recipes/rc2014/sdcard: now works under Forth!
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@ -33,24 +33,17 @@ in write protection mode, but I preferred building my own module.
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I don't think you need a schematic. It's really simple.
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## Using the at28 driver
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## Building your stage 4
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The AT28 driver is at `drv/at28.fs` and is a pure forth source file so it's
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rather easy to set up from the base Stage 3 binary:
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cat ../stage3.bin ../pre.fs ../../../drv/at28.fs ../run.fs > os.bin
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../../../emul/hw/rc2014/classic os.bin
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Using the same technique as you used for building your stage 3, you can append
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required words to your boot binary. Required units are `forth/adev.fs` and
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`drv/at28.fs`.
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## Writing contents to the AT28
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The driver provides `AT28!` which can be plugged in adev's `A!*`.
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It's not in the Stage 3 binary, but because it's a small piece of Forth code,
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let's just run its definition code:
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cat ../../../drv/at28.fs | ./stripfc | ./exec <tty device>
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Then, upload your binary to some place in memory, for example `a000`. To do so,
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First, upload your binary to some place in memory, for example `a000`. To do so,
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run this from your modern computer:
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./upload <tty device> a000 <filename>
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@ -1,19 +0,0 @@
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TARGETS = os.bin cfsin/helo
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BASEDIR = ../../..
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ZASM = $(BASEDIR)/emul/zasm/zasm
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KERNEL = $(BASEDIR)/kernel
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APPS = $(BASEDIR)/apps
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CFSPACK = $(BASEDIR)/tools/cfspack/cfspack
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.PHONY: all
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all: $(TARGETS) sdcard.cfs
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os.bin: glue.asm
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cfsin/helo: helo.asm
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$(TARGETS):
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$(ZASM) $(KERNEL) $(APPS) < glue.asm > $@
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$(CFSPACK):
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make -C $(BASEDIR)/tools/cfspack
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sdcard.cfs: cfsin $(CFSPACK)
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$(CFSPACK) cfsin > $@
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@ -8,7 +8,7 @@ You can't really keep pins high and low on an IO line. You need some kind of
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intermediary between z80 IOs and SPI.
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There are many ways to achieve this. This recipe explains how to build your own
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hacked off SPI relay for the RC2014. It can then be used with `sdc.asm` to
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hacked off SPI relay for the RC2014. It can then be used with `sdc.fs` to
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drive a SD card.
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## Goal
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@ -18,10 +18,8 @@ design.
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## Gathering parts
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* A RC2014 with Collapse OS with these features:
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* shell
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* blockdev
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* sdc
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* A RC2014 Classic
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* `stage3.bin` from the base recipe
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* A MicroSD breakout board. I use Adafruit's.
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* A proto board + header pins with 39 positions so we can make a RC2014 card.
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* Diodes, resistors and stuff
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@ -34,7 +32,7 @@ design.
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## Building the SPI relay
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The [schematic][schematic] supplied with this recipe works well with `sdc.asm`.
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The [schematic][schematic] supplied with this recipe works well with `sdc.fs`.
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Of course, it's not the only possible design that works, but I think it's one
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of the most straighforwards.
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@ -71,95 +69,41 @@ matter. However, it *does* matter for the `SELECT` line, so I don't follow my
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own schematic with regards to the `M1` and `A2` lines and use two inverters
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instead.
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## Building the kernel
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## Building your stage 4
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To be able to work with your SPI relay and communicate with the card, you
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should have [glue code that looks like this](glue.asm).
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Using the same technique as you used for building your stage 3, you can append
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required words to your boot binary. Required units are `forth/blk.fs` and
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`drv/sdc.fs`. You also need `drv/sdc.z80` but to save you the troubles of
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rebuilding from stage 1 for this recipe, we took the liberty of already having
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included it in the base recipe.
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Initially, when you don't know if things work well yet, you should comment out
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the block creation part.
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## Testing in the emulator
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## Reading from the SD card
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The RC2014 emulator includes SDC emulation. You can attach a SD card image to
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it by invoking it with a second argument:
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The first thing we'll do is fill the SD card's first 12 bytes with "Hello
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World!":
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../../../emul/hw/rc2014/classic stage4.bin ../../../emul/blkfs
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echo "Hello World!" > /dev/sdX
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You will then run with a SD card having the contents from `/blk`.
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Then, insert your SD card in your SPI relay and boot the RC2014.
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## Usage
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Run the `sdci` command which will initialize the card. The blockdev 0 is
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already selected at initialization, but you could, to be sure, run `bsel 0` to
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select the first blockdev, which is configured to be the sd card.
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First, the SD card needs to be initialized
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Set your memory pointer to somewhere you can write to with `mptr 9000` and then
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you're ready to load your contents with `load d` (load the 13 bytes that you
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wrote to your sd card earlier. You can then `peek d` and see that your
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"Hello World!\n" got loaded in memory!
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SDC$
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## Mounting a filesystem from the SD card
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If there is no error message, we're fine. Then, we need to hook `BLK@*` and
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`BLK!*` into the SDC driver:
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The Makefile compiles `helo.asm` in `cfsin` and then packs `cfsin` into a CFS
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filesystem into the `sdcard.cfs` file. That can be mounted by Collapse OS!
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' SDC@ BLK@* !
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' SDC! BLK!* !
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$ cat sdcard.cfs > /dev/sdX
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And thats it! You have full access to disk block mechanism:
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Then, you insert your SD card in your SPI relay and go:
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102 LOAD
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BROWSE
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Collapse OS
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> sdci
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> fson
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> fls
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helo
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hello.txt
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> helo
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Hello!
