IOHIDReportDescriptorParser.c [plain text]
#include <string.h>
#include "IOHIDReportDescriptorParser.h"
#define UnpackReportSize(packedByte) ((packedByte) & 0x03)
#define UnpackReportType(packedByte) (((packedByte) & 0x0C) >> 2)
#define UnpackReportTag(packedByte) (((packedByte) & 0xF0) >> 4)
enum
{
kReport_TypeMain = 0,
kReport_TypeGlobal = 1,
kReport_TypeLocal = 2,
kReport_TypeReserved = 3,
kReport_TagLongItem = 0x0F,
kReport_TagInput = 0x08,
kReport_TagOutput = 0x09,
kReport_TagFeature = 0x0B,
kReport_TagCollection = 0x0A,
kReport_TagEndCollection = 0x0C,
kReport_TagUsagePage = 0x00,
kReport_TagLogicalMin = 0x01,
kReport_TagLogicalMax = 0x02,
kReport_TagPhysicalMin = 0x03,
kReport_TagPhysicalMax = 0x04,
kReport_TagUnitExponent = 0x05,
kReport_TagUnit = 0x06,
kReport_TagReportSize = 0x07,
kReport_TagReportID = 0x08,
kReport_TagReportCount = 0x09,
kReport_TagPush = 0x0A,
kReport_TagPop = 0x0B,
kReport_TagUsage = 0x00,
kReport_TagUsageMin = 0x01,
kReport_TagUsageMax = 0x02,
kReport_TagDesignatorIndex = 0x03,
kReport_TagDesignatorMin = 0x04,
kReport_TagDesignatorMax = 0x05,
kReport_TagStringIndex = 0x07,
kReport_TagStringMin = 0x08,
kReport_TagStringMax = 0x09,
kReport_TagSetDelimiter = 0x0A
};
enum
{
kCollection_Physical = 0x00,
kCollection_Application = 0x01,
kCollection_Logical = 0x02
};
enum
{
kIO_Data_or_Constant = 0x0001,
kIO_Array_or_Variable = 0x0002,
kIO_Absolute_or_Relative = 0x0004,
kIO_NoWrap_or_Wrap = 0x0008,
kIO_Linear_or_NonLinear = 0x0010,
kIO_PreferredState_or_NoPreferred = 0x0020,
kIO_NoNullPosition_or_NullState = 0x0040,
kIO_NonVolatile_or_Volatile = 0x0080, kIO_BitField_or_BufferedBytes = 0x0100
};
enum
{
kUsage_PageGenericDesktop = 0x01,
kUsage_PageSimulationControls = 0x02,
kUsage_PageVRControls = 0x03,
kUsage_PageSportControls = 0x04,
kUsage_PageGameControls = 0x05,
kUsage_PageKeyboard = 0x07,
kUsage_PageLED = 0x08,
kUsage_PageButton = 0x09,
kUsage_PageOrdinal = 0x0A,
kUsage_PageTelephonyDevice = 0x0B,
kUsage_PageConsumer = 0x0C,
kUsage_PageDigitizers = 0x0D,
kUsage_PagePID = 0x0F,
kUsage_PageUnicode = 0x10,
kUsage_PageAlphanumericDisplay = 0x14,
kUsage_PageMonitor = 0x80,
kUsage_PageMonitorEnumeratedValues = 0x81,
kUsage_PageMonitorVirtualControl = 0x82,
kUsage_PageMonitorReserved = 0x83,
kUsage_PagePowerDevice = 0x84,
kUsage_PageBatterySystem = 0x85,
kUsage_PowerClassReserved = 0x86,
kUsage_PowerClassReserved2 = 0x87
};
enum
{
kUsage_01_Pointer = 0x01,
kUsage_01_Mouse = 0x02,
kUsage_01_Joystick = 0x04,
kUsage_01_GamePad = 0x05,
kUsage_01_Keyboard = 0x06,
kUsage_01_Keypad = 0x07,
kUsage_01_X = 0x30,
kUsage_01_Y = 0x31,
kUsage_01_Z = 0x32,
kUsage_01_Rx = 0x33,
kUsage_01_Ry = 0x34,
kUsage_01_Rz = 0x35,
kUsage_01_Slider = 0x36,
kUsage_01_Dial = 0x37,
kUsage_01_Wheel = 0x38,
kUsage_01_HatSwitch = 0x39,
kUsage_01_CountedBuffer = 0x3A,
kUsage_01_ByteCount = 0x3B,
kUsage_01_MotionWakeup = 0x3C,
kUsage_01_Vx = 0x40,
kUsage_01_Vy = 0x41,
kUsage_01_Vz = 0x42,
kUsage_01_Vbrx = 0x43,
kUsage_01_Vbry = 0x44,
kUsage_01_Vbrz = 0x45,
kUsage_01_Vno = 0x46,
kUsage_01_SystemControl = 0x80,
kUsage_01_SystemPowerDown = 0x81,
kUsage_01_SystemSleep = 0x82,
