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/*
             LUFA Library
     Copyright (C) Dean Camera, 2009.
              
  dean [at] fourwalledcubicle [dot] com
      www.fourwalledcubicle.com
*/

/*
  Copyright 2009  Dean Camera (dean [at] fourwalledcubicle [dot] com)

  Permission to use, copy, modify, and distribute this software
  and its documentation for any purpose and without fee is hereby
  granted, provided that the above copyright notice appear in all
  copies and that both that the copyright notice and this
  permission notice and warranty disclaimer appear in supporting
  documentation, and that the name of the author not be used in
  advertising or publicity pertaining to distribution of the
  software without specific, written prior permission.

  The author disclaim all warranties with regard to this
  software, including all implied warranties of merchantability
  and fitness.  In no event shall the author be liable for any
  special, indirect or consequential damages or any damages
  whatsoever resulting from loss of use, data or profits, whether
  in an action of contract, negligence or other tortious action,
  arising out of or in connection with the use or performance of
  this software.
*/

/** \file
 *
 *  Functions, macros and enums related to pipe management when in USB Host mode. This
 *  module contains the pipe management macros, as well as pipe interrupt and data
 *  send/recieve functions for various datatypes.
 */
 
#ifndef __PIPE_H__
#define __PIPE_H__

	/* Includes: */
		#include <avr/io.h>
		#include <stdbool.h>

		#include "../../../Common/Common.h"
		#include "../HighLevel/USBTask.h"

		#if !defined(NO_STREAM_CALLBACKS) || defined(__DOXYGEN__)
		#include "StreamCallbacks.h"
		#endif
	/* Enable C linkage for C++ Compilers: */
		#if defined(__cplusplus)
			extern "C" {
		#endif

	/* Public Interface - May be used in end-application: */
		/* Macros: */
			/** Mask for Pipe_GetErrorFlags(), indicating that a CRC error occurred in the pipe on the received data. */
			#define PIPE_ERRORFLAG_CRC16                   (1 << 4)

			/** Mask for Pipe_GetErrorFlags(), indicating that a hardware timeout error occurred in the pipe. */
			#define PIPE_ERRORFLAG_TIMEOUT                 (1 << 3)

			/** Mask for Pipe_GetErrorFlags(), indicating that a hardware PID error occurred in the pipe. */
			#define PIPE_ERRORFLAG_PID                     (1 << 2)

			/** Mask for Pipe_GetErrorFlags(), indicating that a hardware data PID error occurred in the pipe. */
			#define PIPE_ERRORFLAG_DATAPID                 (1 << 1)

			/** Mask for Pipe_GetErrorFlags(), indicating that a hardware data toggle error occurred in the pipe. */
			#define PIPE_ERRORFLAG_DATATGL                 (1 << 0)

			/** Token mask for Pipe_ConfigurePipe(). This sets the pipe as a SETUP token (for CONTROL type pipes),
			 *  which will trigger a control request on the attached device when data is written to the pipe.
			 */
			#define PIPE_TOKEN_SETUP                       (0b00 << PTOKEN0)

			/** Token mask for Pipe_ConfigurePipe(). This sets the pipe as a IN token (for non-CONTROL type pipes),
			 *  indicating that the pipe data will flow from device to host.
			 */
			#define PIPE_TOKEN_IN                          (0b01 << PTOKEN0)

			/** Token mask for Pipe_ConfigurePipe(). This sets the pipe as a IN token (for non-CONTROL type pipes),
			 *  indicating that the pipe data will flow from host to device.
			 */
			#define PIPE_TOKEN_OUT                         (0b10 << PTOKEN0)

			/** Mask for the bank mode selection for the Pipe_ConfigurePipe() macro. This indicates that the pipe
			 *  should have one single bank, which requires less USB FIFO memory but results in slower transfers as
			 *  only one USB device (the AVR or the attached device) can access the pipe's bank at the one time.
			 */
			#define PIPE_BANK_SINGLE                       0

			/** Mask for the bank mode selection for the Pipe_ConfigurePipe() macro. This indicates that the pipe
			 *  should have two banks, which requires more USB FIFO memory but results in faster transfers as one
			 *  USB device (the AVR or the attached device) can access one bank while the other accesses the second
			 *  bank.
			 */
			#define PIPE_BANK_DOUBLE                       (1 << EPBK0)
			
			/** Pipe address for the default control pipe, which always resides in address 0. This is
			 *  defined for convenience to give more readable code when used with the pipe macros.
			 */
			#define PIPE_CONTROLPIPE                       0

			/** Default size of the default control pipe's bank, until altered by the Endpoint0Size value 
			 *  in the device descriptor of the attached device.
			 */
			#define PIPE_CONTROLPIPE_DEFAULT_SIZE          8
			
			/** Pipe number mask, for masking against pipe addresses to retrieve the pipe's numerical address
			 *  in the device.
			 */
			#define PIPE_PIPENUM_MASK                      0x07

