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There are scenarios in which it is beneficial to search for an Etherne chip at several i/o locations. To do so the chip initialization is performed at several i/o locations until it succeeds. In order to allow for that operation model the i/o location fixup needs to be repeatable. Note: This won't work with the RR-Net because the fixup bits overlap with the chip i/o bits.
434 lines
9.8 KiB
ArmAsm
434 lines
9.8 KiB
ArmAsm
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; Copyright (c) 2003-2007, Adam Dunkels, Josef Soucek and Oliver Schmidt
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; All rights reserved.
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;
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; Redistribution and use in source and binary forms, with or without
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; modification, are permitted provided that the following conditions
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; are met:
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; 1. Redistributions of source code must retain the above copyright
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; notice, this list of conditions and the following disclaimer.
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; 2. Redistributions in binary form must reproduce the above copyright
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; notice, this list of conditions and the following disclaimer in the
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; documentation and/or other materials provided with the distribution.
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; 3. Neither the name of the Institute nor the names of its contributors
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; may be used to endorse or promote products derived from this software
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; without specific prior written permission.
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;
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; THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND
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; ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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; IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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; ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE
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; FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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; DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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; OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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; HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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; LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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; OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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; SUCH DAMAGE.
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;
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; This file is part of the Contiki operating system.
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;
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; Author: Adam Dunkels <adam@sics.se>, Josef Soucek <josef.soucek@ide64.org>,
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; Oliver Schmidt <ol.sc@web.de>
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;
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;---------------------------------------------------------------------
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.macpack module
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module_header _lan91c96
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; Driver signature
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.byte $65, $74, $68 ; "eth"
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.byte $01 ; Ethernet driver API version number
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; Ethernet address
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mac: .byte $00, $80, $0F ; OUI of Standard Microsystems
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.byte $11, $11, $11
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; Buffer attributes
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bufaddr:.res 2 ; Address
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bufsize:.res 2 ; Size
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; Jump table.
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jmp init
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jmp poll
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jmp send
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jmp exit
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;---------------------------------------------------------------------
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.if DYN_DRV
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.zeropage
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sp: .res 2 ; Stack pointer (Do not trash !)
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reg: .res 2 ; Address of register base
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ptr: .res 2 ; Indirect addressing pointer
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len: .res 2 ; Frame length
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.else
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.include "zeropage.inc"
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reg := ptr1 ; Address of register base
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ptr := ptr2 ; Indirect addressing pointer
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len := ptr3 ; Frame length
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.endif
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;---------------------------------------------------------------------
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.rodata
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fixup: .byte fixup02-fixup01, fixup03-fixup02, fixup04-fixup03
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.byte fixup05-fixup04, fixup06-fixup05, fixup07-fixup06
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.byte fixup08-fixup07, fixup09-fixup08, fixup10-fixup09
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.byte fixup11-fixup10, fixup12-fixup11, fixup13-fixup12
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.byte fixup14-fixup13, fixup15-fixup14, fixup16-fixup15
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.byte fixup17-fixup16, fixup18-fixup17, fixup19-fixup18
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.byte fixup20-fixup19, fixup21-fixup20, fixup22-fixup21
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.byte fixup23-fixup22, fixup24-fixup23, fixup25-fixup24
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.byte fixup26-fixup25, fixup27-fixup26, fixup28-fixup27
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.byte fixup29-fixup28, fixup30-fixup29, fixup31-fixup30
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.byte fixup32-fixup31, fixup33-fixup32, fixup34-fixup33
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.byte fixup35-fixup34, fixup36-fixup35, fixup37-fixup36
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.byte fixup38-fixup37, fixup39-fixup38
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fixups = * - fixup
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;---------------------------------------------------------------------
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; 3 most significant nibbles are fixed up at runtime
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ethbsr := $FFFE ; Bank select register R/W (2B)
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; Register bank 0
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ethtcr := $FFF0 ; Transmition control register R/W (2B)
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ethephsr := $FFF2 ; EPH status register R/O (2B)
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ethrcr := $FFF4 ; Receive control register R/W (2B)
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ethecr := $FFF6 ; Counter register R/O (2B)
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ethmir := $FFF8 ; Memory information register R/O (2B)
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ethmcr := $FFFA ; Memory Config. reg. +0 R/W +1 R/O (2B)
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; Register bank 1
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ethcr := $FFF0 ; Configuration register R/W (2B)
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ethbar := $FFF2 ; Base address register R/W (2B)
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ethiar := $FFF4 ; Individual address register R/W (6B)
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ethgpr := $FFFA ; General address register R/W (2B)
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ethctr := $FFFC ; Control register R/W (2B)
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; Register bank 2
