Leaked source code of windows server 2003
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/*****************************************************************************
* PidHid.c
*
* Copyright (c) 1999 Microsoft Corporation. All Rights Reserved.
*
* Abstract:
*
* HID utility routines for PID .
*
*****************************************************************************/
#include "PidPr.h"
#define sqfl ( sqflHid )
/*****************************************************************************
*
* PID_GetReportId
*
* Obtain the HID report ID given the usage, usagePage and LinkCollection
*
* IDirectInputEffectDriver | ped |
*
* The effect driver interface
*
* PPIDREPORT | pPidReport |
*
* Address of PIDREPORT structure
*
* USHORT | uLinkCollection |
*
* LinkCollection ID
*
* OUT UCHAR * | pReportId |
*
* Report ID. Undefined if unsuccessful
*
* Returns:
*
* HRESULT
* Error code
*
*****************************************************************************/
STDMETHODIMP
PID_GetReportId
(
IDirectInputEffectDriver *ped,
PPIDREPORT pPidReport,
USHORT uLinkCollection,
UCHAR* pReportId
)
{
CPidDrv *this = (CPidDrv *)ped;
HRESULT hres = S_OK;
EnterProcI(PID_GetReportId, (_"xxxx", ped, pPidReport, pReportId));
if( SUCCEEDED(hres) )
{
HIDP_VALUE_CAPS ValCaps;
USHORT cAValCaps = 0x1;
USAGE Usage = DIGETUSAGE(pPidReport->rgPidUsage->dwUsage);
USAGE UsagePage = DIGETUSAGEPAGE(pPidReport->rgPidUsage->dwUsage);
hres = HidP_GetSpecificValueCaps
(
pPidReport->HidP_Type,
UsagePage,
uLinkCollection,
Usage,
&ValCaps,
&cAValCaps,
this->ppd
);
// If the report has no values, only buttons
if(hres == HIDP_STATUS_USAGE_NOT_FOUND )
{
// Guarded Laziness
CAssertF(cbX(HIDP_VALUE_CAPS) == cbX(HIDP_BUTTON_CAPS) );
CAssertF(FIELD_OFFSET(HIDP_VALUE_CAPS, ReportID) == FIELD_OFFSET(HIDP_BUTTON_CAPS, ReportID) );
hres = HidP_GetSpecificButtonCaps
(
pPidReport->HidP_Type,
UsagePage,
uLinkCollection,
0x0,
(PHIDP_BUTTON_CAPS)&ValCaps,
&cAValCaps,
this->ppd
);
}
if( SUCCEEDED(hres ) || ( hres == HIDP_STATUS_BUFFER_TOO_SMALL) )
{
(*pReportId) = ValCaps.ReportID;
hres = S_OK;
} else
{
SquirtSqflPtszV(sqfl | sqflError,
TEXT("%s: FAIL HidP_GetValCaps for CollectionId%d (%x %x:%s) "),
s_tszProc, uLinkCollection, UsagePage, Usage, PIDUSAGETXT(UsagePage,Usage) );
}
}
ExitOleProc();
return hres;
}
/*****************************************************************************
*
* PID_GetCollectionIndex
*
* Obtain the collection index for collection usage page & usage.
*
*
* The external joystick number being addressed.
*
* dwEffect
*
* The effect to be queried.
*
* pdwStatus
*
* Receives the effect status in the form of zero
* or more DIEGES_* flags.
