IOUSBInterfaceClass.cpp   [plain text]


/*
 * Copyright (c) 1998-2003 Apple Computer, Inc. All rights reserved.
 *
 * @APPLE_LICENSE_HEADER_START@
 * 
 * This file contains Original Code and/or Modifications of Original Code
 * as defined in and that are subject to the Apple Public Source License
 * Version 2.0 (the 'License'). You may not use this file except in
 * compliance with the License. Please obtain a copy of the License at
 * http://www.opensource.apple.com/apsl/ and read it before using this
 * file.
 * 
 * The Original Code and all software distributed under the License are
 * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
 * Please see the License for the specific language governing rights and
 * limitations under the License.
 * 
 * @APPLE_LICENSE_HEADER_END@
 */
#define CFRUNLOOP_NEW_API 1

#include <CoreFoundation/CFNumber.h>
#include <CoreFoundation/CoreFoundation.h>

#include "IOUSBInterfaceClass.h"
#include <IOKit/usb/USB.h>
#include <IOKit/usb/IOUSBUserClient.h>

#include <stdio.h>

__BEGIN_DECLS
#include <mach/mach.h>
#include <IOKit/iokitmig.h>
__END_DECLS

#ifndef IOUSBLIBDEBUG
    #define IOUSBLIBDEBUG		0
#endif

#if IOUSBLIBDEBUG
	#define __STDC_FORMAT_MACROS 1
	#include <inttypes.h>
	#define DEBUGPRINT(x,...)	asl_log(fASLClient, NULL, ASL_LEVEL_NOTICE,  x, ##__VA_ARGS__);
#else
    #define DEBUGPRINT(x,...)   
#endif

#define ATTACHEDCHECK() do {	    \
    if (!fInterfaceIsAttached)		    \
	{						\
		DEBUGPRINT("IOUSBInterfaceClass[%p]::attached check failed\n", this); \
		return kIOReturnNoDevice;   \
	}						\
} while (0)

#define OPENCHECK() do {	    \
    if (!fIsOpen)		    \
	{						\
		DEBUGPRINT("IOUSBInterfaceClass[%p]::open check failed\n", this);\
		return kIOReturnNotOpen;    \
	}						\
} while (0)

#define ALLCHECKS() do {	    \
    ATTACHEDCHECK();		    \
    OPENCHECK();		    \
} while (0)

IOCFPlugInInterface ** IOUSBInterfaceClass::alloc()
{
    IOUSBInterfaceClass *me;

    me = new IOUSBInterfaceClass;
    if (me)
        return (IOCFPlugInInterface **) &me->iunknown.pseudoVTable;
    else
        return 0;
}


IOUSBInterfaceClass::IOUSBInterfaceClass()
: IOUSBIUnknown(&sIOCFPlugInInterfaceV1),
	fService(IO_OBJECT_NULL),
	fDevice(IO_OBJECT_NULL),
	fConnection(IO_OBJECT_NULL),
	fAsyncPort(MACH_PORT_NULL),
	fCFSource(0),
	fIsOpen(false),
	fClass(0),
	fSubClass(0),
	fProtocol(0),
	fConfigValue(0),
	fInterfaceNumber(0),
	fAlternateSetting(0),
	fNumEndpoints(0),
	fStringIndex(0),
	fVendor(0),
	fProduct(0),
	fDeviceReleaseNumber(0),
	fLocationID(0),
	fNumConfigurations(0),
	fNextCookie(0),
	fUserBufferInfoListHead(NULL),
	fConfigLength(0),
	fInterfaceDescriptor(NULL),
	fConfigurations(NULL),
	fConfigDescCacheValid(false),
	fCurrentConfigIndex(0),
	fNeedContiguousMemoryForLowLatencyIsoch(0),
	fNeedsToReleasefDevice(false),
	fASLClient(NULL),
	fInterfaceIsAttached(false)
{
#if IOUSBLIBDEBUG
	fASLClient = asl_open(NULL, "com.apple.iousblib", 0);
#endif
	
	DEBUGPRINT("IOUSBInterfaceClass[%p]::IOUSBInterfaceClass\n", this);
    fUSBInterface.pseudoVTable = (IUnknownVTbl *)  &sUSBInterfaceInterfaceV300;
    fUSBInterface.obj = this;
}


IOUSBInterfaceClass::~IOUSBInterfaceClass()
{
    DEBUGPRINT("+IOUSBInterfaceClass[%p]::~IOUSBInterfaceClass\n", this);
    if (fConfigurations)
    {
        // release the config descriptor data
        int i;
        for (i=0; i< fNumConfigurations; i++)
            if (fConfigurations[i])
			free(fConfigurations[i]);
        
		free(fConfigurations);
        fConfigurations = NULL;
		fConfigDescCacheValid = false;
    }

    if (fConnection) 
	{
        IOServiceClose(fConnection);
        fConnection = MACH_PORT_NULL;
		fInterfaceIsAttached = false;
    }
        
    if (fService) 
	{
        IOObjectRelease(fService);
        fService = MACH_PORT_NULL;
    }

    if (fDevice) 
	{
		if ( fNeedsToReleasefDevice )
			IOObjectRelease(fDevice);
        fDevice = MACH_PORT_NULL;
    }

	if (fAsyncPort)
	{
		IONotificationPortDestroy(fAsyncPort);
	}

	if (fASLClient)
		asl_close(fASLClient);
}

#pragma mark -

HRESULT 
IOUSBInterfaceClass::queryInterface(REFIID iid, void **ppv)
{
    DEBUGPRINT("IOUSBInterfaceClass[%p]::queryInterface\n", this);
    CFUUIDRef uuid = CFUUIDCreateFromUUIDBytes(NULL, iid);
    HRESULT res = S_OK;

    if (CFEqual(uuid, IUnknownUUID) ||  CFEqual(uuid, kIOCFPlugInInterfaceID)) 
    {
        *ppv = &iunknown;
        addRef();
    }
    else if (   CFEqual(uuid, kIOUSBInterfaceInterfaceID182)
             || CFEqual(uuid, kIOUSBInterfaceInterfaceID183)
             || CFEqual(uuid, kIOUSBInterfaceInterfaceID190)
             || CFEqual(uuid, kIOUSBInterfaceInterfaceID192)
			 || CFEqual(uuid, kIOUSBInterfaceInterfaceID197)
			 || CFEqual(uuid, kIOUSBInterfaceInterfaceID220)
			 || CFEqual(uuid, kIOUSBInterfaceInterfaceID245)
			 || CFEqual(uuid, kIOUSBInterfaceInterfaceID300)
             || CFEqual(uuid, kIOUSBInterfaceInterfaceID) )
    {
        *ppv = &fUSBInterface;
        addRef();
		if (   CFEqual(uuid, kIOUSBInterfaceInterfaceID182)
			   || CFEqual(uuid, kIOUSBInterfaceInterfaceID183)
			   || CFEqual(uuid, kIOUSBInterfaceInterfaceID190)
			   || CFEqual(uuid, kIOUSBInterfaceInterfaceID192)
			   || CFEqual(uuid, kIOUSBInterfaceInterfaceID197)
			   || CFEqual(uuid, kIOUSBInterfaceInterfaceID220)
			   || CFEqual(uuid, kIOUSBInterfaceInterfaceID) )
		{
			fNeedsToReleasefDevice = false;
		}
		else
		{
			// Version 245 fixes rdar://4418782, by releaseing our fDevice.  We need to make sure that
			// we only do that fix for 245 and above
			DEBUGPRINT("IOUSBInterfaceClass[%p]::queryInterface fixing rdar://4418782 by releasing fDevice in destructor\n", this);
			fNeedsToReleasefDevice = true;
		}
		
    }
    else
        *ppv = 0;

    if (!*ppv)
        res = E_NOINTERFACE;

    CFRelease(uuid);
	if ( res )
	{
		DEBUGPRINT("-IOUSBInterfaceClass[%p]::queryInterface %" PRId32 "\n", this, (int32_t)res);
	}
	
    return res;
}



IOReturn 
IOUSBInterfaceClass::probe(CFDictionaryRef propertyTable, io_service_t inService, SInt32 *order)
{
    DEBUGPRINT("IOUSBInterfaceClass[%p]::probe\n", this);
    if (!inService || !IOObjectConformsTo(inService, "IOUSBInterface"))
        return kIOReturnBadArgument;

    return kIOReturnSuccess;
}


#pragma mark -

IOReturn 
IOUSBInterfaceClass::start(CFDictionaryRef propertyTable, io_service_t inService)
{
    IOReturn			res;
    uint64_t			output[1];
    uint32_t			len = 1;
	UInt32				type = 0;


    fNextCookie = 0;
    fConfigDescCacheValid = false;
    fInterfaceDescriptor = NULL;
    fConfigLength = 0;
    fUserBufferInfoListHead = NULL;
	
    res = IOServiceOpen(inService, mach_task_self(), type, &fConnection);
    if (res != kIOReturnSuccess)
        return res;

    if ( fConnection == MACH_PORT_NULL )
		return kIOReturnNoDevice;    

	fInterfaceIsAttached = true;
	
   // Make sure that we retain our service so that we can use it later on
    //
    res = IOObjectRetain(inService);
    if (res)
	{
		DEBUGPRINT("-IOUSBInterfaceClass::start  IOObjectRetain returned 0x%x\n", res);
        return res;
	}
    fService = inService;

	output[0] = 0;
	res = IOConnectCallScalarMethod(fConnection, kUSBInterfaceUserClientGetDevice, 0, 0, output, &len);

    if (res)
        fDevice = IO_OBJECT_NULL;
	else
		fDevice = (io_service_t) output[0];
    
	DEBUGPRINT("-IOUSBInterfaceClass::start  kUSBInterfaceUserClientGetDevice res = 0x%x, output[0] = 0x%qx, fDevice 0x%x", res, output[0], fDevice);
	res = GetPropertyInfo();
	
	DEBUGPRINT("-IOUSBInterfaceClass::start  0x%x, fDevice = 0x%x\n", res, fDevice);
    return res;
}



IOReturn 
IOUSBInterfaceClass::stop()
{
	IOReturn ret = kIOReturnSuccess;
	
    DEBUGPRINT("IOUSBInterfaceClass[%p]::stop\n", this);
	ATTACHEDCHECK();
	if (fIsOpen)
		ret = USBInterfaceClose();
	
	return ret;
}



IOReturn
IOUSBInterfaceClass::GetPropertyInfo(void)
{
    IOReturn				kr;
    CFMutableDictionaryRef 	entryProperties = 0;
	CFTypeRef				val;
	SInt64					tempValue;
	
	
    DEBUGPRINT("+IOUSBInterfaceClass[%p]::GetPropertyInfo (fService: 0x%x, fDevice: 0x%x)", this, fService, fDevice);
    kr = IORegistryEntryCreateCFProperties(fService, &entryProperties, NULL, 0);
    
    if (kr)
	{
		DEBUGPRINT("+IOUSBInterfaceClass[%p]::GetPropertyInfo IORegistryEntryCreateCFProperties returned 0x%x", this, kr);
       return kr;
	}
        
    if (entryProperties) 
    {
		// The dictionary contains values that are signed 32 or 64 bit.  To avoid CF sign extensions issues read the values into a temp
		// SInt64 and then assign to the local ivar
		// (rdar://4951538 & rdar://5081728)
		
        val = CFDictionaryGetValue(entryProperties, CFSTR(kUSBInterfaceClass));
        if (val)
		{
            CFNumberGetValue((CFNumberRef)val, kCFNumberLongLongType, &tempValue);
			fClass = tempValue;
		}
		
        val = CFDictionaryGetValue(entryProperties, CFSTR(kUSBInterfaceSubClass));
        if (val)
		{
            CFNumberGetValue((CFNumberRef)val, kCFNumberLongLongType, &tempValue);
			fSubClass = tempValue;
		}
		
		val = CFDictionaryGetValue(entryProperties, CFSTR(kUSBInterfaceProtocol));
        if (val)
		{
            CFNumberGetValue((CFNumberRef)val, kCFNumberLongLongType, &tempValue);
			fProtocol = tempValue;
		}
		
		val = CFDictionaryGetValue(entryProperties, CFSTR(kUSBVendorID));
        if (val)
		{
            CFNumberGetValue((CFNumberRef)val, kCFNumberLongLongType, &tempValue);
			fVendor = tempValue;
		}
		
		val = CFDictionaryGetValue(entryProperties, CFSTR(kUSBProductID));
        if (val)
		{
            CFNumberGetValue((CFNumberRef)val, kCFNumberLongLongType, &tempValue);
			fProduct = tempValue;
		}
		
        val = CFDictionaryGetValue(entryProperties, CFSTR(kUSBDeviceReleaseNumber));
        if (val)
		{
            CFNumberGetValue((CFNumberRef)val, kCFNumberLongLongType, &tempValue);
			fDeviceReleaseNumber = tempValue;
		}
		
        val = CFDictionaryGetValue(entryProperties, CFSTR(kUSBConfigurationValue));
        if (val)
		{
            CFNumberGetValue((CFNumberRef)val, kCFNumberLongLongType, &tempValue);
			fConfigValue = tempValue;
		}
		
        val = CFDictionaryGetValue(entryProperties, CFSTR(kUSBInterfaceNumber));
        if (val)
		{
            CFNumberGetValue((CFNumberRef)val, kCFNumberLongLongType, &tempValue);
			fInterfaceNumber = tempValue;
		}
		
        val = CFDictionaryGetValue(entryProperties, CFSTR(kUSBAlternateSetting));
        if (val)
		{
            CFNumberGetValue((CFNumberRef)val, kCFNumberLongLongType, &tempValue);
			fAlternateSetting = tempValue;
		}
		
		val = CFDictionaryGetValue(entryProperties, CFSTR(kUSBNumEndpoints));
        if (val)
		{
            CFNumberGetValue((CFNumberRef)val, kCFNumberLongLongType, &tempValue);
			fNumEndpoints = tempValue;
		}
		
		val = CFDictionaryGetValue(entryProperties, CFSTR(kUSBInterfaceStringIndex));
        if (val)
		{
            CFNumberGetValue((CFNumberRef)val, kCFNumberLongLongType, &tempValue);
			fStringIndex = tempValue;
		}
		
        val = CFDictionaryGetValue(entryProperties, CFSTR(kUSBDevicePropertyLocationID));
        if (val)
		{
            CFNumberGetValue((CFNumberRef)val, kCFNumberLongLongType, &tempValue);
			fLocationID = tempValue;
		}
		