kUsage_01_SystemWakeup = 0x83,
kUsage_01_SystemContextMenu = 0x84,
kUsage_01_SystemMainMenu = 0x85,
kUsage_01_SystemAppMenu = 0x86,
kUsage_01_SystemMenuHelp = 0x87,
kUsage_01_SystemMenuExit = 0x88,
kUsage_01_SystemMenuSelect = 0x89,
kUsage_01_SystemMenuRight = 0x8A,
kUsage_01_SystemMenuLeft = 0x8B,
kUsage_01_SystemMenuUp = 0x8C,
kUsage_01_SystemMenuDown = 0x8D
};
void PrintHIDReport(uint8_t *reportDesc, uint32_t length)
{
uint8_t * end = reportDesc + length;
uint8_t size, type, tag;
uint32_t usagePage = 0;
uint32_t value=0;
int32_t svalue=0;
static unsigned char buf[350], tempbuf[350], bufvalue[350], tempbufvalue[350];
int i, indentLevel;
int datahandled=0;
int usagesigned=0;
indentLevel = 1;
while (reportDesc < end)
{
size = UnpackReportSize(*reportDesc);
if (size == 3) size = 4;
type = UnpackReportType(*reportDesc);
tag = UnpackReportTag(*reportDesc);
reportDesc++;
if (tag == kReport_TagLongItem)
{
size = *reportDesc++;
tag = *reportDesc++;
}
if (size <= 4)
{
value = 0;
for (i = 0; i < size; i++)
value += (*(reportDesc++)) << (i * 8);
svalue = 0;
switch (size)
{
case 1: svalue = (int8_t) value; break;
case 2: svalue = (int16_t) value; break;
case 3: if (value & 0x00800000) value |= 0xFF000000; case 4: svalue = (int32_t) value; break;
}
}
buf[0] = 0;
bufvalue[0] = 0;
for (i = 0; i < indentLevel; i++)
strcat((char *)buf, " ");
datahandled = 0;
switch (type)
{
case kReport_TypeMain:
switch (tag)
{
case kReport_TagInput:
case kReport_TagOutput:
case kReport_TagFeature:
switch (tag)
{
case kReport_TagInput: strcat((char *)buf, "Input..................."); break;
case kReport_TagOutput: strcat((char *)buf, "Output.................."); break;
case kReport_TagFeature: strcat((char *)buf, "Feature................."); break;
}
strcat((char *)bufvalue, (char *)"(");
strcat((char *)bufvalue, (value & kIO_Data_or_Constant) ? "Constant, " : "Data, ");
strcat((char *)bufvalue, (value & kIO_Array_or_Variable) ? "Variable, ": "Array, ");
strcat((char *)bufvalue, (value & kIO_Absolute_or_Relative) ? "Relative" : "Absolute");
if (((tag == kReport_TagInput) && (value & kIO_Array_or_Variable)) || tag != kReport_TagInput)
{ strcat((char *)bufvalue, (value & kIO_NoWrap_or_Wrap) ? ", Wrap, " : ", No Wrap, ");
strcat((char *)bufvalue, (value & kIO_Linear_or_NonLinear) ? "Nonlinear, " : "Linear, ");
strcat((char *)bufvalue, (value & kIO_PreferredState_or_NoPreferred) ? "No Preferred, " : "Preferred State, ");
strcat((char *)bufvalue, (value & kIO_NoNullPosition_or_NullState) ? "Null State, " : "No Null Position, ");
if (tag != kReport_TagInput)
strcat((char *)bufvalue, (value & kIO_NonVolatile_or_Volatile) ? "Volatile, " : "Nonvolatile, ");
strcat((char *)bufvalue, (value & kIO_BitField_or_BufferedBytes) ? "Buffered bytes" : "Bitfield");
}
strcat((char *)bufvalue, (char *)")");
tempbuf[0] = 0; tempbufvalue[0] = 0;
datahandled = 1;
break;
case kReport_TagCollection:
indentLevel++;
sprintf((char *)tempbuf, "Collection ");
strcat((char *)buf, (char *)tempbuf);
strcat((char *)buf, (char *)"(");
switch (value)
{
case kCollection_Physical: sprintf((char *)tempbuf, "Physical"); break;