*
* Returns:
* Collection Index ( 0 .. NumberLinkCollectionNodes -1 ) on success
* 0x0 on failure
*
*****************************************************************************/
STDMETHODIMP
PID_GetLinkCollectionIndex
(
IDirectInputEffectDriver *ped,
USAGE UsagePage,
USAGE Collection,
USHORT Parent,
PUSHORT puLinkCollection )
{
CPidDrv *this = (CPidDrv *)ped;
USHORT indx;
HRESULT hres;
PHIDP_LINK_COLLECTION_NODE pLinkCollection;
EnterProcI(PID_GetLinkCollectionIndex, (_"xxxxx", this, UsagePage, Collection, Parent, puLinkCollection));
hres = DIERR_PID_USAGENOTFOUND;
*puLinkCollection = 0x0;
for(indx = 0x0, pLinkCollection = this->pLinkCollection;
indx < this->caps.NumberLinkCollectionNodes;
indx++, pLinkCollection++ )
{
if( pLinkCollection->LinkUsagePage == UsagePage &&
pLinkCollection->LinkUsage == Collection )
{
if( Parent && Parent != pLinkCollection->Parent )
{
continue;
}
*puLinkCollection = indx;
hres = S_OK;
break;
}
}
if( FAILED(hres) )
{
SquirtSqflPtszV(sqfl | sqflVerbose,
TEXT("%s: FAIL No LinkCollection for (%x %x:%s) "),
s_tszProc, UsagePage, Collection, PIDUSAGETXT(UsagePage,Collection) );
}else
{
SquirtSqflPtszV(sqfl | sqflVerbose,
TEXT("%s: LinkCollection for (%x %x:%s)=%x "),
s_tszProc, UsagePage, Collection, PIDUSAGETXT(UsagePage,Collection), *puLinkCollection );
}
ExitBenignOleProc();
return (hres) ;
}
//Helper fn to tell us when we're dealing w/ an "absolute" usage, since they require special handling
BOOL PID_IsUsageAbsoluteLike
(
IDirectInputEffectDriver *ped,
USHORT Usage
)
{
//"Absolute-like" usages need special handling,
//since we can't simply translate data into logical units by scaling
//but need to calculate exponent, etc.
//and then use special procedure to set the values
//"Absolute" usages are all time usages as well as trigger button usages
if ((Usage == HID_USAGE_PID_DURATION) || (Usage ==HID_USAGE_PID_SAMPLE_PERIOD ) ||
(Usage == HID_USAGE_PID_TRIGGER_REPEAT_INTERVAL) || (Usage == HID_USAGE_PID_START_DELAY) ||
(Usage == HID_USAGE_PID_ATTACK_TIME ) ||(Usage == HID_USAGE_PID_FADE_TIME) ||
(Usage == HID_USAGE_PID_PERIOD) || (Usage == HID_USAGE_PID_TRIGGER_BUTTON))
{
return TRUE;
}
return FALSE;
}
//Helper fn to tell us when we're dealing w/ a magnitude that can be both positive and negative,
//since we have to scale those differently
BOOL PID_IsUsagePositiveNegative
(
IDirectInputEffectDriver *ped,
USHORT Usage,
USHORT LinkCollection
)
{
BOOL isPosNeg = FALSE;
//All the usages corresponding to the structures given by LONGs can be positive or negative.
//Exception is the direction / angle, which should already be scaled into the range 0 - 360 * DI_DEGREES,
//so should be treated as only positive.
//Another exception is DICONDITION.lDeadband, which is defined as a LONG, but our headers
//say it can only be in the range 0 to DI_FFNOMINALMAX.
if ((Usage == HID_USAGE_PID_CP_OFFSET) ||
(Usage == HID_USAGE_PID_POSITIVE_COEFFICIENT) || (Usage == HID_USAGE_PID_NEGATIVE_COEFFICIENT) ||
(Usage == HID_USAGE_PID_RAMP_START) ||(Usage == HID_USAGE_PID_RAMP_END) ||
(Usage == HID_USAGE_PID_OFFSET))
{
isPosNeg = TRUE;
}
//Magnitude of the constant force and the magnitude of the periodic force are defined to be the same thing,
//but only the constant force magnitude can be both positive and negative.
//To distinguish them, need to look at the collection.
//Get constant force's collection and compare.