        CFDataRef data = (CFDataRef) CFDictionaryGetValue(entryProperties, CFSTR("InterfaceDescriptor"));
        if ( data )
        {
            fInterfaceDescriptor = (IOUSBInterfaceDescriptor *) CFDataGetBytePtr( data );
        }      
        CFRelease(entryProperties);
    }
    
    // Look at the device's properties
    //
    kr = IORegistryEntryCreateCFProperties(fDevice, &entryProperties, NULL, 0);
	if (kr)
	{
 		DEBUGPRINT("+IOUSBInterfaceClass[%p]::GetPropertyInfo IORegistryEntryCreateCFProperties#2 returned 0x%x", this, kr);
		return kr;
	}
	
    if ( entryProperties )
    {
		// We only need to do the following once per instantiation
		if ( fConfigurations == NULL)
		{
			val = CFDictionaryGetValue(entryProperties, CFSTR(kUSBDeviceNumConfigs));
			if (val)
			{
				CFNumberGetValue((CFNumberRef)val, kCFNumberLongLongType, &tempValue);
				fNumConfigurations = tempValue;
			}
			else
				fNumConfigurations = 0;
			
			if (fNumConfigurations)
			{
				fConfigurations = (IOUSBConfigurationDescriptorPtr*) malloc(fNumConfigurations * sizeof(IOUSBConfigurationDescriptorPtr));
				bzero(fConfigurations, fNumConfigurations * sizeof(IOUSBConfigurationDescriptorPtr));
			}
			
			val = CFDictionaryGetValue(entryProperties, CFSTR(kUSBControllerNeedsContiguousMemoryForIsoch));
			if (val)
			{
				fNeedContiguousMemoryForLowLatencyIsoch = CFBooleanGetValue((CFBooleanRef) val);
			}
			else
				fNeedContiguousMemoryForLowLatencyIsoch = false;
			
			DEBUGPRINT("IOUSBInterfaceClass[%p]::GetPropertyInfo NeedContiguousMemoryForIsoch = %d\n", this, fNeedContiguousMemoryForLowLatencyIsoch);
		}
		
        CFRelease(entryProperties);
    }

    DEBUGPRINT("-IOUSBInterfaceClass[%p]::GetPropertyInfo", this);
    return kIOReturnSuccess;
}

IOReturn
IOUSBInterfaceClass::GetIOUSBLibVersion(NumVersion *ioUSBLibVersion, NumVersion *usbFamilyVersion)
{
    CFURLRef    bundleURL;
    CFBundleRef myBundle;
    UInt32  	usbFamilyBundleVersion;
    UInt32  	usbLibBundleVersion;
    UInt32 * 	tmp;
    
    ATTACHEDCHECK();
	
    // Make a CFURLRef from the CFString representation of the
    // bundle's path. See the Core Foundation URL Services chapter
    // for details.
    bundleURL = CFURLCreateWithFileSystemPath(
	kCFAllocatorDefault,
	CFSTR("/System/Library/Extensions/IOUSBFamily.kext"),
	kCFURLPOSIXPathStyle,
	true );
	
    // Make a bundle instance using the URLRef.
    myBundle = CFBundleCreate( kCFAllocatorDefault, bundleURL );
	
    // Look for the bundle's version number.
    usbFamilyBundleVersion = CFBundleGetVersionNumber( myBundle );
	
    // Any CF objects returned from functions with "create" or
    // "copy" in their names must be released by us!
    CFRelease( bundleURL );
    CFRelease( myBundle );
	
    // Make a CFURLRef from the CFString representation of the
    // bundle's path. See the Core Foundation URL Services chapter
    // for details.
    bundleURL = CFURLCreateWithFileSystemPath(
	kCFAllocatorDefault,
	CFSTR("/System/Library/Extensions/IOUSBFamily.kext/Contents/PlugIns/IOUSBLib.bundle"),
	kCFURLPOSIXPathStyle,
	true );
	
    // Make a bundle instance using the URLRef.
    myBundle = CFBundleCreate( kCFAllocatorDefault, bundleURL );
	
    // Look for the bundle's version number.
    usbLibBundleVersion = CFBundleGetVersionNumber( myBundle );
	
    // Any CF objects returned from functions with "create" or
    // "copy" in their names must be released by us!
    CFRelease( bundleURL );
    CFRelease( myBundle );
	
    // Cast the NumVersion to a UInt32 so we can just copy the data directly in.
    //
    if ( ioUSBLibVersion )
    {
        tmp = (UInt32 *) ioUSBLibVersion;
        *tmp = usbLibBundleVersion;
    }
	
    if ( usbFamilyVersion )
    {
        tmp = (UInt32 *) usbFamilyVersion;
        *tmp = usbFamilyBundleVersion;
    }
    
    DEBUGPRINT("IOUSBInterfaceClass[%p]::GetIOUSBLibVersion = %" PRIx32 ", %" PRIx32 "\n", this, *(uint32_t *) ioUSBLibVersion, *(uint32_t *) usbFamilyVersion);
    return kIOReturnSuccess;
	
}


#pragma mark IORegistry Getters
IOReturn 
IOUSBInterfaceClass::GetInterfaceClass(UInt8 *intfClass)
{
    ATTACHEDCHECK();
    *intfClass = fClass;
    DEBUGPRINT("IOUSBInterfaceClass[%p]::GetInterfaceClass = %d\n", this, *intfClass);
    return kIOReturnSuccess;
}


IOReturn 
IOUSBInterfaceClass::GetInterfaceSubClass(UInt8 *intfSubClass)
{
    ATTACHEDCHECK();
    *intfSubClass = fSubClass;
    DEBUGPRINT("IOUSBInterfaceClass[%p]::GetInterfaceSubClass = %d\n", this, *intfSubClass);
    return kIOReturnSuccess;
}


IOReturn 
IOUSBInterfaceClass::GetInterfaceProtocol(UInt8 *intfProtocol)
{
    ATTACHEDCHECK();
    *intfProtocol = fProtocol;
    DEBUGPRINT("IOUSBInterfaceClass[%p]::GetInterfaceProtocol = %d\n", this, *intfProtocol);
    return kIOReturnSuccess;
}


IOReturn 
IOUSBInterfaceClass::GetInterfaceStringIndex(UInt8 *intfSI)
{
    ATTACHEDCHECK();
    *intfSI = fStringIndex;
    DEBUGPRINT("IOUSBInterfaceClass[%p]::GetInterfaceStringIndex = %d\n", this, *intfSI);
    return kIOReturnSuccess;
}


IOReturn 
IOUSBInterfaceClass::GetDeviceVendor(UInt16 *devVendor)
{
    ATTACHEDCHECK();
    *devVendor = fVendor;
    DEBUGPRINT("IOUSBInterfaceClass[%p]::GetDeviceVendor = %d\n", this,*devVendor);
    return kIOReturnSuccess;
}


IOReturn 
IOUSBInterfaceClass::GetDeviceProduct(UInt16 *devProduct)
{
    ATTACHEDCHECK();
    *devProduct = fProduct;
    DEBUGPRINT("IOUSBInterfaceClass[%p]::GetDeviceProduct = %d\n", this, *devProduct);
    return kIOReturnSuccess;
}


IOReturn 
IOUSBInterfaceClass::GetDeviceReleaseNumber(UInt16 *devRelNum)
{
    ATTACHEDCHECK();
    *devRelNum = fDeviceReleaseNumber;
    DEBUGPRINT("IOUSBInterfaceClass[%p]::GetDeviceReleaseNumber = %d\n", this, *devRelNum);
    return kIOReturnSuccess;
}


IOReturn 
IOUSBInterfaceClass::GetConfigurationValue(UInt8 *configVal)
{
    ATTACHEDCHECK();
    *configVal = fConfigValue;
    DEBUGPRINT("IOUSBInterfaceClass[%p]::GetConfigurationValue = %d\n", this, *configVal);
    return kIOReturnSuccess;
}


IOReturn 
IOUSBInterfaceClass::GetInterfaceNumber(UInt8 *intfNumber)
{
    ATTACHEDCHECK();
    *intfNumber = fInterfaceNumber;
    DEBUGPRINT("IOUSBInterfaceClass[%p]::GetInterfaceNumber = %d\n", this, *intfNumber);
    return kIOReturnSuccess;
}


IOReturn
IOUSBInterfaceClass::GetAlternateSetting(UInt8 *intfAlternateSetting)
{ 
    ATTACHEDCHECK();
    *intfAlternateSetting = fAlternateSetting;
    DEBUGPRINT("IOUSBInterfaceClass[%p]::GetAlternateSetting = %d\n", this, *intfAlternateSetting);
    return kIOReturnSuccess;
}


IOReturn
IOUSBInterfaceClass::GetNumEndpoints(UInt8 *intfNumEndpoints)
{ 
    ATTACHEDCHECK();
    *intfNumEndpoints = fNumEndpoints;
    DEBUGPRINT("IOUSBInterfaceClass[%p]::GetNumEndpoints = %d\n", this, *intfNumEndpoints);
    return kIOReturnSuccess;
}


IOReturn
IOUSBInterfaceClass::GetLocationID(UInt32 *locationID)
{ 
    ATTACHEDCHECK();
    *locationID = fLocationID;
    DEBUGPRINT("IOUSBInterfaceClass[%p]::GetLocationID\n = 0x%" PRIx32 "", this, (uint32_t) *locationID);
    return kIOReturnSuccess;
}


IOReturn 
IOUSBInterfaceClass::GetDevice(io_service_t *device)
{    
    ATTACHEDCHECK();
    *device = fDevice;
    DEBUGPRINT("IOUSBInterfaceClass[%p]::GetDevice = 0x%x\n", this, *device);
    return kIOReturnSuccess;
}


#pragma mark IOUSBInterface 

IOReturn 
IOUSBInterfaceClass::CreateInterfaceAsyncEventSource(CFRunLoopSourceRef *source)
{
    IOReturn			ret;
    CFMachPortContext	context;
    CFMachPortRef		cfPort;
    Boolean				shouldFreeInfo;

    DEBUGPRINT("IOUSBInterfaceClass[%p]::CreateInterfaceAsyncEventSource\n", this);
	if ( fCFSource )
	{
		DEBUGPRINT("IOUSBInterfaceClass[%p]::CreateInterfaceAsyncEventSource already had a CFSource!", this);
		
		// Since we are returning our fCFSource and this is a Create call, be sure to retain it
		CFRetain(fCFSource);
        *source = fCFSource;
		return kIOReturnSuccess;
	}
	
    if (!fAsyncPort) {     
        ret = CreateInterfaceAsyncPort(0);
        if (kIOReturnSuccess != ret)
            return ret;
    }

    context.version = 1;
    context.info = this;
    context.retain = NULL;
    context.release = NULL;
    context.copyDescription = NULL;

    cfPort = CFMachPortCreateWithPort(NULL, IONotificationPortGetMachPort(fAsyncPort),
                (CFMachPortCallBack) IODispatchCalloutFromMessage,
                &context, &shouldFreeInfo);
    if (!cfPort)
        return kIOReturnNoMemory;
    
    fCFSource = CFMachPortCreateRunLoopSource(NULL, cfPort, 0);
	CFRelease(cfPort);
	
    if (!fCFSource)
        return kIOReturnNoMemory;

    if (source)
	{
        *source = fCFSource;
	}

    return kIOReturnSuccess;
}



CFRunLoopSourceRef 
IOUSBInterfaceClass::GetInterfaceAsyncEventSource()
{
    return fCFSource;
}



IOReturn 
IOUSBInterfaceClass::CreateInterfaceAsyncPort(mach_port_t *port)
{
	IOReturn		kr;
    mach_port_t		masterPort;
	
    ATTACHEDCHECK();
    
    // If we already have a port, don't create a new one.
    if (fAsyncPort) 
	{
		if (port)
		*port = IONotificationPortGetMachPort(fAsyncPort);
		return kIOReturnSuccess;
    }
	
    // First create a master_port for my task
    kr = IOMasterPort(MACH_PORT_NULL, &masterPort);
    if (kr || !masterPort)
        return kIOReturnError;
	
	fAsyncPort = IONotificationPortCreate(masterPort);
	
    if (fAsyncPort) 
	{
		if (port)
			*port = IONotificationPortGetMachPort(fAsyncPort);
		
		if (fIsOpen) 
		{
			io_async_ref64_t    asyncRef;
			uint32_t			len = 0;
			
			kr = IOConnectCallAsyncScalarMethod(fConnection, kUSBInterfaceUserClientSetAsyncPort, IONotificationPortGetMachPort(fAsyncPort), asyncRef, 1, 0, 0, 0, &len);
			if (kr == MACH_SEND_INVALID_DEST)
			{
				fIsOpen = false;
				fInterfaceIsAttached = false;
				kr = kIOReturnNoDevice;
			}
		}
    }
    
	mach_port_deallocate(mach_task_self(), masterPort);
    masterPort = 0;
	
    return kr;
}



mach_port_t 
IOUSBInterfaceClass::GetInterfaceAsyncPort()
{
	if ( fAsyncPort == MACH_PORT_NULL )
		return MACH_SEND_INVALID_DEST;
	else
		return IONotificationPortGetMachPort(fAsyncPort);
}



IOReturn 
IOUSBInterfaceClass::USBInterfaceOpen(bool seize)
{

    IOReturn ret = kIOReturnSuccess;
	
	DEBUGPRINT("+IOUSBInterfaceClass[%p]::USBInterfaceOpen\n", this);
    ATTACHEDCHECK();
	
    if (fIsOpen)
        return kIOReturnSuccess;
	
    uint32_t	len = 0;
    uint64_t	input = (uint64_t) seize;
	
    ret = IOConnectCallScalarMethod(fConnection, kUSBInterfaceUserClientOpen, &input, 1, 0, &len); 
	
    if (ret == kIOReturnSuccess)
	{
		fIsOpen = true;
		
		if (fAsyncPort) 
		{
			io_async_ref64_t    asyncRef;
			
			ret = IOConnectCallAsyncScalarMethod(fConnection, kUSBInterfaceUserClientSetAsyncPort, IONotificationPortGetMachPort(fAsyncPort), asyncRef, 1, 0, 0, 0, &len);
			if ( (ret != kIOReturnSuccess) and (ret != MACH_SEND_INVALID_DEST ))
			{
				USBInterfaceClose();
			}
		}
    }
	
    if (ret == MACH_SEND_INVALID_DEST)
	{
		fIsOpen = false;
		fInterfaceIsAttached = false;
		ret = kIOReturnNoDevice;
    }
	
	if ( ret != kIOReturnSuccess )
	{
		DEBUGPRINT("+IOUSBInterfaceClass[%p]::USBInterfaceOpen returns 0x%x\n", this, ret);
	}
    return ret;
}



