, NULL); break; } case MMDRVI_WAVEIN: { mmr = waveReferenceDriverById(&waveindrvZ, WAVE_MAPPER, &pmd, NULL); break; } case MMDRVI_MIDIOUT: { mmr = midiReferenceDriverById(&midioutdrvZ, MIDI_MAPPER, &pmd, NULL); break; } case MMDRVI_MIDIIN: { mmr = midiReferenceDriverById(&midiindrvZ, MIDI_MAPPER, &pmd, NULL); break; } case MMDRVI_AUX: { mmr = auxReferenceDriverById(AUX_MAPPER, &pmd, NULL); break; } case MMDRVI_MIXER: { #ifdef MIXER_MAPPER mmr = mixerReferenceDriverById(MIXER_MAPPER, &pmd, NULL); #else mmr = MMSYSERR_NODRIVER; #endif break; } default: WinAssert(FALSE); mmr = MMSYSERR_NODRIVER; return; } if (!mmr) { if (pmd->drvMessage) { pmd->drvMessage(0, DRVM_MAPPER_RECONFIGURE, 0L, 0L, 0L); } mregDecUsagePtr(pmd); } } void wdmDriverLoadClass( IN HKEY hkey, IN PCTSTR DeviceInterface, IN UINT uFlags, IN OUT PTSTR *ppstrLeftOverDriver, IN OUT HDRVR *phLeftOverDriver) { PTSTR pstrClass; HKEY hkeyClass; WinAssert((NULL == *ppstrLeftOverDriver) == (NULL == *phLeftOverDriver)); switch (uFlags & MMDRVI_TYPE) { case MMDRVI_WAVEOUT: case MMDRVI_WAVEIN: pstrClass = TEXT("Drivers\\wave"); break; case MMDRVI_MIDIOUT: case MMDRVI_MIDIIN: pstrClass = TEXT("Drivers\\midi"); break; case MMDRVI_MIXER: pstrClass = TEXT("Drivers\\mixer"); break; case MMDRVI_AUX: pstrClass = TEXT("Drivers\\aux"); break; default: pstrClass = NULL; } if (pstrClass && !RegOpenKeyEx(hkey, pstrClass, 0, KEY_QUERY_VALUE | KEY_ENUMERATE_SUB_KEYS, &hkeyClass)) { DWORD cSubkeys; PTSTR pstrSubkeyNameBuffer; DWORD cchSubkeyNameBuffer; if (!RegPrepareEnum(hkeyClass, &cSubkeys, &pstrSubkeyNameBuffer, &cchSubkeyNameBuffer)) { DWORD dwIndex; for (dwIndex = 0; dwIndex < cSubkeys; dwIndex++) { HKEY hkeyClassDriver; if (!RegEnumOpenKey(hkeyClass, dwIndex, pstrSubkeyNameBuffer, cchSubkeyNameBuffer, KEY_QUERY_VALUE, &hkeyClassDriver)) { PTSTR pstrDriver; if (!RegQuerySzValue(hkeyClassDriver, TEXT("Driver"), &pstrDriver)) { HDRVR h; BOOL fLoaded = FALSE; // dprintf(("wdmDriverLoadClass %s %ls on %ls", (uFlags & MMDRVI_REMOVE) ? "removing" : "installing", pstrClass, DeviceInterface)); EnterCriticalSection(&NumDevsCritSec); if (!*phLeftOverDriver || lstrcmpi(pstrDriver, *ppstrLeftOverDriver)) { if (*phLeftOverDriver) { DrvClose(*phLeftOverDriver, 0, 0); HeapFree(hHeap, 0, *ppstrLeftOverDriver); } // dprintf(("wdmDriverLoadClass, opening driver %ls", pstrDriver)); h = mmDrvOpen(pstrDriver); } else { HeapFree(hHeap, 0, pstrDriver); h = *phLeftOverDriver; pstrDriver = *ppstrLeftOverDriver; } *phLeftOverDriver = NULL; *ppstrLeftOverDriver = NULL; if (h) { fLoaded = wdmDrvInstall(h, pstrDriver, (HANDLE)DeviceInterface, uFlags | MMDRVI_HDRV); } else { HeapFree(hHeap, 0, pstrDriver); pstrDriver = NULL; } // dprintf(("wdmDriverLoadClass, fLoaded = %s", fLoaded ? "TRUE" : "FALSE")); if (!fLoaded) { *phLeftOverDriver = h; *ppstrLeftOverDriver = pstrDriver; } LeaveCriticalSection(&NumDevsCritSec); } RegCloseKey(hkeyClassDriver); } } HeapFree(hHeap, 0, pstrSubkeyNameBuffer); } RegCloseKey(hkeyClass); } } void wdmDriverLoadAllClasses(IN PCTSTR DeviceInterface, UINT uFlags) { HKEY hkey = NULL; LONG result; // dprintf(("wdmDriverLoadAllClasses on %ls", DeviceInterface)); result = wdmDriverOpenDrvRegKey(DeviceInterface, KEY_ENUMERATE_SUB_KEYS, &hkey); if (!result) { HDRVR hUnusedDriver = NULL; PTSTR pstrUnusedDriver = NULL; WinAssert(hkey); wdmDriverLoadClass(hkey, DeviceInterface, uFlags | MMDRVI_WAVEOUT, &pstrUnusedDriver, &hUnusedDriver); wdmDriverLoadClass(hkey, DeviceInterface, uFlags | MMDRVI_WAVEIN, &pstrUnusedDriver, &hUnusedDriver); wdmDriverLoadClass(hkey, DeviceInterface, uFlags | MMDRVI_MIDIOUT, &pstrUnusedDriver, &hUnusedDriver); wdmDriverLoadClass(hkey, DeviceInterface, uFlags | MMDRVI_MIDIIN, &pstrUnusedDriver, &hUnusedDriver); wdmDriverLoadClass(hkey, DeviceInterface, uFlags | MMDRVI_AUX, &pstrUnusedDriver, &hUnusedDriver); // wdmDriverLoadClass(hkey, DeviceInterface, uFlags | MMDRVI_JOY); wdmDriverLoadClass(hkey, DeviceInterface, uFlags | MMDRVI_MIXER, &pstrUnusedDriver, &hUnusedDriver); if (hUnusedDriver) { WinAssert(pstrUnusedDriver); DrvClose(hUnusedDriver, 0, 0); HeapFree(hHeap, 0, pstrUnusedDriver); } RegCloseKey(hkey); } else { dprintf(("wdmDriverLoadAllClasses: wdmDriverOpenDrvRegKey returned error %d", result)); } return; } void wdmPnpUpdateDriver ( DWORD dwType, LPCWSTR pszID, LONG cPnpEvents ) { HANDLE cookie; cookie = wdmDevInterfaceInstall(pszID, cPnpEvents); if(0 == cookie) { return; } if(WinmmRunningInServer) { Squirt("Running in CSRSS?!?!"); WinAssert(FALSE); return; } // ISSUE-2001/01/16-FrankYe This violates the order in which locks should // be acquired. The HandleListCritSec should be the last lock taken, // but here it is held while calling other functions that will acquire // NumDevsCritSec. I'm not sure why we need to acquire // HandleListCritSec here. EnterCriticalSection(&HandleListCritSec); switch (dwType) { case DBT_DEVICEARRIVAL: // Squirt("wdmPnpUpdateDriver:DBT_DEVICEARRIVAL [%ls]", pszID); wdmDriverLoadAllClasses(cookie, 0); break; case DBT_DEVICEREMOVECOMPLETE: // Squirt("wdmPnpUpdateDriver:DBT_DEVICEREMOVECOMPLETE [%ls]", pszID); // ISSUE-2001/02/08-FrankYe I think we never DrvClose drivers anymore! wdmDriverLoadAllClasses(cookie, MMDRVI_REMOVE); break; default: break; } LeaveCriticalSection(&HandleListCritSec); wdmDevInterfaceDec(cookie); } // wdmPnpUpdateDriver() void KickMappers ( void ) { KickMapper(MMDRVI_WAVEOUT); KickMapper(MMDRVI_WAVEIN); KickMapper(MMDRVI_MIDIOUT); KickMapper(MMDRVI_MIDIIN); KickMapper(MMDRVI_AUX); KickMapper(MMDRVI_MIXER); } BOOL ClientPnpChange(void) { BOOL fDeviceChange; PMMPNPINFO pPnpInfo; LONG cbPnpInfo; PMMDEVICEINTERFACEINFO pdii; UINT ii; fDeviceChange = FALSE; if (ERROR_SUCCESS != winmmGetPnpInfo(&cbPnpInfo, &pPnpInfo)) return fDeviceChange; // Always grab NumDevsCriticalSection before DriverLoadFree CS EnterCriticalSection(&NumDevsCritSec); EnterCriticalSection(&DriverLoadFreeCritSec); cPnpEvents = pPnpInfo->cPnpEvents; // Adding new instances... pdii = (PMMDEVICEINTERFACEINFO)&(pPnpInfo[1]); pdii = PAD_POINTER(pdii); for (ii = pPnpInfo->cDevInterfaces; ii; ii--) { PWDMDEVICEINTERFACE pwdmDev; PWSTR pstr; UINT jj; pstr = &(pdii->szName[0]); pwdmDev = wdmDevZ.Next; while (pwdmDev) { WinAssert(pwdmDev->cUsage); { if (0 == lstrcmpi(pwdmDev->szDeviceInterface, pstr)) { if (pdii->cPnpEvents > pwdmDev->cPnpEvents) { // if it has to be updated it