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501 lines
17 KiB
501 lines
17 KiB
/*++
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Copyright (c) 1996 Microsoft Corporation
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Module Name:
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report.c
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Abstract:
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This module contains the code for translating HID reports to something
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useful.
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Environment:
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Kernel & user mode
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Revision History:
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Nov-96 : Created by Kenneth D. Ray
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--*/
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#include <stdlib.h>
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#include <wtypes.h>
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#include "hidsdi.h"
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#include "hid.h"
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#include "mylog.h"
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#include "mymem.h"
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BOOL
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UnpackReport (
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IN PCHAR ReportBuffer,
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IN USHORT ReportBufferLength,
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IN HIDP_REPORT_TYPE ReportType,
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IN OUT PHID_DATA Data,
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IN ULONG DataLength,
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IN PHIDP_PREPARSED_DATA Ppd
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);
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// Haven't used this with Write .. let's see whether i need this with set/get feature
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BOOL
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PackReport (
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OUT PCHAR ReportBuffer,
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IN USHORT ReportBufferLength,
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IN HIDP_REPORT_TYPE ReportType,
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IN PHID_DATA Data,
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IN ULONG DataLength,
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IN PHIDP_PREPARSED_DATA Ppd
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);
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VOID CALLBACK
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WriteIOCompletionRoutine (
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DWORD dwErrorCode,
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DWORD dwNumberofBytesTransferrred,
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LPOVERLAPPED lpOverlapped
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)
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{
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PHID_DEVICE pHidDevice = (PHID_DEVICE) lpOverlapped->hEvent;
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LOG((PHONESP_TRACE, "WriteIOCompletionRoutine - enter"));
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if(dwErrorCode)
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{
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LOG((PHONESP_ERROR, "Error occured while writing" ));
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}
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MemFree(lpOverlapped);
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LOG((PHONESP_TRACE, "WriteIOCompletionRoutine - exit"));
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}
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BOOL
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Write (
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PHID_DEVICE HidDevice
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)
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/*++
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RoutineDescription:
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Given a struct _HID_DEVICE, take the information in the HID_DATA array
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pack it into multiple write reports and send each report to the HID device
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--*/
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{
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DWORD bytesWritten;
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PHID_DATA pData;
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ULONG Index;
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BOOL Status;
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BOOL WriteStatus;
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LPOVERLAPPED lpOverlapped;
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LOG((PHONESP_TRACE, "Write - enter"));
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lpOverlapped = (LPOVERLAPPED) MemAlloc (sizeof(OVERLAPPED));
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if (lpOverlapped == NULL)
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{
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LOG((PHONESP_ERROR,"Write - out of memory"));
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return FALSE;
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}
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lpOverlapped->Offset = 0;
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lpOverlapped->OffsetHigh = 0;
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lpOverlapped->hEvent = (HANDLE) HidDevice;
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LOG((PHONESP_TRACE,"Write - Report Packed"));
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WriteStatus = WriteFileEx (HidDevice->HidDevice,
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HidDevice->OutputReportBuffer,
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HidDevice->Caps.OutputReportByteLength,
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lpOverlapped,
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&WriteIOCompletionRoutine);
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SleepEx(INFINITE, TRUE);
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LOG((PHONESP_TRACE, "Write - Report sent"));
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LOG((PHONESP_TRACE, "Write - exit"));
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return TRUE;
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}
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BOOL
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SetFeature (
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PHID_DEVICE HidDevice
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)
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/*++
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RoutineDescription:
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Given a struct _HID_DEVICE, take the information in the HID_DATA array
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pack it into multiple reports and send it to the hid device via HidD_SetFeature()
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--*/
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{
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PHID_DATA pData;
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ULONG Index;
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BOOL Status;
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BOOL FeatureStatus;
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DWORD ErrorCode;
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/*
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// Begin by looping through the HID_DEVICE's HID_DATA structure and setting
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// the IsDataSet field to FALSE to indicate that each structure has
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// not yet been set for this SetFeature() call.
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*/
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pData = HidDevice -> FeatureData;
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for (Index = 0; Index < HidDevice -> FeatureDataLength; Index++, pData++) {
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pData -> IsDataSet = FALSE;
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}
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/*
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// In setting all the data in the reports, we need to pack a report buffer
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// and call WriteFile for each report ID that is represented by the
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// device structure. To do so, the IsDataSet field will be used to
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// determine if a given report field has already been set.
