2011-10-15 11:31:44 +02:00
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/* Name: usbdrvasm.S
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* Project: V-USB, virtual USB port for Atmel's(r) AVR(r) microcontrollers
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* Author: Christian Starkjohann
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* Creation Date: 2007-06-13
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* Tabsize: 4
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* Copyright: (c) 2007 by OBJECTIVE DEVELOPMENT Software GmbH
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* License: GNU GPL v2 (see License.txt), GNU GPL v3 or proprietary (CommercialLicense.txt)
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* Revision: $Id: usbdrvasm.S 785 2010-05-30 17:57:07Z cs $
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*/
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/*
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General Description:
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This module is the assembler part of the USB driver. This file contains
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general code (preprocessor acrobatics and CRC computation) and then includes
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the file appropriate for the given clock rate.
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*/
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#define __SFR_OFFSET 0 /* used by avr-libc's register definitions */
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#include "usbportability.h"
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#include "usbdrv.h" /* for common defs */
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/* register names */
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#define x1 r16
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#define x2 r17
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#define shift r18
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#define cnt r19
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#define x3 r20
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#define x4 r21
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#define x5 r22
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#define bitcnt x5
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#define phase x4
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#define leap x4
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/* Some assembler dependent definitions and declarations: */
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#ifdef __IAR_SYSTEMS_ASM__
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extern usbRxBuf, usbDeviceAddr, usbNewDeviceAddr, usbInputBufOffset
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extern usbCurrentTok, usbRxLen, usbRxToken, usbTxLen
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extern usbTxBuf, usbTxStatus1, usbTxStatus3
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# if USB_COUNT_SOF
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extern usbSofCount
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# endif
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public usbCrc16
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public usbCrc16Append
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COMMON INTVEC
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# ifndef USB_INTR_VECTOR
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ORG INT0_vect
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# else /* USB_INTR_VECTOR */
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ORG USB_INTR_VECTOR
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# undef USB_INTR_VECTOR
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# endif /* USB_INTR_VECTOR */
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# define USB_INTR_VECTOR usbInterruptHandler
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rjmp USB_INTR_VECTOR
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RSEG CODE
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#else /* __IAR_SYSTEMS_ASM__ */
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# ifndef USB_INTR_VECTOR /* default to hardware interrupt INT0 */
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# ifdef INT0_vect
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# define USB_INTR_VECTOR INT0_vect // this is the "new" define for the vector
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# else
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# define USB_INTR_VECTOR SIG_INTERRUPT0 // this is the "old" vector
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# endif
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# endif
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.text
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.global USB_INTR_VECTOR
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.type USB_INTR_VECTOR, @function
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.global usbCrc16
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.global usbCrc16Append
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#endif /* __IAR_SYSTEMS_ASM__ */
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#if USB_INTR_PENDING < 0x40 /* This is an I/O address, use in and out */
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# define USB_LOAD_PENDING(reg) in reg, USB_INTR_PENDING
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# define USB_STORE_PENDING(reg) out USB_INTR_PENDING, reg
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#else /* It's a memory address, use lds and sts */
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# define USB_LOAD_PENDING(reg) lds reg, USB_INTR_PENDING
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# define USB_STORE_PENDING(reg) sts USB_INTR_PENDING, reg
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#endif
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#define usbTxLen1 usbTxStatus1
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#define usbTxBuf1 (usbTxStatus1 + 1)
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#define usbTxLen3 usbTxStatus3
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#define usbTxBuf3 (usbTxStatus3 + 1)
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;----------------------------------------------------------------------------
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; Utility functions
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;----------------------------------------------------------------------------
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#ifdef __IAR_SYSTEMS_ASM__
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/* Register assignments for usbCrc16 on IAR cc */
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/* Calling conventions on IAR:
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* First parameter passed in r16/r17, second in r18/r19 and so on.
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* Callee must preserve r4-r15, r24-r29 (r28/r29 is frame pointer)
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* Result is passed in r16/r17
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* In case of the "tiny" memory model, pointers are only 8 bit with no
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* padding. We therefore pass argument 1 as "16 bit unsigned".
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*/
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RTMODEL "__rt_version", "3"
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/* The line above will generate an error if cc calling conventions change.
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* The value "3" above is valid for IAR 4.10B/W32
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*/
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# define argLen r18 /* argument 2 */
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# define argPtrL r16 /* argument 1 */
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# define argPtrH r17 /* argument 1 */
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# define resCrcL r16 /* result */
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# define resCrcH r17 /* result */
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# define ptrL ZL
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# define ptrH ZH
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# define ptr Z
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# define byte r22
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# define bitCnt r19
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# define polyL r20
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# define polyH r21
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# define scratch r23
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#else /* __IAR_SYSTEMS_ASM__ */
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/* Register assignments for usbCrc16 on gcc */
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/* Calling conventions on gcc:
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* First parameter passed in r24/r25, second in r22/23 and so on.