case kCollection_Application: sprintf((char *)tempbuf, "Application"); break;
case kCollection_Logical: sprintf((char *)tempbuf, "Logical"); break;
}
strcat((char *)buf, (char *)tempbuf);
strcat((char *)buf, (char *)")");
tempbuf[0] = 0; tempbufvalue[0] = 0;
datahandled = 1;
break;
case kReport_TagEndCollection:
indentLevel--;
buf[0] = 0;
for (i = 0; i < indentLevel; i++) {
strcat((char *)buf, " ");
}
sprintf((char *)tempbuf, "End Collection ");
break;
}
break;
case kReport_TypeGlobal:
switch (tag)
{
case kReport_TagUsagePage:
strcat((char *)buf, "Usage Page ");
usagesigned = 1;
usagePage = value;
strcat((char *)bufvalue, (char *)"(");
switch (usagePage)
{
case kUsage_PageGenericDesktop: sprintf((char *)tempbufvalue, "Generic Desktop"); break;
case kUsage_PageSimulationControls: sprintf((char *)tempbufvalue, "Simulation Controls"); break;
case kUsage_PageVRControls: sprintf((char *)tempbufvalue, "VR Controls"); break;
case kUsage_PageSportControls: sprintf((char *)tempbufvalue, "Sports Controls"); break;
case kUsage_PageGameControls: sprintf((char *)tempbufvalue, "Game Controls"); break;
case kUsage_PageKeyboard:
sprintf((char *)tempbufvalue, "Keyboard/Keypad");
usagesigned = 0;
break;
case kUsage_PageLED: sprintf((char *)tempbufvalue, "LED"); break;
case kUsage_PageButton: sprintf((char *)tempbufvalue, "Button"); break;
case kUsage_PageOrdinal: sprintf((char *)tempbufvalue, "Ordinal"); break;
case kUsage_PageTelephonyDevice: sprintf((char *)tempbufvalue, "Telephony Device"); break;
case kUsage_PageConsumer: sprintf((char *)tempbufvalue, "Consumer"); break;
case kUsage_PageDigitizers: sprintf((char *)tempbufvalue, "Digitizer"); break;
case kUsage_PagePID: sprintf((char *)tempbufvalue, "PID"); break;
case kUsage_PageUnicode: sprintf((char *)tempbufvalue, "Unicode"); break;
case kUsage_PageAlphanumericDisplay: sprintf((char *)tempbufvalue, "Alphanumeric Display"); break;
case kUsage_PageMonitor: sprintf((char *)tempbufvalue, "Monitor"); break;
case kUsage_PageMonitorEnumeratedValues: sprintf((char *)tempbufvalue, "Monitor Enumerated Values"); break;
case kUsage_PageMonitorVirtualControl: sprintf((char *)tempbufvalue, "VESA Virtual Controls"); break;
case kUsage_PageMonitorReserved: sprintf((char *)tempbufvalue, "Monitor Class reserved"); break;
case kUsage_PagePowerDevice: sprintf((char *)tempbufvalue, "Power Device"); break;
case kUsage_PageBatterySystem: sprintf((char *)tempbufvalue, "Battery System"); break;
case kUsage_PowerClassReserved: sprintf((char *)tempbufvalue, "Power Class reserved"); break;
case kUsage_PowerClassReserved2: sprintf((char *)tempbufvalue, "Power Class reserved"); break;
case 0xff: sprintf((char *)tempbufvalue, "Vendor Defined"); break;
default: sprintf((char *)tempbufvalue, "%u", usagePage); break;
}
strcat((char *)bufvalue, (char *)tempbufvalue);
strcat((char *)bufvalue, (char *)")");
tempbuf[0] = 0; tempbufvalue[0] = 0;
datahandled = 1;
break;
case kReport_TagLogicalMin: sprintf((char *)tempbuf, "Logical Minimum......... "); break;
case kReport_TagLogicalMax: sprintf((char *)tempbuf, "Logical Maximum......... "); break;
case kReport_TagPhysicalMin: sprintf((char *)tempbuf, "Physical Minimum........ "); break;