			/** Total number of pipes (including the default control pipe at address 0) which may be used in
			 *  the device. Different USB AVR models support different amounts of pipes, this value reflects
			 *  the maximum number of pipes for the currently selected AVR model.
			 */
			#define PIPE_TOTAL_PIPES                       7

			/** Size in bytes of the largest pipe bank size possible in the device. Not all banks on each AVR
			 *  model supports the largest bank size possible on the device; different pipe numbers support
			 *  different maximum bank sizes. This value reflects the largest possible bank of any pipe on the
			 *  currently selected USB AVR model.
			 */
			#define PIPE_MAX_SIZE                          256

			/** Endpoint number mask, for masking against endpoint addresses to retrieve the endpoint's
			 *  numerical address in the attached device.
			 */
			#define PIPE_EPNUM_MASK                        0x07

			/** Endpoint bank size mask, for masking against endpoint addresses to retrieve the endpoint's
			 *  bank size in the attached device.
			 */
			#define PIPE_EPSIZE_MASK                       0x7FF

			/** Interrupt definition for the pipe IN interrupt (for INTERRUPT type pipes). Should be used with
			 *  the USB_INT_* macros located in USBInterrupt.h.
			 *
			 *  This interrupt will fire if enabled on an INTERRUPT type pipe if the pipe interrupt period has
			 *  elapsed and the pipe is ready for the next packet from the attached device to be read out from its
			 *  FIFO buffer (if received).
			 *
			 *  This interrupt must be enabled on *each* pipe which requires it (after the pipe is selected), and
			 *  will fire the common pipe interrupt vector.
			 *
			 *  \see ENDPOINT_PIPE_vect for more information on the common pipe and endpoint interrupt vector.
			 */
			#define PIPE_INT_IN                            UPIENX, (1 << RXINE) , UPINTX, (1 << RXINI)

			/** Interrupt definition for the pipe OUT interrupt (for INTERRUPT type pipes). Should be used with
			 *  the USB_INT_* macros located in USBInterrupt.h.
			 *
			 *  This interrupt will fire if enabled on an INTERRUPT type endpoint if a the pipe interrupt period
			 *  has elapsed and the pipe is ready for a packet to be written to the pipe's FIFO buffer and sent
			 *  to the attached device (if required).
			 *  
			 *  This interrupt must be enabled on *each* pipe which requires it (after the pipe is selected), and
			 *  will fire the common pipe interrupt vector.
			 *
			 *  \see ENDPOINT_PIPE_vect for more information on the common pipe and endpoint interrupt vector.			 */
			#define PIPE_INT_OUT                           UPIENX, (1 << TXOUTE), UPINTX, (1 << TXOUTI)

			/** Interrupt definition for the pipe SETUP bank ready interrupt (for CONTROL type pipes). Should be
			 *  used with the USB_INT_* macros located in USBInterrupt.h.
			 *
			 *  This interrupt will fire if enabled on an CONTROL type pipe when the pipe is ready for a new
			 *  control request.
			 *
			 *  This interrupt must be enabled on *each* pipe which requires it (after the pipe is selected), and
			 *  will fire the common pipe interrupt vector.
			 *
			 *  \see ENDPOINT_PIPE_vect for more information on the common pipe and endpoint interrupt vector.
			 */
			#define PIPE_INT_SETUP                         UPIENX, (1 << TXSTPE) , UPINTX, (1 << TXSTPI)

			/** Interrupt definition for the pipe error interrupt. Should be used with the USB_INT_* macros
			 *  located in USBInterrupt.h.
			 *
			 *  This interrupt will fire if enabled on a particular pipe if an error occurs on that pipe, such
			 *  as a CRC mismatch error.
			 *
			 *  This interrupt must be enabled on *each* pipe which requires it (after the pipe is selected), and
			 *  will fire the common pipe interrupt vector.
			 *
			 *  \see ENDPOINT_PIPE_vect for more information on the common pipe and endpoint interrupt vector.
			 *
			 *  \see Pipe_GetErrorFlags() for more information on the pipe errors.
			 */
			#define PIPE_INT_ERROR                         UPIENX, (1 << PERRE), UPINTX, (1 << PERRI)

			/** Interrupt definition for the pipe NAK received interrupt. Should be used with the USB_INT_* macros
			 *  located in USBInterrupt.h.
			 *
			 *  This interrupt will fire if enabled on a particular pipe if an attached device returns a NAK in
			 *  response to a sent packet.
			 *
			 *  This interrupt must be enabled on *each* pipe which requires it (after the pipe is selected), and
			 *  will fire the common pipe interrupt vector.
			 *
			 *  \see ENDPOINT_PIPE_vect for more information on the common pipe and endpoint interrupt vector.
			 *
			 *  \see Pipe_IsNAKReceived() for more information on pipe NAKs.
			 */
			#define PIPE_INT_NAK                         UPIENX, (1 << NAKEDE), UPINTX, (1 << NAKEDI)

