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https://github.com/knightos/kernel

Kernel for z80 calculators
https://github.com/knightos/kernel

assembly calculator kernel knightos z80

Last synced: about 1 month ago
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Kernel for z80 calculators

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README 

        
# KnightOS Kernel



The KnightOS kernel is a kernel for Texas Instruments calculators. It offers many unix-like features for

z80 systems, including:



* A tree-based filesystem

* Multitasking (up to 32 concurrent processes)

* Dynamic memory management



This kernel is the basis of [KnightOS](https://github.com/KnightOS/KnightOS), which is a good resource

for others hoping to implement a userspace.



This project is only useful to systems programmers. Please look into KnightOS instead if you are not a

systems programmer.



## Compiling



If you have a pre-compiled kernel image, skip this section.



The toolchain for the kernel was built mostly from scratch, since old z80 tools are, well, old. The new

toolchain supports a lot of the kernel's needs on newer platforms, and works well on Linux, Mac, and

Windows. You'll need to install:



* Mono (or Microsoft.NET on Windows)

* GNU Make

* [sass](https://github.com/KnightOS/sass) (aur/sass)

* [mktiupgrade](https://github.com/KnightOS/mktiupgrade) (aur/mktiupgrade)

* [genkfs](https://github.com/KnightOS/genkfs) (aur/genkfs)

* [mkrom](https://github.com/KnightOS/mkrom) (aur/mkrom)

* [patchrom](https://github.com/KnightOS/patchrom) (aur/patchrom)



genkfs is only strictly neccessary if you hope to build a userspace on top of the kernel. On Windows,

install Cygwin and perform the build from there. Windows users should install sass into their %PATH%.



The kernel needs to be rebuilt for any system you'd like to target (different calculator models). For each

supported calculator model, use the given make target:



| Model                | `make` Target |

| -------------------- | ------------- |

| TI-73                | TI73          |

| TI-73 Explorer       | TI73          |

| TI-83+               | TI83p         |

| TI-83+ SE            | TI83pSE       |

| TI-84+               | TI84p         |

| TI-84+ SE            | TI84pSE       |

| TI-84+ CSE           | TI84pCSE      |

| TI-84 Pocket.fr      | TI84p         |

| TI-84 Plus Pocket SE | TI84pSE       |



Simply run `make [target]` to build the kernel. The default target, when omitted, is `TI84pSE`. This will

produce a kernel image in the `bin/` directory. This will also generate a `kernel.inc` file, which you

can use to link your userspace with the kernel. Run `make clean` before trying to switch platforms.



## Usage



The kernel does not do anything on its own. Instead, it forms the basis for more complex systems. Upon

booting, the kernel loads up the filesystem and runs `/bin/init`. You need to provide this init program

yourself. Here is a simple example init program, which can be assembled with the assembler of your choice:



    #include "kernel.inc"

        ; Program header

        .db "KEXC"

        .db KEXC_STACK_SIZE

        .dw 20

        .db KEXC_ENTRY_POINT

        .dw start

        .db KEXC_HEADER_END

    start:

        pcall(getLcdLock)

        pcall(allocScreenBuffer)

        kld(hl, message)

        ld de, 0

        pcall(drawStr)

        pcall(fastCopy)

        jr $

    message:

        .db "Hello, userspace!", 0



When you compile the kernel, you'll get a ROM file with an empty filesystem. To build the filesystem, you

will need to make an example on your own system to build it from. Then, you can use

[genkfs](https://github.com/KnightOS/genkfs) to generate and write a filesystem to the ROM. If you wish

to build an OS upgrade that you can send to your calculator, use

[mktiupgrade](https://github.com/KnightOS/mktiupgrade).



When you build the kernel, in addition to the ROM file, you will receive a kernel upgrade file (this will

be the .73u, .8xu, or .8cu file in the output directory). This can be used on any KnightOS system to

upgrade the kernel without touching the userspace filesystem.



## Kernel API



The kernel offers an API to userspace to interact with things like threads, memory, hardware, the

filesystem, and more. The API is documented through special comments in the source code, which are

extracted to generate the [online API reference](http://www.knightos.org/documentation/reference/).



## Versioning



The kernel uses semantic versioning. Version numbers are indicated by the latest git tag, and

take the form of `major.minor.patch`. "Patch" is updated when bugs are fixed and for very

minor changes. "Minor" is updated for new features and major non-breaking changes. "Major" is

updated with breaking changes. When you compile your kernel, the kernel version (as an ASCII

string) will be written to address 0x64 on page 0x00.



If you are working with a kernel that is not built from a major release, you will have a

sligthly different kernel version. Appended to the version will be "-nn-hhhhhhhh". "nn" is the

number of commits that have been made since your kernel release. "hhhhhhhh" is the git shorthash

of the commit you're currently on. A "+" will be appended to this if your working directory is

dirty.



## Getting Help



You're free to ask questions about the kernel (or the userspace) in

[#knightos](http://webchat.freenode.net/?channels=knightos&uio=d4) on irc.freenode.net. We're

not always listening, so stick around - it may be a while before your question is answered.



## Help, Bugs, Feedback



If you need help with KnightOS, want to keep up with progress, chat with

developers, or ask any other questions about KnightOS, you can hang out in the

IRC channel: [#knightos on irc.freenode.net](http://webchat.freenode.net/?channels=knightos).



To report bugs, please create [a GitHub issue](https://github.com/KnightOS/KnightOS/issues/new) or contact us on IRC.



If you'd like to contribute to the project, please see the [contribution guidelines](http://www.knightos.org/contributing).



## Licensing



The kernel uses the permissive

[MIT license](https://github.com/KnightOS/kernel/blob/master/LICENSE). It permits use and

modification in most scenarios, including commercial.