diff --git a/blk/580 b/blk/580 index 43f1674..b1b7b7f 100644 --- a/blk/580 +++ b/blk/580 @@ -4,4 +4,4 @@ Support code for the RC2014 recipe. Contains drivers for the ACIA, SD card and AT28 EEPROM. 581 ACIA 590 AT28 EEPROM -600 SD card +600 SD card 618 Xcomp unit diff --git a/blk/618 b/blk/618 new file mode 100644 index 0000000..3f8ec69 --- /dev/null +++ b/blk/618 @@ -0,0 +1,15 @@ +0x8000 CONSTANT RAMSTART +0xf000 CONSTANT RS_ADDR 0xfffa CONSTANT PS_ADDR +0x80 CONSTANT ACIA_CTL 0x81 CONSTANT ACIA_IO +4 CONSTANT SDC_SPI +5 CONSTANT SDC_CSLOW 6 CONSTANT SDC_CSHIGH +RAMSTART 0x70 + CONSTANT ACIA_MEM +212 LOAD ( z80 assembler ) +262 LOAD ( xcomp ) 270 LOAD ( xcomp overrides ) +282 LOAD ( boot.z80 ) 393 LOAD ( xcomp core low ) +582 LOAD ( acia ) +420 LOAD ( xcomp core high ) +(entry) _ +( Update LATEST ) +PC ORG @ 8 + ! +," : _ ACIA$ RDLN$ (ok) ; _ " diff --git a/recipes/rc2014/selfhost/README.md b/recipes/rc2014/selfhost/README.md index 7137b8d..6891b08 100644 --- a/recipes/rc2014/selfhost/README.md +++ b/recipes/rc2014/selfhost/README.md @@ -9,24 +9,34 @@ either for another RC2014 or for an OS upgrade. * stage3 from `sdcard` recipe. If you want to write to EEPROM as the final step, you'll need a hybrid stage3 that also includes stuff from the `eeprom` recipe. -## Building stage 1 +## Building the binary -Build Collapse OS' stage 1 from within Collapse OS is very similar to how we do +Build Collapse OS' from within Collapse OS is very similar to how we do it from the makefile. If you take the time to look at the base recipe -`Makefile`, you'll see `cat xcomp.fs | $(STAGE2)`. That's the thing. Open -`xcomp.fs` in a text editor and take a look at it. +`Makefile`, you'll see `cat xcomp.fs | $(STAGE)`. That's the thing. Open +`xcomp.fs` in a text editor and take a look at it. You'll see that it loads +B618, which contains the meat, and then spits stuff to port 2, which is a +special signal for the `stage` binary. -To assemble stage 1 from RC2014, all you need to do is to type those commands -in the same order, and replace the `/MOD 2 PC! 2 PC!` words with `.X`. -Those commands will inform you of the begin/end offsets of the assembled binary. +To assemble from RC2014, all you need to do is load B618. This will +yield a binary in memory. To know the start/end offset of the binary, you'll +type the same two commands and in `xcomp.fs`, but replace the `/MOD 2 PC! 2 PC!` +words with `.X`. Then, write that binary between those offsets on your target +media. That binary should be the exact same as what you get in `os.bin` +when you run `make`. -I'm not going to explain in detail what each command do, but only give you an -overview of what is happening. You are encouraged to read the in-system +Go ahead, run that. However, one thing you should know is that because the SD +card driver is a bit slow, some of these commands take a long time. Multiple +minutes. Be patient. + +Is that it? Yes. But for your own enlightenment, open B618 and look at it, I'll +give you an overview of its contents. I'm not going to explain in detail what +each command do, however. You are encouraged to read the in-system documentation for more information. The first part is configuration of your new system. When RAM starts, where RSP -starts, what ports to use for what device, etc. These configuration declarations -are expected in the boot code and driver code. +and PSP start, what ports to use for what device, etc. These configuration +declarations are expected in the boot code and driver code. Then, we load the Z80 assembler and the cross compiler (xcomp for short), which we'll of course need for the task ahead. @@ -41,41 +51,15 @@ close the binary with a hook word. We're finished with cross-compiling. We're at the offset that will be `CURRENT` on boot, so we update `LATEST`. -Then, we spit the source code that will be interpreted by stage 1 on boot so -that it bootstraps itself to a full interpreter. Not all units are there -because they don't fit in 8K, but they're sufficient for our needs. We also -need the linker so that we can relink ourselves to stage 2. - -Finally, we have initialization code, then a spit of the ending offset. - -Go ahead, run that. However, one thing you should know is that because the SD -card driver is a bit slow, some of these commands take a long time. Multiple -minutes. Be patient. - -Once all your commands are run and that you have your begin/end offset (write -them down somewhere), you're at the same point as you were after the `make` -part of the base recipe. The contents between your start and end offset is the -exact same as the contents of `stage1.bin` when you run `make`. Continue your -deployment from there. - -Good luck! +Then, we spit the init source code that will be interpreted on boot. +And... that's it! ### What to do on SDerr? If you get `SDerr` in the middle of a LOAD operation, something went wrong with the SD card. The bad news is that it left your xcomp operation in an -inconsistent state. If your at the beginning of it, it's easier to restart it -entirely. - -If you're towards the end, you might want to repair it. To do so, you'll have to -bring your `XCURRENT` and `HERE` values to where they were before the LOAD -operation. You could have thought ahead and printed them before the LOAD, but if -you didn't, you'll just have to dig in your memory with `DUMP`. - -You're looking at the offset of the last wordref of the *previous* LOAD -operation. That offset is going in `XCURRENT`. Then, you're looking at the end -of that word. That offset goes in `HERE`. Once you've done that, relaunch your -LOAD. +inconsistent state. The easiest thing to do it to restart the operation from +scratch. Those error are not frequent unless hardware is faulty. ### Verifying diff --git a/recipes/rc2014/xcomp.fs b/recipes/rc2014/xcomp.fs index a3b648c..9a4684c 100644 --- a/recipes/rc2014/xcomp.fs +++ b/recipes/rc2014/xcomp.fs @@ -1,23 +1,3 @@ -0x8000 CONSTANT RAMSTART -0xf000 CONSTANT RS_ADDR -0xfffa CONSTANT PS_ADDR -0x80 CONSTANT ACIA_CTL -0x81 CONSTANT ACIA_IO -4 CONSTANT SDC_SPI -5 CONSTANT SDC_CSLOW -6 CONSTANT SDC_CSHIGH -RAMSTART 0x70 + CONSTANT ACIA_MEM -212 LOAD ( z80 assembler ) -262 LOAD ( xcomp ) -270 LOAD ( xcomp overrides ) - -282 LOAD ( boot.z80 ) -393 LOAD ( xcomp core low ) -582 LOAD ( acia ) -420 LOAD ( xcomp core high ) -(entry) _ -( Update LATEST ) -PC ORG @ 8 + ! -," : _ ACIA$ RDLN$ (ok) ; _ " +618 LOAD ORG @ 256 /MOD 2 PC! 2 PC! H@ 256 /MOD 2 PC! 2 PC!