IOReturn 
IOUSBInterfaceClass::USBInterfaceClose()
{
    IOReturn		ret = kIOReturnSuccess;
    LowLatencyUserBufferInfoV2 *	buffer;
    LowLatencyUserBufferInfoV2 *	nextBuffer;
    
    DEBUGPRINT("+IOUSBInterfaceClass::USBInterfaceClose\n");

    mach_msg_type_number_t len = 0;
    fIsOpen = false;

    if ( fInterfaceIsAttached )
    {
		ret = IOConnectCallScalarMethod(fConnection, kUSBInterfaceUserClientClose,0, 0, 0, 0); 
        if (ret == MACH_SEND_INVALID_DEST)
        {
            fIsOpen = false;
            fInterfaceIsAttached = false;
            ret = kIOReturnNoDevice;
        }
    }

#if !__LP64__
    // Need to free any buffers that has been allocated by the low latency stuff that has not been
    // released!
    //
    if (fUserBufferInfoListHead != NULL)
    {
        nextBuffer = fUserBufferInfoListHead;
        buffer = fUserBufferInfoListHead;
        DEBUGPRINT("fUserBufferInfoListHead != NULL: %p, next: %p\n",fUserBufferInfoListHead, buffer->nextBuffer);
        
        // Traverse the list and release memory
        //
        while ( nextBuffer != NULL )
        {
            nextBuffer = buffer->nextBuffer;
            
            DEBUGPRINT("Releasing %p, %p\n", buffer->bufferAddress, buffer );
            free ( buffer->bufferAddress );
            free ( buffer );
            
            buffer = nextBuffer;
        }
        
        fUserBufferInfoListHead = NULL;
    }
#endif
 
    return ret;
}


#pragma mark -


IOReturn 
IOUSBInterfaceClass::SetAlternateInterface(UInt8 alternateSetting)
{    
    uint64_t			in[1];
    size_t				len = 1;
    IOReturn			kr = kIOReturnSuccess;
	
    DEBUGPRINT("IOUSBInterfaceClass::SetAlternateInterface to %d\n", alternateSetting);

    ALLCHECKS();

 	in[0] = (uint64_t) alternateSetting;
	kr = IOConnectCallScalarMethod(fConnection, kUSBInterfaceUserClientSetAlternateInterface, in, 1, NULL, NULL); 

	if (kr == kIOReturnSuccess)
		kr = GetPropertyInfo();
    
	if (kr == MACH_SEND_INVALID_DEST)
    {
		fIsOpen = false;
		fInterfaceIsAttached = false;
		kr = kIOReturnNoDevice;
    }
	
	if ( kr != kIOReturnSuccess )
	{
		DEBUGPRINT("IOUSBInterfaceClass::SetConfiguration returning 0x%x\n", kr);
	}
	
    return kr;
}


IOReturn
IOUSBInterfaceClass::GetBusMicroFrameNumber(UInt64 *microFrame, AbsoluteTime *atTime)
{
    IOUSBGetFrameStruct 	frameInfo;
    IOReturn				ret;
    size_t					len;
	
    DEBUGPRINT("IOUSBInterfaceClass[%p]::GetBusMicroFrameNumber\n", this);

    ATTACHEDCHECK();
	
	len = sizeof(IOUSBGetFrameStruct);
    ret = IOConnectCallStructMethod(fConnection, kUSBInterfaceUserClientGetMicroFrameNumber, 0, 0, &frameInfo, &len);
    if(kIOReturnSuccess == ret)
    {
		{
			*microFrame = frameInfo.frame;
			*atTime = frameInfo.timeStamp;
		}
    }
    if (ret == MACH_SEND_INVALID_DEST)
    {
        fIsOpen = false;
        fInterfaceIsAttached = false;
        ret = kIOReturnNoDevice;
    }
    return ret;
}



IOReturn
IOUSBInterfaceClass::GetBusFrameNumber(UInt64 *frame, AbsoluteTime *atTime)
{
    IOUSBGetFrameStruct 	frameInfo;
    IOReturn				ret;
    size_t					len;
	
    DEBUGPRINT("IOUSBInterfaceClass[%p]::GetBusFrameNumber\n", this);

    ATTACHEDCHECK();
	
	len = sizeof(IOUSBGetFrameStruct);
    ret = IOConnectCallStructMethod(fConnection, kUSBInterfaceUserClientGetFrameNumber, 0, 0, &frameInfo, &len);

    if(kIOReturnSuccess == ret) 
    {
		{
			*frame = frameInfo.frame;
			*atTime = frameInfo.timeStamp;
		}
    }
    if (ret == MACH_SEND_INVALID_DEST)
    {
		fIsOpen = false;
		fInterfaceIsAttached = false;
		ret = kIOReturnNoDevice;
    }
 	if ( ret != kIOReturnSuccess )
	{
		DEBUGPRINT("+IOUSBInterfaceClass[%p]::GetBusFrameNumber returns 0x%x\n", this, ret);
	}
    return ret;
}


IOReturn
IOUSBInterfaceClass::GetBusFrameNumberWithTime(UInt64 *frame, AbsoluteTime *atTime)
{
    IOUSBGetFrameStruct 	frameInfo;
    IOReturn				ret;
    size_t					len;
	
    DEBUGPRINT("IOUSBInterfaceClass[%p]::GetBusFrameNumberWithTime\n", this);

    ATTACHEDCHECK();
	
	len = sizeof(IOUSBGetFrameStruct);
    ret = IOConnectCallStructMethod(fConnection, kUSBInterfaceUserClientGetFrameNumberWithTime, 0, 0, (void *) &frameInfo, &len);
    if(kIOReturnSuccess == ret) 
    {
		{
			*frame = frameInfo.frame;
			*atTime = frameInfo.timeStamp;
		}
    }
    if (ret == MACH_SEND_INVALID_DEST)
    {
		fIsOpen = false;
		fInterfaceIsAttached = false;
		ret = kIOReturnNoDevice;
    }
 	if ( ret != kIOReturnSuccess )
	{
		DEBUGPRINT("+IOUSBInterfaceClass[%p]::GetBusFrameNumberWithTime returns 0x%x\n", this, ret);
	}
    return ret;
}

IOReturn
IOUSBInterfaceClass::GetFrameListTime(UInt32 *microsecondsInFrame)
{
    uint64_t			output[1];
    uint32_t			len = 1;
    IOReturn			ret = kIOReturnSuccess;
	
	DEBUGPRINT("+IOUSBInterfaceClass[%p]::GetFrameListTime\n", this);
	
	ATTACHEDCHECK();
	
 	output[0] = 0;
    ret = IOConnectCallScalarMethod(fConnection, kUSBInterfaceUserClientGetFrameListTime, 0, 0, output, &len);
 	if (ret == kIOReturnSuccess)
	{
		*microsecondsInFrame = (UInt32) output[0];
	}
	
	if (ret == MACH_SEND_INVALID_DEST)
    {
        fIsOpen = false;
        fInterfaceIsAttached = false;
        ret = kIOReturnNoDevice;
    }
	
 	if ( ret != kIOReturnSuccess )
	{
		DEBUGPRINT("+IOUSBInterfaceClass[%p]::GetFrameListTime returns 0x%x\n", this, ret);
	}
    return ret;
}



IOReturn
IOUSBInterfaceClass::GetBandwidthAvailable(UInt32 *bandwidth)
{
    uint64_t			output[1];
    uint32_t			len = 1;
    IOReturn			ret = kIOReturnSuccess;
	
	DEBUGPRINT("+IOUSBInterfaceClass[%p]::GetBandwidthAvailable\n", this);

	ATTACHEDCHECK();
	
	output[0] = 0;
	ret = IOConnectCallScalarMethod(fConnection, kUSBInterfaceUserClientGetBandwidthAvailable, 0, 0, output, &len);
    if (ret == MACH_SEND_INVALID_DEST)
    {
		fIsOpen = false;
		fInterfaceIsAttached = false;
		ret = kIOReturnNoDevice;
    }

	if (ret == kIOReturnSuccess)
	{
		*bandwidth = (UInt32) output[0];
	}
	
	if ( ret != kIOReturnSuccess )
	{
		DEBUGPRINT("IOUSBInterfaceClass[%p]::GetBandwidthAvailable returning 0x%x\n", this, ret);
	}

	DEBUGPRINT("-IOUSBInterfaceClass[%p]::GetBandwidthAvailable returning %" PRIu32 "\n", this, (uint32_t)*bandwidth);

    return ret;
}



IOReturn
IOUSBInterfaceClass::GetEndpointProperties(UInt8 alternateSetting, UInt8 endpointNumber, UInt8 direction, UInt8 *transferType, UInt16 *maxPacketSize, UInt8 *interval)
{
    uint64_t			output[3];
    uint64_t			input[3];
    uint32_t			outLen = 3;
    IOReturn			ret = kIOReturnSuccess;
	
	DEBUGPRINT("+IOUSBInterfaceClass[%p]::GetEndpointProperties\n", this);

	ATTACHEDCHECK();
	
    input[0] = (uint64_t) alternateSetting;
    input[1] = (uint64_t) endpointNumber;
    input[2] = (uint64_t) direction;
	
	output[0] = 0;
	output[1] = 0;
	output[2] = 0;
	
	ret = IOConnectCallScalarMethod( fConnection, kUSBInterfaceUserClientGetEndpointProperties,  input, 3, output, &outLen);
	
    if (ret == kIOReturnSuccess)
    {
		*transferType = (UInt8) output[0];
		*maxPacketSize = (UInt16) output[1];
		*interval = (UInt8) output[2];
    }
	
    if (ret == MACH_SEND_INVALID_DEST)
    {
		fIsOpen = false;
		fInterfaceIsAttached = false;
		ret = kIOReturnNoDevice;
    }

	if ( ret != kIOReturnSuccess )
	{
		DEBUGPRINT("IOUSBInterfaceClass[%p]::GetEndpointProperties returning 0x%x\n", this, ret);
	}
	
    DEBUGPRINT("-IOUSBInterfaceClass[%p]::GetEndpointProperties returned 0x%x for altSetting: %d, endpointNumber: %d, direction %d, transferType: %d, mps: 0x%x, interval %d\n",
			   this, ret, alternateSetting, endpointNumber, direction, *transferType, *maxPacketSize, *interval);
    return ret;
}


#pragma mark Control Request
IOReturn
IOUSBInterfaceClass::ControlRequest(UInt8 pipeRef, IOUSBDevRequestTO *req)
{
    IOReturn 		ret = kIOReturnSuccess;
    uint64_t		input[9];
    size_t			len;
    
	DEBUGPRINT("IOUSBInterfaceClass::ControlRequest\n");

	ATTACHEDCHECK();
	
 	DEBUGPRINT("IOUSBInterfaceClass::ControlRequest(pipeRef: %d): \n\tbmRequestType = 0x%2.2x\n\tbRequest = 0x%2.2x\n\twValue = 0x%4.4x\n\twIndex = 0x%4.4x\n\twLength = 0x%4.4x\n\tpData = %p\n\tnoDataTimeout = %" PRIu32 "\n\tcompletionTimeout = %" PRIu32 "\n",
	pipeRef,
	req->bmRequestType,
	req->bRequest,
	req->wValue,
	req->wIndex,
	req->wLength,
	req->pData,
	(uint32_t) req->noDataTimeout,
	(uint32_t) req->completionTimeout);
	
	input[0] = (uint64_t) pipeRef;
	input[1] = (uint64_t) req->bmRequestType;
	input[2] = (uint64_t) req->bRequest;
	input[3] = (uint64_t) req->wValue;
	input[4] = (uint64_t) req->wIndex;
	input[5] = (uint64_t) req->wLength;
	input[6] = (uint64_t) req->pData;
	input[7] = (uint64_t) req->noDataTimeout;
	input[8] = (uint64_t) req->completionTimeout;
	
	req->wLenDone = 0;
	len = req->wLength;
		
	switch ((req->bmRequestType >> kUSBRqDirnShift) & kUSBRqDirnMask)
	{
		case kUSBOut:
			ret = IOConnectCallMethod( fConnection, kUSBInterfaceUserClientControlRequestOut, input, 9, req->pData, len, 0, 0, 0, 0);
			if(kIOReturnSuccess == ret)
				req->wLenDone = req->wLength;
			else
				req->wLenDone = 0;
			break;
			
		case kUSBIn:
			ret = IOConnectCallMethod( fConnection, kUSBInterfaceUserClientControlRequestIn, input, 9, 0, 0, 0, 0, req->pData, &len);
			if(kIOReturnSuccess == ret)
				req->wLenDone = len;
			else
				req->wLenDone = 0;
		break;
	}

    if (ret == MACH_SEND_INVALID_DEST)
    {
		fIsOpen = false;
		fInterfaceIsAttached = false;
		ret = kIOReturnNoDevice;
    }
 	
	DEBUGPRINT("IOUSBInterfaceClass::ControlRequest returning 0x%x, req->wLenDone = %" PRIu32 "\n", ret, (uint32_t) req->wLenDone);
	
	return ret;
}


IOReturn
IOUSBInterfaceClass::ControlRequestAsync(UInt8 pipeRef, IOUSBDevRequestTO *req, IOAsyncCallback1 callback, void *refCon)
{
	io_async_ref64_t    asyncRef;
	size_t				len;
    IOReturn			ret = kIOReturnSuccess;
    uint64_t			input[9];
	
	DEBUGPRINT("IOUSBInterfaceClass::DeviceRequestAsync(pipe: %d): \n\tbmRequestType = 0x%2.2x\n\tbRequest = 0x%2.2x\n\twValue = 0x%4.4x\n\twIndex = 0x%4.4x\n\twLength = 0x%4.4x\n\tpData = %p\n\tnoDataTimeout = %" PRIu32 "\n\tcompletionTimeout = %" PRIu32 "\n",
	pipeRef,
	req->bmRequestType,
	req->bRequest,
	req->wValue,
	req->wIndex,
	req->wLength,
	req->pData,
	(uint32_t) req->noDataTimeout,
	(uint32_t) req->completionTimeout);
	
    if (!fAsyncPort)
	{
		DEBUGPRINT("IOUSBInterfaceClass::ControlRequestAsync  NO async port\n");
        return kIOUSBNoAsyncPortErr;
	}
	
