Source code of Windows XP (NT5)
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/*****************************************************************************
*
* PidReg.c
*
* Copyright (c) 1999 Microsoft Corporation. All Rights Reserved.
*
* Abstract:
*
* Update registry information for PID device.
*
*****************************************************************************/
#include "pidpr.h"
#define sqfl ( sqflReg )
#pragma BEGIN_CONST_DATA
/*
;---------------------------------------
;
; Force feedback registry settings for GUID_Sine.
;
; GUID_Sine is a predefined GUID; applications which want
; to use a sine effect independent of hardware will
; request a GUID_Sine.
;
; The default value is the friendly name for the effect.
;
HKLM,%KEY_OEM%\XYZZY.FFDrv1\OEMForceFeedback\Effects\%GUID_Sine%,,,"%Sine.Desc%"
;
; The Attributes value contains a DIEFFECTATTRIBUTES structure.
;
; The effect ID is the number that is passed by DirectInput to the
; effect driver to identify the effect (thereby saving the effect
; driver the trouble of parsing GUIDs all the time).
;
; Our effect is a periodic effect whose optional envelope
; supports attack and fade.
;
; Our hardware supports changing the following parameters when
; the effect is not playing (static): Duration, gain, trigger button,
; axes, direction, envelope, type-specific parameters. We do not
; support sample period or trigger repeat interval.
;
; Our hardware does not support changing any parameters while an
; effect is playing (dynamic).
;
; Our hardware prefers receiving multiple-axis direction information
; in polar coordinates.
;
; dwEffectId = EFFECT_SINE
; = 723 = D3,02,00,00
; dwEffType = DIEFT_PERIODIC | DIEFT_FFATTACK | DIEFT_FFFADE | DIEFT_STARTDELAY
; = 0x00000603 = 03,06,00,00
; dwStaticParams = DIEP_DURATION | DIEP_GAIN | DIEP_TRIGGERBUTTON |
; DIEP_AXES | DIEP_DIRECTION | DIEP_ENVELOPE |
; DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY
; = 0x000001ED = ED,01,00,00
; dwDynamicParams = 0x00000000 = 00,00,00,00
; dwCoords = DIEFF_POLAR
; = 0x00000020 = 20,00,00,00
*/
static EFFECTMAPINFO g_EffectMapInfo[] =
{
{
PIDMAKEUSAGEDWORD(ET_CONSTANT),
DIEFT_CONSTANTFORCE | DIEFT_FFATTACK | DIEFT_FFFADE | DIEFT_STARTDELAY,
DIEP_DURATION | DIEP_GAIN | DIEP_TRIGGERBUTTON | DIEP_TRIGGERREPEATINTERVAL | DIEP_AXES | DIEP_DIRECTION | DIEP_ENVELOPE | DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY,
DIEP_DURATION | DIEP_GAIN | DIEP_TRIGGERBUTTON | DIEP_TRIGGERREPEATINTERVAL | DIEP_AXES | DIEP_DIRECTION | DIEP_ENVELOPE | DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY,
DIEFF_POLAR,
&GUID_ConstantForce,
TEXT("GUID_ConstantForce"),
},
{
PIDMAKEUSAGEDWORD(ET_RAMP),
DIEFT_RAMPFORCE | DIEFT_FFATTACK | DIEFT_FFFADE | DIEFT_STARTDELAY,
DIEP_DURATION | DIEP_GAIN | DIEP_TRIGGERBUTTON | DIEP_TRIGGERREPEATINTERVAL | DIEP_AXES | DIEP_DIRECTION | DIEP_ENVELOPE | DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY,
DIEP_DURATION | DIEP_GAIN | DIEP_TRIGGERBUTTON | DIEP_TRIGGERREPEATINTERVAL | DIEP_AXES | DIEP_DIRECTION | DIEP_ENVELOPE | DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY,
DIEFF_POLAR,
&GUID_RampForce,
TEXT("GUID_RampForce"),
},
{
PIDMAKEUSAGEDWORD(ET_SQUARE),