			/** Interrupt definition for the pipe STALL received interrupt. Should be used with the USB_INT_* macros
			 *  located in USBInterrupt.h.
			 *
			 *  This interrupt will fire if enabled on a particular pipe if an attached device returns a STALL on the
			 *  currently selected pipe. This will also fire if the pipe is an isochronous pipe and a CRC error occurs.
			 *
			 *  This interrupt must be enabled on *each* pipe which requires it (after the pipe is selected), and
			 *  will fire the common pipe interrupt vector.
			 *
			 *  \see ENDPOINT_PIPE_vect for more information on the common pipe and endpoint interrupt vector.
			 */
			#define PIPE_INT_STALL                       UPIENX, (1 << RXSTALLE), UPINTX, (1 << RXSTALLI)

			/** Indicates the number of bytes currently stored in the current pipe's selected bank. */
			#define Pipe_BytesInPipe()                     UPBCX

			/** Resets the desired pipe, including the pipe banks and flags. */
			#define Pipe_ResetPipe(pipenum)        MACROS{ UPRST    =  (1 << pipenum); UPRST = 0;                  }MACROE

			/** Selects the given pipe number. Any pipe operations which do not require the pipe number to be
			 *  indicated will operate on the currently selected pipe.
			 */
			#define Pipe_SelectPipe(pipenum)       MACROS{ UPNUM    =  pipenum;                                    }MACROE

			/** Returns the pipe address of the currently selected pipe. This is typically used to save the
			 *  currently selected pipe number so that it can be restored after another pipe has been manipulated.
			 */
			#define Pipe_GetCurrentPipe()                 (UPNUM   &   PIPE_PIPENUM_MASK)

			/** Enables the currently selected pipe so that data can be sent and received through it to and from
			 *  an attached device.
			 *
			 *  \note Pipes must first be configured properly rather than just being enabled via the
			 *        Pipe_ConfigurePipe() macro, which calls Pipe_EnablePipe() automatically.
			 */
			#define Pipe_EnablePipe()              MACROS{ UPCONX  |=  (1 << PEN);                                 }MACROE

			/** Disables the currently selected pipe so that data cannot be sent and received through it to and
			 *  from an attached device.
			 */
			#define Pipe_DisablePipe()             MACROS{ UPCONX  &= ~(1 << PEN);                                 }MACROE

			/** Returns true if the currently selected pipe is enabled, false otherwise. */
			#define Pipe_IsEnabled()                     ((UPCONX  &   (1 << PEN)) ? true : false)

			/** Sets the token for the currently selected endpoint to one of the tokens specified by the PIPE_TOKEN_*
			 *  masks. This should only be used on CONTROL type endpoints, to allow for bidirectional transfer of
			 *  data during control requests.
			 */
			#define Pipe_SetToken(token)           MACROS{ UPCFG0X  = ((UPCFG0X & ~PIPE_TOKEN_MASK) | token);      }MACROE
			
			/** Configures the currently selected pipe to allow for an unlimited number of IN requests. */
			#define Pipe_SetInfiniteINRequests()   MACROS{ UPCONX  |=  (1 << INMODE);                              }MACROE

			/** Configures the currently selected pipe to only allow the specified number of IN requests to be
			 *  accepted by the pipe before it is automatically frozen.
			 */
			#define Pipe_SetFiniteINRequests(n)    MACROS{ UPCONX  &= ~(1 << INMODE); UPINRQX = n;                 }MACROE

			/** Returns true if the currently selected pipe is configured, false otherwise. */
			#define Pipe_IsConfigured()                  ((UPSTAX  & (1 << CFGOK)) ? true : false)

			/** Sets the period between interrupts for an INTERRUPT type pipe to a specified number of milliseconds. */
			#define Pipe_SetInterruptPeriod(ms)    MACROS{ UPCFG2X  = ms;                                          }MACROE

			/** Returns a mask indicating which pipe's interrupt periods have elapsed, indicating that the pipe should
			 *  be serviced.
			 */
			#define Pipe_GetPipeInterrupts()               UPINT

			/** Clears the interrupt flag for the specified pipe number. */
			#define Pipe_ClearPipeInterrupt(n)     MACROS{ UPINT   &= ~(1 << n);                                   }MACROE

			/** Returns true if the specified pipe's interrupt period has elapsed, false otherwise. */
			#define Pipe_HasPipeInterrupted(n)           ((UPINT   &   (1 << n)) ? true : false)
			
			/** Clears the pipe bank, and switches to the alternate bank if the currently selected pipe is
			 *  dual-banked. When cleared, this either frees the bank up for the next packet from the host
			 *  (if the endpoint is of the OUT direction) or sends the packet contents to the host (if the
			 *  pipe is of the IN direction).
			 */
			#define Pipe_ClearCurrentBank()        MACROS{ UPINTX  &= ~(1 << FIFOCON);                             }MACROE