	ATTACHEDCHECK();
	
	input[0] = (uint64_t) pipeRef;
	input[1] = (uint64_t) req->bmRequestType;
	input[2] = (uint64_t) req->bRequest;
	input[3] = (uint64_t) req->wValue;
	input[4] = (uint64_t) req->wIndex;
	input[5] = (uint64_t) req->wLength;
	input[6] = (uint64_t) req->pData;
	input[7] = (uint64_t) req->noDataTimeout;
	input[8] = (uint64_t) req->completionTimeout;
	
	asyncRef[kIOAsyncCalloutFuncIndex] = (uint64_t) callback;
    asyncRef[kIOAsyncCalloutRefconIndex] = (uint64_t) refCon;
	
    
    switch ((req->bmRequestType >> kUSBRqDirnShift) & kUSBRqDirnMask)
    {
	case kUSBOut:
		ret = IOConnectCallAsyncScalarMethod( fConnection, kUSBInterfaceUserClientControlRequestOut, IONotificationPortGetMachPort(fAsyncPort), asyncRef, kIOAsyncCalloutCount, input, 9, 0, 0);
		break;
		
	case kUSBIn:
		ret = IOConnectCallAsyncScalarMethod( fConnection, kUSBInterfaceUserClientControlRequestIn, IONotificationPortGetMachPort(fAsyncPort), asyncRef, kIOAsyncCalloutCount, input, 9, 0, 0);
		break;
    }
	
    if (ret == MACH_SEND_INVALID_DEST)
    {
		fIsOpen = false;
		fInterfaceIsAttached = false;
		ret = kIOReturnNoDevice;
    }
 	if ( ret != kIOReturnSuccess )
	{
		DEBUGPRINT("IOUSBInterfaceClass::ControlRequestAsync returning 0x%x\n", ret);
	}
    return ret;
}


#pragma mark Pipe methods


IOReturn
IOUSBInterfaceClass::ReadPipe(UInt8 pipeRef, void *buf, UInt32 *size, UInt32 noDataTimeout, UInt32 completionTimeout)
{
    IOReturn 		ret = kIOReturnSuccess;
    uint64_t		input[5];
    size_t			len;
	
	DEBUGPRINT("IOUSBInterfaceClass[%p]::ReadPipe to pipe %d, length %" PRIu32 ", buf: %p, noDataTimeout: %" PRIu32 ", completionTimeout %" PRIu32 "\n",  this, pipeRef, (uint32_t) *size, buf, (uint32_t) noDataTimeout, (uint32_t) completionTimeout);
	
    ALLCHECKS();
	
	input[0] = (uint64_t) pipeRef;
	input[1] = (uint64_t) noDataTimeout;
	input[2] = (uint64_t) completionTimeout;
	input[3] = 0;
	input[4] = 0;
	
	len = *size;
	
	ret = IOConnectCallMethod( fConnection, kUSBInterfaceUserClientReadPipe, input, 5, 0, 0, 0, 0, buf, &len);
	
    if (ret == kIOReturnSuccess)
	{
		*size = (UInt32) len;
	}
	
    if (ret == MACH_SEND_INVALID_DEST)
    {
		fIsOpen = false;
		fInterfaceIsAttached = false;
		ret = kIOReturnNoDevice;
    }
	
	DEBUGPRINT("IOUSBInterfaceClass[%p]::ReadPipe  returning error 0x%x,  size: 0x%" PRIu32 "\n", this, ret, (uint32_t) *size);
	
	return ret;
}


IOReturn
IOUSBInterfaceClass::ReadPipeAsync(UInt8 pipeRef, void *buf, UInt32 size, UInt32 noDataTimeout, UInt32 completionTimeout, IOAsyncCallback1 callback, void *refCon)
{
	io_async_ref64_t    asyncRef;
	size_t				len;
    IOReturn			ret;
    uint64_t			input[5];
	
    if (!fAsyncPort)
	{
		DEBUGPRINT("IOUSBInterfaceClass[%p]::ReadPipeAsync  NO async port\n", this);
        return kIOUSBNoAsyncPortErr;
	}
	
	DEBUGPRINT("IOUSBInterfaceClass[%p]::ReadPipeAsync to pipe %d, length %" PRIu32 ", buf: %p, noDataTimeout: %" PRIu32 ", completionTimeout %" PRIu32 ", refCon: %p\n", this, pipeRef, (uint32_t) size, buf, (uint32_t) noDataTimeout, (uint32_t) completionTimeout, refCon);
	
    ALLCHECKS();
	
	input[0] = (uint64_t) pipeRef;
	input[1] = (uint64_t) noDataTimeout;
	input[2] = (uint64_t) completionTimeout;
	input[3] = (uint64_t) buf;
	input[4] = (uint64_t) size;
	
    asyncRef[kIOAsyncCalloutFuncIndex] = (uint64_t) callback;
    asyncRef[kIOAsyncCalloutRefconIndex] = (uint64_t) refCon;
	
	ret = IOConnectCallAsyncScalarMethod( fConnection, kUSBInterfaceUserClientReadPipe, IONotificationPortGetMachPort(fAsyncPort), asyncRef, kIOAsyncCalloutCount, input, 5, 0, 0);
    if (ret == MACH_SEND_INVALID_DEST)
    {
		fIsOpen = false;
		fInterfaceIsAttached = false;
		ret = kIOReturnNoDevice;
    }
	
	DEBUGPRINT("IOUSBInterfaceClass[%p]::ReadPipeAsync returning 0x%x\n", this, ret);
	
	return ret;
}




IOReturn
IOUSBInterfaceClass::WritePipe(UInt8 pipeRef, void *buf, UInt32 size, UInt32 noDataTimeout, UInt32 completionTimeout)
{
    IOReturn 		ret = kIOReturnSuccess;
    uint64_t		input[5];
	
	DEBUGPRINT("IOUSBInterfaceClass[%p]::WritePipe to pipe %d, length %" PRIu32 ", buf: %p, noDataTimeout: %" PRIu32 ", completionTimeout %" PRIu32 "\n",  this, pipeRef, (uint32_t) size, buf, (uint32_t) noDataTimeout, (uint32_t) completionTimeout);
	
    ALLCHECKS();
	
	input[0] = (uint64_t) pipeRef;
	input[1] = (uint64_t) noDataTimeout;
	input[2] = (uint64_t) completionTimeout;
	input[3] = 0;
	input[4] = 0;
	
	ret = IOConnectCallMethod( fConnection, kUSBInterfaceUserClientWritePipe, input, 5, buf, size, 0, 0, 0, 0);
	
    if (ret == MACH_SEND_INVALID_DEST)
    {
		fIsOpen = false;
		fInterfaceIsAttached = false;
		ret = kIOReturnNoDevice;
    }
	
	DEBUGPRINT("IOUSBInterfaceClass[%p]::WritePipe  returning error 0x%x\n", this, ret);
	
	return ret;
}



IOReturn 
IOUSBInterfaceClass::WritePipeAsync(UInt8 pipeRef, void *buf, UInt32 size, UInt32 noDataTimeout, UInt32 completionTimeout, IOAsyncCallback1 callback, void *refCon)
{
	io_async_ref64_t    asyncRef;
    IOReturn			ret;
    uint64_t			input[5];
	
    if (!fAsyncPort)
	{
		DEBUGPRINT("IOUSBInterfaceClass[%p]::WritePipeAsync  NO async port\n", this);
        return kIOUSBNoAsyncPortErr;
	}
	
	DEBUGPRINT("IOUSBInterfaceClass[%p]::WritePipeAsync to pipe %d, length %" PRIu32 ", buf: %p, noDataTimeout: %" PRIu32 ", completionTimeout %" PRIu32 ", refCon: %p\n", this, pipeRef, (uint32_t) size, buf, (uint32_t) noDataTimeout, (uint32_t) completionTimeout, refCon);

    ALLCHECKS();
	
	input[0] = (uint64_t) pipeRef;
	input[1] = (uint64_t) noDataTimeout;
	input[2] = (uint64_t) completionTimeout;
	input[3] = (uint64_t) buf;
	input[4] = (uint64_t) size;
	
    asyncRef[kIOAsyncCalloutFuncIndex] = (uint64_t) callback;
    asyncRef[kIOAsyncCalloutRefconIndex] = (uint64_t) refCon;
	
	ret = IOConnectCallAsyncScalarMethod( fConnection, kUSBInterfaceUserClientWritePipe, IONotificationPortGetMachPort(fAsyncPort), asyncRef, kIOAsyncCalloutCount, input, 5, 0, 0);
    if (ret == MACH_SEND_INVALID_DEST)
    {
		fIsOpen = false;
		fInterfaceIsAttached = false;
		ret = kIOReturnNoDevice;
    }
	
	DEBUGPRINT("IOUSBInterfaceClass[%p]::WritePipeAsync returning 0x%x\n", this, ret);
	
	return ret;
}


IOReturn 
IOUSBInterfaceClass::GetPipeProperties(UInt8 pipeRef, UInt8 *direction, UInt8 *number, UInt8 *transferType, UInt16 *maxPacketSize, UInt8 *interval)
{
    uint64_t			output[5];
    uint64_t			input[1];
    uint32_t			outLen = 5;
    IOReturn			ret = kIOReturnSuccess;
    
    DEBUGPRINT("+IOUSBInterfaceClass[%p]::GetPipeProperties\n", this);

    ALLCHECKS();

	input[0] = (uint64_t) pipeRef;

	output[0] = 0;
	output[1] = 0;
	output[2] = 0;
	output[3] = 0;
	output[4] = 0;
	
	ret = IOConnectCallScalarMethod( fConnection, kUSBInterfaceUserClientGetPipeProperties,  input, 1, output, &outLen);
    if (ret == kIOReturnSuccess)
    {
		*direction		= (UInt8) output[0];
		*number			= (UInt8) output[1];
		*transferType	= (UInt8) output[2];
		*maxPacketSize	= (UInt16) output[3];
		*interval		= (UInt8) output[4];
    }
	
    if (ret == MACH_SEND_INVALID_DEST)
    {
		fIsOpen = false;
		fInterfaceIsAttached = false;
		ret = kIOReturnNoDevice;
    }
	if ( ret != kIOReturnSuccess )
	{
		DEBUGPRINT("IOUSBInterfaceClass[%p]::GetPipeProperties returning 0x%x\n", this, ret);
	}
	
    DEBUGPRINT("-IOUSBInterfaceClass[%p]::GetPipeProperties err = 0x%x, pipeRef: %d, direction %d, number: %d, transferType: %d, mps: 0x%x, interval %d\n",
			   this, ret, pipeRef, *direction, *number, *transferType, *maxPacketSize, *interval);
    return ret;
}


IOReturn
IOUSBInterfaceClass::GetPipeStatus(UInt8 pipeRef)
{
    uint64_t			input[1];
    IOReturn			kr = kIOReturnSuccess;
    
	DEBUGPRINT("IOUSBInterfaceClass[%p]::GetPipeStatus\n", this);
	
	ALLCHECKS();
	
	input[0] = (uint64_t) pipeRef;
	
	kr = IOConnectCallScalarMethod(fConnection, kUSBInterfaceUserClientGetPipeStatus, input, 1, 0, 0);
    if (kr == MACH_SEND_INVALID_DEST)
    {
		fIsOpen = false;
		fInterfaceIsAttached = false;
		kr = kIOReturnNoDevice;
    }
	
	DEBUGPRINT("IOUSBInterfaceClass[%p]::GetPipeStatus returning 0x%x\n",this,  kr);
    
	return kr;
}



IOReturn
IOUSBInterfaceClass::AbortPipe(UInt8 pipeRef)
{
    uint64_t			input[1];
    IOReturn			kr = kIOReturnSuccess;
    
	DEBUGPRINT("IOUSBInterfaceClass::AbortPipe\n");
	
	ALLCHECKS();
	
	input[0] = (uint64_t) pipeRef;
	
	kr = IOConnectCallScalarMethod(fConnection, kUSBInterfaceUserClientAbortPipe, input, 1, 0, 0);
    if (kr == MACH_SEND_INVALID_DEST)
    {
		fIsOpen = false;
		fInterfaceIsAttached = false;
		kr = kIOReturnNoDevice;
    }
	
	DEBUGPRINT("IOUSBInterfaceClass::AbortPipe returning 0x%x\n", kr);
    
	return kr;
}



IOReturn
IOUSBInterfaceClass::ResetPipe(UInt8 pipeRef)
{
    uint64_t			input[1];
    IOReturn			kr = kIOReturnSuccess;
    
	DEBUGPRINT("IOUSBInterfaceClass::ResetPipe\n");
	
	ALLCHECKS();
	
	input[0] = (uint64_t) pipeRef;
	
	kr = IOConnectCallScalarMethod(fConnection, kUSBInterfaceUserClientResetPipe, input, 1, 0, 0);
    if (kr == MACH_SEND_INVALID_DEST)
    {
		fIsOpen = false;
		fInterfaceIsAttached = false;
		kr = kIOReturnNoDevice;
    }
	
	DEBUGPRINT("IOUSBInterfaceClass::ResetPipe returning 0x%x\n", kr);
    
	return kr;

}



IOReturn
IOUSBInterfaceClass::ClearPipeStall(UInt8 pipeRef, bool bothEnds)
{
    uint64_t			input[2];
    IOReturn			kr = kIOReturnSuccess;
    
	DEBUGPRINT("IOUSBInterfaceClass::ClearPipeStall\n");
	
	ALLCHECKS();
	
	input[0] = (uint64_t) pipeRef;
	input[1] = (uint64_t) bothEnds;
	
	kr = IOConnectCallScalarMethod(fConnection, kUSBInterfaceUserClientClearPipeStall, input, 2, 0, 0);
    if (kr == MACH_SEND_INVALID_DEST)
    {
		fIsOpen = false;
		fInterfaceIsAttached = false;
		kr = kIOReturnNoDevice;
    }
	
	DEBUGPRINT("IOUSBInterfaceClass::ClearPipeStall returning 0x%x\n", kr);
    
	return kr;
}



IOReturn
IOUSBInterfaceClass::SetPipePolicy(UInt8 pipeRef, UInt16 maxPacketSize, UInt8 maxInterval)
{
	uint64_t			input[3];
    IOReturn			kr = kIOReturnSuccess;
    
	DEBUGPRINT("IOUSBInterfaceClass::SetPipePolicy (%d, %d, %d)\n", pipeRef, maxPacketSize, maxInterval);
	
	ALLCHECKS();
	
	input[0] = (uint64_t) pipeRef;
	input[1] = (uint64_t) maxPacketSize;
	input[2] = (uint64_t) maxInterval;
	
	kr = IOConnectCallScalarMethod(fConnection, kUSBInterfaceUserClientSetPipePolicy, input, 3, 0, 0);
    if (kr == MACH_SEND_INVALID_DEST)
    {
		fIsOpen = false;
		fInterfaceIsAttached = false;
		kr = kIOReturnNoDevice;
    }
	