case kReport_TagPhysicalMax: sprintf((char *)tempbuf, "Physical Maximum........ "); break;
case kReport_TagUnitExponent: sprintf((char *)tempbuf, "Unit Exponent........... "); break;
case kReport_TagUnit: sprintf((char *)tempbuf, "Unit.................... "); break;
case kReport_TagReportSize: sprintf((char *)tempbuf, "Report Size............. "); break;
case kReport_TagReportID: sprintf((char *)tempbuf, "ReportID................ "); break;
case kReport_TagReportCount: sprintf((char *)tempbuf, "Report Count............ "); break;
case kReport_TagPush: sprintf((char *)tempbuf, "Push.................... "); break;
case kReport_TagPop: sprintf((char *)tempbuf, "Pop..................... "); break;
}
break;
case kReport_TypeLocal:
switch (tag)
{
case kReport_TagUsage:
sprintf((char *)tempbuf, "Usage ");
strcat((char *)buf, (char *)tempbuf);
if (usagePage == kUsage_PageGenericDesktop)
{
strcat((char *)buf, (char *)"(");
switch (value)
{
case kUsage_01_Pointer: sprintf((char *)tempbuf, "Pointer"); break;
case kUsage_01_Mouse: sprintf((char *)tempbuf, "Mouse"); break;
case kUsage_01_Joystick: sprintf((char *)tempbuf, "Joystick"); break;
case kUsage_01_GamePad: sprintf((char *)tempbuf, "GamePad"); break;
case kUsage_01_Keyboard: sprintf((char *)tempbuf, "Keyboard"); break;
case kUsage_01_Keypad: sprintf((char *)tempbuf, "Keypad"); break;
case kUsage_01_X: sprintf((char *)tempbuf, "X"); break;
case kUsage_01_Y: sprintf((char *)tempbuf, "Y"); break;
case kUsage_01_Z: sprintf((char *)tempbuf, "Z"); break;
case kUsage_01_Rx: sprintf((char *)tempbuf, "Rx"); break;
case kUsage_01_Ry: sprintf((char *)tempbuf, "Ry"); break;
case kUsage_01_Rz: sprintf((char *)tempbuf, "Rz"); break;
case kUsage_01_Slider: sprintf((char *)tempbuf, "Slider"); break;
case kUsage_01_Dial: sprintf((char *)tempbuf, "Dial"); break;
case kUsage_01_Wheel: sprintf((char *)tempbuf, "Wheel"); break;
case kUsage_01_HatSwitch: sprintf((char *)tempbuf, "Hat Switch"); break;
case kUsage_01_CountedBuffer: sprintf((char *)tempbuf, "Counted Buffer"); break;
case kUsage_01_ByteCount: sprintf((char *)tempbuf, "Byte Count"); break;
case kUsage_01_MotionWakeup: sprintf((char *)tempbuf, "Motion Wakeup"); break;
case kUsage_01_Vx: sprintf((char *)tempbuf, "Vx"); break;
case kUsage_01_Vy: sprintf((char *)tempbuf, "Vy"); break;
case kUsage_01_Vz: sprintf((char *)tempbuf, "Vz"); break;
case kUsage_01_Vbrx: sprintf((char *)tempbuf, "Vbrx"); break;
case kUsage_01_Vbry: sprintf((char *)tempbuf, "Vbry"); break;
case kUsage_01_Vbrz: sprintf((char *)tempbuf, "Vbrz"); break;
case kUsage_01_Vno: sprintf((char *)tempbuf, "Vno"); break;
case kUsage_01_SystemControl: sprintf((char *)tempbuf, "System Control"); break;
case kUsage_01_SystemPowerDown: sprintf((char *)tempbuf, "System Power Down"); break;
case kUsage_01_SystemSleep: sprintf((char *)tempbuf, "System Sleep"); break;
case kUsage_01_SystemWakeup: sprintf((char *)tempbuf, "System Wakeup"); break;
case kUsage_01_SystemContextMenu: sprintf((char *)tempbuf, "System Context Menu"); break;
case kUsage_01_SystemMainMenu: sprintf((char *)tempbuf, "System Main Menu"); break;