			/** Unfreezes the pipe, allowing it to communicate with an attached device. */
			#define Pipe_Unfreeze()                MACROS{ UPCONX  &= ~(1 << PFREEZE);                             }MACROE

			/** Freezes the pipe, preventing it from communicating with an attached device. */
			#define Pipe_Freeze()                  MACROS{ UPCONX  |=  (1 << PFREEZE);                             }MACROE

			/** Clears the master pipe error flag. */
			#define Pipe_ClearError()              MACROS{ UPINTX  &= ~(1 << PERRI);                               }MACROE

			/** Returns true if the master pipe error flag is set for the currently selected pipe, indicating that
			 *  some sort of hardware error has occurred on the pipe.
			 *
			 *  \see Pipe_GetErrorFlags() macro for information on retreiving the exact error flag.
			 */
			#define Pipe_IsError()                       ((UPINTX  &   (1 << PERRI)) ? true : false)
			
			/** Clears all the currently selected pipe's hardware error flags, but does not clear the master error
			 *  flag for the pipe. */
			#define Pipe_ClearErrorFlags()         MACROS{ UPERRX   = 0;                                           }MACROE

			/** Returns a mask of the hardware error flags which have occured on the currently selected pipe. This
			 *  value can then be masked against the PIPE_ERRORFLAG_* masks to determine what error has occurred.
			 */
			#define Pipe_GetErrorFlags()                   UPERRX

			/** Returns true if the currently selected pipe may be read from (if data is waiting in the pipe
			 *  bank and the pipe is an IN direction, or if the bank is not yet full if the pipe is an OUT
			 *  direction). This function will return false if an error has occured in the pipe, or if the pipe
			 *  is an IN direction and no packet has been received, or if the pipe is an OUT direction and the
			 *  pipe bank is full.
			 */
			#define Pipe_ReadWriteAllowed()              ((UPINTX  & (1 << RWAL)) ? true : false)

			/** Clears the flag indicating that a SETUP request has been sent to the attached device from the
			 *  currently selected CONTROL type pipe.
			 */
			#define Pipe_ClearSetupSent()          MACROS{ UPINTX  &= ~(1 << TXSTPI);                              }MACROE

			/** Returns true if no SETUP request is currently being sent to the attached device, false otherwise. */
			#define Pipe_IsSetupSent()                   ((UPINTX  &   (1 << TXSTPI)) ? true : false)

			/** Returns true if the currently selected pipe has been stalled by the attached device, false otherwise. */
			#define Pipe_IsStalled()                     ((UPINTX  &   (1 << RXSTALLI)) ? true : false)

			/** Clears the stall condition on the currently selected pipe. */
			#define Pipe_ClearStall()              MACROS{ UPINTX  &= ~(1 << RXSTALLI);                            }MACROE             

			/** Returns true if an IN request has been received on the currently selected CONTROL type pipe, false
			 *  otherwise.
			 */
			#define Pipe_IsSetupINReceived()             ((UPINTX  &   (1 << RXINI)) ? true : false)

			/** Returns true if the currently selected CONTROL type pipe is ready to send an OUT request, false
			 *  otherwise.
			 */
			#define Pipe_IsSetupOUTReady()               ((UPINTX  &   (1 << TXOUTI)) ? true : false)

			/** Acknowedges the reception of a setup IN request from the attached device on the currently selected
			 *  CONTROL type endpoint, allowing for the transmission of a setup OUT packet, or the reception of
			 *  another setup IN packet.
			 */
			#define Pipe_ClearSetupIN()            MACROS{ UPINTX  &= ~(1 << RXINI); UPINTX &= ~(1 << FIFOCON);    }MACROE

			/** Sends the currently selected CONTROL type pipe's contents to the device as a setup OUT packet. */
			#define Pipe_ClearSetupOUT()           MACROS{ UPINTX  &= ~(1 << TXOUTI); UPINTX &= ~(1 << FIFOCON);   }MACROE
			
			/** Returns true if the device sent a NAK (Negative Acknowedge) in response to the last sent packet on
			 *  the currently selected pipe. This ocurrs when the host sends a packet to the device, but the device
			 *  is not currently ready to handle the packet (i.e. its endpoint banks are full). Once a NAK has been
			 *  received, it must be cleard using Pipe_ClearNAKReceived() before the previous (or any other) packet
			 *  can be re-sent.
			 */
			#define Pipe_IsNAKReceived()                 ((UPINTX & (1 << NAKEDI)) ? true : false)

			/** Clears the NAK condition on the currently selected pipe.
			 *
			 *  \see Pipe_IsNAKReceived() for more details.
			 */
			#define Pipe_ClearNAKReceived()        MACROS{ UPINTX &= ~(1 << NAKEDI);                              }MACROE