DIEFT_PERIODIC | DIEFT_FFATTACK | DIEFT_FFFADE | DIEFT_STARTDELAY,
DIEP_DURATION | DIEP_GAIN | DIEP_TRIGGERBUTTON | DIEP_TRIGGERREPEATINTERVAL | DIEP_AXES | DIEP_DIRECTION | DIEP_ENVELOPE | DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY,
DIEP_DURATION | DIEP_GAIN | DIEP_TRIGGERBUTTON | DIEP_TRIGGERREPEATINTERVAL | DIEP_AXES | DIEP_DIRECTION | DIEP_ENVELOPE | DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY,
DIEFF_POLAR,
&GUID_Square,
TEXT("GUID_Square"),
},
{
PIDMAKEUSAGEDWORD(ET_SINE),
DIEFT_PERIODIC | DIEFT_FFATTACK | DIEFT_FFFADE | DIEFT_STARTDELAY,
DIEP_DURATION | DIEP_GAIN | DIEP_TRIGGERBUTTON | DIEP_TRIGGERREPEATINTERVAL | DIEP_AXES | DIEP_DIRECTION | DIEP_ENVELOPE | DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY,
DIEP_DURATION | DIEP_GAIN | DIEP_TRIGGERBUTTON | DIEP_TRIGGERREPEATINTERVAL | DIEP_AXES | DIEP_DIRECTION | DIEP_ENVELOPE | DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY,
DIEFF_POLAR,
&GUID_Sine,
TEXT("GUID_Sine"),
},
{
PIDMAKEUSAGEDWORD(ET_TRIANGLE),
DIEFT_PERIODIC | DIEFT_FFATTACK | DIEFT_FFFADE | DIEFT_STARTDELAY,
DIEP_DURATION | DIEP_GAIN | DIEP_TRIGGERBUTTON | DIEP_TRIGGERREPEATINTERVAL | DIEP_AXES | DIEP_DIRECTION | DIEP_ENVELOPE | DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY,
DIEP_DURATION | DIEP_GAIN | DIEP_TRIGGERBUTTON | DIEP_TRIGGERREPEATINTERVAL | DIEP_AXES | DIEP_DIRECTION | DIEP_ENVELOPE | DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY,
DIEFF_POLAR,
&GUID_Triangle,
TEXT("GUID_Triangle"),
},
{
PIDMAKEUSAGEDWORD(ET_SAWTOOTH_UP),
DIEFT_PERIODIC | DIEFT_FFATTACK | DIEFT_FFFADE | DIEFT_STARTDELAY,
DIEP_DURATION | DIEP_GAIN | DIEP_TRIGGERBUTTON | DIEP_TRIGGERREPEATINTERVAL | DIEP_AXES | DIEP_DIRECTION | DIEP_ENVELOPE | DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY,
DIEP_DURATION | DIEP_GAIN | DIEP_TRIGGERBUTTON | DIEP_TRIGGERREPEATINTERVAL | DIEP_AXES | DIEP_DIRECTION | DIEP_ENVELOPE | DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY,
DIEFF_POLAR,
&GUID_SawtoothUp,
TEXT("GUID_SawtoothUp"),
},
{
PIDMAKEUSAGEDWORD(ET_SAWTOOTH_DOWN),
DIEFT_PERIODIC | DIEFT_FFATTACK | DIEFT_FFFADE | DIEFT_STARTDELAY,
DIEP_DURATION | DIEP_GAIN | DIEP_TRIGGERBUTTON | DIEP_TRIGGERREPEATINTERVAL | DIEP_AXES | DIEP_DIRECTION | DIEP_ENVELOPE | DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY,
DIEP_DURATION | DIEP_GAIN | DIEP_TRIGGERBUTTON | DIEP_TRIGGERREPEATINTERVAL | DIEP_AXES | DIEP_DIRECTION | DIEP_ENVELOPE | DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY,
DIEFF_POLAR,
&GUID_SawtoothDown,
TEXT("GUID_SawtoothDown"),
},
{
PIDMAKEUSAGEDWORD(ET_SPRING),
DIEFT_CONDITION | DIEFT_SATURATION | DIEFT_DEADBAND | DIEFT_STARTDELAY,
DIEP_DURATION | DIEP_GAIN | DIEP_AXES | DIEP_DIRECTION | DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY,
DIEP_DURATION | DIEP_GAIN | DIEP_AXES | DIEP_DIRECTION | DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY,
DIEFF_POLAR,
&GUID_Spring,
TEXT("GUID_Spring"),
},
{
PIDMAKEUSAGEDWORD(ET_DAMPER),
DIEFT_CONDITION | DIEFT_SATURATION | DIEFT_DEADBAND | DIEFT_STARTDELAY,
DIEP_DURATION | DIEP_GAIN | DIEP_AXES | DIEP_DIRECTION | DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY,
DIEP_DURATION | DIEP_GAIN | DIEP_AXES | DIEP_DIRECTION | DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY,