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*/
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Status = TRUE;
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pData = HidDevice -> FeatureData;
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for (Index = 0; Index < HidDevice -> FeatureDataLength; Index++, pData++) {
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if (!pData -> IsDataSet) {
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/*
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// Package the report for this data structure. PackReport will
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// set the IsDataSet fields of this structure and any other
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// structures that it includes in the report with this structure
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*/
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PackReport (HidDevice->FeatureReportBuffer,
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HidDevice->Caps.FeatureReportByteLength,
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HidP_Feature,
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pData,
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HidDevice->FeatureDataLength - Index,
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HidDevice->Ppd);
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/*
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// Now a report has been packaged up...Send it down to the device
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*/
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FeatureStatus =(HidD_SetFeature (HidDevice->HidDevice,
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HidDevice->FeatureReportBuffer,
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HidDevice->Caps.FeatureReportByteLength));
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ErrorCode = GetLastError();
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Status = Status && FeatureStatus;
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}
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}
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return (Status);
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}
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BOOL
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GetFeature (
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PHID_DEVICE HidDevice
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)
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/*++
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RoutineDescription:
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Given a struct _HID_DEVICE, fill in the feature data structures with
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all features on the device. May issue multiple HidD_GetFeature() calls to
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deal with multiple report IDs.
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--*/
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{
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ULONG Index;
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PHID_DATA pData;
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BOOL FeatureStatus;
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BOOL Status;
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/*
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// As with writing data, the IsDataSet value in all the structures should be
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// set to FALSE to indicate that the value has yet to have been set
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*/
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LOG((PHONESP_TRACE,"GetFeature - enter"));
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pData = HidDevice->FeatureData;
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for (Index = 0; Index < HidDevice -> FeatureDataLength; Index++, pData++)
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{
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pData -> IsDataSet = FALSE;
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}
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/*
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// Next, each structure in the HID_DATA buffer is filled in with a value
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// that is retrieved from one or more calls to HidD_GetFeature. The
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// number of calls is equal to the number of reportIDs on the device
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*/
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Status = TRUE;
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pData = HidDevice -> FeatureData;
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for (Index = 0; Index < HidDevice -> FeatureDataLength; Index++, pData++) {
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/*
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// If a value has yet to have been set for this structure, build a report
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// buffer with its report ID as the first byte of the buffer and pass
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// it in the HidD_GetFeature call. Specifying the report ID in the
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// first specifies which report is actually retrieved from the device.
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// The rest of the buffer should be zeroed before the call
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*/
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if (!pData -> IsDataSet) {
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memset(HidDevice -> FeatureReportBuffer, 0x00, HidDevice->Caps.FeatureReportByteLength);
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HidDevice -> FeatureReportBuffer[0] = (UCHAR) pData -> ReportID;
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FeatureStatus = HidD_GetFeature ( HidDevice->HidDevice,
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HidDevice->FeatureReportBuffer,
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HidDevice->Caps.FeatureReportByteLength);
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/*
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// If the return value is TRUE, scan through the rest of the HID_DATA
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// structures and fill whatever values we can from this report
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*/
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if (FeatureStatus)
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{
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FeatureStatus = UnpackReport ( HidDevice->FeatureReportBuffer,
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HidDevice->Caps.FeatureReportByteLength,
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HidP_Feature,
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HidDevice->FeatureData,
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HidDevice->FeatureDataLength,
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HidDevice->Ppd
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);
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}
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else
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{
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LOG((PHONESP_ERROR, "GetFeature - HidD_GetFeature failed %d", GetLastError()));
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}
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Status = Status && FeatureStatus;
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}
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}
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LOG((PHONESP_TRACE, "GetFeature - exit"));
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return Status;
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}
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BOOL
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UnpackReport (
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IN PCHAR ReportBuffer,
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IN USHORT ReportBufferLength,
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IN HIDP_REPORT_TYPE ReportType,
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IN OUT PHID_DATA Data,
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IN ULONG DataLength,
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IN PHIDP_PREPARSED_DATA Ppd
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)
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/*++
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Routine Description:
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Given ReportBuffer representing a report from a HID device where the first
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byte of the buffer is the report ID for the report, extract all the HID_DATA
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in the Data list from the given report.
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--*/
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{
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ULONG numUsages; // Number of usages returned from GetUsages.
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ULONG i;
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UCHAR reportID;
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ULONG Index;
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ULONG nextUsage;
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reportID = ReportBuffer[0];
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for (i = 0; i < DataLength; i++, Data++) {
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if (reportID == Data->ReportID) {
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if (Data->IsButtonData) {
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numUsages = Data->ButtonData.MaxUsageLength;
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Data->Status = HidP_GetUsages (
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ReportType,
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Data->UsagePage,
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0, // All collections
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Data->ButtonData.Usages,
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&numUsages,
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Ppd,
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ReportBuffer,
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ReportBufferLength);
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//
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// Get usages writes the list of usages into the buffer
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// Data->ButtonData.Usages newUsage is set to the number of usages
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// written into this array.