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>
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The `helo` command is a bit magical and is due to the hook implemented in
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`pgm.asm`: when an unknown command is typed, it looks in the currently mounted
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filesystem for a file with the same name. If it finds it, it loads it in memory
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at a predefined place (in our case, `0x9000`) and executes it.
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Now let that sink in for a minute. You've just mounted a filesystem on a SD
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card, loaded a file from it in memory and executed that file, all that on a
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kernel that weights less than 3 kilobytes!
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## Writing to a file in the SD card
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Now what we're going to do is to write back to a file on the SD card. From a
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system with the SD card initialized and the FS mounted, do:
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> fopn 0 hello.txt
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> bsel 1
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> mptr 9000
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9000
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> load d
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> peek d
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48656C6C6F20576F726C64210A
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Now that we have our "Hello World!\n" loaded in memory, let's modify it and make
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it start with "XXX" and save it to the file. `sdcf` flushes the current SD card
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buffer to the card. It's automatically ran whenever we change sector during a
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read/write/seek, but was can also explicitly call it with `sdcf`.
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> poke 3
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[type "XXX"]
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> peek d
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5858586C6F20576F726C64210A
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> seek 00 0000
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0000
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> save d
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> sdcf
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The new "XXXlo World!\n" is now written to the card, at its proper place in CFS!
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You can verify this by pulling out the card (no need to unmount it from Collapse
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OS, but if you insert it again, you'll need to run `sdci` again), insert it in
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your modern system and run:
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$ head -c 512 /dev/sdX | xxd
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You'll see your "XXXlo World!\n" somewhere, normally at offset `0x120`!
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(at this moment, the driver is a bit slow though...)
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[schematic]: spirelay/spirelay.pdf
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[inspiration]: https://www.ecstaticlyrics.com/electronics/SPI/fast_z80_interface.html
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@ -1,114 +0,0 @@
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; classic RC2014 setup (8K ROM + 32K RAM) and a stock Serial I/O module
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; The RAM module is selected on A15, so it has the range 0x8000-0xffff
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.equ RAMSTART 0x8000
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.equ RAMEND 0xffff
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.equ ACIA_CTL 0x80 ; Control and status. RS off.
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.equ ACIA_IO 0x81 ; Transmit. RS on.
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.equ USER_CODE 0xa000
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jp init ; 3 bytes
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; *** Jump Table ***
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jp printstr
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jp sdcWaitResp
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jp sdcCmd
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jp sdcCmdR1
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jp sdcCmdR7
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jp sdcSendRecv
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; interrupt hook
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.fill 0x38-$
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jp aciaInt
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.inc "err.h"
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.inc "ascii.h"
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.inc "blkdev.h"
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.inc "fs.h"
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.inc "core.asm"
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.inc "str.asm"
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.equ ACIA_RAMSTART RAMSTART
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.inc "acia.asm"
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.equ BLOCKDEV_RAMSTART ACIA_RAMEND
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.equ BLOCKDEV_COUNT 2
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.inc "blockdev.asm"
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; List of devices
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.dw sdcGetB, sdcPutB
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.dw blk2GetB, blk2PutB
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.equ STDIO_RAMSTART BLOCKDEV_RAMEND
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.equ STDIO_GETC aciaGetC
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.equ STDIO_PUTC aciaPutC
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.inc "stdio.asm"
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.equ FS_RAMSTART STDIO_RAMEND
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.equ FS_HANDLE_COUNT 1
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.inc "fs.asm"
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; *** BASIC ***
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; RAM space used in different routines for short term processing.
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.equ SCRATCHPAD_SIZE STDIO_BUFSIZE
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.equ SCRATCHPAD FS_RAMEND
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.inc "lib/util.asm"
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.inc "lib/ari.asm"
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.inc "lib/parse.asm"
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.inc "lib/fmt.asm"
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.equ EXPR_PARSE parseLiteralOrVar
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.inc "lib/expr.asm"
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.inc "basic/util.asm"
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.inc "basic/parse.asm"
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.inc "basic/tok.asm"
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.equ VAR_RAMSTART SCRATCHPAD+SCRATCHPAD_SIZE
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.inc "basic/var.asm"
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.equ BUF_RAMSTART VAR_RAMEND
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.inc "basic/buf.asm"
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.inc "basic/blk.asm"
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.inc "basic/sdc.asm"
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.equ BFS_RAMSTART BUF_RAMEND
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.inc "basic/fs.asm"
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.equ BAS_RAMSTART BFS_RAMEND
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.inc "basic/main.asm"
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.equ SDC_RAMSTART BAS_RAMEND
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.equ SDC_PORT_CSHIGH 6
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.equ SDC_PORT_CSLOW 5
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.equ SDC_PORT_SPI 4
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.inc "sdc.asm"
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init:
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di
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ld sp, RAMEND
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im 1
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call aciaInit
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call fsInit
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call basInit
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ld hl, basFindCmdExtra
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ld (BAS_FINDHOOK), hl
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xor a
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ld de, BLOCKDEV_SEL
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call blkSel
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ei
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jp basStart
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basFindCmdExtra:
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ld hl, basFSCmds
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call basFindCmd
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ret z
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ld hl, basBLKCmds
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call basFindCmd
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ret z
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ld hl, basSDCCmds
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jp basFindCmd
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; *** blkdev 2: file handle 0 ***
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blk2GetB:
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ld ix, FS_HANDLES
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jp fsGetB
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blk2PutB:
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ld ix, FS_HANDLES
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jp fsPutB
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; prints "Hello!" on screen
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.equ printstr 0x03
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.org 0x9000
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ld hl, sHello
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call printstr
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xor a ; success
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ret
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sHello:
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.db "Hello!", 0x0d, 0x0a, 0
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