DIEFF_POLAR,
&GUID_Damper,
TEXT("GUID_Damper"),
},
{
PIDMAKEUSAGEDWORD(ET_INERTIA),
DIEFT_CONDITION | DIEFT_SATURATION | DIEFT_DEADBAND | DIEFT_STARTDELAY,
DIEP_DURATION | DIEP_GAIN | DIEP_AXES | DIEP_DIRECTION | DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY,
DIEP_DURATION | DIEP_GAIN | DIEP_AXES | DIEP_DIRECTION | DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY,
DIEFF_POLAR,
&GUID_Inertia,
TEXT("GUID_Inertia"),
},
{
PIDMAKEUSAGEDWORD(ET_FRICTION),
DIEFT_CONDITION | DIEFT_SATURATION | DIEFT_DEADBAND | DIEFT_STARTDELAY,
DIEP_DURATION | DIEP_GAIN | DIEP_AXES | DIEP_DIRECTION | DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY,
DIEP_DURATION | DIEP_GAIN | DIEP_AXES | DIEP_DIRECTION | DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY,
DIEFF_POLAR,
&GUID_Friction,
TEXT("GUID_Friction"),
},
{
PIDMAKEUSAGEDWORD(ET_CUSTOM),
DIEFT_CUSTOMFORCE | DIEFT_SATURATION | DIEFT_DEADBAND | DIEFT_STARTDELAY,
DIEP_DURATION | DIEP_GAIN | DIEP_TRIGGERBUTTON | DIEP_TRIGGERREPEATINTERVAL | DIEP_AXES | DIEP_DIRECTION | DIEP_ENVELOPE | DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY,
DIEP_DURATION | DIEP_GAIN | DIEP_TRIGGERBUTTON | DIEP_TRIGGERREPEATINTERVAL | DIEP_AXES | DIEP_DIRECTION | DIEP_ENVELOPE | DIEP_TYPESPECIFICPARAMS | DIEP_STARTDELAY,
DIEFF_POLAR,
&GUID_CustomForce,
TEXT("GUID_CustomForce"),
},
};
static PIDSUPPORT g_DIeft[] =
{
{DIEFT_CONSTANTFORCE, PIDMAKEUSAGEDWORD(SET_CONSTANT_FORCE_REPORT), HID_COLLECTION, 0x0},
{DIEFT_RAMPFORCE, PIDMAKEUSAGEDWORD(SET_RAMP_FORCE_REPORT), HID_COLLECTION, 0x0},
{DIEFT_PERIODIC, PIDMAKEUSAGEDWORD(SET_PERIODIC_REPORT), HID_COLLECTION, 0x0},
{DIEFT_CONDITION, PIDMAKEUSAGEDWORD(SET_CONDITION_REPORT), HID_COLLECTION, 0x0},
{DIEFT_CUSTOMFORCE, PIDMAKEUSAGEDWORD(SET_CUSTOM_FORCE_REPORT), HID_COLLECTION, 0x0},
//{DIEFT_HARDWARE, ???? },
{DIEFT_FFATTACK, PIDMAKEUSAGEDWORD(ATTACK_LEVEL), HID_VALUE, HidP_Output},
{DIEFT_FFFADE, PIDMAKEUSAGEDWORD(FADE_LEVEL), HID_VALUE, HidP_Output},
{DIEFT_SATURATION, PIDMAKEUSAGEDWORD(POSITIVE_SATURATION), HID_VALUE, HidP_Output},
{DIEFT_POSNEGCOEFFICIENTS, PIDMAKEUSAGEDWORD(NEGATIVE_COEFFICIENT), HID_VALUE, HidP_Output},
{DIEFT_POSNEGSATURATION, PIDMAKEUSAGEDWORD(NEGATIVE_SATURATION), HID_VALUE, HidP_Output},
{DIEFT_DEADBAND, PIDMAKEUSAGEDWORD(DEAD_BAND), HID_VALUE, HidP_Output},
#if DIRECTINPUT_VERSION >= 0x600
{DIEFT_STARTDELAY, PIDMAKEUSAGEDWORD(START_DELAY), HID_VALUE, HidP_Output},
#endif
};
static PIDSUPPORT g_DIep[] =
{
{DIEP_DURATION, PIDMAKEUSAGEDWORD(DURATION), HID_VALUE, HidP_Output},
{DIEP_SAMPLEPERIOD, PIDMAKEUSAGEDWORD(SAMPLE_PERIOD), HID_VALUE, HidP_Output},
{DIEP_GAIN, PIDMAKEUSAGEDWORD(GAIN), HID_VALUE, HidP_Output},
{DIEP_TRIGGERBUTTON, PIDMAKEUSAGEDWORD(TRIGGER_BUTTON), HID_VALUE, HidP_Output},
{DIEP_TRIGGERREPEATINTERVAL, PIDMAKEUSAGEDWORD(TRIGGER_REPEAT_INTERVAL), HID_VALUE, HidP_Output},
{DIEP_AXES, PIDMAKEUSAGEDWORD(AXES_ENABLE), HID_COLLECTION, 0x0},
{DIEP_DIRECTION, PIDMAKEUSAGEDWORD(DIRECTION), HID_COLLECTION, 0x0},
{DIEP_ENVELOPE, PIDMAKEUSAGEDWORD(SET_ENVELOPE_REPORT), HID_COLLECTION, 0x0},
#if DIRECTINPUT_VERSION >= 0x600
{DIEP_STARTDELAY, PIDMAKEUSAGEDWORD(START_DELAY), HID_VALUE, HidP_Output},