	DEBUGPRINT("IOUSBInterfaceClass::SetPipePolicy returning 0x%x\n", kr);
    
	return kr;
}


#pragma mark Isoch

// ее not 64-bit safe

IOReturn 
IOUSBInterfaceClass::ReadIsochPipeAsync(UInt8 pipeRef, void *buf, UInt64 frameStart, UInt32 numFrames, IOUSBIsocFrame *frameList,
                                  IOAsyncCallback1 callback, void *refCon)
{
    IOUSBIsocStruct		pb;
	io_async_ref64_t    asyncRef;
	size_t				len;
    IOReturn			ret;
    UInt32				i, total;
	
	if (!fAsyncPort)
	{
		DEBUGPRINT("IOUSBInterfaceClass[%p]::ReadIsochPipeAsync  NO async port\n", this);
        return kIOUSBNoAsyncPortErr;
	}
	
	DEBUGPRINT("IOUSBInterfaceClass[%p]::ReadIsochPipeAsync\n", this);
	
	ALLCHECKS();
	
    total = 0;
    for(i=0; i < numFrames; i++)
	{
        total += frameList[i].frReqCount;
	}
	
    pb.fPipe = pipeRef;
    pb.fBuffer = buf;
	
    pb.fBufSize = total;
    pb.fStartFrame = frameStart;
    pb.fNumFrames = numFrames;
    pb.fFrameCounts = frameList;
	
	DEBUGPRINT("IOUSBInterfaceClass[%p]::ReadIsochPipeAsync  pipe: %d, buf: %p, total: %" PRIu32 ", frameStart: 0x%qx, numFrames: %" PRIu32 ", frameListPtr: %p\n",
			   this, pipeRef, buf, (uint32_t) total, frameStart, (uint32_t) numFrames, frameList);
	
    asyncRef[kIOAsyncCalloutFuncIndex] = (uint64_t) callback;
    asyncRef[kIOAsyncCalloutRefconIndex] = (uint64_t) refCon;
	len = sizeof(IOUSBIsocStruct);
	
	ret = IOConnectCallAsyncStructMethod( fConnection, kUSBInterfaceUserClientReadIsochPipe, IONotificationPortGetMachPort(fAsyncPort), asyncRef, kIOAsyncCalloutCount, (void *) &pb, sizeof(IOUSBIsocStruct), 0, 0);
    if (ret == MACH_SEND_INVALID_DEST)
    {
		fIsOpen = false;
		fInterfaceIsAttached = false;
		ret = kIOReturnNoDevice;
    }
	if ( ret )
	{
		DEBUGPRINT("IOUSBInterfaceClass[%p]::ReadIsochPipeAsync returning 0x%x\n", this, ret);
	}
	
    return ret;
	
}

// ее not 64-bit safe

IOReturn 
IOUSBInterfaceClass::WriteIsochPipeAsync(UInt8 pipeRef, void *buf, UInt64 frameStart, UInt32 numFrames, IOUSBIsocFrame *frameList,
                                  IOAsyncCallback1 callback, void *refCon)
{
    IOUSBIsocStruct		pb;
	io_async_ref64_t    asyncRef;
	size_t				len;
    IOReturn			ret;
    UInt32				i, total;
	
	if (!fAsyncPort)
	{
		DEBUGPRINT("IOUSBInterfaceClass[%p]::WriteIsochPipeAsync  NO async port\n", this);
        return kIOUSBNoAsyncPortErr;
	}
	
	DEBUGPRINT("IOUSBInterfaceClass[%p]::WriteIsochPipeAsync\n", this);
	
    ALLCHECKS();

    total = 0;
    for(i=0; i < numFrames; i++)
        total += frameList[i].frReqCount;
	
    pb.fPipe = pipeRef;
    pb.fBuffer = buf;
    pb.fBufSize = total;
    pb.fStartFrame = frameStart;
    pb.fNumFrames = numFrames;
    pb.fFrameCounts = frameList;
	
	DEBUGPRINT("IOUSBInterfaceClass[%p]::WriteIsochPipeAsync  pipe: %d, buf: %p, total: %" PRIu32 ", frameStart: 0x%qx, numFrames: %" PRIu32 ", frameListPtr: %p\n",
			   this, pipeRef, buf, (uint32_t) total, frameStart, (uint32_t) numFrames, frameList);

    asyncRef[kIOAsyncCalloutFuncIndex] = (uint64_t) callback;
    asyncRef[kIOAsyncCalloutRefconIndex] = (uint64_t) refCon;
		
 	ret = IOConnectCallAsyncStructMethod( fConnection, kUSBInterfaceUserClientWriteIsochPipe, IONotificationPortGetMachPort(fAsyncPort), asyncRef, kIOAsyncCalloutCount, (void *) &pb, sizeof(IOUSBIsocStruct), 0, 0);
    if (ret == MACH_SEND_INVALID_DEST)
    {
		fIsOpen = false;
		fInterfaceIsAttached = false;
		ret = kIOReturnNoDevice;
    }
	if ( ret )
	{
		DEBUGPRINT("IOUSBInterfaceClass[%p]::WriteIsochPipeAsync returning 0x%x\n", this, ret);
	}
    return ret;
}


#pragma mark Low Latench Isoch


IOReturn 
IOUSBInterfaceClass::LowLatencyReadIsochPipeAsync(UInt8 pipeRef, void *buf, UInt64 frameStart, UInt32 numFrames, UInt32 updateFrequency, IOUSBLowLatencyIsocFrame *frameList, IOAsyncCallback1 callback, void *refCon)
{
    IOUSBLowLatencyIsocStruct		pb;
	io_async_ref64_t				asyncRef;
	size_t							len;
    UInt32							i, total;
    IOReturn						ret;
    LowLatencyUserBufferInfoV2 *	dataBufferInfo;
    LowLatencyUserBufferInfoV2 *	frameListData;
	
#if __LP64__
	return kIOReturnUnsupported;
#else
	if (!fAsyncPort)
	{
		DEBUGPRINT("IOUSBInterfaceClass::LowLatencyReadIsochPipeAsync  NO async port\n");
        return kIOUSBNoAsyncPortErr;
	}
	
	DEBUGPRINT("IOUSBInterfaceClass::LowLatencyReadIsochPipeAsync\n");
	
    ALLCHECKS();
		
    total = 0;
    for(i=0; i < numFrames; i++)
	{
		// DEBUGPRINT("IOUSBInterfaceClass::LowLatencyReadIsochPipeAsync  frReqCount[%ld]: %d\n", i, frameList[i].frReqCount);
       	total += frameList[i].frReqCount;
	}
	
    // Find the data buffer in our list of buffers
    //
    dataBufferInfo = FindBufferAddressRangeInList( buf, total);
    if ( dataBufferInfo != NULL )
    {
        pb.fDataBufferCookie = dataBufferInfo->cookie;
        pb.fDataBufferOffset = (UInt32) buf - (UInt32)dataBufferInfo->bufferAddress;
        DEBUGPRINT("IOUSBInterfaceClass::LowLatencyReadIsochPipeAsync  Found DataBufferInfo for buffer %p: info: %p, offset = %ld, cookie: %ld\n", buf, dataBufferInfo, pb.fDataBufferOffset, dataBufferInfo->cookie);
    }
    else
    {
        DEBUGPRINT("IOUSBInterfaceClass::LowLatencyReadIsochPipeAsync Ooops, couldn't find buffer %p in our list\n",buf);
        return kIOUSBLowLatencyBufferNotPreviouslyAllocated;
    }
    
    // Find the frame list buffer in our list of buffers
    //
    frameListData = FindBufferAddressRangeInList( frameList, sizeof (IOUSBLowLatencyIsocFrame) * numFrames);
    if ( frameListData != NULL )
    {
        pb.fFrameListBufferCookie = frameListData->cookie;
        pb.fFrameListBufferOffset = (UInt32) frameList - (UInt32)frameListData->bufferAddress;
        DEBUGPRINT("IOUSBInterfaceClass::LowLatencyReadIsochPipeAsync  Found frameListData for buffer %p: data: %p, offset = %ld, cookie : %ld\n", frameList, frameListData, pb.fFrameListBufferOffset, frameListData->cookie);
    }
    else
    {
        DEBUGPRINT("IOUSBInterfaceClass::LowLatencyReadIsochPipeAsync  Ooops, couldn't find buffer %p in our list\n",frameList);
        return kIOUSBLowLatencyFrameListNotPreviouslyAllocated;
    }
	
    pb.fPipe = pipeRef;
    pb.fBufSize = total;
    pb.fStartFrame = frameStart;
    pb.fNumFrames = numFrames;
    pb.fUpdateFrequency = updateFrequency;
	
	DEBUGPRINT("IOUSBInterfaceClass::LowLatencyReadIsochPipeAsync  pipe: %d, total: 0x%lx, frameStart: 0x%qx, numFrames: 0x%lx, updateFrequency: %ld, dataCookie: %ld, dataOffset: %ld, frameListCookie: %ld, frameListOffset: %ld\n", 
			   pipeRef, total, frameStart, numFrames, updateFrequency, pb.fDataBufferCookie, pb.fDataBufferOffset, pb.fFrameListBufferCookie, pb.fFrameListBufferOffset);
	
	
    asyncRef[kIOAsyncCalloutFuncIndex] = (uint64_t) callback;
    asyncRef[kIOAsyncCalloutRefconIndex] = (uint64_t) refCon;
	
	ret = IOConnectCallAsyncStructMethod( fConnection, kUSBInterfaceUserClientLowLatencyReadIsochPipe, IONotificationPortGetMachPort(fAsyncPort), asyncRef, kIOAsyncCalloutCount, (void *) &pb, sizeof(IOUSBLowLatencyIsocStruct), 0, 0);
    if (ret == MACH_SEND_INVALID_DEST)
    {
		fIsOpen = false;
		fInterfaceIsAttached = false;
		ret = kIOReturnNoDevice;
    }

	DEBUGPRINT("IOUSBInterfaceClass::LowLatencyReadIsochPipeAsync  returning 0x%x\n", ret);
	
    return ret;
#endif
}



IOReturn 
IOUSBInterfaceClass::LowLatencyWriteIsochPipeAsync(UInt8 pipeRef, void *buf, UInt64 frameStart, UInt32 numFrames, UInt32 updateFrequency, IOUSBLowLatencyIsocFrame *frameList, IOAsyncCallback1 callback, void *refCon)
{
	IOUSBLowLatencyIsocStruct		pb;
	io_async_ref64_t				asyncRef;
	size_t							len;
    IOReturn						ret;
    UInt32							i, total;
    LowLatencyUserBufferInfoV2 *	dataBufferInfo;
    LowLatencyUserBufferInfoV2 *	frameListData;
	
#if __LP64__
	return kIOReturnUnsupported;
#else
	
	if (!fAsyncPort)
	{
		DEBUGPRINT("IOUSBInterfaceClass::LowLatencyWriteIsochPipeAsync  NO async port\n");
        return kIOUSBNoAsyncPortErr;
	}
	
	DEBUGPRINT("IOUSBInterfaceClass::LowLatencyWriteIsochPipeAsync\n");
	
    ALLCHECKS();
	
    total = 0;
    for(i=0; i < numFrames; i++)
	{
        total += frameList[i].frReqCount;
	}
	
    // Find the data buffer in our list of buffers
    //
    dataBufferInfo = FindBufferAddressRangeInList( buf, total);
    if ( dataBufferInfo != NULL )
    {
        pb.fDataBufferCookie = dataBufferInfo->cookie;
        pb.fDataBufferOffset = (UInt32) buf - (UInt32)dataBufferInfo->bufferAddress;
        DEBUGPRINT("IOUSBInterfaceClass::LowLatencyWriteIsochPipeAsync Found Data buffer: offset = %ld, cookie: %ld\n", pb.fDataBufferOffset, dataBufferInfo->cookie);
    }
    else
    {
        DEBUGPRINT("IOUSBInterfaceClass::LowLatencyWriteIsochPipeAsync Ooops, couldn't find buffer %p in our list\n",buf);
        return kIOUSBLowLatencyBufferNotPreviouslyAllocated;
    }
    
    // Find the frame list buffer in our list of buffers
    //
    frameListData = FindBufferAddressRangeInList( frameList, sizeof (IOUSBLowLatencyIsocFrame) * numFrames);
    if ( frameListData != NULL )
    {
        pb.fFrameListBufferCookie = frameListData->cookie;
        pb.fFrameListBufferOffset = (UInt32) frameList - (UInt32)frameListData->bufferAddress;
        DEBUGPRINT("IOUSBInterfaceClass::LowLatencyWriteIsochPipeAsync Found FrameList buffer: offset = %ld, cookie = %ld\n", pb.fFrameListBufferOffset, frameListData->cookie);
    }
    else
    {
        DEBUGPRINT("IOUSBInterfaceClass::LowLatencyWriteIsochPipeAsync Ooops, couldn't find buffer %p in our list\n",frameList);
        return kIOUSBLowLatencyFrameListNotPreviouslyAllocated;
    }
	
    pb.fPipe = pipeRef;
    pb.fBufSize = total;
    pb.fStartFrame = frameStart;
    pb.fNumFrames = numFrames;
    pb.fUpdateFrequency = updateFrequency;
	
	
	DEBUGPRINT("IOUSBInterfaceClass::LowLatencyWriteIsochPipeAsync  pipe: %d, total: 0x%lx, frameStart: 0x%qx, numFrames: 0x%lx, updateFrequency: %ld\n",
			   pipeRef, total, frameStart, numFrames, updateFrequency);
	
    asyncRef[kIOAsyncCalloutFuncIndex] = (uint64_t) callback;
    asyncRef[kIOAsyncCalloutRefconIndex] = (uint64_t) refCon;
	
 	ret = IOConnectCallAsyncStructMethod( fConnection, kUSBInterfaceUserClientLowLatencyReadIsochPipe, IONotificationPortGetMachPort(fAsyncPort), asyncRef, kIOAsyncCalloutCount, (void *) &pb, sizeof(IOUSBLowLatencyIsocStruct), 0, 0);
    if (ret == MACH_SEND_INVALID_DEST)
    {
		fIsOpen = false;
		fInterfaceIsAttached = false;
		ret = kIOReturnNoDevice;
    }

	DEBUGPRINT("IOUSBInterfaceClass::LowLatencyWriteIsochPipeAsync  returning 0x%x\n", ret);
 
	return ret;
	