case kUsage_01_SystemAppMenu: sprintf((char *)tempbuf, "System App Menu"); break;
case kUsage_01_SystemMenuHelp: sprintf((char *)tempbuf, "System Menu Help"); break;
case kUsage_01_SystemMenuExit: sprintf((char *)tempbuf, "System Menu Exit"); break;
case kUsage_01_SystemMenuSelect: sprintf((char *)tempbuf, "System Menu Select"); break;
case kUsage_01_SystemMenuRight: sprintf((char *)tempbuf, "System Menu Right"); break;
case kUsage_01_SystemMenuLeft: sprintf((char *)tempbuf, "System Menu Left"); break;
case kUsage_01_SystemMenuUp: sprintf((char *)tempbuf, "System Menu Up"); break;
case kUsage_01_SystemMenuDown: sprintf((char *)tempbuf, "System Menu Down"); break;
default: sprintf((char *)tempbuf, "%d (0x%x)", (int)value, (unsigned int)value); break;
}
strcat((char *)tempbuf, (char *)")");
}
else if (usagePage == kUsage_PagePID)
{
strcat((char *)buf, (char *)"(");
switch (value)
{
case 1: sprintf((char *)tempbuf, "Physical Interface Device"); break;
case 0x20: sprintf((char *)tempbuf, "Normal"); break;
case 0x21: sprintf((char *)tempbuf, "Set Effect Report"); break;
case 0x22: sprintf((char *)tempbuf, "Effect Block Index"); break;
case 0x23: sprintf((char *)tempbuf, "Parameter Block Offset"); break;
case 0x24: sprintf((char *)tempbuf, "ROM Flag"); break;
case 0x25: sprintf((char *)tempbuf, "Effect Type"); break;
case 0x26: sprintf((char *)tempbuf, "ET Constant Force"); break;
case 0x27: sprintf((char *)tempbuf, "ET Ramp"); break;
case 0x28: sprintf((char *)tempbuf, "ET Custom Force Data"); break;
case 0x30: sprintf((char *)tempbuf, "ET Square"); break;
case 0x31: sprintf((char *)tempbuf, "ET Sine"); break;
case 0x32: sprintf((char *)tempbuf, "ET Triangle"); break;
case 0x33: sprintf((char *)tempbuf, "ET Sawtooth Up"); break;
case 0x34: sprintf((char *)tempbuf, "ET Sawtooth Down"); break;
case 0x40: sprintf((char *)tempbuf, "ET Spring"); break;
case 0x41: sprintf((char *)tempbuf, "ET Damper"); break;
case 0x42: sprintf((char *)tempbuf, "ET Inertia"); break;
case 0x43: sprintf((char *)tempbuf, "ET Friction"); break;
case 0x50: sprintf((char *)tempbuf, "Duration"); break;
case 0x51: sprintf((char *)tempbuf, "Sample Period"); break;
case 0x52: sprintf((char *)tempbuf, "Gain"); break;
case 0x53: sprintf((char *)tempbuf, "Trigger Button"); break;
case 0x54: sprintf((char *)tempbuf, "Trigger Repeat Interval"); break;
case 0x55: sprintf((char *)tempbuf, "Axes Enable"); break;
case 0x56: sprintf((char *)tempbuf, "Direction Enable"); break;
case 0x57: sprintf((char *)tempbuf, "Direction"); break;
case 0x58: sprintf((char *)tempbuf, "Type Specific Block Offset"); break;
case 0x59: sprintf((char *)tempbuf, "Block Type"); break;
case 0x5a: sprintf((char *)tempbuf, "Set Envelope Report"); break;
case 0x5b: sprintf((char *)tempbuf, "Attack Level"); break;
case 0x5c: sprintf((char *)tempbuf, "Attack Time"); break;
case 0x5d: sprintf((char *)tempbuf, "Fade Level"); break;
case 0x5e: sprintf((char *)tempbuf, "Fade Time"); break;
case 0x5f: sprintf((char *)tempbuf, "Set Condition Report"); break;
case 0x60: sprintf((char *)tempbuf, "CP Offset"); break;