#endif
};
static PIDSUPPORT g_DIeff[] =
{
{DIEFF_POLAR, PIDMAKEUSAGEDWORD(DIRECTION_ENABLE), HID_BUTTON, HidP_Output},
// PID devices do not support Cartesian
// {DIEFF_ CARTESIAN, PIDMAKEUSAGEDWORD(AXES_ENABLE), HID_COLLECTION,0x0},
};
#pragma END_CONST_DATA
//our own version of KEY_ALL_ACCESS, that does not use WRITE_DAC and WRITE_OWNER (see Whistler bug 318865, 370734)
#define DI_DAC_OWNER (WRITE_DAC | WRITE_OWNER)
#define DI_KEY_ALL_ACCESS (KEY_ALL_ACCESS & ~DI_DAC_OWNER)
// we need to know on which OS we're running, to to have appropriate reg key permissions (see Whistler bug 318865, 370734)
#define WIN_UNKNOWN_OS 0
#define WIN95_OS 1
#define WIN98_OS 2
#define WINME_OS 3
#define WINNT_OS 4
#define WINWH_OS 5
STDMETHODIMP
PID_Support
(
IDirectInputEffectDriver *ped,
UINT cAPidSupport,
PPIDSUPPORT rgPidSupport,
PDWORD pdwFlags
)
{
CPidDrv *this = (CPidDrv *)ped;
HRESULT hres;
UINT indx;
PPIDSUPPORT pPidSupport;
EnterProcI(PID_Support, (_"xxxx", ped, cAPidSupport, rgPidSupport, pdwFlags));
hres = S_OK;
for( indx = 0x0, pPidSupport = rgPidSupport;
indx < cAPidSupport;
indx++, pPidSupport++
)
{
USAGE Usage = DIGETUSAGE(pPidSupport->dwPidUsage);
USAGE UsagePage = DIGETUSAGEPAGE(pPidSupport->dwPidUsage);
if( pPidSupport->Type == HID_COLLECTION )
{
HRESULT hres0;
USHORT LinkCollection;
hres0 = PID_GetLinkCollectionIndex(ped, UsagePage, Usage , 0x0, &LinkCollection);
if( SUCCEEDED(hres0) )
{
*pdwFlags |= pPidSupport->dwDIFlags;
} else
{
hres |= E_NOTIMPL;
SquirtSqflPtszV(sqfl | sqflBenign,
TEXT("%s: FAIL PID_GetCollectionIndex:0x%x for(%x,%x,%x:%s)"),
s_tszProc, hres0,
LinkCollection,UsagePage, Usage,
PIDUSAGETXT(UsagePage,Usage)
);
}
} else if( pPidSupport->Type == HID_VALUE )
{
NTSTATUS ntStat;
HIDP_VALUE_CAPS ValCaps;
USHORT cAValCaps = 0x1;
ntStat = HidP_GetSpecificValueCaps
(
pPidSupport->HidP_Type, //ReportType
UsagePage, //UsagePage
0x0, //LinkCollection,
Usage, //Usage
&ValCaps, //ValueCaps,
&cAValCaps, //ValueCapsLength,
this->ppd //Preparsed Data
);
if( SUCCEEDED(ntStat )
|| ntStat == HIDP_STATUS_BUFFER_TOO_SMALL)
{
*pdwFlags |= pPidSupport->dwDIFlags;
} else
{
hres |= E_NOTIMPL;
SquirtSqflPtszV(sqfl | sqflBenign,
TEXT("%s: FAIL HidP_GetSpValCaps:0x%x for(%x,%x,%x:%s)"),
s_tszProc, ntStat,
0x0,UsagePage, Usage,
PIDUSAGETXT(UsagePage,Usage)
);
}
} else if( pPidSupport->Type == HID_BUTTON )
{
NTSTATUS ntStat;
HIDP_BUTTON_CAPS ButtonCaps;
USHORT cAButtonCaps = 0x1;
ntStat = HidP_GetSpecificButtonCaps
(
pPidSupport->HidP_Type, //ReportType
UsagePage, //UsagePage
0x0, //LinkCollection,
Usage, //Usage
&ButtonCaps, //ValueCaps,
&cAButtonCaps, //ValueCapsLength,
this->ppd //Preparsed Data
);
if( SUCCEEDED(ntStat )
|| ntStat == HIDP_STATUS_BUFFER_TOO_SMALL)
{
*pdwFlags |= pPidSupport->dwDIFlags;
} else
{
hres |= E_NOTIMPL;
SquirtSqflPtszV(sqfl | sqflBenign,
TEXT("%s: FAIL HidP_GetSpButtonCaps:0x%x for(%x,%x,%x:%s)"),
s_tszProc, ntStat,
0x0,UsagePage, Usage,
PIDUSAGETXT(UsagePage,Usage)
);
}
} else
{
hres |= DIERR_PID_USAGENOTFOUND;
}
}
ExitOleProc();
return hres;
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func void | NameFromGUID |
*
* Convert a GUID into an ASCII string that will be used
* to name it in the global namespace.