if (Usage == HID_USAGE_PID_MAGNITUDE)
{
USHORT ConstCollection = 0x0;
PID_GetLinkCollectionIndex(ped, g_Constant.UsagePage, g_Constant.Collection, 0x0, &ConstCollection);
if (LinkCollection == ConstCollection)
{
isPosNeg = TRUE;
}
}
return isPosNeg;
}
STDMETHODIMP
PID_PackValue
(
IDirectInputEffectDriver *ped,
PPIDREPORT pPidReport,
USHORT LinkCollection,
PVOID pvData,
UINT cbData,
PCHAR pReport,
ULONG cbReport
)
{
CPidDrv *this = (CPidDrv *)ped;
HRESULT hres;
PPIDUSAGE pPidUsage;
UINT indx;
EnterProcI( PID_PackValue, (_"xxxxxxx", ped, pPidReport, LinkCollection, pvData, cbData, pReport, cbReport));
hres = S_OK;
// Loop over all data values in the PID Report
for(indx = 0x0, pPidUsage = pPidReport->rgPidUsage;
indx < pPidReport->cAPidUsage;
indx++, pPidUsage++ )
{
// Make sure the offsets are valid
if( pPidUsage->DataOffset < cbData )
{
LONG lValue;
NTSTATUS ntStat;
USHORT Usage = DIGETUSAGE(pPidUsage->dwUsage);
USHORT UsagePage = DIGETUSAGEPAGE(pPidUsage->dwUsage);
lValue = *((LONG*)((UCHAR*)pvData+pPidUsage->DataOffset));
ntStat = HidP_SetScaledUsageValue
(
pPidReport->HidP_Type,
UsagePage,
LinkCollection,
Usage,
lValue,
this->ppd,
pReport,
cbReport
);
if( FAILED(ntStat) )
{
// HidP_SetScaledUsageValue FAILED
SquirtSqflPtszV(sqfl | sqflBenign,
TEXT("%s: FAIL HidP_SetScaledUsageValue:0x%x for(%x,%x,%x:%s)=0x%x "),
s_tszProc, ntStat,
LinkCollection, UsagePage, Usage,
PIDUSAGETXT(UsagePage,Usage),
lValue );
// Try to set the unscaled value to get something that might make sense
if( ntStat != HIDP_STATUS_USAGE_NOT_FOUND )
{
lValue = -1;
// The range could be messed up.
ntStat = HidP_SetUsageValue
(
pPidReport->HidP_Type,
UsagePage,
LinkCollection,
Usage,
lValue,
this->ppd,
pReport,
cbReport
);
if(FAILED(ntStat) )
{
SquirtSqflPtszV(sqfl | sqflBenign,
TEXT("%s: FAIL HidP_SetUsageValue:0x%x for(%x,%x,%x:%s)=0x%x "),
s_tszProc, ntStat,
LinkCollection, UsagePage, Usage,
PIDUSAGETXT(UsagePage,Usage),
lValue );
}
}
} else
{
SquirtSqflPtszV(sqfl | sqflVerbose,
TEXT("%s: HidP_SetScaledUsageValue:0x%x for(%x,%x,%x:%s)=0x%x "),
s_tszProc, ntStat,
LinkCollection, UsagePage, Usage,
PIDUSAGETXT(UsagePage,Usage),
lValue );
}
} else
{
//SquirtSqflPtszV(sqfl | sqflBenign,
// TEXT("%s: FAIL Invalid Offset(%d), max(%d) "),
// s_tszProc, pPidUsage->DataOffset, cbData );
}
}
ExitOleProc();
return hres;
}
//blocking version -- used for creating a new effect or destroying an effect, and for custom forces
STDMETHODIMP
PID_SendReportBl
(
IDirectInputEffectDriver *ped,
PUCHAR pReport,
UINT cbReport,
HIDP_REPORT_TYPE HidP_Type
)
{
CPidDrv *this = (CPidDrv *)ped;
HRESULT hres;
EnterProcI( PID_SendReportBl, (_"xxxx", ped, pReport, cbReport, HidP_Type));
hres = S_OK;
if( HidP_Type == HidP_Output )
{
BOOL frc;
UINT cbWritten;
frc = WriteFile (this->hdev,
pReport,
cbReport,
&cbWritten,
NULL);
if( frc != TRUE || cbWritten != cbReport )
{
LONG lrc = GetLastError();
hres = hresLe(lrc);
SquirtSqflPtszV(sqfl | sqflError,
TEXT("%s: FAIL WriteFile():%d (cbWritten(0x%x) cbReport(0x%x) Le(0x%x)"),
s_tszProc, frc, cbWritten, cbReport, lrc );
}
} else if( HidP_Type == HidP_Feature )
{
hres = HidD_SetFeature
(this->hdev,
pReport,
cbReport
);
if(FAILED(hres) )
{
SquirtSqflPtszV(sqfl | sqflError,
TEXT("%s: FAIL SendD_Feature() hres:0x%x"),
s_tszProc, hres );
}
} else
{
hres = DIERR_PID_USAGENOTFOUND;
}
ExitOleProc();
return hres;
}
STDMETHODIMP
PID_SendReport
(
IDirectInputEffectDriver *ped,
PUCHAR pReport,
UINT cbReport,
HIDP_REPORT_TYPE HidP_Type,
BOOL bBlocking,
UINT blockNr,
UINT totalBlocks
)
{
CPidDrv *this = (CPidDrv *)ped;
HRESULT hres = S_OK;
EnterProcI( PID_SendReport, (_"xxxx", ped, pReport, cbReport, HidP_Type));
if (bBlocking == TRUE)
{
hres = PID_SendReportBl(ped, pReport, cbReport, HidP_Type);
}
else
{
AssertF(this->hThread != 0x0);
AssertF(this->hWrite != 0x0);
AssertF(this->hWriteComplete != 0x0);
//blockNr is 0-based.