		/* Enums: */
			/** Enum for the possible error return codes of the Pipe_WaitUntilReady function */
			enum Pipe_WaitUntilReady_ErrorCodes_t
			{
				PIPE_READYWAIT_NoError                 = 0, /**< Pipe ready for next packet, no error */
				PIPE_READYWAIT_PipeStalled             = 1,	/**< The device stalled the pipe while waiting. */			
				PIPE_READYWAIT_DeviceDisconnected      = 2,	/**< Device was disconnected from the host while waiting. */
				PIPE_READYWAIT_Timeout                 = 3, /**< The device failed to accept or send the next packet
				                                             *   within the software timeout period set by the
				                                             *   USB_STREAM_TIMEOUT_MS macro.
				                                             */
			};

			/** Enum for the possible error return codes of the Pipe_*_Stream_* functions. */
			enum Pipe_Stream_RW_ErrorCodes_t
			{
				PIPE_RWSTREAM_ERROR_NoError            = 0, /**< Command completed successfully, no error. */
				PIPE_RWSTREAM_ERROR_PipeStalled        = 1, /**< The device stalled the pipe during the transfer. */		
				PIPE_RWSTREAM_ERROR_DeviceDisconnected = 2, /**< Device was disconnected from the host during
			                                                 *   the transfer.
			                                                 */		
				PIPE_RWSTREAM_ERROR_Timeout            = 3, /**< The device failed to accept or send the next packet
				                                             *   within the software timeout period set by the
				                                             *   USB_STREAM_TIMEOUT_MS macro.
				                                             */
				PIPE_RWSTREAM_ERROR_CallbackAborted    = 4, /**< Indicates that the stream's callback function aborted
			                                                 *   the transfer early.
				                                             */
			};

		/* Inline Functions: */
			/** Reads one byte from the currently selected pipe's bank, for OUT direction pipes. */
			static inline uint8_t Pipe_Read_Byte(void) ATTR_WARN_UNUSED_RESULT;
			static inline uint8_t Pipe_Read_Byte(void)
			{
				return UPDATX;
			}

			/** Writes one byte from the currently selected pipe's bank, for IN direction pipes. */
			static inline void Pipe_Write_Byte(const uint8_t Byte)
			{
				UPDATX = Byte;
			}

			/** Discards one byte from the currently selected pipe's bank, for OUT direction pipes. */
			static inline void Pipe_Discard_Byte(void)
			{
				uint8_t Dummy;
				
				Dummy = UPDATX;
			}
			
			/** Reads two bytes from the currently selected pipe's bank in little endian format, for OUT
			 *  direction pipes.
			 */
			static inline uint16_t Pipe_Read_Word_LE(void) ATTR_WARN_UNUSED_RESULT;
			static inline uint16_t Pipe_Read_Word_LE(void)
			{
				uint16_t Data;
				
				Data  = UPDATX;
				Data |= (((uint16_t)UPDATX) << 8);
			
				return Data;
			}

			/** Reads two bytes from the currently selected pipe's bank in big endian format, for OUT
			 *  direction pipes.
			 */
			static inline uint16_t Pipe_Read_Word_BE(void) ATTR_WARN_UNUSED_RESULT;
			static inline uint16_t Pipe_Read_Word_BE(void)
			{
				uint16_t Data;
				
				Data  = (((uint16_t)UPDATX) << 8);
				Data |= UPDATX;
			
				return Data;
			}
			
			/** Writes two bytes to the currently selected pipe's bank in little endian format, for IN
			 *  direction pipes.
			 */
			static inline void Pipe_Write_Word_LE(const uint16_t Word)
			{
				UPDATX = (Word & 0xFF);
				UPDATX = (Word >> 8);
			}
			
			/** Writes two bytes to the currently selected pipe's bank in big endian format, for IN
			 *  direction pipes.
			 */
			static inline void Pipe_Write_Word_BE(const uint16_t Word)
			{
				UPDATX = (Word >> 8);
				UPDATX = (Word & 0xFF);
			}

			/** Discards two bytes from the currently selected pipe's bank, for OUT direction pipes. */
			static inline void Pipe_Ignore_Word(void)
			{
				uint8_t Dummy;
				
				Dummy = UPDATX;
				Dummy = UPDATX;
			}

			/** Reads four bytes from the currently selected pipe's bank in little endian format, for OUT
			 *  direction pipes.
			 */
			static inline uint32_t Pipe_Read_DWord_LE(void) ATTR_WARN_UNUSED_RESULT;
			static inline uint32_t Pipe_Read_DWord_LE(void)
			{
				union
				{
					uint32_t DWord;
					uint8_t  Bytes[4];
				} Data;
				