case 0x61: sprintf((char *)tempbuf, "Positive Coefficient"); break;
case 0x62: sprintf((char *)tempbuf, "Negative Coefficient"); break;
case 0x63: sprintf((char *)tempbuf, "Positive Saturation"); break;
case 0x64: sprintf((char *)tempbuf, "Negative Saturation"); break;
case 0x65: sprintf((char *)tempbuf, "Dead Band"); break;
case 0x66: sprintf((char *)tempbuf, "Download Force Data Report"); break;
case 0x67: sprintf((char *)tempbuf, "Isoch Custom Force Enable"); break;
case 0x68: sprintf((char *)tempbuf, "Custom Force Data Report"); break;
case 0x69: sprintf((char *)tempbuf, "Custom Force Data"); break;
case 0x6a: sprintf((char *)tempbuf, "Custom Force Vendor Defined Data"); break;
case 0x6b: sprintf((char *)tempbuf, "Set Custom Force Report"); break;
case 0x6c: sprintf((char *)tempbuf, "Custom Force Data Offset"); break;
case 0x6d: sprintf((char *)tempbuf, "Sample Count"); break;
case 0x6e: sprintf((char *)tempbuf, "Set Periodic Report"); break;
case 0x6f: sprintf((char *)tempbuf, "Offset"); break;
case 0x70: sprintf((char *)tempbuf, "Magnitude"); break;
case 0x71: sprintf((char *)tempbuf, "Phase"); break;
case 0x72: sprintf((char *)tempbuf, "Period"); break;
case 0x73: sprintf((char *)tempbuf, "Set Constant Force Report"); break;
case 0x74: sprintf((char *)tempbuf, "Set Constant Force"); break;
case 0x75: sprintf((char *)tempbuf, "Ramp Start"); break;
case 0x76: sprintf((char *)tempbuf, "Ramp End"); break;
case 0x77: sprintf((char *)tempbuf, "Effect Operation Report"); break;
case 0x78: sprintf((char *)tempbuf, "Effect Operation"); break;
case 0x79: sprintf((char *)tempbuf, "Op Effect Start"); break;
case 0x7a: sprintf((char *)tempbuf, "Op Effect Start Solo"); break;
case 0x7b: sprintf((char *)tempbuf, "Op Effect Stop"); break;
case 0x7c: sprintf((char *)tempbuf, "Loop Count"); break;
case 0x7d: sprintf((char *)tempbuf, "Gain Report"); break;
case 0x7e: sprintf((char *)tempbuf, "Gain"); break;
case 0x7f: sprintf((char *)tempbuf, "PID Pool Report"); break;
case 0x80: sprintf((char *)tempbuf, "RAM Pool Size"); break;
case 0x81: sprintf((char *)tempbuf, "ROM Pool Size"); break;
case 0x82: sprintf((char *)tempbuf, "ROM Effect Block Count"); break;
case 0x83: sprintf((char *)tempbuf, "Simultaneous Effects Max"); break;
case 0x84: sprintf((char *)tempbuf, "Pool Alignment"); break;
case 0x85: sprintf((char *)tempbuf, "PID Pool Move Report"); break;
case 0x86: sprintf((char *)tempbuf, "Move Source"); break;
case 0x87: sprintf((char *)tempbuf, "Move Destination"); break;
case 0x88: sprintf((char *)tempbuf, "Move Length"); break;
case 0x89: sprintf((char *)tempbuf, "PID Block Load Report"); break;
case 0x8b: sprintf((char *)tempbuf, "Block Load Status"); break;
case 0x8c: sprintf((char *)tempbuf, "Block Load Success"); break;
case 0x8d: sprintf((char *)tempbuf, "Block Load Full"); break;
case 0x8e: sprintf((char *)tempbuf, "Block Load Error"); break;
case 0x8f: sprintf((char *)tempbuf, "Block Handle"); break;
case 0x90: sprintf((char *)tempbuf, "PID Block Free Report"); break;
case 0x91: sprintf((char *)tempbuf, "Type Specific Block Handle"); break;
case 0x92: sprintf((char *)tempbuf, "PID State Report"); break;
