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collapseos/doc/hw/arduinouno/code/at28dump.asm
Virgil Dupras 7001446212 Complete overhaul of recipes
Recipes contain bits and pieces of hardware-related knowledge, but
these bits feel sparse. I've been wanting to consolidate hardware-
related documentation for a while, but always fell at odds with the
recipes organisation.

We don't have recipes anymore, just a /doc/hw section that contains
hardware-related documentation which often translate to precise
instructions to run Collapse OS on a specific machine.

With this new organisation, I hope to end up with a better, more
solid documentation.
2020-10-30 20:39:39 -04:00

140 lines
2.7 KiB
NASM

; Use this as a debug companion to at28wr. This simply dumps, TTY-escaped, the
; contents of the AT28.
;
; TODO: not always, but sometimes, the output starts with a spurious 0xFF. But
; otherwise, the rest of the contents is good, albeit offset by 1 (that is, the
; byte after the spurious 0xFF is the contents at addr 0). Weird, to fix.
.include "m328Pdef.inc"
; *** Pins ***
.equ SRCP = PORTB2
.equ SRDS = PORTB1
.equ FLWE = PORTB3
.equ FLOE = PORTB4
.equ FLCE = PORTB5 ; WARNING: same as LED
; *** Consts ***
.equ BAUD_PRESCALE = 103 ; 9600 bauds at 16mhz
rjmp main
; *** Code ***
; Sends char in r20 to UART
; Perform TTY-escape transparently.
uartwr:
lds r16, UCSR0A
sbrs r16, UDRE0 ; wait until send buffer is empty
rjmp uartwr
; should we escape?
cpi r20, 0x21
brsh uartwr_0 ; r20 >= 0x21, skip
; escape
ori r20, 0x80
ldi r16, 0x20
sts UDR0, r16
rjmp uartwr
uartwr_0:
sts UDR0, r20
ret
; send r23 to addr shift register.
; We send highest bits first so that Q7 is the MSB and Q0 is the LSB
sendaddr:
ldi r16, 8 ; we will loop 8 times
cbi PORTB, SRDS
sbrc r23, 7 ; if latest bit isn't cleared, set SER_DP high
sbi PORTB, SRDS
; toggle SRCP, not waiting between pulses. The CD74AC164 at 5V has a
; 5.9ns CP min pulse width. We can't match that at 16mhz. No need to
; wait.
cbi PORTB, SRCP
sbi PORTB, SRCP
lsl r23 ; shift our data left
dec r16
brne sendaddr+1 ; not zero yet? loop! (+1 to avoid reset)
ret
; push r20 to the rom and increase the memory counter
nextaddr:
; first, set up addr
mov r23, r21
rcall sendaddr
mov r23, r22
rcall sendaddr
inc r22
brne nextaddr_0 ; no overflow? skip
inc r21
nextaddr_0:
ret
; read EEPROM's I/O7:0 through PD7:2 and PB1:0 into r20
readdata:
cbi PORTB, FLCE
cbi PORTB, FLOE
nop ; 70ns max delay on at28
nop
nop
nop
; read bits 7:2
in r20, PIND
andi r20, 0xfc
; read bits 1:0
in r16, PINB
andi r16, 0x03
or r20, r16
sbi PORTB, FLOE
sbi PORTB, FLCE
ret
; Set PD7:2 and PB1:0 to output
ioout:
ldi r16, 0xfc ; PD7:2
out DDRD, r16
ldi r16, 0x3f ; PB5:0 (CP, WE, OE and CE too)
out DDRB, r16
ret
; Set PD7:2 and PB1:0 to input
ioin:
ldi r16, 0x03 ; PD7:2
out DDRD, r16
ldi r16, 0x3c ; PB1:0
out DDRB, r16
ret
main:
ldi r16, low(RAMEND)
out SPL, r16
ldi r16, high(RAMEND)
out SPH, r16
; We begin with WE and OE disabled (high), but CE stays enabled (low)
; the whole time.
sbi PORTB, FLWE
sbi PORTB, FLOE
sbi PORTB, FLCE
; Clear counters and flags
clr r21
clr r22
; Setup UART
ldi R16, low(BAUD_PRESCALE)
sts UBRR0L, r16
ldi r16, high(BAUD_PRESCALE)
sts UBRR0H, r16
ldi r16, (1<<TXEN0)
sts UCSR0B, r16
loop:
rcall ioout
rcall nextaddr
rcall ioin
rcall readdata
rcall uartwr
rjmp loop