mirror of
https://github.com/transistorfet/moa.git
synced 2024-11-28 20:50:13 +00:00
Updated readme
This commit is contained in:
parent
cb47d23233
commit
b4a80c6969
59
README.md
59
README.md
@ -4,19 +4,52 @@ Moa
|
||||
|
||||
###### *Started September 26, 2021*
|
||||
|
||||
An emulator for m68k CPUs and devices. I originally started this project to
|
||||
distract myself while recovering from a bout of sickness. The idea was to
|
||||
emulate the computer I had built as part of the
|
||||
[computie project](https://transistorfet.github.io/projects/computie).
|
||||
Moa is an emulator/simulator for computers using various 68000 and Z80 CPUs and
|
||||
peripherals. The original idea was to emulate the computer I had built as part
|
||||
of the [Computie project](https://transistorfet.github.io/projects/computie).
|
||||
|
||||
Currently it can run the monitor program and load the kernel across serial
|
||||
(or the kernel can be loaded directly into memory), and it can boot the kernel.
|
||||
It opens two PTYs: one for the serial terminal, and one for the SLIP connection,
|
||||
and launches both `pyserial-miniterm` automatically connected to the console PTY,
|
||||
and launches `slattach` with the associated setup commands to create the SLIP
|
||||
device on the host, and set up routing.
|
||||
Currently it can simulate Computie (68000) and the TRS-80 Model I (Z80), and I'm
|
||||
working on supporting the Macintosh 512k and Sega Genesis.
|
||||
|
||||
There are currently peripheral emulators for the MC68681 dual serial port
|
||||
controller, and the ATA device, which loads the compact flash image on startup,
|
||||
which the OS can read.
|
||||
For Computie, it can do everything the 68k-SMT board can do, including run the
|
||||
monitor program and load the Computie OS kernel and boot it from the
|
||||
CompactFlash card. To run it:
|
||||
```
|
||||
cargo run -p moa-console --bin moa-computie
|
||||
```
|
||||
It will open two PTYs: one for the serial terminal, and one for the SLIP
|
||||
connection. Once open, it will try to launch both `pyserial-miniterm` as a
|
||||
separate process and connect to the Computie PTY. It will also launch
|
||||
`slattach` with the associated setup commands to create the SLIP device on the
|
||||
host, and set up host routing. The exact commands in
|
||||
`src/machines/computie.rs` might need to be adjusted to work on different
|
||||
hosts.
|
||||
|
||||
For the TRS-80, it can run Level I or Level II Basic, but it doesn't yet
|
||||
support a cassette tape drive or floppy drive. I haven't tested it that
|
||||
thoroughly either, so any help with it would be welcome. I mostly made it to
|
||||
test the Z80 cpu implementation in a simpler computer before I used in the
|
||||
Genesis emulator. The frontend uses the
|
||||
[`minifb`](https://github.com/emoon/rust_minifb) rust crate to open a window
|
||||
and render the characters to screen, as well as accept input from the keyboard.
|
||||
```
|
||||
cargo run -p moa-minifb --release --bin moa-trs-80 --
|
||||
```
|
||||
By default it will start Level I Basic. To use the other rom, add the option
|
||||
`--rom binaries/trs80/level2.rom`
|
||||
|
||||
The Genesis emulator is a work in progress but can be run with:
|
||||
```
|
||||
cargo run -p moa-minifb --release --bin moa-genesis
|
||||
```
|
||||
|
||||
By default, the minifb frontend will scale the window by 2. This can be
|
||||
changed with the `--scale [1,2,4]` option.
|
||||
|
||||
The `-d` or `--debugger` option will make the emulator start the debugger
|
||||
before running. There is a simple built-in debugger for stepping through
|
||||
the rom instructions being emulated. The state of the CPU registers will
|
||||
be displayed after each instruction, breakpoints can be set, memory contents
|
||||
can be examined, and memory locations can be modified. This has helped a lot
|
||||
with tracking down errors in the emulator itself.
|
||||
|
||||
|
Loading…
Reference in New Issue
Block a user