#endif
}


IOReturn
IOUSBInterfaceClass::LowLatencyCreateBuffer( void ** buffer, IOByteCount bufferSize, UInt32 bufferType )
{
    LowLatencyUserBufferInfoV2 *	bufferInfo;
    IOReturn						result = kIOReturnSuccess;
    uint64_t						output[1];						// Used for the UHCI mapped address
    uint32_t						len = 1;
    vm_address_t					data;
    kern_return_t					ret = kIOReturnSuccess;
	bool							useKernelBuffer = false;

#if __LP64__
	return kIOReturnUnsupported;
#else
	ALLCHECKS();

    DEBUGPRINT("IOUSBLib::LowLatencyCreateBuffer size: %d, type, %d\n", (int)bufferSize, (int)bufferType);
    
    // Allocate our buffer Data and zero it
    //
    bufferInfo = ( LowLatencyUserBufferInfoV2 *) malloc( sizeof(LowLatencyUserBufferInfoV2) );
    if ( bufferInfo == NULL )
    {
        DEBUGPRINT("IOUSBLib::LowLatencyCreateBuffer:  Could not allocate a LowLatencyUserBufferInfoV2 of %ld bytes\n",sizeof(LowLatencyUserBufferInfoV2));
        *buffer = NULL;
        result = kIOReturnNoMemory;
        goto ErrorExit;
    }
    
    bzero(bufferInfo, sizeof(LowLatencyUserBufferInfoV2));
    
	// If the request if for a Read or Write buffer AND the fNeedContiguousMemoryForLowLatencyIsoch is set, then we will use a buffer allocated by the kernel
	if ( fNeedContiguousMemoryForLowLatencyIsoch and ((bufferType == kUSBLowLatencyWriteBuffer) or (bufferType == kUSBLowLatencyReadBuffer)) )
	{
        DEBUGPRINT("IOUSBLib::LowLatencyCreateBuffer:  Using an allocation from the kernel for buffer %ld\n", fNextCookie);
		useKernelBuffer = true;
		*buffer = NULL;
	}
	else 
	{
		// Now, attempt to allocate the users data
		//
		ret =  vm_allocate( mach_task_self(),
							&data,
							bufferSize,
							VM_FLAGS_ANYWHERE);
		
		if ( ret != kIOReturnSuccess )
		{
			DEBUGPRINT("IOUSBLib::LowLatencyCreateBuffer:  Could not vm_allocate a buffer of size %ld, type %ld.  Result = 0x%x\n", bufferSize, bufferType, ret);
			result = kIOReturnNoMemory;
			goto ErrorExit;
		}
		
		*buffer = (void *) data;
		
		if ( *buffer == NULL )
		{
			DEBUGPRINT("IOUSBLib::LowLatencyCreateBuffer:  Could not allocate a buffer of size %ld, type %ld\n", bufferSize, bufferType);
			result = kIOReturnNoMemory;
			goto ErrorExit;
		}
    }
	
    // Update our buffer Data
    //
    bufferInfo->cookie = fNextCookie++;
    bufferInfo->bufferAddress = *buffer;
    bufferInfo->bufferSize = bufferSize;
    bufferInfo->bufferType = bufferType;
    bufferInfo->isPrepared = false;
    bufferInfo->nextBuffer = NULL;
    
	
    // OK, ready to call the kernel so that it does its thing with this buffer
    //
	len = 1;
	output[0] = 0;
	
	result = IOConnectCallMethod( fConnection, kUSBInterfaceUserClientLowLatencyPrepareBuffer, 0, 0, (void *) bufferInfo, sizeof(LowLatencyUserBufferInfoV2), output, &len, 0, 0);
    
    if ( result == kIOReturnSuccess )
    {
		if ( useKernelBuffer )
		{
			
			DEBUGPRINT("IOUSBLib::LowLatencyCreateBuffer Buffer: %p, mappedUHCIAddress now = 0x%qx\n", *buffer, output[0]);
			bufferInfo->mappedUHCIAddress = (void *)output[0];
			*buffer = bufferInfo->mappedUHCIAddress;
			bufferInfo->bufferAddress = *buffer;
			DEBUGPRINT("IOUSBLib::LowLatencyCreateBuffer Reading value of first word: 0x%lx\n", *( UInt32 *) output[0]);
		}
		else
		{
		}

		// We need to swap back all the fields in the bufferInfo so that they are added to our list correctly!  The bufferAddress field
		// is swapped in the preceding if stmt

        // Cool, we have a good buffer, add it to our list
        //
        AddDataBufferToList( bufferInfo );
    }
    else
    {
        // OK, something went wrong, so we need to release anything we allocated
        //
		if ( bufferInfo->bufferAddress )
			ret = vm_deallocate( mach_task_self(), (vm_address_t) bufferInfo->bufferAddress, bufferInfo->bufferSize );
        
		*buffer = NULL;
        free ( bufferInfo );
        
        // Fall through to return result
        //
        DEBUGPRINT("IOUSBLib::LowLatencyCreateBuffer:  Kernel call to kUSBInterfaceUserClientLowLatencyPrepareBuffer returned 0x%x\n", result);
    }
    
    
ErrorExit:    
		if ( result != kIOReturnSuccess )
	{
			DEBUGPRINT("IOUSBLib::LowLatencyCreateBuffer:  returning error 0x%x\n", result);
	}
	else
	{
		DEBUGPRINT("IOUSBLib::LowLatencyCreateBuffer:  Created buffer %p, cookie: %ld\n", *buffer, fNextCookie-1);
	}


    return result;
#endif
}


IOReturn
IOUSBInterfaceClass::LowLatencyDestroyBuffer( void * buffer )
{
    LowLatencyUserBufferInfoV2 *	bufferData;
    IOReturn						result = kIOReturnSuccess;
    size_t							len = 0;
    bool							found;
    kern_return_t					ret = kIOReturnSuccess;
    
#if __LP64__
	return kIOReturnUnsupported;
#else
    DEBUGPRINT("IOUSBLib::LowLatencyDestroyBuffer, buffer %p\n", buffer);
    
    // We need to find the LowLatencyUserBufferInfoV2 structure that contains
    // this buffer and then remove it from the list and free the structure
    // and the memory that was allocated for it
    //
    bufferData = FindBufferAddressInList( buffer );
    if ( bufferData == NULL )
    {
        DEBUGPRINT("IOUSBLib::LowLatencyDestroyBuffer:  Could not find buffer (%p) in our list\n", buffer);
        result = kIOReturnBadArgument;
        goto ErrorExit;
    }
    
    // Now, remove this bufferData from the list
    //
    found = RemoveDataBufferFromList( bufferData );
    if ( !found )
    {
        DEBUGPRINT("IOUSBLib::LowLatencyDestroyBuffer:  Could not remove buffer (%p) from our list\n", buffer);
        result = kIOReturnBadArgument;
        goto ErrorExit;
    }
    
	
    if ( fConnection )
    {
        // Call into the kernel to release the kernel objects for this buffer data
        //
		result = IOConnectCallStructMethod( fConnection, kUSBInterfaceUserClientLowLatencyReleaseBuffer,  (void *) bufferData, sizeof(LowLatencyUserBufferInfoV2), 0, 0);
    }
    
	
    // If there is an error, we still need to free our data
    // Now, free the memory
    //
	if ( bufferData->mappedUHCIAddress == NULL )
	{
		ret = vm_deallocate( mach_task_self(), (vm_address_t) bufferData->bufferAddress, bufferData->bufferSize );
		if ( ret != kIOReturnSuccess )
		{
			DEBUGPRINT("IOUSBLib::LowLatencyDestroyBuffer:  Could not vm_deallocate buffer (%p) from our list (0x%x)\n", buffer, ret);
			result = kIOReturnBadArgument;
		}
	}
	
    free ( bufferData );
    
    if ( result != kIOReturnSuccess )
    {
        DEBUGPRINT("IOUSBLib::LowLatencyDestroyBuffer:  Kernel call kUSBInterfaceUserClientLowLatencyReleaseBuffer returned 0x%x\n", result);
    }

ErrorExit:
    
    return result;
#endif
}

void
IOUSBInterfaceClass::AddDataBufferToList( LowLatencyUserBufferInfoV2 * insertBuffer )
{
#if !__LP64__
   LowLatencyUserBufferInfoV2 *	buffer;
    
    // Traverse the list looking for last buffer and insert ours into it
    //
    if ( fUserBufferInfoListHead == NULL )
    {
        fUserBufferInfoListHead = insertBuffer;
        return;
    }
    
    buffer = fUserBufferInfoListHead;
    
    while ( buffer->nextBuffer != NULL )
    {
        buffer = buffer->nextBuffer;
    }
    
    // When we get here, nextBuffer is pointing to NULL.  Our insert buffer
    // already has nextBuffer = NULL, so we just insert it
    //
    buffer->nextBuffer = insertBuffer;
#endif
}


LowLatencyUserBufferInfoV2 *
IOUSBInterfaceClass::FindBufferAddressInList( void *address )
{
#if __LP64__
	return NULL;
#else
    LowLatencyUserBufferInfoV2 *	buffer;
    bool			foundIt = true;
    
    // Traverse the list looking for this buffer
    //
    if ( fUserBufferInfoListHead == NULL )
    {
        DEBUGPRINT("IOUSBLib::FindBufferAddressInList:  fUserBufferInfoListHead is NULL!\n");
        return NULL;
    }
    
    buffer = fUserBufferInfoListHead;
    
    // Now, we need to see if our address is the same as one in the buffer list
    //
    while ( buffer->bufferAddress != address )
    {
        buffer = buffer->nextBuffer;
        if ( buffer == NULL )
        {
            foundIt = false;
            break;
        }
    }
    
    if ( foundIt )
        return buffer;
    else
	{
        DEBUGPRINT("IOUSBLib::FindBufferAddressInList:  could not find buffer %p, returning NULL\n", address);
        return NULL;
	}
#endif
}

LowLatencyUserBufferInfoV2 *
IOUSBInterfaceClass::FindBufferAddressRangeInList( void * address, UInt32 size )
{

#if __LP64__
	return NULL;
#else
    // Need to find and see if this address range is within any of the buffers
    // in our buffer data list
    //
    LowLatencyUserBufferInfoV2 *	buffer;
    UInt32			addressStart;
    UInt32			addressEnd;
    UInt32			bufferStart;
    UInt32			bufferEnd;
    bool			foundIt = false;
    
	// DEBUGPRINT("IOUSBLib::FindBufferAddressRangeInList:  Looking for buffer: %p, size 0x%lx!\n", address, size);
    // If no list, return NULL
    //
    if (fUserBufferInfoListHead == NULL)
	{
		DEBUGPRINT("IOUSBLib::FindBufferAddressRangeInList:  fUserBufferInfoListHead is NULL!\n");
        return NULL;
	}
        
    // Convert pointers to integers
    //
    addressStart = (UInt32) address;
    addressEnd = addressStart + size;
    
    // Start at the beginning of the list
    //
    buffer = fUserBufferInfoListHead;
    
    do {
        // Calculate the bufferStart and bufferEnd for this buffer
        //
        bufferStart = (UInt32) buffer->bufferAddress;
        bufferEnd = bufferStart + buffer->bufferSize;
        
		// DEBUGPRINT("IOUSBLib::FindBufferAddressRangeInList:  Looking at buffer: %p, size 0x%lx!\n", buffer->bufferAddress, buffer->bufferSize);
        // Now, is our address in that range and
        //
        if ( ( addressStart >= bufferStart) && ( addressStart < bufferEnd) )
        {
            // Yes, it is.  Now, does it fit
            //
            if ( addressEnd <= bufferEnd )
            {
                // And it fits, so we have our buffer
                //
                foundIt = true;
                break;
            }
        }
        
        // Look at the next buffer
        //
        buffer = buffer->nextBuffer;
    
    } while ( buffer != NULL );
    
    if ( foundIt )
	{
		// DEBUGPRINT("IOUSBLib::FindBufferAddressRangeInList:  Found buffer: %p, size 0x%lx!\n", buffer->bufferAddress, buffer->bufferSize);
        return buffer;
	}
    else
	{
		DEBUGPRINT("IOUSBLib::FindBufferAddressRangeInList:  Could not find address %p, size 0x%lx is NULL!\n", address, size);
        return NULL;
	}
	
#endif
}


bool
IOUSBInterfaceClass::RemoveDataBufferFromList( LowLatencyUserBufferInfoV2 * removeBuffer )
{
#if __LP64__
	return false;
#else
    LowLatencyUserBufferInfoV2 *	buffer;
    LowLatencyUserBufferInfoV2 *	previousBuffer;
    
    // If our head is NULL, then this buffer does not exist in our list
    //
    if ( fUserBufferInfoListHead == NULL )
    {
        return false;
    }
    
    buffer = fUserBufferInfoListHead;
    
    // if our removeBuffer is the first one in the list, then just update the head and
    // exit
    //
    if ( buffer == removeBuffer )
    {
        fUserBufferInfoListHead = buffer->nextBuffer;
    }
    else
    {    
        // Need to start previousBuffer pointing to our initial buffer, in case we match
        // the first time
        //
        previousBuffer = buffer;
        
        while ( buffer->nextBuffer != removeBuffer )
        {
            previousBuffer = buffer;
            buffer = previousBuffer->nextBuffer;
        }
        
        // When we get here, buffer is pointing to the same buffer as removeBuffer
        // and previous buffer is pointing to the previous element in the link list,
        // so, update the link in previous to point to removeBuffer->nextBuffer;
        //
        buffer->nextBuffer = removeBuffer->nextBuffer;
    }
    
    return true;
#endif
}

#pragma mark Config Descriptor Caching

IOReturn
IOUSBInterfaceClass::CacheConfigDescriptor()
{
    int 	i;
    IOReturn	kr = kIOReturnSuccess;
    
	DEBUGPRINT("+IOUSBInterfaceClass[%p]::CacheConfigDescriptor\n", this);
	
    for (i = 0; i < fNumConfigurations; i++)
    {
        IOUSBConfigurationDescriptorPtr	configPtr = NULL;
        IOUSBConfigurationDescHeader	configHdr;
		uint64_t						in[5];
		size_t							configSize;
		
		in[0] = (uint64_t) i;
		configSize = sizeof(configHdr);
		
		DEBUGPRINT("+IOUSBInterfaceClass[%p]::CacheConfigDescriptor asking for header for config = %d\n", this, i);
		
        kr = IOConnectCallMethod(fConnection, kUSBInterfaceUserClientGetConfigDescriptor, in, 1, 0, 0, 0, 0, (void *) &configHdr, &configSize); 
		if (kr)
		{
			DEBUGPRINT("+IOUSBInterfaceClass[%p]::CacheConfigDescriptor kUSBDeviceUserClientGetConfigDescriptor asking for header of config %d returned 0x%x\n", this, i, kr);
			break;
		}
		