*
*
* @parm LPTSTR | ptszBuf |
*
* Output buffer to receive the converted name. It must
* be <c ctchNameGuid> characters in size.
*
* @parm PCGUID | pguid |
*
* The GUID to convert.
*
*
*****************************************************************************/
#pragma BEGIN_CONST_DATA
/* Note: If you change this string, you need to change ctchNameGuid to match */
TCHAR c_tszNameFormat[] =
TEXT("{%08X-%04X-%04X-%02X%02X-%02X%02X%02X%02X%02X%02X}");
#pragma END_CONST_DATA
#define ctchGuid (1 + 8 + 1 + 4 + 1 + 4 + 1 + 4 + 1 + 12 + 1 + 1)
void EXTERNAL
NameFromGUID(LPTSTR ptszBuf, PCGUID pguid)
{
int ctch;
ctch = wsprintf(ptszBuf, c_tszNameFormat,
pguid->Data1, pguid->Data2, pguid->Data3,
pguid->Data4[0], pguid->Data4[1],
pguid->Data4[2], pguid->Data4[3],
pguid->Data4[4], pguid->Data4[5],
pguid->Data4[6], pguid->Data4[7]);
AssertF(ctch == ctchGuid - 1);
}
#define hresLe(le) MAKE_HRESULT(SEVERITY_ERROR, FACILITY_WIN32, (USHORT)(le))
BOOL INLINE
IsWriteSam(REGSAM sam)
{
return sam & (KEY_SET_VALUE | KEY_CREATE_SUB_KEY | MAXIMUM_ALLOWED);
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func DWORD | PID_GetOSVersion |
*
* Return the OS version on which pid.dll is running.
*
* @returns
*
* WIN95_OS, WIN98_OS, WINME_OS, WINNT_OS, WINWH_OS, or WIN_UNKNOWN_OS.
*
*****************************************************************************/
DWORD PID_GetOSVersion()
{
OSVERSIONINFO osVerInfo;
DWORD dwVer;
if( GetVersion() < 0x80000000 ) {
dwVer = WINNT_OS;
} else {
dwVer = WIN95_OS; //assume Windows 95 for safe
}
osVerInfo.dwOSVersionInfoSize = sizeof( OSVERSIONINFO );
// If GetVersionEx is supported, then get more details.
if( GetVersionEx( &osVerInfo ) )
{
// Win2K
if( osVerInfo.dwPlatformId == VER_PLATFORM_WIN32_NT )
{
// Whistler: Major = 5 & Build # > 2195
if( osVerInfo.dwMajorVersion == 5 && osVerInfo.dwBuildNumber > 2195 )
{
dwVer = WINWH_OS;
} else {
dwVer = WINNT_OS;
}
}
// Win9X
else
{
if( (HIBYTE(HIWORD(osVerInfo.dwBuildNumber)) == 4) )
{
// WinMe: Major = 4, Minor = 90
if( (LOBYTE(HIWORD(osVerInfo.dwBuildNumber)) == 90) )
{
dwVer = WINME_OS;
} else if ( (LOBYTE(HIWORD(osVerInfo.dwBuildNumber)) > 0) ) {
dwVer = WIN98_OS;
} else {
dwVer = WIN95_OS;
}
}
}
}
return dwVer;
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func HRESULT | hresMumbleKeyEx |
*
* Either open or create the key, depending on the degree
* of access requested.
*
* @parm HKEY | hk |
*
* Base key.