must be removed first... wdmPnpUpdateDriver(DBT_DEVICEREMOVECOMPLETE, pstr, 0); if (0 == (pdii->fdwInfo & MMDEVICEINFO_REMOVED)) { wdmPnpUpdateDriver(DBT_DEVICEARRIVAL, pstr, pdii->cPnpEvents); } fDeviceChange = TRUE; } break; } pwdmDev = pwdmDev->Next; } } if (!pwdmDev) { // Device interface should be installed. if (0 == (pdii->fdwInfo & MMDEVICEINFO_REMOVED)) { wdmPnpUpdateDriver(DBT_DEVICEARRIVAL, pstr, pdii->cPnpEvents); } fDeviceChange = TRUE; } pdii = (PMMDEVICEINTERFACEINFO)(pstr + lstrlenW(pstr) + 1); pdii = PAD_POINTER(pdii); pstr = (PWSTR)(&pdii[1]); } LeaveCriticalSection(&DriverLoadFreeCritSec); LeaveCriticalSection(&NumDevsCritSec); HeapFree(hHeap, 0, pPnpInfo); return fDeviceChange; } void ClientUpdatePnpInfo(void) { static BOOL fFirstCall = TRUE; static BOOL InThisFunction = FALSE; BOOL fWasFirstCall; if (IsWinlogon() && !gfLogon) { dprintf(("ClientUpdatePnpInfo: warning: called in winlogon before logged on")); return; } fWasFirstCall = InterlockedExchange(&fFirstCall, FALSE); if (fWasFirstCall) { // Note AudioSrvBinding happens in WinmmLogon for winlogon winmmWaitForService(); if (!IsWinlogon()) AudioSrvBinding(); if (NULL == pClientPnpInfo) { hClientPnpInfo = OpenFileMapping(FILE_MAP_READ, FALSE, MMGLOBALPNPINFONAME); if (hClientPnpInfo) { pClientPnpInfo = MapViewOfFile(hClientPnpInfo, FILE_MAP_READ, 0, 0, 0); if (!pClientPnpInfo) { CloseHandle(hClientPnpInfo); hClientPnpInfo = NULL; } } if (!hClientPnpInfo) dprintf(("ClientUpdatePnpInfo: WARNING: Could not OpenFileMapping")); } SetEvent(hEventApiInit); } else { WaitForSingleObjectEx(hEventApiInit, INFINITE, FALSE); } EnterCriticalSection(&PnpCritSec); if (!InterlockedExchange(&InThisFunction, TRUE)) { BOOL fDeviceChange; BOOL fPreferredDeviceChange; fPreferredDeviceChange = CheckSessionChanged(); fDeviceChange = FALSE; if (pClientPnpInfo && (cPnpEvents != pClientPnpInfo->cPnpEvents)) fDeviceChange = ClientPnpChange(); if (fDeviceChange) InvalidatePreferredDevices(); fPreferredDeviceChange |= (pClientPnpInfo && (cPreferredDeviceChanges != pClientPnpInfo->cPreferredDeviceChanges)); if (fPreferredDeviceChange && pClientPnpInfo) cPreferredDeviceChanges = pClientPnpInfo->cPreferredDeviceChanges; if (fWasFirstCall || fDeviceChange || fPreferredDeviceChange) RefreshPreferredDevices(); if (fDeviceChange) KickMappers(); InterlockedExchange(&InThisFunction, FALSE); } LeaveCriticalSection(&PnpCritSec); } void WinmmLogon(BOOL fConsole) { // dprintf(("WinmmLogon (%s session)", fConsole ? "console" : "remote")); WinAssert(IsWinlogon()); WinAssert(!gfLogon); // WinAssert(fConsole ? !WinmmRunningInSession : WinmmRunningInSession); if (!IsWinlogon()) return; AudioSrvBinding(); gfLogon = TRUE; // ISSUE-2001/05/04-FrankYe This is a NOP now, should remove this and // implementation in audiosrv. gfxLogon(GetCurrentProcessId()); return; } void WinmmLogoff(void) { HANDLE handle; // dprintf(("WinmmLogoff")); WinAssert(IsWinlogon()); WinAssert(gfLogon); if (!IsWinlogon()) return; gfxLogoff(); // It is very important to close this context handle now because it is associated // with the logged on user. Otherwise the handle remains open, associated with the // logged on user, even after he