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// A usage cannot not be defined as zero, so we'll mark a zero
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// following the list of usages to indicate the end of the list of
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// usages
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//
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// NOTE: One anomaly of the GetUsages function is the lack of ability
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// to distinguish the data for one ButtonCaps from another
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// if two different caps structures have the same UsagePage
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// For instance:
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// Caps1 has UsagePage 07 and UsageRange of 0x00 - 0x167
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// Caps2 has UsagePage 07 and UsageRange of 0xe0 - 0xe7
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//
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// However, calling GetUsages for each of the data structs
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// will return the same list of usages. It is the
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// responsibility of the caller to set in the HID_DEVICE
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// structure which usages actually are valid for the
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// that structure.
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//
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/*
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// Search through the usage list and remove those that
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// correspond to usages outside the define ranged for this
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// data structure.
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*/
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for (Index = 0, nextUsage = 0; Index < numUsages; Index++) {
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if (Data -> ButtonData.UsageMin <= Data -> ButtonData.Usages[Index] &&
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Data -> ButtonData.Usages[Index] <= Data -> ButtonData.UsageMax) {
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Data -> ButtonData.Usages[nextUsage++] = Data -> ButtonData.Usages[Index];
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}
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}
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if (nextUsage < Data -> ButtonData.MaxUsageLength) {
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Data->ButtonData.Usages[nextUsage] = 0;
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}
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}
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else {
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Data->Status = HidP_GetUsageValue (
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ReportType,
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Data->UsagePage,
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0, // All Collections.
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Data->ValueData.Usage,
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&Data->ValueData.Value,
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Ppd,
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ReportBuffer,
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ReportBufferLength);
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Data->Status = HidP_GetScaledUsageValue (
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ReportType,
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Data->UsagePage,
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0, // All Collections.
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Data->ValueData.Usage,
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&Data->ValueData.ScaledValue,
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Ppd,
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ReportBuffer,
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ReportBufferLength);
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}
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Data -> IsDataSet = TRUE;
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}
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}
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return (TRUE);
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}
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BOOL
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PackReport (
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OUT PCHAR ReportBuffer,
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IN USHORT ReportBufferLength,
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IN HIDP_REPORT_TYPE ReportType,
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IN PHID_DATA Data,
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IN ULONG DataLength,
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IN PHIDP_PREPARSED_DATA Ppd
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)
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/*++
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Routine Description:
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This routine takes in a list of HID_DATA structures (DATA) and builds
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in ReportBuffer the given report for all data values in the list that
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correspond to the report ID of the first item in the list.
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For every data structure in the list that has the same report ID as the first
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item in the list will be set in the report. Every data item that is
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set will also have it's IsDataSet field marked with TRUE.
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A return value of FALSE indicates an unexpected error occurred when setting
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a given data value. The caller should expect that assume that no values
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within the given data structure were set.
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A return value of TRUE indicates that all data values for the given report
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ID were set without error.
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--*/
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{
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ULONG numUsages; // Number of usages to set for a given report.
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ULONG i;
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ULONG CurrReportID;
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/*
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// All report buffers that are initially sent need to be zero'd out
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*/
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memset (ReportBuffer, (UCHAR) 0, ReportBufferLength);
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/*
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// Go through the data structures and set all the values that correspond to
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// the CurrReportID which is obtained from the first data structure
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// in the list
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*/
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CurrReportID = Data -> ReportID;
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for (i = 0; i < DataLength; i++, Data++) {
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/*
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// There are two different ways to determine if we set the current data
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// structure:
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// 1) Store the report ID were using and only attempt to set those
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// data structures that correspond to the given report ID. This
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// example shows this implementation.
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//
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// 2) Attempt to set all of the data structures and look for the
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// returned status value of HIDP_STATUS_INVALID_REPORT_ID. This
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// error code indicates that the given usage exists but has a
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// different report ID than the report ID in the current report
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// buffer
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*/
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if (Data -> ReportID == CurrReportID) {
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if (Data->IsButtonData) {
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numUsages = Data->ButtonData.MaxUsageLength;
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Data->Status = HidP_SetUsages (
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ReportType,
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Data->UsagePage,
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0, // All collections
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Data->ButtonData.Usages,
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&numUsages,
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Ppd,
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ReportBuffer,
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ReportBufferLength);
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} else {
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Data->Status = HidP_SetUsageValue (
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ReportType,
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Data->UsagePage,
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0, // All Collections.
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Data->ValueData.Usage,
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Data->ValueData.Value,
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Ppd,
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ReportBuffer,
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ReportBufferLength);
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}
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if (HIDP_STATUS_SUCCESS != Data->Status)
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{
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return FALSE;
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}
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}
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}
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/*
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// At this point, all data structures that have the same ReportID as the
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// first one will have been set in the given report. Time to loop
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// through the structure again and mark all of those data structures as
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// having been set.
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*/
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for (i = 0; i < DataLength; i++, Data++) {
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if (CurrReportID == Data -> ReportID) {
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Data -> IsDataSet = TRUE;
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}
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}
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return (TRUE);
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}
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