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128 lines
5.1 KiB
Markdown
128 lines
5.1 KiB
Markdown
# emul
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This folder contains a couple of tools running under the [libz80][libz80]
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emulator.
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## Not real hardware
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In the few emulated apps described below, we don't try to emulate real hardware
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because the goal here is to facilitate userspace development.
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These apps run on imaginary hardware and use many cheats to simplify I/Os.
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For real hardware emulation (which helps developing drivers), see the `hw`
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folder.
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## Build
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First, make sure that the `libz80` git submodule is checked out. If not, run
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`git submodule init && git submodule update`.
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After that, you can run `make` and it builds all applications.
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## shell
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Running `shell/shell` runs the BASIC shell in an emulated machine. The goal of
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this machine is not to simulate real hardware, but rather to serve as a
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development platform. What we do here is we emulate the z80 part, the 64K
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memory space and then hook some fake I/Os to stdin, stdout and a small storage
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device that is suitable for Collapse OS's filesystem to run on.
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Through that, it becomes easier to develop userspace applications for Collapse
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OS.
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By default, the shell initialized itself with a CFS device containing the
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contents of `cfsin/` at launch (it's packed on the fly). You can specify an
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alternate CFS device file (it has to be packaed already) through the `-f` flag.
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By default, the shell runs interactively, but you can also pipe contents through
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stdin instead. The contents will be interpreted exactly as if you had typed it
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yourself and the result will be spit in stdout (it includes your typed in
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contents because the Collapse OS console echoes back every character that is
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sent to it.). This feature is useful for automated tests in `tools/tests/shell`.
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## zasm
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`zasm/zasm` is `apps/zasm` wrapped in an emulator. It is quite central to the
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Collapse OS project because it's used to assemble everything, including itself!
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The program takes no parameter. It reads source code from stdin and spits
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binary in stdout. It supports includes and had both `apps/` and `kernel` folder
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packed into a CFS that was statically included in the executable at compile
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time.
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The file `zasm/zasm.bin` is a compiled binary for `apps/zasm/glue.asm` and
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`zasm/kernel.bin` is a compiled binary for `tools/emul/zasm/glue.asm`. It is
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used to bootstrap the assembling process so that no assembler other than zasm
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is required to build Collapse OS.
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This binary is fed to libz80 to produce the `zasm/zasm` "modern" binary and
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once you have that, you can recreate `zasm/zasm.bin` and `zasm/kernel.bin`.
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This is why it's included as a binary in the repo, but yes, it's redundant with
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the source code.
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Those binaries can be updated with the `make updatebootstrap` command. If they
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are up-to date and that zasm isn't broken, this command should output the same
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binary as before.
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## avra
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In the `zasm` folder, there's also `avra` which is a zasm compiled as an AVR
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assembler. It works the same way as zasm except it expects AVR mnemonics and
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spits AVR binaries.
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## runbin
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This is a very simple tool that reads binary z80 code from stdin, loads it in
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memory starting at address 0 and then run the code until it halts. The exit
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code of the program is the value of `A` when the program halts.
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This is used for unit tests.
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## forth
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Collapse OS' Forth interpreter, which will probably soon replace the whole OS.
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At this point, it is not yet entirely self-hosting, but will be eventually.
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Because of that aim, it currently builds in a particular manner.
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There are 3 build stages.
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**Stage 0**: This stage is created with zasm by assembling `forth/forth.asm`
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and `z80c.bin` through `stage0.asm`. This yields `forth0.bin`. We then wrap
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this binary with `stage.c` to create the `stage1` binary, which allows us to
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get to the next stage.
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`z80c.bin` is a "chicken-and-egg" typf of binary that is committed in the repo.
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It is the result of compiling `z80c.fs`, but this needs stage2.
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**Stage 1**: The `stage1` binary allows us to augment `forth0.bin` with
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the compiled dictionary of a full Forth interpreter. We feed it with
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`$(FORTHSRCS)` and then dump the resulting compiled dict.
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From there, we can create `forth1.bin`, which is wrapped by both the `forth`
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and `stage2` executables. `forth` is the interpreter you'll use.
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**Stage 2**: `stage2` is used to resolve the chicken-and-egg problem and use
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the power of a full Forth intepreter, including an assembler, to assemble
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`z80c.bin`. This is a manual step executed through `make fbootstrap`.
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Normally, running this step should yield the exact same `z80c.bin` as before,
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unless of course you've changed the source.
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## Problems?
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If the libz80-wrapped zasm executable works badly (hangs, spew garbage, etc.),
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it's probably because you've broken your bootstrap binaries. They're easy to
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mistakenly break. To verify if you've done that, look at your git status. If
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`kernel.bin` or `zasm.bin` are modified, try resetting them and then run
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`make clean all`. Things should go better afterwards.
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If that doesn't work, there's also the nuclear option of `git reset --hard`
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and `git clean -fxd`.
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If that still doesn't work, it might be because the current commit you're on
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is broken, but that is rather rare: the repo on Github is plugged on Travis
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and it checks that everything is smooth.
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