logs off. if (ghSessionNotification) { WinAssert(ghSessionNotificationEvent); winmmUnregisterSessionNotification(ghSessionNotification); CloseHandle(ghSessionNotificationEvent); ghSessionNotification = NULL; ghSessionNotificationEvent = NULL; } else { WinAssert(!ghSessionNotificationEvent); } AudioSrvBindingFree(); gfLogon = FALSE; return; } /* ************************************************************************* * MigrateSoundEvents * * Description: * Looks at the sounds section in win.ini for sound entries. * Gets a current scheme name from the current section in control.ini * Failing that it tries to find the current scheme in the registry * Failing that it uses .default as the current scheme. * Copies each of the entries in the win.ini sound section into the * registry under the scheme name obtained * If the scheme name came from control.ini, it creates a key from the * scheme name. This key is created by removing all the existing spaces * in the scheme name. This key and scheme name is added to the registry * ************************************************************************* */ // ISSUE-2000/10/30-FrankYe Delete Winlogon's call to this function, then // delete this function void MigrateAllDrivers(void) { return; } void MigrateSoundEvents (void) { TCHAR aszEvent[SCH_TYPE_MAX_LENGTH]; // If a MediaPathUnexpanded key exists (it will be something // like "%SystemRoot%\Media"), expand it into a fully-qualified // path and write out a matching MediaPath key (which will look // like "c:\win\media"). This is done every time we enter the // migration path, whether or not there's anything else to do. // // Setup would like to write the MediaPath key with the // "%SystemRoot%" stuff still in it--but while we could touch // our apps to understand expansion, any made-for-Win95 apps // probably wouldn't think to expand the string, and so wouldn't // work properly. Instead, it writes the MediaPathUnexpanded // key, and we make sure that the MediaPath key is kept up-to-date // in the event that the Windows drive gets remapped (isn't // NT cool that way?). // if (mmRegQueryMachineValue (aszSetup, aszValMediaUnexpanded, cchLENGTH(aszEvent), aszEvent)) { WCHAR szExpanded[MAX_PATH]; ExpandEnvironmentStrings (aszEvent, szExpanded, cchLENGTH(szExpanded)); mmRegSetMachineValue (aszSetup, aszValMedia, szExpanded); } } int lstrncmpi (LPTSTR pszA, LPTSTR pszB, size_t cch) { #ifdef UNICODE size_t cchA, cchB; TCHAR *pch; for (cchA = 1, pch = pszA; cchA < cch; cchA++, pch++) { if (*pch == TEXT('\0')) break; } for (cchB = 1, pch = pszB; cchB < cch; cchB++, pch++) { if (*pch == TEXT('\0')) break; } return (CompareStringW (GetThreadLocale(), NORM_IGNORECASE, pszA, cchA, pszB, cchB) )-2; // CompareStringW returns {1,2,3} instead of {-1,0,1}. #else return strnicmp (pszA, pszB, cch); #endif } #if DBG void Squirt(LPSTR lpszFormat, ...) { char buf[512]; UINT n; va_list va; n = wsprintfA(buf, "WINMM: (pid %x) ", GetCurrentProcessId()); va_start(va, lpszFormat); n += vsprintf(buf+n, lpszFormat, va); va_end(va); buf[n++] = '\n'; buf[n] = 0; OutputDebugStringA(buf); Sleep(0); // let terminal catch up } #else void Squirt(LPSTR lpszFormat, ...) { } #endif