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* Callee must preserve r1-r17, r28/r29
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* Result is passed in r24/r25
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*/
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# define argLen r22 /* argument 2 */
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# define argPtrL r24 /* argument 1 */
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# define argPtrH r25 /* argument 1 */
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# define resCrcL r24 /* result */
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# define resCrcH r25 /* result */
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# define ptrL XL
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# define ptrH XH
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# define ptr x
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# define byte r18
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# define bitCnt r19
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# define polyL r20
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# define polyH r21
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# define scratch r23
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#endif
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#if USB_USE_FAST_CRC
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; This implementation is faster, but has bigger code size
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; Thanks to Slawomir Fras (BoskiDialer) for this code!
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; It implements the following C pseudo-code:
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; unsigned table(unsigned char x)
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; {
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; unsigned value;
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;
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; value = (unsigned)x << 6;
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; value ^= (unsigned)x << 7;
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; if(parity(x))
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; value ^= 0xc001;
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; return value;
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; }
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; unsigned usbCrc16(unsigned char *argPtr, unsigned char argLen)
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; {
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; unsigned crc = 0xffff;
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;
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; while(argLen--)
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; crc = table(lo8(crc) ^ *argPtr++) ^ hi8(crc);
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; return ~crc;
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; }
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; extern unsigned usbCrc16(unsigned char *argPtr, unsigned char argLen);
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; argPtr r24+25 / r16+r17
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; argLen r22 / r18
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; temp variables:
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; byte r18 / r22
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; scratch r23
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; resCrc r24+r25 / r16+r17
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; ptr X / Z
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usbCrc16:
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mov ptrL, argPtrL
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mov ptrH, argPtrH
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ldi resCrcL, 0xFF
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ldi resCrcH, 0xFF
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rjmp usbCrc16LoopTest
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usbCrc16ByteLoop:
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ld byte, ptr+
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eor resCrcL, byte ; resCrcL is now 'x' in table()
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mov byte, resCrcL ; compute parity of 'x'
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swap byte
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eor byte, resCrcL
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mov scratch, byte
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lsr byte
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lsr byte
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eor byte, scratch
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inc byte
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lsr byte
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andi byte, 1 ; byte is now parity(x)
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mov scratch, resCrcL
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mov resCrcL, resCrcH
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eor resCrcL, byte ; low byte of if(parity(x)) value ^= 0xc001;
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neg byte
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andi byte, 0xc0
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mov resCrcH, byte ; high byte of if(parity(x)) value ^= 0xc001;
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clr byte
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lsr scratch
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ror byte
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eor resCrcH, scratch
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eor resCrcL, byte
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lsr scratch
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ror byte
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eor resCrcH, scratch
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eor resCrcL, byte
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usbCrc16LoopTest:
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subi argLen, 1
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brsh usbCrc16ByteLoop
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com resCrcL
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com resCrcH
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ret
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#else /* USB_USE_FAST_CRC */
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; This implementation is slower, but has less code size
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;
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; extern unsigned usbCrc16(unsigned char *argPtr, unsigned char argLen);
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; argPtr r24+25 / r16+r17
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; argLen r22 / r18
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; temp variables:
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; byte r18 / r22
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; bitCnt r19
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; poly r20+r21
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; scratch r23
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; resCrc r24+r25 / r16+r17
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; ptr X / Z
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usbCrc16:
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mov ptrL, argPtrL
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mov ptrH, argPtrH
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ldi resCrcL, 0
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ldi resCrcH, 0
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ldi polyL, lo8(0xa001)
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ldi polyH, hi8(0xa001)
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com argLen ; argLen = -argLen - 1: modified loop to ensure that carry is set
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ldi bitCnt, 0 ; loop counter with starnd condition = end condition
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rjmp usbCrcLoopEntry
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usbCrcByteLoop:
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ld byte, ptr+
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eor resCrcL, byte
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usbCrcBitLoop:
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ror resCrcH ; carry is always set here (see brcs jumps to here)
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ror resCrcL
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brcs usbCrcNoXor
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eor resCrcL, polyL
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eor resCrcH, polyH
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usbCrcNoXor:
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subi bitCnt, 224 ; (8 * 224) % 256 = 0; this loop iterates 8 times
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brcs usbCrcBitLoop
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usbCrcLoopEntry:
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subi argLen, -1
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brcs usbCrcByteLoop
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usbCrcReady:
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ret
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; Thanks to Reimar Doeffinger for optimizing this CRC routine!