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ethmmucr := $FFF0 ; MMU command register W/O (1B)
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ethautotx := $FFF1 ; AUTO TX start register R/W (1B)
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ethpnr := $FFF2 ; Packet number register R/W (1B)
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etharr := $FFF3 ; Allocation result register R/O (1B)
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ethfifo := $FFF4 ; FIFO ports register R/O (2B)
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ethptr := $FFF6 ; Pointer register R/W (2B)
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ethdata := $FFF8 ; Data register R/W (4B)
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ethist := $FFFC ; Interrupt status register R/O (1B)
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ethack := $FFFC ; Interrupt acknowledge register W/O (1B)
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ethmsk := $FFFD ; Interrupt mask register R/W (1B)
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; Register bank 3
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ethmt := $FFF0 ; Multicast table R/W (8B)
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ethmgmt := $FFF8 ; Management interface R/W (2B)
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ethrev := $FFFA ; Revision register R/W (2B)
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ethercv := $FFFC ; Early RCV register R/W (2B)
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.data
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;---------------------------------------------------------------------
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init:
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; Save address of register base
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sta reg
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stx reg+1
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; Start with first fixup location
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lda #<(fixup01+1)
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ldx #>(fixup01+1)
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sta ptr
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stx ptr+1
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ldx #$FF
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ldy #$00
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; Fixup address at location
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: lda (ptr),y
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and #$0F
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ora reg
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sta (ptr),y
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iny
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lda reg+1
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sta (ptr),y
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dey
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; Advance to next fixup location
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inx
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cpx #fixups
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bcs :+
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lda ptr
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clc
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adc fixup,x
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sta ptr
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bcc :-
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inc ptr+1
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bcs :- ; Always
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; Check bank select register upper byte to always read as $33
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: ldy #$00
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fixup01:sty ethbsr+1
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fixup02:lda ethbsr+1
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cmp #$33
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beq :+
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sec
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rts
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; Reset ETH card
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: ; Bank 0
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fixup03:sty ethbsr
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lda #%10000000 ; Software reset
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fixup04:sta ethrcr+1
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fixup05:sty ethrcr
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fixup06:sty ethrcr+1
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; Delay
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: cmp ($FF,x) ; 6 cycles
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cmp ($FF,x) ; 6 cycles
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iny ; 2 cycles
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bne :- ; 3 cycles
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; 17 * 256 = 4352 -> 4,4 ms
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; Enable transmit and receive
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lda #%10000001 ; Enable transmit TXENA, PAD_EN
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ldx #%00000011 ; Enable receive, strip CRC ???
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fixup07:sta ethtcr
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fixup08:stx ethrcr+1
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lda #$01 ; Bank 1
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fixup09:sta ethbsr
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fixup10:lda ethcr+1
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ora #%00010000 ; No wait (IOCHRDY)
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fixup11:sta ethcr+1
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lda #%00001001 ; Auto release
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fixup12:sta ethctr+1
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; Set MAC address
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ldy #$00
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: lda mac,y
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fixup13:sta ethiar,y
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iny
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cpy #$06
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bcc :-
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; Set interrupt mask
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lda #$02 ; Bank 2
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fixup14:sta ethbsr
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lda #%00000000 ; No interrupts
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fixup15:sta ethmsk
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tax
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clc
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rts
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;---------------------------------------------------------------------
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poll:
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fixup16:lda ethist
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and #%00000001 ; RCV INT
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beq :+
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; Process the incoming packet
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; ---------------------------
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lda #$00
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ldx #%11100000 ; RCV, AUTO INCR., READ
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fixup17:sta ethptr
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fixup18:stx ethptr+1
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; Last word contains 'last data byte' and $60 or 'fill byte' and $40
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fixup19:lda ethdata ; Status word
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fixup20:lda ethdata ; Need high byte only
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; Move ODDFRM bit into carry:
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; - Even packet length -> carry clear -> subtract 6 bytes
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; - Odd packet length -> carry set -> subtract 5 bytes
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lsr
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lsr
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lsr
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lsr
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lsr
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; The packet contains 3 extra words
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fixup21:lda ethdata ; Total number of bytes
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sbc #$05 ; Actually 5 or 6 depending on carry
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sta len
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fixup22:lda ethdata
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sbc #$00
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sta len+1
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; Is bufsize < len ?
