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An Altair 8800 S-100 emulator that can run CP/M through a serial PTY.

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Buddy8800 -- An Altair 8800 S-100 Emulator

An Intel 8080 emulated on an S-100 bus with a Motorola 6850 ACIA serial expansion card. Designed for running BASIC and CP/M over a PTY.

Running cpudiag.bin

Getting Started

Doxygen Documentation

You can view the Doxygen documentation, which includes this README but much more descriptive content.

Building

  • Make sure you have installed CMake on your system.
  • Clone the repository and navigate to the root directory.
  • Run git submodule update --init --recursive to fetch Catch2 (v3) and toml11.
  • Run ./build.sh from the root directory. Some flags are listed next.
  • The final executable will be placed in the bin/ directory.

By default, the build script will output a release build that has no tracing and with high optimization. To customize this behavior, some flags are available:

Short Flag Long Flag Action Default
-d --debug Output a debug build, keeping symbol labels and disabling optimization
-r --release Output a release build, enabling optimization Enabled
--trace Enable tracing, outputting information about the emulator's state after each instruction
--trace-essential Enable tracing only for the listing of executed instructions, not the full state
-T --tests Build with tests enabled, compiling and running the Catch2 tests through CTest
-P --perf-stat Run performance metrics at the end of the build, then show the results.
--perf-report Run performance metrics and let the user browse detailed results.
-V --memcheck Run Valgrind's Memcheck tool on the final executable.

Development builds are usually compiled with ./build.sh -d -T.

Note: Make sure you have config.toml placed in the same directory as the final executable. This file contains the configuration for the emulator, such as what cards to place and where.

Running from CLI

You can either call the emulator from CLI passing pairs of file locations for ROMs and their load addresses, or set these loads directly in the configuration file for a more permanent solution. While you can load from the CLI, the config file will still need to contain information about what cards the system is setup with, in fact you could load these ROMs' data into address ranges belonging to any memory device in the system (not I/O since it belongs to a separate address space where an I/O request signal is detected).

bin/buddy8800 your/path/to/rom100.bin 0x100 your/path/to/rom7F00.bin 0x7F00 ...

Is equivalent (see Note) to:

[emulator]
...
start_with_pc_at    = 0x0100
...

[[card]]
slot        = 3
type        = "rom"
at          = 0x0100
load        = "your/path/to/rom100.bin"

[[card]]
slot        = 4
type        = "rom"
at          = 0x7F00
load        = "your/path/to/rom7F00.bin"

Note: The first pair of ROM and address provided by the CLI will generate a few reset vector instruction in the zero page to jump to the first loaded ROM. The config file allows you to specify the starting address for the program counter, which is not the same as the reset vector as it directly sets PC to the specified address, skipping the reset vector. Because of this, be wary of having a value in the config file when trying to load a ROM from the CLI, as the emulator will give priority to the config file provided PC value.

For loading from CLI, the size (range) of the data cards must be determined in the config file, while if using the load field in the config file, the size will be determined by the size of the binary to load. You can also use them both at the same time, filling the extra with 0xFF bytes, but using a range value smaller than the binary size will cause an exception. Here is an example of specifying range, while using the CLI to load the data:

[[card]]
slot        = 10
type        = "rom"
at          = 0x0100
range       = 2048
bin/buddy8800 your/path/to/rom100.bin 0x100

Note that this will not check if the binary file is too large (more than 2048 bytes) for the specified range, and in which case will just continue writing to other cards in the system, which is expected behavior. The CLI loading utility allows you to load data in any range of memory as it serves exactly that purpose, even after having loaded a file already from a config file.

Much of this information is also immediately reported upon running the emulator during setup phase, allowing you to quickly see if the loaded configuration is correct.

Configuration File

Please check the highly descriptive config.toml file for a full list of options and their descriptions. The configuration file is used to specify the system's setup, such as what cards are placed in the system and where, as well as the initial state of the emulator.

For reference, here is a simple test machine setup (only the cards portion of the config file):

[[card]] # 88-SIO serial interface
slot        = 10
type        = "serial"
at          = 0x10

[[card]] # Diagnostics II expects to be loaded in RAM
slot        = 3
type        = "ram"
at          = 0x0100
load        = "tests/res/diag2.com"

[[card]] # Cover all memory space with RAM just in case
slot        = 4
type        = "ram"
at          = 0x0000
range       = 65536
let_collide = true

Resources and Documentation

Here are some of the resources I used to figure out various aspects of this project

Overview

Intel 8080

Intel 8080

Altair 8800

Altair 8800B

Motorola 6850 ACIA

Motorola 6850 ACIA

CP/M

Software

And thank you to the Emulator Development and Lazy Developers Discord servers for general help and support!

Screenshots

First Contact!

The first time the 8080 diagnostics ran to the end!

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An Altair 8800 S-100 emulator that can run CP/M through a serial PTY.

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