; ; Copyright (c) 2007, Adam Dunkels and Oliver Schmidt ; All rights reserved. ; ; Redistribution and use in source and binary forms, with or without ; modification, are permitted provided that the following conditions ; are met: ; 1. Redistributions of source code must retain the above copyright ; notice, this list of conditions and the following disclaimer. ; 2. Redistributions in binary form must reproduce the above copyright ; notice, this list of conditions and the following disclaimer in the ; documentation and/or other materials provided with the distribution. ; 3. Neither the name of the Institute nor the names of its contributors ; may be used to endorse or promote products derived from this software ; without specific prior written permission. ; ; THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND ; ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE ; IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ; ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE ; FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL ; DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS ; OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) ; HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT ; LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY ; OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF ; SUCH DAMAGE. ; ; This file is part of the Contiki operating system. ; ; Author: Adam Dunkels , Oliver Schmidt ; ;--------------------------------------------------------------------- .segment "JUMPTABLE" ; Driver signature .byte $65, $74, $68 ; "eth" .byte $01 ; Ethernet driver API version number ; Ethernet address mac: .byte $00, $0E, $3A ; OUI of Cirrus Logic .byte $11, $11, $11 ; Buffer attributes bufaddr:.res 2 ; Address bufsize:.res 2 ; Size ; Jump table. .addr init .addr poll .addr send .addr exit ;--------------------------------------------------------------------- .zeropage sp: .res 2 ; Stack pointer (Do not trash !) reg: .res 2 ; Address of rxtxreg ptr: .res 2 ; Indirect addressing pointer len: .res 2 ; Frame length cnt: .res 2 ; Frame length counter ;--------------------------------------------------------------------- .rodata fixup: .byte fixup02-fixup01, fixup03-fixup02, fixup04-fixup03 .byte fixup05-fixup04, fixup06-fixup05, fixup07-fixup06 .byte fixup08-fixup07, fixup09-fixup08, fixup10-fixup09 .byte fixup11-fixup10, fixup12-fixup11, fixup13-fixup12 .byte fixup14-fixup13, fixup15-fixup14, fixup16-fixup15 .byte fixup17-fixup16, fixup18-fixup17, fixup19-fixup18 .byte fixup20-fixup19, fixup21-fixup20, fixup22-fixup21 fixups = * - fixup ;--------------------------------------------------------------------- rxtxreg := $FF00 ; High byte patched at runtime txcmd := $FF04 ; High byte patched at runtime txlen := $FF06 ; High byte patched at runtime isq := $FF08 ; High byte patched at runtime packetpp := $FF0A ; High byte patched at runtime ppdata := $FF0C ; High byte patched at runtime .data ;--------------------------------------------------------------------- init: ; Save address of rxtxreg sta reg stx reg+1 ; Start with first fixup location lda #<(fixup01+1) ldx #>(fixup01+1) sta ptr stx ptr+1 ldx #$FF ldy #$00 ; Fixup address at location : lda reg eor (ptr),y ; Use XOR to support C64 RR-Net sta (ptr),y iny lda reg+1 sta (ptr),y dey ; Advance to next fixup location inx cpx #fixups bcs :+ lda ptr clc adc fixup,x sta ptr bcc :- inc ptr+1 bcs :- ; Always ; Activate C64 RR clockport in order to operate RR-Net ; - RR config register overlays CS8900A ISQ register ; - No need to distinguish as ISQ access doesn't hurt : fixup01:lda isq+1 ora #$01 ; Set clockport bit fixup02:sta isq+1 ; Accept valid unicast + broadcast frames ; PACKETPP = $0104, PPDATA = $0D05 lda #$04 jsr packetpp_a1 lda #$05 ldx #$0D jsr ppdata_ax ; Set MAC address ; PACKETPP = $0158, PPDATA = MAC[0], MAC[1] ; PACKETPP = $015A, PPDATA = MAC[2], MAC[3] ; PACKETPP = $015C, PPDATA = MAC[4], MAC[5] ldy #$58 : tya jsr packetpp_a1 lda mac-$58,y ldx mac-$58+1,y jsr ppdata_ax iny iny cpy #$58+6 bcc :- ; Turn on transmission and reception of frames ; PACKETPP = $0112, PPDATA = $00D3 lda #$12 jsr packetpp_a1 lda #$D3 ldx #$00 jsr ppdata_ax rts ;--------------------------------------------------------------------- poll: ; Check receiver event register to see if there ; are any valid unicast frames avaliable ; PACKETPP = $0124, PPDATA & $0D00 ? lda #$24 jsr packetpp_a1 fixup03:lda ppdata+1 and #$0D bne :+ ; No frame ready tax rts ; Process the incoming frame ; -------------------------- ; Read receiver event and discard it ; RXTXREG : fixup04:ldx rxtxreg+1 fixup05:lda rxtxreg ; Read frame length ; cnt = len = RXTXREG fixup06:ldx rxtxreg+1 fixup07:lda rxtxreg sta len stx len+1 sta cnt stx cnt+1 ; Adjust odd frame length jsr adjustcnt ; Is bufsize < cnt ? lda bufsize cmp cnt lda bufsize+1 sbc cnt+1 bcs :+ ; Yes, skip frame jsr skipframe ; No frame ready lda #$00 tax rts ; Read bytes into buffer : jsr adjustptr : fixup08:lda rxtxreg sta (ptr),y iny fixup09:lda rxtxreg+1 sta (ptr),y iny bne :- inc ptr+1 dex bpl :- ; Return frame length lda len ldx len+1 rts ;--------------------------------------------------------------------- send: ; Save frame length sta cnt stx cnt+1 ; Transmit command lda #$C9 ldx #$00 fixup10:sta txcmd fixup11:stx txcmd+1 lda cnt ldx cnt+1 fixup12:sta txlen fixup13:stx txlen+1 ; Adjust odd frame length jsr adjustcnt ; 8 retries ldy #$08 ; Check for avaliable buffer space ; PACKETPP = $0138, PPDATA & $0100 ? : lda #$38 jsr packetpp_a1 fixup14:lda ppdata+1 and #$01 bne :+ ; No space avaliable, skip a received frame jsr skipframe ; And try again dey bne :- rts ; Send the frame ; -------------- ; Write bytes from buffer : jsr adjustptr : lda (ptr),y fixup15:sta rxtxreg iny lda (ptr),y fixup16:sta rxtxreg+1 iny bne :- inc ptr+1 dex bpl :- rts ;--------------------------------------------------------------------- exit: rts ;--------------------------------------------------------------------- packetpp_a1: ldx #$01 fixup17:sta packetpp fixup18:stx packetpp+1 rts ;--------------------------------------------------------------------- ppdata_ax: fixup19:sta ppdata fixup20:stx ppdata+1 rts ;--------------------------------------------------------------------- skipframe: ; PACKETPP = $0102, PPDATA = PPDATA | $0040 lda #$02 jsr packetpp_a1 fixup21:lda ppdata ora #$40 fixup22:sta ppdata rts ;--------------------------------------------------------------------- adjustcnt: lsr bcc :+ inc cnt bne :+ inc cnt+1 : rts ;--------------------------------------------------------------------- adjustptr: lda cnt ldx cnt+1 eor #$FF ; Two's complement part 1 tay iny ; Two's complement part 2 sty reg sec lda bufaddr sbc reg sta ptr lda bufaddr+1 sbc #$00 sta ptr+1 rts ;---------------------------------------------------------------------