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lda bufsize
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cmp len
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lda bufsize+1
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sbc len+1
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bcs :++
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; Yes, skip packet
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jsr releasepacket
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; No packet available
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lda #$00
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: tax
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sec
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rts
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; Read bytes into buffer
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: jsr adjustptr
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:
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fixup23:lda ethdata
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sta (ptr),y
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iny
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bne :-
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inc ptr+1
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dex
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bpl :-
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; Remove and release RX packet from the FIFO
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jsr releasepacket
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; Return packet length
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lda len
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ldx len+1
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clc
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rts
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;---------------------------------------------------------------------
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send:
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; Save packet length
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sta len
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stx len+1
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; Allocate memory for TX
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txa
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ora #%00100000
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fixup24:sta ethmmucr
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; 8 retries
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ldy #$08
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; Wait for allocation ready
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:
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fixup25:lda ethist
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and #%00001000 ; ALLOC INT
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bne :+
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; No space avaliable, skip a received frame
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jsr releasepacket
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; And try again
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dey
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bne :-
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sec
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rts
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; Acknowledge interrupt, is it necessary ???
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: lda #%00001000
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fixup26:sta ethack
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; Set packet address
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fixup27:lda etharr
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fixup28:sta ethpnr
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lda #$00
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ldx #%01000000 ; AUTO INCR.
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fixup29:sta ethptr
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fixup30:stx ethptr+1
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; Status written by CSMA
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lda #$00
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fixup31:sta ethdata
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fixup32:sta ethdata
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; Check packet length parity:
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; - Even packet length -> carry set -> add 6 bytes
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; - Odd packet length -> carry clear -> add 5 bytes
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lda len
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eor #$01
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lsr
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; The packet contains 3 extra words
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lda len
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adc #$05 ; Actually 5 or 6 depending on carry
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fixup33:sta ethdata
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lda len+1
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adc #$00
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fixup34:sta ethdata
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; Send the packet
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; ---------------
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; Write bytes from buffer
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jsr adjustptr
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: lda (ptr),y
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fixup35:sta ethdata
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iny
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bne :-
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inc ptr+1
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dex
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bpl :-
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; Odd packet length ?
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lda len
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lsr
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bcc :+
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; Yes
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lda #%00100000 ; ODD
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bne :++ ; Always
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; No
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: lda #$00
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fixup36:sta ethdata ; Fill byte
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:
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fixup37:sta ethdata ; Control byte
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; Add packet to FIFO
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lda #%11000000 ; ENQUEUE PACKET - transmit packet
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fixup38:sta ethmmucr
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clc
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rts
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;---------------------------------------------------------------------
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exit:
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rts
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;---------------------------------------------------------------------
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releasepacket:
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; Remove and release RX packet from the FIFO
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lda #%10000000
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fixup39:sta ethmmucr
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rts
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;---------------------------------------------------------------------
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adjustptr:
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lda len
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ldx len+1
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eor #$FF ; Two's complement part 1
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tay
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iny ; Two's complement part 2
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sty reg
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sec
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lda bufaddr
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sbc reg
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sta ptr
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lda bufaddr+1
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sbc #$00
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sta ptr+1
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rts
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;---------------------------------------------------------------------
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