				Data.Bytes[0] = UPDATX;
				Data.Bytes[1] = UPDATX;
				Data.Bytes[2] = UPDATX;
				Data.Bytes[3] = UPDATX;
			
				return Data.DWord;
			}

			/** Reads four bytes from the currently selected pipe's bank in big endian format, for OUT
			 *  direction pipes.
			 */
			static inline uint32_t Pipe_Read_DWord_BE(void) ATTR_WARN_UNUSED_RESULT;
			static inline uint32_t Pipe_Read_DWord_BE(void)
			{
				union
				{
					uint32_t DWord;
					uint8_t  Bytes[4];
				} Data;
				
				Data.Bytes[3] = UPDATX;
				Data.Bytes[2] = UPDATX;
				Data.Bytes[1] = UPDATX;
				Data.Bytes[0] = UPDATX;
			
				return Data.DWord;
			}

			/** Writes four bytes to the currently selected pipe's bank in little endian format, for IN
			 *  direction pipes.
			 */
			static inline void Pipe_Write_DWord_LE(const uint32_t DWord)
			{
				Pipe_Write_Word_LE(DWord);
				Pipe_Write_Word_LE(DWord >> 16);
			}
			
			/** Writes four bytes to the currently selected pipe's bank in big endian format, for IN
			 *  direction pipes.
			 */			
			static inline void Pipe_Write_DWord_BE(const uint32_t DWord)
			{
				Pipe_Write_Word_BE(DWord >> 16);
				Pipe_Write_Word_BE(DWord);
			}			
			
			/** Discards four bytes from the currently selected pipe's bank, for OUT direction pipes. */
			static inline void Pipe_Ignore_DWord(void)
			{
				uint8_t Dummy;
				
				Dummy = UPDATX;
				Dummy = UPDATX;
				Dummy = UPDATX;
				Dummy = UPDATX;
			}

		/* External Variables: */
			/** Global indicating the maximum packet size of the default control pipe located at address
			 *  0 in the device. This value is set to the value indicated in the attached device's device
		     *  descriptor once the USB interface is initialized into host mode and a device is attached
			 *  to the USB bus.
			 *
			 *  \note This variable should be treated as read-only in the user application, and never manually
			 *        changed in value.
			 */
			extern uint8_t USB_ControlPipeSize;

		/* Function Prototypes: */
			/** Configures the specified pipe number with the given pipe type, token, target endpoint number in the
			 *  attached device, bank size and banking mode. Pipes should be allocated in ascending order by their
			 *  address in the device (i.e. pipe 1 should be configured before pipe 2 and so on).
			 *
			 *  The pipe type may be one of the EP_TYPE_* macros listed in LowLevel.h, the token may be one of the
			 *  PIPE_TOKEN_* masks.
			 *
			 *  The bank size must indicate the maximum packet size that the pipe can handle. Different pipe
			 *  numbers can handle different maximum packet sizes - refer to the chosen USB AVR's datasheet to
			 *  determine the maximum bank size for each pipe.
			 *
			 *  The banking mode may be either PIPE_BANK_SINGLE or PIPE_BANK_DOUBLE.
			 *
			 *  A newly configured pipe is frozen by default, and must be unfrozen before use via the Pipe_Unfreeze() macro.
			 *
			 *  \note This routine will select the specified pipe, and the pipe will remain selected once the
			 *        routine completes regardless of if the pipe configuration succeeds.
			 *
			 *  \return Boolean true if the configuration is successful, false otherwise
			 */
			bool Pipe_ConfigurePipe(const uint8_t  Number, const uint8_t Type, const uint8_t Token, const uint8_t EndpointNumber,
			                        const uint16_t Size, const uint8_t Banks);

			/** Spinloops until the currently selected non-control pipe is ready for the next packed of data
			 *  to be read or written to it.
			 *
			 *  \note This routine should not be called on CONTROL type pipes.
			 *
			 *  \return A value from the Pipe_WaitUntilReady_ErrorCodes_t enum.
			 */
			uint8_t Pipe_WaitUntilReady(void);		
		
			/** Writes the given number of bytes to the pipe from the given buffer in little endian,
			 *  sending full packets to the device as needed. The last packet filled is not automatically sent;
			 *  the user is responsible for manually sending the last written packet to the host via the
			 *  Pipe_ClearCurrentBank() macro. Between each USB packet, the given stream callback function is
			 *  executed repeatedly until the next packet is ready, allowing for early aborts of stream transfers.
			 *
			 *	The callback routine should be created using the STREAM_CALLBACK() macro. If the token
			 *  NO_STREAM_CALLBACKS is passed via the -D option to the compiler, stream callbacks are disabled
			 *  and this function has the Callback parameter ommitted.
			 *
			 *  \param Buffer    Pointer to the source data buffer to read from.
			 *  \param Length    Number of bytes to read for the currently selected pipe into the buffer.
			 *  \param Callback  Name of a callback routine to call between sucessive USB packet transfers, NULL if no callback
			 *
			 *  \return A value from the Pipe_Stream_RW_ErrorCodes_t enum.
			 */
			uint8_t Pipe_Write_Stream_LE(const void* Buffer, uint16_t Length
			#if !defined(NO_STREAM_CALLBACKS) || defined(__DOXYGEN__)
			                             , uint8_t (* const Callback)(void)
			#endif
			                             ) ATTR_NON_NULL_PTR_ARG(1);				