*
* @parm LPCTSTR | ptszKey |
*
* Name of subkey, possibly NULL.
*
* @parm REGSAM | sam |
*
* Security access mask.
*
* @parm DWORD | dwOptions |
* Options for RegCreateEx
*
* @parm PHKEY | phk |
*
* Receives output key.
*
* @returns
*
* Return value from <f RegOpenKeyEx> or <f RegCreateKeyEx>,
* converted to an <t HRESULT>.
*
*****************************************************************************/
STDMETHODIMP
hresMumbleKeyEx(HKEY hk, LPCTSTR ptszKey, REGSAM sam, DWORD dwOptions, PHKEY phk)
{
HRESULT hres;
LONG lRc;
BOOL bWinXP = FALSE;
EnterProc(hresMumbleKeyEx, (_"xsxxx", hk, ptszKey, sam, dwOptions, phk));
/*
* If caller is requesting write access, then create the key.
* Else just open it.
*/
if(IsWriteSam(sam))
{
// on WinXP, we strip out WRITE_DAC and WRITE_OWNER bits
if (PID_GetOSVersion() == WINWH_OS)
{
sam &= ~DI_DAC_OWNER;
bWinXP = TRUE;
}
lRc = RegOpenKeyEx(hk, ptszKey, 0, sam, phk);
if( lRc == ERROR_SUCCESS )
{
// Don't need to create it already exists
} else
{
#ifdef WINNT
EXPLICIT_ACCESS ExplicitAccess;
PACL pACL;
DWORD dwErr;
SECURITY_DESCRIPTOR SecurityDesc;
DWORD dwDisposition;
SECURITY_ATTRIBUTES sa;
PSID pSid = NULL;
SID_IDENTIFIER_AUTHORITY authority = SECURITY_WORLD_SID_AUTHORITY;
// Describe the access we want to create the key with
ZeroMemory (&ExplicitAccess, sizeof(ExplicitAccess) );
//set the access depending on the OS (see Whistler bug 318865)
if (bWinXP == TRUE)
{
ExplicitAccess.grfAccessPermissions = DI_KEY_ALL_ACCESS;
}
else
{
ExplicitAccess.grfAccessPermissions = KEY_ALL_ACCESS;
}
ExplicitAccess.grfAccessMode = GRANT_ACCESS;
ExplicitAccess.grfInheritance = SUB_CONTAINERS_AND_OBJECTS_INHERIT;
if (AllocateAndInitializeSid(
&authority,
1,
SECURITY_WORLD_RID, 0, 0, 0, 0, 0, 0, 0,
&pSid
))
{
BuildTrusteeWithSid(&(ExplicitAccess.Trustee), pSid );
dwErr = SetEntriesInAcl( 1, &ExplicitAccess, NULL, &pACL );
if( dwErr == ERROR_SUCCESS )
{
AssertF( pACL );
if( InitializeSecurityDescriptor( &SecurityDesc, SECURITY_DESCRIPTOR_REVISION ) )
{
if( SetSecurityDescriptorDacl( &SecurityDesc, TRUE, pACL, FALSE ) )
{
// Initialize a security attributes structure.
sa.nLength = sizeof (SECURITY_ATTRIBUTES);
sa.lpSecurityDescriptor = &SecurityDesc;
sa.bInheritHandle = TRUE;// Use the security attributes to create a key.
lRc = RegCreateKeyEx
(
hk, // handle of an open key
ptszKey, // address of subkey name
0, // reserved
NULL, // address of class string
dwOptions, // special options flag
ExplicitAccess.grfAccessPermissions, // desired security access
&sa, // address of key security structure
phk, // address of buffer for opened handle
&dwDisposition // address of disposition value buffer);
);
}
else
{
SquirtSqflPtszV( sqflError | sqflReg,
TEXT("SetSecurityDescriptorDacl failed lastError=0x%x "),
GetLastError());
}
}
else
{
SquirtSqflPtszV( sqflError | sqflReg,
TEXT("InitializeSecurityDescriptor failed lastError=0x%x "),
GetLastError());
}
LocalFree( pACL );
}
else
{
SquirtSqflPtszV( sqflError | sqflReg,
TEXT("SetEntriesInACL failed, dwErr=0x%x"), dwErr );
}
}
else
{
SquirtSqflPtszV( sqflError | sqflReg,
TEXT("AllocateAndInitializeSid failed"));
}
//Cleanup pSid
if (pSid != NULL)
{
FreeSid(pSid);
}
if( lRc != ERROR_SUCCESS )
{
SquirtSqflPtszV( sqflError,
TEXT("Failed to create regkey %s with security descriptor, lRc=0x%x "),
ptszKey, lRc);
}
#else
lRc = RegCreateKeyEx(hk, ptszKey, 0, 0,
dwOptions,
sam, 0, phk, 0);
#endif
}
} else
{
lRc = RegOpenKeyEx(hk, ptszKey, 0, sam, phk);
}
if(lRc == ERROR_SUCCESS)
{
hres = S_OK;
} else
{
if(lRc == ERROR_KEY_DELETED || lRc == ERROR_BADKEY)
{
lRc = ERROR_FILE_NOT_FOUND;
}
hres = hresLe(lRc);
}
ExitOleProc();
return hres;
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func HRESULT | PID_CreateFFKeys |
*
* Given a handle to a PID device, create the registry entries to enable
* force feedback.