		// Not that we have the header, we can get the real length of the descriptor
 		in[0] = (uint64_t) i;
        configSize = USBToHostWord(configHdr.wTotalLength);
        configPtr = (IOUSBConfigurationDescriptorPtr) malloc(configSize+2);
		
		DEBUGPRINT("+IOUSBInterfaceClass[%p]::CacheConfigDescriptor asking for config %d, size:  %ld, pointer: %p\n", this, i, configSize, configPtr);
		
		kr = IOConnectCallMethod(fConnection, kUSBInterfaceUserClientGetConfigDescriptor, in, 1, 0, 0, 0, 0, configPtr, &configSize); 
		if (kr)
		{
			DEBUGPRINT("+IOUSBInterfaceClass[%p]::CacheConfigDescriptor kUSBDeviceUserClientGetConfigDescriptor asking for full config %d returned 0x%x\n", this, i, kr);
			break;
		}
        
        // Add a dummy empty descriptor on the end
        *((char*)configPtr + configSize) = 0;
        *((char*)configPtr + configSize + 1) = 0;
        fConfigurations[i] = configPtr;
    }
	
    if ( kr == kIOReturnSuccess )
	{
		fConfigDescCacheValid = TRUE;
		DEBUGPRINT("IOUSBInterfaceClass[%p]::CacheConfigDescriptor setting fConfigDescCacheValid to true\n", this);
		
		// Now, find the configuration that corresponds to the fConfigValue for this interface and set that to fCurrentConfigIndex
		for (i = 0; i < fNumConfigurations; i++)
		{
			IOUSBConfigurationDescriptorPtr	configPtr = fConfigurations[i];
			
			if ( configPtr->bConfigurationValue == fConfigValue )
			{
				fCurrentConfigIndex = i;
				break;
			}
		}
	}
	
	DEBUGPRINT("-IOUSBInterfaceClass[%p]::CacheConfigDescriptor returning 0x%x\n", this, kr);
    return kr;
}




IOUSBDescriptorHeader *
IOUSBInterfaceClass::NextDescriptor(const void *desc)
{
    const UInt8 *next = (const UInt8 *)desc;
    UInt8 length = next[0];
    next = &next[length];
    return((IOUSBDescriptorHeader *)next);
}


const IOUSBDescriptorHeader*
IOUSBInterfaceClass::FindNextDescriptor(const void * startDescriptor, UInt8 descType)
{
    IOUSBDescriptorHeader *			descriptorHeader;
    UInt8							configIndex;
    IOUSBConfigurationDescriptor *	curConfDesc;
    UInt16							curConfLength;
    UInt8							curConfig;

	// Get the current configuration
	curConfDesc = fConfigurations[fCurrentConfigIndex];

	// If we haven't cached the config descritpor, do so
    if (!fConfigDescCacheValid || (curConfDesc == NULL) )
	{
        IOReturn ret = CacheConfigDescriptor();
		
		if ( ret != kIOReturnSuccess )
		{
			DEBUGPRINT("+IOUSBInterfaceClass::FindNextDescriptor CacheConfigDescriptor returned 0x%x, returning NULL\n", ret);
			return NULL;
		}
			
	}
	
	// Get the current configuration
	curConfDesc = fConfigurations[fCurrentConfigIndex];
	curConfLength = USBToHostWord(curConfDesc->wTotalLength);
	
	// If our startDescriptor is NULL, then we want to search starting at the beginning of the configuration descriptor
    if ( startDescriptor == NULL )
	{
        descriptorHeader = (IOUSBDescriptorHeader*)curConfDesc;
	}
    else
    {
		// Verify that the descriptor address we are starting at is in the range of our configuration descriptor
        if ((startDescriptor < curConfDesc) || ( ((UInt64)startDescriptor - (UInt64)curConfDesc) >= curConfLength))
        {
			DEBUGPRINT("+IOUSBInterfaceClass::FindNextDescriptor Starting descriptor (%p) is out of range (%p, %d)\n", startDescriptor, curConfDesc, curConfLength);
            return NULL;
        }
		
		// OK, we have a descritpor within our configuration descriptor
        descriptorHeader = (IOUSBDescriptorHeader *)startDescriptor;
    }

	// Now, look through all the descriptors in this configuration, looking for the next one after the starting one
    do
    {
		// Save the current and look at the next
        IOUSBDescriptorHeader *	lasthdr = descriptorHeader;
        descriptorHeader = NextDescriptor(descriptorHeader);
		
        if (lasthdr == descriptorHeader)
        {
			// If we reach the end, then there is no "Next" descriptor
            return NULL;
        }

        if( ( (UInt64)descriptorHeader - (UInt64)curConfDesc) >= curConfLength)
        {
			// If the next descriptor is outside the current configuration, then there is no "Next" descriptor
            return NULL;
        }
		
        if (descType == 0)
        {
			// if the descType says 0, then it's a wild card and we just return the next descriptor
            return descriptorHeader;			
        }

        if (descriptorHeader->bDescriptorType == descType)
        {
			// We have a match!  return it
            return descriptorHeader;
        }
    } while(true);
}



IOUSBDescriptorHeader *
IOUSBInterfaceClass::FindNextAssociatedDescriptor(const void * currentDescriptor, UInt8 descriptorType)
{
    IOReturn			kr = kIOReturnSuccess;
    const IOUSBDescriptorHeader *next;
    IOUSBInterfaceDescriptor	*interfaceDesc = NULL;

    if (!fConnection)
        return NULL;

    DEBUGPRINT("+IOUSBInterfaceClass[%p]::FindNextAssociatedDescriptor %p, type: %d, fConfigDescCacheValid = %d\n", this, currentDescriptor, descriptorType, fConfigDescCacheValid);

    // Need to first get the current Config Descriptor
    //
    if ( ! fConfigDescCacheValid)
    {
        kr = CacheConfigDescriptor();
        if ( kr != kIOReturnSuccess )
            return NULL;
    }

    DEBUGPRINT("-IOUSBInterfaceClass::FindNextAssociatedDescriptor %p, type: %d\n", currentDescriptor, descriptorType);

    // Need to find the interface descriptor for THIS interface, not just the first one..
    // 
    if ( currentDescriptor == NULL )
    {
        while ( true )
        {
            currentDescriptor = FindNextDescriptor(currentDescriptor, kUSBInterfaceDesc);
            if (currentDescriptor == NULL )
                break;
            
            interfaceDesc = (IOUSBInterfaceDescriptor *) currentDescriptor;

            if ( interfaceDesc->bInterfaceNumber == fInterfaceNumber )
                break;
            
        }
    }
        

    next = ( const IOUSBDescriptorHeader *) currentDescriptor;

    while (true)
    {
        next = FindNextDescriptor(next, kUSBAnyDesc);

        // The Interface Descriptor ends when we find the end of the Config Desc, an Interface Association Descriptor
        // or an InterfaceDescriptor WITH a different interface number (this will allow us to look for the alternate settings
        // of Interface descriptors
        //
        if (!next || (next->bDescriptorType == kUSBInterfaceAssociationDesc) || ( (next->bDescriptorType == kUSBInterfaceDesc) && ( descriptorType != kUSBInterfaceDesc) ) )
        {
            DEBUGPRINT("IOUSBInterfaceClass::FindNextAssociatedDescriptor returning NULL becuase we reached the end or found an IAD\n");
            return NULL;
        }

        if ( (next->bDescriptorType == kUSBInterfaceDesc) && ( ( (IOUSBInterfaceDescriptor *)next)->bInterfaceNumber != fInterfaceNumber) )
        {
            DEBUGPRINT("IOUSBInterfaceClass::FindNextAssociatedDescriptor returning NULL cause we found a new interface descriptor with a different interface #\n");
            return NULL;
        }

        if (next->bDescriptorType == descriptorType || descriptorType == kUSBAnyDesc)
            break;
    }
    DEBUGPRINT("IOUSBInterfaceClass::FindNextAssociatedDescriptor returning %p\n", next);

    return (IOUSBDescriptorHeader *)next;
}


IOUSBDescriptorHeader *
IOUSBInterfaceClass::FindNextAltInterface(const void * currentDescriptor, IOUSBFindInterfaceRequest *request)
{
    return NULL;
}


#pragma mark Routing Methods

IOCFPlugInInterface 
IOUSBInterfaceClass::sIOCFPlugInInterfaceV1 = {
    0,
    &IOUSBIUnknown::genericQueryInterface,
    &IOUSBIUnknown::genericAddRef,
    &IOUSBIUnknown::genericRelease,
    1, 0,	// version/revision
    &IOUSBInterfaceClass::interfaceProbe,
    &IOUSBInterfaceClass::interfaceStart,
    &IOUSBInterfaceClass::interfaceStop
};


IOUSBInterfaceStruct300 
IOUSBInterfaceClass::sUSBInterfaceInterfaceV300 = {
    0,
    &IOUSBIUnknown::genericQueryInterface,
    &IOUSBIUnknown::genericAddRef,
    &IOUSBIUnknown::genericRelease,
    &IOUSBInterfaceClass::interfaceCreateInterfaceAsyncEventSource,
    &IOUSBInterfaceClass::interfaceGetInterfaceAsyncEventSource,
    &IOUSBInterfaceClass::interfaceCreateInterfaceAsyncPort,
    &IOUSBInterfaceClass::interfaceGetInterfaceAsyncPort,
    &IOUSBInterfaceClass::interfaceUSBInterfaceOpen,
    &IOUSBInterfaceClass::interfaceUSBInterfaceClose,
    &IOUSBInterfaceClass::interfaceGetInterfaceClass,
    &IOUSBInterfaceClass::interfaceGetInterfaceSubClass,
    &IOUSBInterfaceClass::interfaceGetInterfaceProtocol,
    &IOUSBInterfaceClass::interfaceGetDeviceVendor,
    &IOUSBInterfaceClass::interfaceGetDeviceProduct,
    &IOUSBInterfaceClass::interfaceGetDeviceReleaseNumber,
    &IOUSBInterfaceClass::interfaceGetConfigurationValue,
    &IOUSBInterfaceClass::interfaceGetInterfaceNumber,
    &IOUSBInterfaceClass::interfaceGetAlternateSetting,
    &IOUSBInterfaceClass::interfaceGetNumEndpoints,
    &IOUSBInterfaceClass::interfaceGetLocationID,
    &IOUSBInterfaceClass::interfaceGetDevice,
    &IOUSBInterfaceClass::interfaceSetAlternateInterface,
    &IOUSBInterfaceClass::interfaceGetBusFrameNumber,
    &IOUSBInterfaceClass::interfaceControlRequest,
    &IOUSBInterfaceClass::interfaceControlRequestAsync,
    &IOUSBInterfaceClass::interfaceGetPipeProperties,
    &IOUSBInterfaceClass::interfaceGetPipeStatus,
    &IOUSBInterfaceClass::interfaceAbortPipe,
    &IOUSBInterfaceClass::interfaceResetPipe,
    &IOUSBInterfaceClass::interfaceClearPipeStall,
    &IOUSBInterfaceClass::interfaceReadPipe,
    &IOUSBInterfaceClass::interfaceWritePipe,
    &IOUSBInterfaceClass::interfaceReadPipeAsync,
    &IOUSBInterfaceClass::interfaceWritePipeAsync,
    &IOUSBInterfaceClass::interfaceReadIsochPipeAsync,
    &IOUSBInterfaceClass::interfaceWriteIsochPipeAsync,
    // ---------- new with 1.8.2
    &IOUSBInterfaceClass::interfaceControlRequestTO,
    &IOUSBInterfaceClass::interfaceControlRequestAsyncTO,
    &IOUSBInterfaceClass::interfaceReadPipeTO,
    &IOUSBInterfaceClass::interfaceWritePipeTO,
    &IOUSBInterfaceClass::interfaceReadPipeAsyncTO,
    &IOUSBInterfaceClass::interfaceWritePipeAsyncTO,
    &IOUSBInterfaceClass::interfaceGetInterfaceStringIndex,
    // ---------- new with 1.8.3
    &IOUSBInterfaceClass::interfaceUSBInterfaceOpenSeize,
    // ---------- new with 1.9.0
    &IOUSBInterfaceClass::interfaceClearPipeStallBothEnds,
    &IOUSBInterfaceClass::interfaceSetPipePolicy,
    &IOUSBInterfaceClass::interfaceGetBandwidthAvailable,
    &IOUSBInterfaceClass::interfaceGetEndpointProperties,
    // ---------- new with 1.9.2
    &IOUSBInterfaceClass::interfaceLowLatencyReadIsochPipeAsync,
    &IOUSBInterfaceClass::interfaceLowLatencyWriteIsochPipeAsync,
    &IOUSBInterfaceClass::interfaceLowLatencyCreateBuffer,
    &IOUSBInterfaceClass::interfaceLowLatencyDestroyBuffer,
    // ---------- new with 1.9.7
    &IOUSBInterfaceClass::interfaceGetBusMicroFrameNumber,
    &IOUSBInterfaceClass::interfaceGetFrameListTime,
    &IOUSBInterfaceClass::interfaceGetIOUSBLibVersion,
    // ---------- new with 2.2.0
    &IOUSBInterfaceClass::interfaceFindNextAssociatedDescriptor,
    &IOUSBInterfaceClass::interfaceFindNextAltInterface,
    // ---------- new with 3.0.0
    &IOUSBInterfaceClass::interfaceGetBusFrameNumberWithTime
};


// Methods for routing iocfplugin interface
IOReturn 
IOUSBInterfaceClass:: interfaceProbe(void *self, CFDictionaryRef propertyTable, io_service_t inService, SInt32 *order)
    { return getThis(self)->probe(propertyTable, inService, order); }


IOReturn 
IOUSBInterfaceClass::interfaceStart(void *self, CFDictionaryRef propertyTable, io_service_t inService)
    { return getThis(self)->start(propertyTable, inService); }
    
IOReturn 
IOUSBInterfaceClass::interfaceStop(void *self)
	{ return getThis(self)->stop(); }

IOReturn 
IOUSBInterfaceClass::interfaceCreateInterfaceAsyncEventSource(void *self, CFRunLoopSourceRef *source)
    { return getThis(self)->CreateInterfaceAsyncEventSource(source); }

CFRunLoopSourceRef 
IOUSBInterfaceClass::interfaceGetInterfaceAsyncEventSource(void *self)
    { return getThis(self)->GetInterfaceAsyncEventSource(); }

