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68 Commits
v3.2.0 ... v3.3.0-dev

Author SHA1 Message Date
Wayne Warthen
8f5cc510ee Missing Files 2023-06-16 15:18:49 -07:00
Wayne Warthen
0475f5e853 Minor Cleanup 
- Update FPLED port values for some configs
- Fix Linux/MacOS build for new disk images
 2023-06-16 14:56:20 -07:00
Wayne Warthen
5b7dee0689 Merge pull request #348 from rprouse/issue/347 
Adds programming and games disk images
 2023-06-16 13:37:25 -07:00
Rob Prouse
6532f61747 Remove DELBR.COM 2023-06-16 10:51:20 -04:00
Rob Prouse
4bdae4eccb Remove USQ.COM 2023-06-16 10:47:55 -04:00
Rob Prouse
efb9840b86 Remove MBASIC85 2023-06-16 08:57:19 -04:00
Wayne Warthen
308a11cb32 Merge pull request #350 from wwarthen/master 
Update pull_request_template.md
 2023-06-15 12:51:55 -07:00
Wayne Warthen
3a7421de33 Update pull_request_template.md 2023-06-15 12:50:51 -07:00
Wayne Warthen
21a58397b6 Merge pull request #349 from wwarthen/master 
Create pull_request_template.md
 2023-06-15 12:16:59 -07:00
Wayne Warthen
9ae61806dc Create pull_request_template.md 2023-06-15 12:15:37 -07:00
Rob Prouse
87ac6f07f8 Fix spelling mistake, Tory -> Tony 2023-06-15 13:37:17 -04:00
Rob Prouse
1cd5313259 Remove all HLP files that I added 2023-06-15 13:28:44 -04:00
Rob Prouse
04c1ff04ac Remove CPM2.HLP 2023-06-15 13:19:55 -04:00
Rob Prouse
0e1a0afa2c Replace HI-TECH C with latest version from https://github.com/agn453/HI-TECH-Z80-C 2023-06-15 13:16:52 -04:00
Rob Prouse
5227bb68b5 Added documentation for the new disk images 2023-06-14 14:10:15 -04:00
Rob Prouse
fb68941768 Adds programming and games disk images 2023-06-14 12:45:41 -04:00
Wayne Warthen
8747ec8d02 Clean-up of ATAPI Support 
- Improved media handling and error reporting.
 2023-06-13 17:02:13 -07:00
Wayne Warthen
abd939625f Support ATAPI in IDE and PPIDE Drivers 
- Support is limited to 512 byte sectors.  So, devices such as ATAPI Zip Drives will work.  CD-ROM devices will not because they use a larger sector size.
 2023-06-12 15:56:36 -07:00
Wayne Warthen
69716abb25 Regen Doc 2023-06-08 12:34:42 -07:00
Wayne Warthen
1f526d440a Add WDATE Command, Final PPA/IMM/SYQ Driver Cleanup 
- Added WDATE command courtesy Kevin Boone.  See https://github.com/kevinboone/wdate-cpm for more information.
- Final cleanup of PPA/IMM/SYQ drivers including CPU speed compensated timeouts.
 2023-06-08 11:59:07 -07:00
Wayne Warthen
84374c86e6 Cleanup and Optimizations for PPA/IMM/SYQ Drivers 2023-06-06 16:21:56 -07:00
Wayne Warthen
45ea46b105 Small Bug Fix for PPA/IMM/SYQ Drivers 
Credit to Mark Elkin for testing and finding this issue.
 2023-06-03 14:27:33 -07:00
Wayne Warthen
1333d6a491 Functional PPA Driver 2023-06-02 15:30:10 -07:00
Wayne Warthen
b7e865dbf1 Preliminary SyQuest Driver 2023-06-01 16:13:26 -07:00
Wayne Warthen
1c411f5552 Add IBM Standard Parallel Port Support to IMM Driver 2023-05-27 16:45:21 -07:00
Wayne Warthen
364e48a5d3 IMM Driver Cleanup, PPA Driver Skeleton 
IMM Driver has rational timeouts now.  It also lights the MG014 LED during activity.
The PPA skeleton just attempts to determine if the PPA interface is present.  It does not attempt any I/O.
 2023-05-26 16:48:13 -07:00
Wayne Warthen
63cb89dcfc Preliminary IMM Driver (Zip Drive) 
Thanks to Alan Cox for inspiring this.  Much of the code was usurped from Fuzix.