AssertF(totalBlocks > 0);
AssertF(blockNr < totalBlocks);
if( HidP_Type == HidP_Output )
{
//WaitForMultipleObjects() till the completion event becomes set.
//we save each report into the appropriate place in the array.
//when we get all the reports, we set the event to signal to the other thread to write.
// Windows bug 627797 -- do not use INFINITE wait, so that we don't hang the app
//if smth goes wrong w/ the previous write, but instead use the blocking version.
DWORD dwWait = WaitForMultipleObjects(1, &this->hWriteComplete, FALSE, 1000);
if (dwWait == WAIT_OBJECT_0)
{
AssertF(this->dwWriteAttempt == 0);
//save the report data
ZeroMemory(this->pWriteReport[blockNr], this->cbWriteReport[blockNr]);
memcpy(this->pWriteReport[blockNr], pReport, cbReport);
this->cbWriteReport[blockNr] = (USHORT)cbReport;
if (blockNr == totalBlocks-1)
{
this->totalBlocks = totalBlocks;
this->blockNr = 0;
ResetEvent(this->hWriteComplete);
SetEvent(this->hWrite);
}
}
else
{
//The wait interval has expired, or an error has occured
RPF( TEXT("Waiting for the write completion event ended without the event being signaled, dwWait = %u"), dwWait);
//call the blocking version
hres = PID_SendReportBl(ped, pReport, cbReport, HidP_Type);
}
} else if( HidP_Type == HidP_Feature )
{
hres = HidD_SetFeature
(this->hdev,
pReport,
cbReport
);
if(FAILED(hres) )
{
SquirtSqflPtszV(sqfl | sqflError,
TEXT("%s: FAIL SendD_Feature() hres:0x%x"),
s_tszProc, hres );
}
} else
{
hres = DIERR_PID_USAGENOTFOUND;
}
}
ExitOleProc();
return hres;
}
STDMETHODIMP
PID_ParseReport
(
IDirectInputEffectDriver *ped,
PPIDREPORT pPidReport,
USHORT LinkCollection,
PVOID pvData,
UINT cbData,
PCHAR pReport,
ULONG cbReport
)
{
CPidDrv *this = (CPidDrv *)ped;
HRESULT hres;
PPIDUSAGE pPidUsage;
UINT indx;
EnterProcI( PID_ParseReport, (_"xxxxxxx", ped, pPidReport, pvData, cbData, pReport, cbReport));
hres = S_OK;
// Loop over all data values in the PID Report
for(indx = 0x0, pPidUsage = pPidReport->rgPidUsage;
indx < pPidReport->cAPidUsage;
indx++, pPidUsage++ )
{
// Make sure the offsets are valid
if( pPidUsage->DataOffset < cbData )
{
LONG lValue;
NTSTATUS ntStat;
USHORT Usage = DIGETUSAGE(pPidUsage->dwUsage);
USHORT UsagePage = DIGETUSAGEPAGE(pPidUsage->dwUsage);
ntStat = HidP_GetScaledUsageValue
(
pPidReport->HidP_Type,
UsagePage,
LinkCollection,
Usage,
&lValue,
this->ppd,
pReport,
cbReport
);
if(SUCCEEDED(ntStat))
{
*((LONG*)((UCHAR*)pvData+pPidUsage->DataOffset)) = lValue;
} else
{
hres |= E_NOTIMPL;
SquirtSqflPtszV(sqfl | sqflBenign,
TEXT("%s: FAIL HidP_GetScaledUsageValue:0x%x for(%x,%x,%x:%s)"),
s_tszProc, ntStat,
LinkCollection, UsagePage, Usage,
PIDUSAGETXT(UsagePage,Usage) );
}
} else
{
SquirtSqflPtszV(sqfl | sqflBenign,
TEXT("%s: FAIL Invalid Offset(%d), max(%d) "),
s_tszProc, pPidUsage->DataOffset, cbData );
}
}
ExitBenignOleProc();
return hres;
}
STDMETHODIMP
PID_GetReport
(
IDirectInputEffectDriver *ped,
PPIDREPORT pPidReport,
USHORT LinkCollection,
PVOID pReport,
UINT cbReport
)
{
HRESULT hres = S_OK;
CPidDrv *this = (CPidDrv *)ped;
UCHAR ReportId;
EnterProcI( PID_GetReport, (_"xxxxx", ped, pPidReport, LinkCollection, pReport, cbReport));
if( SUCCEEDED(hres) )
{
hres = PID_GetReportId(ped, pPidReport, LinkCollection, &ReportId);
if(SUCCEEDED(hres) )
{
AssertF(pPidReport->HidP_Type == HidP_Feature);