*
* @parm HANDLE | hdev |
*
* Handle to the PID device.
*
* @parm HKEY | hkFF |
*
* Force Feedback registry key.
*
* @returns
*
* Returns a COM error code. The following error codes are
* intended to be illustrative and not necessarily comprehensive.
*
* <c DI_OK> = <c S_OK>: The operation completed successfully.
*
* <c DIERR_NOTFOUND>: Couldn't open the key.
*
*****************************************************************************/
STDMETHODIMP
PID_CreateFFKeys
(
IDirectInputEffectDriver *ped,
HKEY hkFF
)
{
CPidDrv *this = (CPidDrv *)ped;
HRESULT hres;
UINT uEffect;
HKEY hkEffect;
EnterProc(PID_CreateFFKey, (_"xx", ped, hkFF));
hres = hresMumbleKeyEx(hkFF, REGSTR_EFFECTS, KEY_ALL_ACCESS, REG_OPTION_NON_VOLATILE, &hkEffect);
if( SUCCEEDED(hres) )
{
DWORD dwDIef, dwDIep, dwDIeff;
dwDIef = dwDIep = dwDIeff = 0x0;
/*
* Determine supported flags for effectType and Effect Params
* based on the PID descriptors
*/
PID_Support(ped, cA(g_DIeft), g_DIeft, &dwDIef);
PID_Support(ped, cA(g_DIep), g_DIep, &dwDIep);
PID_Support(ped, cA(g_DIeff), g_DIeff, &dwDIeff);
// All effects support DIEP_TYPESPECIFICPARAMS
dwDIep |= DIEP_TYPESPECIFICPARAMS;
for( uEffect = 0x0; uEffect < cA(g_EffectMapInfo); uEffect++ )
{
EFFECTMAPINFO emi = g_EffectMapInfo[uEffect];
PIDSUPPORT PidSupport;
DWORD dwJunk;
HRESULT hres0;
PidSupport.dwPidUsage = emi.attr.dwEffectId;
PidSupport.Type = HID_BUTTON;
PidSupport.HidP_Type = HidP_Output;
hres0 = PID_Support(ped, 0x1, &PidSupport, &dwJunk);
if( SUCCEEDED(hres0) )
{
TCHAR tszName[ctchGuid];
HKEY hk;
NameFromGUID(tszName, emi.pcguid);
hres = hresMumbleKeyEx(hkEffect, tszName, KEY_ALL_ACCESS, REG_OPTION_NON_VOLATILE, &hk);
if( SUCCEEDED(hres) )
{
LONG lRc;
lRc = RegSetValueEx(hk, 0x0, 0x0, REG_SZ, (char*)emi.tszName, lstrlen(emi.tszName) * cbX(emi.tszName[0]));
if( lRc == ERROR_SUCCESS )
{
/*
* Modify generic attribute flags depending
* on PID firmware descriptors
*/
emi.attr.dwEffType &= dwDIef;
emi.attr.dwStaticParams &= dwDIep;
emi.attr.dwDynamicParams &= dwDIep;
emi.attr.dwCoords &= dwDIeff;
lRc = RegSetValueEx(hk, REGSTR_ATTRIBUTES, 0x0, REG_BINARY, (char*)&emi.attr, cbX(emi.attr) ) ;
if( lRc == ERROR_SUCCESS )
{
} else
{
hres = REGDB_E_WRITEREGDB;
}
} else
{
hres = REGDB_E_WRITEREGDB;
}
RegCloseKey(hk);
}
}
}
RegCloseKey(hkEffect);
}
ExitOleProc();
return hres;
}
/*****************************************************************************
*
* PID_InitRegistry
*
* This function updates the registry for a specified device.
*
* LPTSTR ptszDeviceInterface
*
*
* Returns:
*
* S_OK if the operation completed successfully.
*
* Any DIERR_* error code may be returned.