 2023-05-23 18:35:18 -07:00
Wayne Warthen
6e316b46f0 Document p-System Volume Management Python Script 
- Andrew Davidson created a nice Python script to extract/insert p-System volumes from/to disk images.  Added a reference to his website in the p-System ReadMe.txt file.
 2023-05-11 14:20:54 -07:00
Wayne Warthen
3f23396536 Support for MG014 RCBus Parallel Port Module 2023-05-10 18:37:47 -07:00
Wayne Warthen
c628ba10f2 Workaround Z280 CPU Bug for LZSA2 
The LZSA2 decompressor invoked a known Z280 CPU bug.  A small modification to the code resolves this.
 2023-05-07 17:45:43 -07:00
Wayne Warthen
9358299f14 Z280 Workaround for VGARC 
Z280 is having an issue with OTDR instruction when loading the font for VGARC.  For now, the use of OTDR has been eliminated.
 2023-05-07 16:27:25 -07:00
Wayne Warthen
d445c4a015 Disable LZSA Compression for Z280 
- The LZSA2 decompressor code is failing mysteriously on Z280 CPUs.  I have simply disabled it in the Z280 primary configuration file.
 2023-05-04 14:14:36 -07:00
Wayne Warthen
e32002545b VGARC Improvements, Doc Fix 
- Added ability to enable VGARC and front panel in default config without I/O conflicts (does **not** support having both types of hardware present at the same time).
- Fixed documentation error in issue #345 reported by @MorfeoMatrixx.
 2023-05-03 15:58:12 -07:00
Wayne Warthen
7ac88efac1 Support for VGARC 
Initial support for Bill Shen's VGARC video/keyboard module for RCBus.
 2023-05-02 19:23:51 -07:00
Wayne Warthen
9f71fe05aa Cleanup IDE and PPIDE drivers 
- The use of hardware reset has been improved such that it is generally only used at initial boot up.
- Minor improvements to CF card detection and initialization.
- Implement a simple wait mechanism to accommodate the startup time of the RC2014 SD Pico module.
- Front panel I/O port for SC series of systems has been moved to 0x00 which is consistent with all other systems and avoids some I/O conflicts.
 2023-04-30 12:03:16 -07:00
Wayne Warthen
ad3c533145 Fix IDE Detection on Spinning Disks 
Prior improvement to IDE device detection broke detection of spinning hard disks.  IDE registers cannot be used prior to device init completion (spin up).  Not a problem for CF, but special steps required to ensure devices are fully initialized before register testing.
 2023-04-23 18:47:43 -07:00
Wayne Warthen
e43a939f54 Improve IDE Device Detection 
Per issue #343, some systems could initially detect a non-existent IDE device which would cause a long time-out.  This should resolve the issue.
 2023-04-21 17:08:18 -07:00
Wayne Warthen
e5b7409f44 Support Per-floppy Device Drive Types 
- Floppy devices are now configured per-device so that each floppy drive can be different (e.g., first floppy is 3.5" and second floppy is 5.25").
- Removed need to use termination signal on floppy sector I/O.

Addresses issue #318
 2023-04-20 16:24:14 -07:00
Wayne Warthen
9100f199b1 Z80-Retro SD Card Support (Alan Cox) 2023-04-18 11:40:22 -07:00
Wayne Warthen
bcc50a31a9 Fix SIO Ports in Z80R Mode 2023-04-17 19:22:37 -07:00
Wayne Warthen
c891ba2bad Support Z80-Retro Platform 
Code provided by Alan Cox
 2023-04-16 20:30:16 -07:00
Wayne Warthen
2f9e77ca13 Merge branch 'dev' of https://github.com/wwarthen/RomWBW into dev 2023-04-14 19:05:49 -07:00
Wayne Warthen
f346209c82 Front Panel Switch Support 2023-04-14 19:05:37 -07:00
Wayne Warthen
0742fb6188 Merge pull request #342 from wwarthen/master 
Merge pull request #340 from wwarthen/dev
 2023-04-14 19:00:02 -07:00
Wayne Warthen
94239866a5 Merge pull request #340 from wwarthen/dev 
Dev
 2023-04-14 18:29:17 -07:00
Wayne Warthen
2681b84a20 Finalize v3.2.1 2023-04-14 18:10:24 -07:00
Wayne Warthen
b5437c56e9 Suppress Serial HFC During Boot 
If serial hardware flow control is enabled, but not working, then a system will appear dead because it won't send any data to the host computer.  This change suppresses hardware flow control during boot just to ensure that boot messages can make it to the serial console.  This will only be effective for serial interfaces that support dynamic management of HFC.