if(SUCCEEDED(hres) )
{
ZeroBuf(pReport, cbReport);
/*
* The Win9x headers do not yet have use HidP_InitializeReportForID
* use MAXULONG_PTR to tell the header sets apart so that we can still build
*/
#ifdef WINNT
/*hres*=*/HidP_InitializeReportForID
(
pPidReport->HidP_Type, //ReportType,
ReportId, //ReportID,
this->ppd, //PreparsedData
pReport, //Report
cbReport //ReportLength
);
#else
(*(PUCHAR)pReport) = ReportId;
hres = S_OK;
#endif
if( FAILED(hres) )
{
SquirtSqflPtszV(sqfl | sqflError,
TEXT("%s: FAIL HidP_InitializeReportForId:0x%x for Type(%d) CollectionId%d ReportID%d "),
s_tszProc, hres, pPidReport->HidP_Type, LinkCollection, ReportId );
}
if( SUCCEEDED(hres)
&& pPidReport->HidP_Type == HidP_Feature )
{
BOOL frc;
frc = HidD_GetFeature
(
this->hdev, // HidDeviceObject,
pReport, // ReportBuffer,
cbReport //ReportBufferLength
);
if( frc != TRUE )
{
hres = DIERR_PID_USAGENOTFOUND;
}
}
}
}
}
ExitOleProc();
return(hres);
}
/*****************************************************************************
*
* PID_ComputeScalingFactors
*
* Dinput units for various parameters are well defined. The device may choose
* to implement the units that it is most comfortable with. This routine
* computes scaling factors that are to be used when scaling DINPUT parameters
* before they are send to the device.
*
* IDirectInputEffectDriver | ped |
*
* The effect driver interface
*
* PPIDREPORT | pPidReport |
*
* Address of PIDREPORT structure
*
* USHORT | uLinkCollection |
*
* LinkCollection ID
*
* IN OUT PVOID | pvData |
*
* Parameter data. On entry value is the nominal scale used by Dinput.
* For example: Angles: DI_DEGREES, DI_FFNOMINALMAX, DI_SECONDS
*
* IN UINT | cbData |
*
* Number of valid DWORDS in pvData
*
* Returns:
*
* HRESULT
* Error code
* E_NOTIMPL: Did not find any usage / usage Page
* DIERR_PID_INVALIDSCALING: Unsupported device scaling parameters.
* S_OK: Scaling value for at least one parameter was found
*
*****************************************************************************/
STDMETHODIMP
PID_ComputeScalingFactors
(
IDirectInputEffectDriver *ped,
PPIDREPORT pPidReport,
USHORT LinkCollection,
PVOID pvData,
UINT cbData,
PVOID pvOffset,
UINT cbOffset
)
{
HRESULT hres = E_NOTIMPL;
CPidDrv *this = (CPidDrv *)ped;
UINT indx;
PPIDUSAGE pPidUsage;
EnterProcI( PID_ComputeScalingFactors, (_"xxxxxxx", ped, pPidReport, LinkCollection, pvData, cbData, pvOffset, cbOffset));
// Loop over all data values in the PID Report
for(indx = 0x0, pPidUsage = pPidReport->rgPidUsage;
indx < pPidReport->cAPidUsage;
indx++, pPidUsage++ )
{
// Make sure the offsets are valid
if (( pPidUsage->DataOffset < cbData ) && (pPidUsage->DataOffset < cbOffset))
{
NTSTATUS ntStat;
HIDP_VALUE_CAPS ValCaps;
USHORT cAValCaps = 0x1;
USHORT Usage = DIGETUSAGE(pPidUsage->dwUsage);
USHORT UsagePage = DIGETUSAGEPAGE(pPidUsage->dwUsage);
PDWORD pdwValue;
PDWORD pdwOffset;
DWORD dwScale = 0x1;
DWORD dwOffset = 0x0;
pdwValue = ((DWORD*)((UCHAR*)pvData+pPidUsage->DataOffset));
pdwOffset = ((DWORD*)((UCHAR*)pvOffset+pPidUsage->DataOffset));
ntStat = HidP_GetSpecificValueCaps
(
pPidReport->HidP_Type,
UsagePage,
LinkCollection,
Usage,
&ValCaps,
&cAValCaps,
this->ppd
);
if(SUCCEEDED(ntStat))
{
//some units are "absolute" and thus don't need to be scaled to the limits.
