This is my attempt to run CP/M 2.2 for Z80 softwares on an ESP8266. The CP/M machine have 64K RAM, 15 floppy drives @ 250KB each and an autobauding serial port as a console device.
Since the ESP8266 only have 96KB of Data RAM and even when runnig the "NONOS-firmware from Espressif the free heap, after the WIFI & TCP/IP stacks are loaded, is less than 48KB which was my minimum goal for CP/M RAM.
Luckily the nosdk8266 project from cnlohr solves the RAM issue. By using the it I get more than 80KB of heap which is more than enough for the 64KB RAM in the Emulator. But this unfortunately comes with a cost - namlely no wifi. Not really a showstopper for me, but it would have been nice to be able to just Telnet into the CP/M machine to connect to the emulated terminal.
But not all hope is lost for those who want wifi and telnet - I'm currently patching in an option to compile a version with about 36K RAM, wifi and one less floppy disk.
The 36K RAM wifi/telnet option works kinda ok, but it only leaves about 5.9K free memory in MBASIC. And it is also too small run Turbo Pascal or the classic Ladder game.
You will need ESP-Open-SDK installed. If you don't already have it you can get it at https://github.com/pfalcon/esp-open-sdk. Just follow the installation instructions there and be prepared for a lengthy (but automated) process.
I've only setup this for for Debian/Ubuntu but most dists should be fairly similar.
Unless you already have git installed you should install it
apt-get install git
Then install the prerequisites for pfalcon/esp-open-sdk
apt-get install make unrar-free autoconf automake libtool gcc g++
apt-get install gperf flex bison texinfo gawk ncurses-dev
apt-get install libexpat-dev python-dev python python-serial
apt-get install sed git unzip bash help2man wget bzip2 libtool-bin
Install the esp-open-sdk
git clone --recursive https://github.com/pfalcon/esp-open-sdk.git
cd esp-open-sdk
make
export PATH=~/esp-open-sdk/xtensa-lx106-elf/bin:$PATH
cd ..
Install prerequisites for cpm8266
apt-get install z80asm cpmtools zip vim-common
The vim-common is to get the xxd utility that some distros don't install by default. Thank you @drawkula for reporting this.
Clone the cpm8266 repo and config your environment
Instead of setting and exporting these environment variables you could change the settings in the top of the Makefile instead
git clone https://github.com/SmallRoomLabs/cpm8266.git
cd cpm8266/code
export ESP8266SDK=~/esp-open-sdk
export ESPTOOL=~/esp-open-sdk/esptool/esptool.py
export ESPPORT=/dev/ttyUSB0
Compile the emulator and all cp/m disks and upload it to the ESP8266
make full
Connect to the emulator and boot into CP/M
Run any serial terminal emulator set to 8N1 at any standard speed between 300 and 115200 baud. To run any full screen CP/M programs you should have VT100/ANSI terminal emulation.
Just to get started you can install the "screen" package and use that as a serial terminal.
apt-get install screen
And then connect with:
screen /dev/ttyUSB0 9600
Press Enter twice to autobaud and boot into the CP/M.
To compile with the wifi option enabled
Either do a
BUILD=WIFI make full
or change the BUILD option in the Makefile.
After the full re-compile and upload of all disks you can connect via telnet port 23 (the default telnet port) after the red led (on the NodeMCU board) goes off. The led is lit as long as the wifi has not received the ip address via DHCP.
I'm standing on the shoulders of a lot of really smart people here. Without their contributions I wouldn't even know where to start.
Paul Sokolovsky @pfalcon made the Esp-Open-SDK installer/setup. https://github.com/pfalcon
Lin Ke-Fong @anotherlin made the Z80 Emulator. https://github.com/anotherlin
Charles Lohr @CNLohr created the NoSDK for the ESP8266. https://github.com/cnlohr
Tim Olmstead (RIP) for managing to free the CP/M sources from their owners http://www.cpm.z80.de/