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#endif /* USB_USE_FAST_CRC */
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; extern unsigned usbCrc16Append(unsigned char *data, unsigned char len);
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usbCrc16Append:
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rcall usbCrc16
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st ptr+, resCrcL
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st ptr+, resCrcH
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ret
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#undef argLen
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#undef argPtrL
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#undef argPtrH
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#undef resCrcL
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#undef resCrcH
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#undef ptrL
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#undef ptrH
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#undef ptr
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#undef byte
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#undef bitCnt
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#undef polyL
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#undef polyH
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#undef scratch
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#if USB_CFG_HAVE_MEASURE_FRAME_LENGTH
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#ifdef __IAR_SYSTEMS_ASM__
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/* Register assignments for usbMeasureFrameLength on IAR cc */
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/* Calling conventions on IAR:
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* First parameter passed in r16/r17, second in r18/r19 and so on.
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* Callee must preserve r4-r15, r24-r29 (r28/r29 is frame pointer)
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* Result is passed in r16/r17
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* In case of the "tiny" memory model, pointers are only 8 bit with no
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* padding. We therefore pass argument 1 as "16 bit unsigned".
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*/
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# define resL r16
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# define resH r17
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# define cnt16L r30
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# define cnt16H r31
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# define cntH r18
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#else /* __IAR_SYSTEMS_ASM__ */
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/* Register assignments for usbMeasureFrameLength on gcc */
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/* Calling conventions on gcc:
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* First parameter passed in r24/r25, second in r22/23 and so on.
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* Callee must preserve r1-r17, r28/r29
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* Result is passed in r24/r25
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*/
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# define resL r24
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# define resH r25
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# define cnt16L r24
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# define cnt16H r25
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# define cntH r26
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#endif
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# define cnt16 cnt16L
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; extern unsigned usbMeasurePacketLength(void);
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; returns time between two idle strobes in multiples of 7 CPU clocks
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.global usbMeasureFrameLength
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usbMeasureFrameLength:
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ldi cntH, 6 ; wait ~ 10 ms for D- == 0
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clr cnt16L
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clr cnt16H
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usbMFTime16:
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dec cntH
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breq usbMFTimeout
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usbMFWaitStrobe: ; first wait for D- == 0 (idle strobe)
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sbiw cnt16, 1 ;[0] [6]
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breq usbMFTime16 ;[2]
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sbic USBIN, USBMINUS ;[3]
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rjmp usbMFWaitStrobe ;[4]
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usbMFWaitIdle: ; then wait until idle again
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sbis USBIN, USBMINUS ;1 wait for D- == 1
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rjmp usbMFWaitIdle ;2
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ldi cnt16L, 1 ;1 represents cycles so far
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clr cnt16H ;1
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usbMFWaitLoop:
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in cntH, USBIN ;[0] [7]
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adiw cnt16, 1 ;[1]
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breq usbMFTimeout ;[3]
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andi cntH, USBMASK ;[4]
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brne usbMFWaitLoop ;[5]
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usbMFTimeout:
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#if resL != cnt16L
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mov resL, cnt16L
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mov resH, cnt16H
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#endif
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ret
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#undef resL
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#undef resH
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#undef cnt16
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#undef cnt16L
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#undef cnt16H
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#undef cntH
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#endif /* USB_CFG_HAVE_MEASURE_FRAME_LENGTH */
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;----------------------------------------------------------------------------
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; Now include the clock rate specific code
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;----------------------------------------------------------------------------
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#ifndef USB_CFG_CLOCK_KHZ
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# ifdef F_CPU
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# define USB_CFG_CLOCK_KHZ (F_CPU/1000)
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# else
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# error "USB_CFG_CLOCK_KHZ not defined in usbconfig.h and no F_CPU set!"
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# endif
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#endif
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2011-12-18 19:35:12 +01:00
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/* place the interrupt routine in .vectors, after the jump to __init.
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Warning: This depends on correct linking order. Link crt0 before usbdrasm! */
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.section .vectors
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2011-10-15 11:31:44 +02:00
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#if USB_CFG_CHECK_CRC /* separate dispatcher for CRC type modules */
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# if USB_CFG_CLOCK_KHZ == 18000
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# include "usbdrvasm18-crc.inc"
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# else
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# error "USB_CFG_CLOCK_KHZ is not one of the supported crc-rates!"
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# endif
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#else /* USB_CFG_CHECK_CRC */
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# if USB_CFG_CLOCK_KHZ == 12000
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# include "usbdrvasm12.inc"
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# elif USB_CFG_CLOCK_KHZ == 12800
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# include "usbdrvasm128.inc"
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# elif USB_CFG_CLOCK_KHZ == 15000
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# include "usbdrvasm15.inc"
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# elif USB_CFG_CLOCK_KHZ == 16000
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# include "usbdrvasm16.inc"
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# elif USB_CFG_CLOCK_KHZ == 16500
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# include "usbdrvasm165.inc"
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# elif USB_CFG_CLOCK_KHZ == 20000
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# include "usbdrvasm20.inc"
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# else
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# error "USB_CFG_CLOCK_KHZ is not one of the supported non-crc-rates!"
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# endif
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#endif /* USB_CFG_CHECK_CRC */
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