//for them, we just find out the correct units
if (PID_IsUsageAbsoluteLike(ped, Usage))
{
if( ! ValCaps.Units )
{
SquirtSqflPtszV(sqfl | sqflVerbose,
TEXT("%s:No Units(%x,%x %x:%s) Max:%d Scale:%d "),
s_tszProc, LinkCollection, UsagePage, Usage, PIDUSAGETXT(UsagePage,Usage),
ValCaps.PhysicalMax, dwScale );
// No units, scaling exponent is default = 1
hres = S_FALSE;
} else
{
LONG UnitExp;
UnitExp = (LONG)ValCaps.UnitsExp ;
if( UnitExp > 0x0 )
{
RPF(TEXT("Driver does not support Units (%x,%x %x:%s) Exp:%d Max:%d"),
LinkCollection, UsagePage, Usage, PIDUSAGETXT(UsagePage,Usage), ValCaps.UnitsExp, ValCaps.PhysicalMax ) ;
hres = DIERR_PID_INVALIDSCALING;
}else
{
hres = S_OK;
}
if(SUCCEEDED(hres) )
{
dwScale = (*pdwValue);
for(; UnitExp; UnitExp++ )
{
dwScale /= 10;
}
if( dwScale == 0 )
{
RPF(TEXT("Driver does not support Units (%x,%x %x:%s) Exp:%d Max:%d"),
LinkCollection, UsagePage, Usage, PIDUSAGETXT(UsagePage,Usage), ValCaps.UnitsExp, ValCaps.PhysicalMax ) ;
dwScale = 0x1;
hres = DIERR_PID_INVALIDSCALING;
}else
{
hres = S_OK;
}
}
SquirtSqflPtszV(sqfl | sqflVerbose,
TEXT("%s: (%x,%x %x:%s) Exp%d Max:%d Scale:%d "),
s_tszProc, LinkCollection, UsagePage, Usage, PIDUSAGETXT(UsagePage,Usage),
ValCaps.UnitsExp, ValCaps.PhysicalMax, (*pdwValue) );
}
}
else
{
//for everything else, get Physical and /or Logical Min/ Max
//From PID spec, doesn't have to have a Physical / Logical Min, but does have to have either Physical or Logical Max
if ((!ValCaps.PhysicalMax) && (!ValCaps.LogicalMax))
{
RPF(TEXT("Driver does not have either Physical Max or Logical Max for (%x,%x %x:%s)"),
LinkCollection, UsagePage, Usage, PIDUSAGETXT(UsagePage,Usage)) ;
hres = DIERR_PID_INVALIDSCALING;
}
else
{
//Compute the scaling value from either Physical or Logical Min/ Max and store it
int Scale = 0;
int Min = 0;
int Max = 0;
if (ValCaps.PhysicalMax)
{
Max = ValCaps.PhysicalMax;
if (ValCaps.PhysicalMin)
{
Min = ValCaps.PhysicalMin;
}
}
else
{
Max = ValCaps.LogicalMax;
if (ValCaps.LogicalMin)
{
Min = ValCaps.LogicalMin;
}
}
#ifdef DEBUG
//if Min/max are not in correct order, print a message so that we know if there are any problems w/ the forces
if (Min >= Max)
{
RPF(TEXT("Maximum of the device's range is %d, not bigger than minimum %d"), Max, Min);
}
#endif
//certain magnitudes can be both positive and negative -- for those, we need to know the device's offset
if (PID_IsUsagePositiveNegative(ped, Usage, LinkCollection))
{
Scale = (Max - Min)/2;
dwOffset = (Max + Min)/2;
}
//other magnitudes can only be positive
else
{
Scale = Max - Min;
dwOffset = Min;
}
//for angular usages, multiply by DI_FFNOMINALMAX and divide by 360 * DI_DEGREES
//we are doing this since later we will have no way of knowing that the values represent angles,
//and will thus divide all the values by DI_FFNOMINALMAX
if (*pdwValue == 360 * DI_DEGREES)
{
dwScale = MulDiv(Scale, DI_FFNOMINALMAX, (360 * DI_DEGREES));
}
else
{
dwScale = Scale;
}
hres = S_OK;
}
}
} else
{