IOReturn 
IOUSBInterfaceClass::interfaceCreateInterfaceAsyncPort(void *self, mach_port_t *port)
    { return getThis(self)->CreateInterfaceAsyncPort(port); }

mach_port_t 
IOUSBInterfaceClass::interfaceGetInterfaceAsyncPort(void *self)
    { return getThis(self)->GetInterfaceAsyncPort(); }

IOReturn 
IOUSBInterfaceClass::interfaceUSBInterfaceOpen(void *self)
    { return getThis(self)->USBInterfaceOpen(false); }

IOReturn 
IOUSBInterfaceClass::interfaceUSBInterfaceClose(void *self)
    { return getThis(self)->USBInterfaceClose(); }

IOReturn
IOUSBInterfaceClass::interfaceGetInterfaceClass(void *self, UInt8 *devClass)
    { return getThis(self)->GetInterfaceClass(devClass); }

IOReturn
IOUSBInterfaceClass::interfaceGetInterfaceSubClass(void *self, UInt8 *devSubClass)
    { return getThis(self)->GetInterfaceSubClass(devSubClass); }

IOReturn
IOUSBInterfaceClass::interfaceGetInterfaceProtocol(void *self, UInt8 *devProtocol)
    { return getThis(self)->GetInterfaceProtocol(devProtocol); }

IOReturn
IOUSBInterfaceClass::interfaceGetDeviceVendor(void *self, UInt16 *devVendor)
    { return getThis(self)->GetDeviceVendor(devVendor); }

IOReturn
IOUSBInterfaceClass::interfaceGetDeviceProduct(void *self, UInt16 *devProduct)
    { return getThis(self)->GetDeviceProduct(devProduct); }

IOReturn
IOUSBInterfaceClass::interfaceGetDeviceReleaseNumber(void *self, UInt16 *devRelNum)
    { return getThis(self)->GetDeviceReleaseNumber(devRelNum); }
    
IOReturn
IOUSBInterfaceClass::interfaceGetConfigurationValue(void *self, UInt8 *configVal)
    { return getThis(self)->GetConfigurationValue(configVal); }
    
IOReturn
IOUSBInterfaceClass::interfaceGetInterfaceNumber(void *self, UInt8 *intfNumber)
    { return getThis(self)->GetInterfaceNumber(intfNumber); }

IOReturn
IOUSBInterfaceClass::interfaceGetAlternateSetting(void *self, UInt8 *intfAlternateSetting)
    { return getThis(self)->GetAlternateSetting(intfAlternateSetting); }

IOReturn
IOUSBInterfaceClass::interfaceGetNumEndpoints(void *self, UInt8 *intfNumEndpoints)
    { return getThis(self)->GetNumEndpoints(intfNumEndpoints); }

IOReturn
IOUSBInterfaceClass::interfaceGetLocationID(void *self, UInt32 *locationID)
    { return getThis(self)->GetLocationID(locationID); }

IOReturn
IOUSBInterfaceClass::interfaceGetDevice(void *self, io_service_t *device)
    { return getThis(self)->GetDevice(device); }

IOReturn
IOUSBInterfaceClass::interfaceSetAlternateInterface(void *self, UInt8 alternateSetting)
    { return getThis(self)->SetAlternateInterface(alternateSetting); }

IOReturn
IOUSBInterfaceClass::interfaceGetBusFrameNumber(void *self, UInt64 *frame, AbsoluteTime *atTime)
    { return getThis(self)->GetBusFrameNumber(frame, atTime); }

IOReturn
IOUSBInterfaceClass::interfaceControlRequest(void *self, UInt8 pipeRef, IOUSBDevRequest *reqIn)
{ 
    IOUSBDevRequestTO		req;
    IOReturn			err;
    
    req.bmRequestType = reqIn->bmRequestType;
    req.bRequest = reqIn->bRequest;
    req.wValue = reqIn->wValue;
    req.wIndex = reqIn->wIndex;
    req.wLength = reqIn->wLength;
    req.pData = reqIn->pData;
    req.wLenDone = reqIn->wLenDone;
    req.completionTimeout = pipeRef ? 0 : kUSBDefaultControlCompletionTimeoutMS;
    req.noDataTimeout = pipeRef ? 0 : kUSBDefaultControlNoDataTimeoutMS;
    
    err =  getThis(self)->ControlRequest(pipeRef, &req);
    reqIn->wLenDone = req.wLenDone;
    return err;
}

IOReturn
IOUSBInterfaceClass::interfaceControlRequestAsync(void *self, UInt8 pipeRef, IOUSBDevRequest *reqIn, IOAsyncCallback1 callback, void *refCon)
{ 
    IOUSBDevRequestTO	req;
    
    req.bmRequestType = reqIn->bmRequestType;
    req.bRequest = reqIn->bRequest;
    req.wValue = reqIn->wValue;
    req.wIndex = reqIn->wIndex;
    req.wLength = reqIn->wLength;
    req.pData = reqIn->pData;
    req.wLenDone = reqIn->wLenDone;
    req.completionTimeout = pipeRef ? 0 : kUSBDefaultControlCompletionTimeoutMS;
    req.noDataTimeout = pipeRef ? 0 : kUSBDefaultControlNoDataTimeoutMS;
    
    return getThis(self)->ControlRequestAsync(pipeRef, &req, callback, refCon); 
}

IOReturn 
IOUSBInterfaceClass::interfaceGetPipeProperties(void *self, UInt8 pipeRef, UInt8 *direction, UInt8 *address, UInt8 *attributes, 
                                    UInt16 *maxpacketSize, UInt8 *interval)
    { return getThis(self)->GetPipeProperties(pipeRef, direction, address, attributes, maxpacketSize, interval); }

IOReturn
IOUSBInterfaceClass::interfaceGetPipeStatus(void *self, UInt8 pipeRef)
    { return getThis(self)->GetPipeStatus(pipeRef); }

IOReturn
IOUSBInterfaceClass::interfaceAbortPipe(void *self, UInt8 pipeRef)
    { return getThis(self)->AbortPipe(pipeRef); }

IOReturn
IOUSBInterfaceClass::interfaceResetPipe(void *self, UInt8 pipeRef)
    { return getThis(self)->ResetPipe(pipeRef); }

IOReturn
IOUSBInterfaceClass::interfaceClearPipeStall(void *self, UInt8 pipeRef)
    { return getThis(self)->ClearPipeStall(pipeRef, false); }

IOReturn
IOUSBInterfaceClass::interfaceReadPipe(void *self, UInt8 pipeRef, void *buf, UInt32 *size)
    { return getThis(self)->ReadPipe(pipeRef, buf, size, 0, 0); }

IOReturn
IOUSBInterfaceClass::interfaceWritePipe(void *self, UInt8 pipeRef, void *buf, UInt32 size)
    { return getThis(self)->WritePipe(pipeRef, buf, size, 0, 0); }

IOReturn
IOUSBInterfaceClass::interfaceReadPipeAsync(void *self, UInt8 pipeRef, void *buf, UInt32 size, IOAsyncCallback1 callback, void *refcon)
    { return getThis(self)->ReadPipeAsync(pipeRef, buf, size, 0, 0, callback, refcon); }

IOReturn 
IOUSBInterfaceClass::interfaceWritePipeAsync(void *self, UInt8 pipeRef, void *buf, UInt32 size, IOAsyncCallback1 callback, void *refcon)
    { return getThis(self)->WritePipeAsync(pipeRef, buf, size, 0, 0, callback, refcon); }

IOReturn 
IOUSBInterfaceClass::interfaceReadIsochPipeAsync(void *self, UInt8 pipeRef, void *buf, UInt64 frameStart, UInt32 numFrames, IOUSBIsocFrame *frameList,
                                  IOAsyncCallback1 callback, void *refcon)
    { return getThis(self)->ReadIsochPipeAsync(pipeRef, buf, frameStart, numFrames, frameList, callback, refcon); }

IOReturn 
IOUSBInterfaceClass::interfaceWriteIsochPipeAsync(void *self, UInt8 pipeRef, void *buf, UInt64 frameStart, UInt32 numFrames, IOUSBIsocFrame *frameList,
                                  IOAsyncCallback1 callback, void *refcon)
    { return getThis(self)->WriteIsochPipeAsync(pipeRef, buf, frameStart, numFrames, frameList, callback, refcon); }
//--------------- added in 1.8.2
IOReturn
IOUSBInterfaceClass::interfaceControlRequestTO(void *self, UInt8 pipeRef, IOUSBDevRequestTO *req)
    { return getThis(self)->ControlRequest(pipeRef, req); }

IOReturn
IOUSBInterfaceClass::interfaceControlRequestAsyncTO(void *self, UInt8 pipeRef, IOUSBDevRequestTO *req, IOAsyncCallback1 callback, void *refCon)
    { return getThis(self)->ControlRequestAsync(pipeRef, req, callback, refCon); }

IOReturn
IOUSBInterfaceClass::interfaceReadPipeTO(void *self, UInt8 pipeRef, void *buf, UInt32 *size, UInt32 noDataTimeout, UInt32 completionTimeout)
    { return getThis(self)->ReadPipe(pipeRef, buf, size, noDataTimeout, completionTimeout); }

IOReturn
IOUSBInterfaceClass::interfaceWritePipeTO(void *self, UInt8 pipeRef, void *buf, UInt32 size, UInt32 noDataTimeout, UInt32 completionTimeout)
    { return getThis(self)->WritePipe(pipeRef, buf, size, noDataTimeout, completionTimeout); }

IOReturn
IOUSBInterfaceClass::interfaceReadPipeAsyncTO(void *self, UInt8 pipeRef, void *buf, UInt32 size, UInt32 noDataTimeout, UInt32 completionTimeout, IOAsyncCallback1 callback, void *refcon)
    { return getThis(self)->ReadPipeAsync(pipeRef, buf, size, noDataTimeout, completionTimeout, callback, refcon); }

IOReturn 
IOUSBInterfaceClass::interfaceWritePipeAsyncTO(void *self, UInt8 pipeRef, void *buf, UInt32 size, UInt32 noDataTimeout, UInt32 completionTimeout, IOAsyncCallback1 callback, void *refcon)
    { return getThis(self)->WritePipeAsync(pipeRef, buf, size, noDataTimeout, completionTimeout, callback, refcon); }

IOReturn
IOUSBInterfaceClass::interfaceGetInterfaceStringIndex(void *self, UInt8 *intfSI)
    { return getThis(self)->GetInterfaceStringIndex(intfSI); }

IOReturn 
IOUSBInterfaceClass::interfaceUSBInterfaceOpenSeize(void *self)
    { return getThis(self)->USBInterfaceOpen(true); }

IOReturn 
IOUSBInterfaceClass::interfaceClearPipeStallBothEnds(void *self, UInt8 pipeRef)
    { return getThis(self)->ClearPipeStall(pipeRef, true); }

IOReturn 
IOUSBInterfaceClass::interfaceSetPipePolicy(void *self, UInt8 pipeRef, UInt16 maxPacketSize, UInt8 maxInterval)
    { return getThis(self)->SetPipePolicy(pipeRef, maxPacketSize, maxInterval); }

IOReturn 
IOUSBInterfaceClass::interfaceGetBandwidthAvailable(void *self, UInt32 *bandwidth)
    { return getThis(self)->GetBandwidthAvailable(bandwidth); }

IOReturn
IOUSBInterfaceClass::interfaceGetEndpointProperties(void *self, UInt8 alternateSetting, UInt8 endpointNumber, UInt8 direction, UInt8 *transferType, UInt16 *maxPacketSize, UInt8 *interval)
    { return getThis(self)->GetEndpointProperties(alternateSetting, endpointNumber, direction, transferType, maxPacketSize, interval); }

//--------------- added in 1.9.2
IOReturn 
IOUSBInterfaceClass::interfaceLowLatencyReadIsochPipeAsync(void *self, UInt8 pipeRef, void *buf, UInt64 frameStart, UInt32 numFrames, UInt32 updateFrequency, IOUSBLowLatencyIsocFrame *frameList, IOAsyncCallback1 callback, void *refcon)
    { return getThis(self)->LowLatencyReadIsochPipeAsync(pipeRef, buf, frameStart, numFrames, updateFrequency, frameList, callback, refcon); }

IOReturn 
IOUSBInterfaceClass::interfaceLowLatencyWriteIsochPipeAsync(void *self, UInt8 pipeRef, void *buf, UInt64 frameStart, UInt32 numFrames, UInt32 updateFrequency, IOUSBLowLatencyIsocFrame *frameList, IOAsyncCallback1 callback, void *refcon)
    { return getThis(self)->LowLatencyWriteIsochPipeAsync(pipeRef, buf, frameStart, numFrames, updateFrequency, frameList, callback, refcon); }

IOReturn 
IOUSBInterfaceClass::interfaceLowLatencyCreateBuffer(void *self, void * *buffer, IOByteCount size, UInt32 bufferType)
    { return getThis(self)->LowLatencyCreateBuffer( buffer, size, bufferType); }
    
IOReturn 
IOUSBInterfaceClass::interfaceLowLatencyDestroyBuffer(void *self, void * buffer )
    { return getThis(self)->LowLatencyDestroyBuffer( buffer); }

//--------------- added in 1.9.7
IOReturn
IOUSBInterfaceClass::interfaceGetBusMicroFrameNumber(void *self, UInt64 *microFrame, AbsoluteTime *atTime)
{ return getThis(self)->GetBusMicroFrameNumber(microFrame, atTime); }

IOReturn
IOUSBInterfaceClass::interfaceGetFrameListTime(void *self, UInt32 *microsecondsInFrame)
{ return getThis(self)->GetFrameListTime(microsecondsInFrame); }

IOReturn
IOUSBInterfaceClass::interfaceGetIOUSBLibVersion( void *self, NumVersion *ioUSBLibVersion, NumVersion *usbFamilyVersion)
{ return getThis(self)->GetIOUSBLibVersion(ioUSBLibVersion, usbFamilyVersion); }
//--------------- added in 2.2.0
IOUSBDescriptorHeader *
IOUSBInterfaceClass::interfaceFindNextAssociatedDescriptor( void *self, const void *currentDescriptor, UInt8 descriptorType)
{ return getThis(self)->FindNextAssociatedDescriptor(currentDescriptor, descriptorType); }

IOUSBDescriptorHeader *
IOUSBInterfaceClass::interfaceFindNextAltInterface( void *self, const void *currentDescriptor, IOUSBFindInterfaceRequest *request)
{ return getThis(self)->FindNextAltInterface(currentDescriptor, request); }

IOReturn
IOUSBInterfaceClass::interfaceGetBusFrameNumberWithTime(void *self, UInt64 *frame, AbsoluteTime *atTime)
    { return getThis(self)->GetBusFrameNumberWithTime(frame, atTime); }