			/** Writes the given number of bytes to the pipe from the given buffer in big endian,
			 *  sending full packets to the device as needed. The last packet filled is not automatically sent;
			 *  the user is responsible for manually sending the last written packet to the host via the
			 *  Pipe_ClearCurrentBank() macro. Between each USB packet, the given stream callback function is
			 *  executed repeatedly until the next packet is ready, allowing for early aborts of stream transfers.
			 *
			 *	The callback routine should be created using the STREAM_CALLBACK() macro. If the token
			 *  NO_STREAM_CALLBACKS is passed via the -D option to the compiler, stream callbacks are disabled
			 *  and this function has the Callback parameter ommitted.
			 *
			 *  \param Buffer    Pointer to the source data buffer to read from.
			 *  \param Length    Number of bytes to read for the currently selected pipe into the buffer.
			 *  \param Callback  Name of a callback routine to call between sucessive USB packet transfers, NULL if no callback
			 *
			 *  \return A value from the Pipe_Stream_RW_ErrorCodes_t enum.
			 */
			uint8_t Pipe_Write_Stream_BE(const void* Buffer, uint16_t Length
			#if !defined(NO_STREAM_CALLBACKS) || defined(__DOXYGEN__)
			                             , uint8_t (* const Callback)(void)
			#endif
			                             ) ATTR_NON_NULL_PTR_ARG(1);

			/** Reads and discards the given number of bytes from the pipe, discarding fully read packets from the host
			 *  as needed. The last packet is not automatically discarded once the remaining bytes has been read; the
			 *  user is responsible for manually discarding the last packet from the host via the Pipe_ClearCurrentBank() macro.
			 *  Between each USB packet, the given stream callback function is executed repeatedly until the next packet is ready,
			 *  allowing for early aborts of stream transfers.
			 *
			 *	The callback routine should be created using the STREAM_CALLBACK() macro. If the token
			 *  NO_STREAM_CALLBACKS is passed via the -D option to the compiler, stream callbacks are disabled
			 *  and this function has the Callback parameter ommitted.
			 *
			 *  \param Length  Number of bytes to send via the currently selected pipe.
			 *  \param Callback  Name of a callback routine to call between sucessive USB packet transfers, NULL if no callback
			 *
			 *  \return A value from the Pipe_Stream_RW_ErrorCodes_t enum.
			 */
			uint8_t Pipe_Discard_Stream(uint16_t Length
			#if !defined(NO_STREAM_CALLBACKS) || defined(__DOXYGEN__)
			                            , uint8_t (* const Callback)(void)
			#endif
			                            );

			/** Reads the given number of bytes from the pipe into the given buffer in little endian,
			 *  sending full packets to the device as needed. The last packet filled is not automatically sent;
			 *  the user is responsible for manually sending the last written packet to the host via the
			 *  Pipe_ClearCurrentBank() macro. Between each USB packet, the given stream callback function is
			 *  executed repeatedly until the next packet is ready, allowing for early aborts of stream transfers.
			 *
			 *	The callback routine should be created using the STREAM_CALLBACK() macro. If the token
			 *  NO_STREAM_CALLBACKS is passed via the -D option to the compiler, stream callbacks are disabled
			 *  and this function has the Callback parameter ommitted.
			 *
			 *  \param Buffer    Pointer to the source data buffer to write to.
			 *  \param Length    Number of bytes to read for the currently selected pipe to read from.
			 *  \param Callback  Name of a callback routine to call between sucessive USB packet transfers, NULL if no callback
			 *
			 *  \return A value from the Pipe_Stream_RW_ErrorCodes_t enum.
			 */
			uint8_t Pipe_Read_Stream_LE(void* Buffer, uint16_t Length
			#if !defined(NO_STREAM_CALLBACKS) || defined(__DOXYGEN__)
			                            , uint8_t (* const Callback)(void)
			#endif
			                            ) ATTR_NON_NULL_PTR_ARG(1);