// HidP_SetScaledUsageValue FAILED
SquirtSqflPtszV(sqfl | sqflBenign,
TEXT("%s: FAIL HidP_GetSpecificValueCaps:0x%x for(%x,%x,%x:%s)=0x%x "),
s_tszProc, ntStat,
LinkCollection, UsagePage, Usage,
PIDUSAGETXT(UsagePage,Usage),
dwScale );
}
(*pdwValue) = dwScale;
(*pdwOffset) = dwOffset;
} else
{
//SquirtSqflPtszV(sqfl | sqflVerbose,
// TEXT("%s: FAIL Invalid Offset(%d), max(%d) "),
// s_tszProc, pPidUsage->DataOffset, cbData );
}
}
ExitOleProc();
return hres;
}
/*****************************************************************************
*
* PID_ApplyScalingFactors
*
* Dinput units for various parameters are well defined. The device may choose
* to implement the units that it is most comfortable with. This routine
* apply scaling factors that are to be used when scaling DINPUT parameters
* before they are send to the device.
*
* IDirectInputEffectDriver | ped |
*
* The effect driver interface
*
* PPIDREPORT | pPidReport |
*
* Address of PIDREPORT structure
*
* IN PVOID | pvScale |
*
* Scaling values
*
* IN UINT | cbScale |
*
* Number of scaling values.
*
* IN OUT PVOID | pvData |
*
* Array of data values.
*
* IN UINT | cbData |
*
* Number of data values.
*
* Returns:
*
* HRESULT
* Error code
* E_NOTIMPL: Did not find any usage / usage Page
* DIERR_PID_INVALIDSCALING: Unsupported device scaling parameters.
* S_OK: Scaling value for at least one parameter was found
*
*****************************************************************************/
STDMETHODIMP
PID_ApplyScalingFactors
(
IDirectInputEffectDriver *ped,
PPIDREPORT pPidReport,
PVOID pvScale,
UINT cbScale,
PVOID pvOffset,
UINT cbOffset,
PVOID pvData,
UINT cbData
)
{
HRESULT hres = S_OK;
CPidDrv *this = (CPidDrv *)ped;
UINT indx;
PPIDUSAGE pPidUsage;
EnterProcI( PID_ApplyScalingFactors, (_"xxxxxxxx", ped, pPidReport, pvScale, cbScale, pvOffset, cbOffset, pvData, cbData));
// Loop over all data values in the PID Report
for(indx = 0x0, pPidUsage = pPidReport->rgPidUsage;
indx < pPidReport->cAPidUsage;
indx++, pPidUsage++ )
{
// Make sure we the offsets are valid
if( (pPidUsage->DataOffset < cbData) &&
(pPidUsage->DataOffset < cbScale) && ((pPidUsage->DataOffset < cbOffset) ))
{
PUINT pValue;
PUINT pScale;
PUINT pOffset;
pValue = ((PUINT)((UCHAR*)pvData +pPidUsage->DataOffset));
pScale = ((PUINT)((UCHAR*)pvScale +pPidUsage->DataOffset));
pOffset = ((PUINT)((UCHAR*)pvOffset +pPidUsage->DataOffset));
//"absolute"-like usages need special handling, because they don't need to be scaled to the max device values
if (PID_IsUsageAbsoluteLike(ped, DIGETUSAGE(pPidUsage->dwUsage)))
{
if( (*pScale) > 0x1 )
{
(*pValue) /= (*pScale) ;
}
}
//for everything else, do a calculation based on Logical or Physical Min/ Max
else
{
(int)(*pValue) = MulDiv((*pScale), (*pValue), DI_FFNOMINALMAX) + (*pOffset);
}
} else
{
//SquirtSqflPtszV(sqfl | sqflBenign,
// TEXT("%s: FAIL Invalid Offset(%d), max(%d) "),
// s_tszProc, pPidUsage->DataOffset, cbData );
}
}
ExitOleProc();
return hres;
}