case 0x94: sprintf((char *)tempbuf, "Effect Playing"); break;
case 0x95: sprintf((char *)tempbuf, "PID Device Control Report"); break;
case 0x96: sprintf((char *)tempbuf, "PID Device Control"); break;
case 0x97: sprintf((char *)tempbuf, "DC Enable Actuators"); break;
case 0x98: sprintf((char *)tempbuf, "DC Disable Actuators"); break;
case 0x99: sprintf((char *)tempbuf, "DC Stoop All Effects"); break;
case 0x9a: sprintf((char *)tempbuf, "DC Device Reset"); break;
case 0x9b: sprintf((char *)tempbuf, "DC Device Pause"); break;
case 0x9c: sprintf((char *)tempbuf, "DC Device Continue"); break;
case 0x9f: sprintf((char *)tempbuf, "Device Paused"); break;
case 0xa0: sprintf((char *)tempbuf, "Actuators Enabled"); break;
case 0xa4: sprintf((char *)tempbuf, "Safety Switch"); break;
case 0xa5: sprintf((char *)tempbuf, "Actuator Override Switch"); break;
case 0xa6: sprintf((char *)tempbuf, "Actuator Power"); break;
case 0xa7: sprintf((char *)tempbuf, "Start Delay"); break;
case 0xa8: sprintf((char *)tempbuf, "Parameter Block Size"); break;
case 0xa9: sprintf((char *)tempbuf, "Device Managed Pool"); break;
case 0xaa: sprintf((char *)tempbuf, "Shared parameter blocks"); break;
case 0xab: sprintf((char *)tempbuf, "Create New Effect Report"); break;
case 0xac: sprintf((char *)tempbuf, "RAM Pool Available"); break;
default: sprintf((char *)tempbuf, "%d (0x%x)", (int)value, (unsigned int)value); break;
}
strcat((char *)tempbuf, (char *)")");
}
else
{
sprintf((char *)tempbuf, "%d (0x%x)", (int)value, (unsigned int)value);
}
strcat((char *)buf, (char *)tempbuf);
tempbuf[0] = 0; tempbufvalue[0] = 0;
datahandled = 1;
break;
case kReport_TagUsageMin: sprintf((char *)tempbuf, "Usage Minimum........... "); break;
case kReport_TagUsageMax: sprintf((char *)tempbuf, "Usage Maximum........... "); break;
case kReport_TagDesignatorIndex: sprintf((char *)tempbuf, "Designator Index........ "); break;
case kReport_TagDesignatorMin: sprintf((char *)tempbuf, "Designator Minumum...... "); break;
case kReport_TagDesignatorMax: sprintf((char *)tempbuf, "Designator Maximum...... "); break;
case kReport_TagStringIndex: sprintf((char *)tempbuf, "String Index............ "); break;
case kReport_TagStringMin: sprintf((char *)tempbuf, "String Minimum.......... "); break;
case kReport_TagStringMax: sprintf((char *)tempbuf, "String Maximum.......... "); break;
case kReport_TagSetDelimiter: sprintf((char *)tempbuf, "Set Delimiter........... "); break;
}
break;
case kReport_TypeReserved:
sprintf((char *)tempbuf, "Reserved "); break;
break;
}
strcat((char *)buf, (char *)tempbuf);
if (!datahandled && size)
{
strcat((char *)bufvalue, (char *)"(");
if (size <= 4)
{
if (usagesigned)
{
sprintf((char *)tempbufvalue, "%d", (int32_t)svalue);
}
else
{
sprintf((char *)tempbufvalue, "%u", (uint32_t)value);
}
strcat((char *)bufvalue, (char *)tempbufvalue);
}
else
for (i = 0; i < size; i++)
{
sprintf((char *)tempbufvalue, "%02X ", *(reportDesc++));
strcat((char *)bufvalue, (char *)tempbufvalue);
}
strcat((char *)bufvalue, (char *)") ");
}
strcat((char *)bufvalue, " ");
printf("%s%s\n",buf, bufvalue);
}
}