*
* Private driver-specific error codes in the range
* DIERR_DRIVERFIRST through DIERR_DRIVERLAST
* may be returned.
*
*****************************************************************************/
STDMETHODIMP
PID_InitRegistry
(
IDirectInputEffectDriver *ped
)
{
CPidDrv *this = (CPidDrv *)ped;
HRESULT hres;
TCHAR tszType[MAX_JOYSTRING];
HKEY hkFF;
EnterProc(PID_InitRegistry, (_"x", ped));
wsprintf(tszType, REGSTR_OEM_FF_TEMPLATE, this->attr.VendorID, this->attr.ProductID);
//If there is no pid version written, -- or it is less then the "last known good version" (today it is 0x0720),
//overwrite the previous key.
hres = hresMumbleKeyEx(HKEY_LOCAL_MACHINE, tszType, KEY_READ, REG_OPTION_NON_VOLATILE, &hkFF );
if( SUCCEEDED(hres) )
{
DWORD dwCreatedBy = 0x0;
DWORD dwSize = cbX(dwCreatedBy);
hres = E_FAIL;
if ((RegQueryValueEx(hkFF, REGSTR_CREATEDBY, 0x0, 0x0, (BYTE*)&dwCreatedBy, &dwSize) == ERROR_SUCCESS) &&
(dwCreatedBy >= 0x0720))
{
hres = S_OK;
}
RegCloseKey(hkFF);
}
if (FAILED(hres))
{
hres = hresMumbleKeyEx(HKEY_LOCAL_MACHINE, tszType, KEY_ALL_ACCESS, REG_OPTION_NON_VOLATILE, &hkFF);
if( SUCCEEDED(hres) )
{
hres = PID_CreateFFKeys(ped, hkFF );
if( SUCCEEDED(hres) )
{
DWORD dwCreatedBy = DIRECTINPUT_HEADER_VERSION;
LONG lRc;
DWORD dwSize;
DWORD dwType;
//DX8a Do not overwrite an existing CLSID as we may have
//been loaded by an IHV with their own CLSID. In DX8, this
//was always written causing some IHV drivers to be ignored.
//Allow long values as a lot of people write strings with
//garbage after a null terminated string
//For now, DInput won't load such a CLSID but just in case
lRc = RegQueryValueEx( hkFF, REGSTR_CLSID, NULL, &dwType, NULL, &dwSize );
if( ( lRc == ERROR_SUCCESS )
&& ( dwType == REG_SZ )
&& ( dwSize >= ctchGuid - 1 ) )
{
#ifdef DEBUG
TCHAR tszDbg[MAX_PATH];
dwSize = cbX(tszDbg);
if( RegQueryValueEx( hkFF, REGSTR_CLSID, NULL, NULL, (BYTE*)tszDbg, &dwSize )
|| !dwSize )
{
tszDbg[0] = TEXT('?');
tszDbg[1] = TEXT('\0');
}
SquirtSqflPtszV(sqfl | sqflBenign,
TEXT("RegistryInit: Not overwiting existing CLSID %s"), tszDbg );
#endif
}
else
{
TCHAR tszGuid[ctchGuid];
NameFromGUID(tszGuid, &IID_IDirectInputPIDDriver);
AssertF( lstrlen(tszGuid) * cbX(tszGuid[0]) == cbX(tszGuid) - cbX(tszGuid[0]) );
lRc = RegSetValueEx(hkFF, REGSTR_CLSID, 0x0, REG_SZ, (char*)tszGuid, cbX(tszGuid) - cbX(tszGuid[0]));
if( lRc == ERROR_SUCCESS )
{
} else
{
hres = REGDB_E_WRITEREGDB;
}
}
//set "CreatedBy" value
lRc = RegSetValueEx(hkFF, REGSTR_CREATEDBY, 0x0, REG_BINARY, (BYTE*) &dwCreatedBy, cbX(dwCreatedBy));
if( lRc == ERROR_SUCCESS )
{
} else
{
hres = REGDB_E_WRITEREGDB;
}
}
if(SUCCEEDED(hres) )
{
DIFFDEVICEATTRIBUTES diff;
LONG lRc;
diff.dwFlags = 0x0;
diff.dwFFSamplePeriod =
diff.dwFFMinTimeResolution = DI_SECONDS;
lRc = RegSetValueEx(hkFF, REGSTR_ATTRIBUTES, 0x0, REG_BINARY, (char*)&diff, cbX(diff) ) ;
if(lRc == ERROR_SUCCESS)
{
} else
{
hres = REGDB_E_WRITEREGDB;
}
}
RegCloseKey(hkFF);
}
}
ExitOleProc();
return hres;
}