			/** Reads the given number of bytes from the pipe into the given buffer in big endian,
			 *  sending full packets to the device as needed. The last packet filled is not automatically sent;
			 *  the user is responsible for manually sending the last written packet to the host via the
			 *  Pipe_ClearCurrentBank() macro. Between each USB packet, the given stream callback function is
			 *  executed repeatedly until the next packet is ready, allowing for early aborts of stream transfers.
			 *
			 *	The callback routine should be created using the STREAM_CALLBACK() macro. If the token
			 *  NO_STREAM_CALLBACKS is passed via the -D option to the compiler, stream callbacks are disabled
			 *  and this function has the Callback parameter ommitted.
			 *
			 *  \param Buffer    Pointer to the source data buffer to write to.
			 *  \param Length    Number of bytes to read for the currently selected pipe to read from.
			 *  \param Callback  Name of a callback routine to call between sucessive USB packet transfers, NULL if no callback
			 *
			 *  \return A value from the Pipe_Stream_RW_ErrorCodes_t enum.
			 */
			uint8_t Pipe_Read_Stream_BE(void* Buffer, uint16_t Length
			#if !defined(NO_STREAM_CALLBACKS) || defined(__DOXYGEN__)
			                            , uint8_t (* const Callback)(void)
			#endif
			                            ) ATTR_NON_NULL_PTR_ARG(1);				

		/* Function Aliases: */
			/** Alias for Pipe_Discard_Byte().
			 */
			#define Pipe_Ignore_Byte()                 Pipe_Discard_Byte()

			/** Alias for Pipe_Discard_Word().
			 */
			#define Pipe_Ignore_Word()                 Pipe_Discard_Word()		

			/** Alias for Pipe_Discard_DWord().
			 */
			#define Pipe_Ignore_DWord()                Pipe_Discard_DWord()

			/** Alias for Pipe_Read_Word_LE(). By default USB transfers use little endian format, thus
			 *  the command with no endianness specifier indicates little endian mode.
			 */
			#define Pipe_Read_Word()                   Pipe_Read_Word_LE()

			/** Alias for Pipe_Write_Word_LE(). By default USB transfers use little endian format, thus
			 *  the command with no endianness specifier indicates little endian mode.
			 */
			#define Pipe_Write_Word(Word)              Pipe_Write_Word_LE(Word)

			/** Alias for Pipe_Read_DWord_LE(). By default USB transfers use little endian format, thus
			 *  the command with no endianness specifier indicates little endian mode.
			 */
			#define Pipe_Read_DWord()                  Pipe_Read_DWord_LE()

			/** Alias for Pipe_Write_DWord_LE(). By default USB transfers use little endian format, thus
			 *  the command with no endianness specifier indicates little endian mode.
			 */
			#define Pipe_Write_DWord(DWord)            Pipe_Write_DWord_LE(DWord)

			/** Alias for Pipe_Read_Stream_LE(). By default USB transfers use little endian format, thus
			 *  the command with no endianness specifier indicates little endian mode.
			 */
			#if !defined(NO_STREAM_CALLBACKS)
				#define Pipe_Read_Stream(Buffer, Length, Callback) Pipe_Read_Stream_LE(Buffer, Length, Callback)
			#else
				#define Pipe_Read_Stream(Buffer, Length)           Pipe_Read_Stream_LE(Buffer, Length)
			#endif

			/** Alias for Pipe_Write_Stream_LE(). By default USB transfers use little endian format, thus
			 *  the command with no endianness specifier indicates little endian mode.
			 */
			#if !defined(NO_STREAM_CALLBACKS)
				#define Pipe_Write_Stream(Buffer, Length, Callback) Pipe_Read_Stream_LE(Buffer, Length, Callback)
			#else
				#define Pipe_Write_Stream(Buffer, Length)           Pipe_Read_Stream_LE(Buffer, Length)
			#endif
			
	/* Private Interface - For use in library only: */
	#if !defined(__DOXYGEN__)
		/* Macros: */
			#define PIPE_TOKEN_MASK                    (0x03 << PTOKEN0)

			#define Pipe_AllocateMemory()          MACROS{ UPCFG1X |=  (1 << ALLOC);                               }MACROE
			#define Pipe_DeallocateMemory()        MACROS{ UPCFG1X &= ~(1 << ALLOC);                               }MACROE

		/* Function Prototypes: */
			void Pipe_ClearPipes(void);

		/* Inline Functions: */
			static inline uint8_t Pipe_BytesToEPSizeMask(uint16_t Bytes) ATTR_WARN_UNUSED_RESULT ATTR_CONST ATTR_ALWAYSINLINE;
			static inline uint8_t Pipe_BytesToEPSizeMask(uint16_t Bytes)
			{
				if (Bytes <= 8)
				  return (0 << EPSIZE0);
				else if (Bytes <= 16)
				  return (1 << EPSIZE0);
				else if (Bytes <= 32)
				  return (2 << EPSIZE0);
				else if (Bytes <= 64)
				  return (3 << EPSIZE0);
				else if (Bytes <= (8 << 4))
				  return (4 << EPSIZE0);
				else
				  return (5 << EPSIZE0);
			};

	#endif

	/* Disable C linkage for C++ Compilers: */
		#if defined(__cplusplus)
			}
		#endif
		
#endif