 2023-04-11 13:09:22 -07:00
Wayne Warthen
f640630a06 CPU Speed Calc Tweek 
- Exit CPU speed detection routine earlier if the clock is not ticking.
- Fix minor regression in the SBC_simh.asm config file.
 2023-04-10 16:20:12 -07:00
Wayne Warthen
53e201bd28 Handle Overflow in CPUSPD 
Edge case where the CPU speed detection routine would overflow in a fast emulator and return a speed of 0.000 MHz.  Modified to fail back to the default CPU speed from the config file if an overflow occurs.
 2023-04-09 12:48:36 -07:00
Wayne Warthen
51d962aeab Finalize v3.2.1 2023-04-07 10:22:46 -07:00
Wayne Warthen
5f36cf9a12 Fix TUNE Delay Factor Handling 2023-04-03 13:44:52 -07:00
Wayne Warthen
d812066f2e Update Z80 Tests 
Update Z80 CPU instruction test suite to v1.2.
 2023-03-29 15:46:46 -07:00
Wayne Warthen
7563863be2 DOS/65 Refresh 
- Refresh WIP files of DOS/65 from Dan Werner
- Another tweak to SURVEY
- Regen PDF docs
 2023-03-27 14:44:54 -07:00
Wayne Warthen
9654d487ba Merge pull request #338 from b1ackmai1er/dev 
VGMPLAY documentation and YM2151 support
 2023-03-27 14:14:14 -07:00
b1ackmai1er
5b339aef3e Update vgmplay.txt 2023-03-27 23:39:26 +08:00
b1ackmai1er
47a7d81bb9 Update Applications.md 
Add basic VGMPLAY information
 2023-03-27 23:36:24 +08:00
b1ackmai1er
a92c44e53f ym2151 vgm files 2023-03-26 20:43:47 +08:00
b1ackmai1er
cc9f5dd516 Update vgmplay.asm 
YM2151 updates
 2023-03-26 19:31:52 +08:00
Wayne Warthen
6e34de0e02 Cosmetic 
Minor cosmetic changes in source.
 2023-03-25 12:05:57 -07:00
Wayne Warthen
5a6d7f853b Update HEXCOM.COM 
Renamed HEXCOM.CPM -> HEXCOM.COM.
 2023-03-25 11:57:26 -07:00
b1ackmai1er
a646f49866 Merge pull request #52 from wwarthen/dev 
Dev
 2023-03-24 17:06:35 +08:00
Wayne Warthen
98a33b8b50 CTC & CPU Speed 
- Revamped CTC detection algorithm hoping to handle problem XRBR is having
- Fixed typo in dynamic CPU speed test that caused it to not be properly recorded/reported (credit XRBR)
- Allow use of DEL/RUBOUT keys as backspace in ROM Loader and Debug Monitor
 2023-03-23 12:54:57 -07:00
Wayne Warthen
8aebaab3fe Fix SURVEY.COM (again) 
- Previous fix to SURVEY.COM port survey broke the memory survey.  Everything should be OK now.
- Regenerated documentation.
 2023-03-22 16:15:04 -07:00
Wayne Warthen
798d8c3ea3 Merge pull request #337 from wwarthen/master 
Sync
 2023-03-22 15:58:32 -07:00
Wayne Warthen
bbaf2b0714 Merge pull request #336 from elevendroids/master 
Fix default ZETA V2 SBC configuration
 2023-03-22 15:57:43 -07:00
Michal Potrzebicz
74a8283bba Fix default ZETA V2 SBC configuration 
- Set the default CPUOSC to 8MHz (default value in the project's
  documentation), updated the User Guide
- Set the FDD controller to ZETA2 - regression introduced in bd664c3
 2023-03-22 22:37:22 +00:00
Wayne Warthen
e869e55252 Prep v3.2.1 Development Branch 2023-03-21 14:48:28 -07:00
Wayne Warthen
e8a76817dc Merge pull request #335 from wwarthen/master 
Catch-up
 2023-03-18 20:09:02 -07:00
343 changed files with 94799 additions and 2113 deletions
Expand all files Collapse all files

11
.github/pull_request_template.md vendored Normal file
View File

@@ -0,0 +1,11 @@
<!--
BEFORE YOU CREATE A PULL REQUEST:
- Please base all pull requests against the dev branch
- Include a clear description of your change
- Reference related Issue(s) (e.g., "Resolves Issue #123")
Thank you for contributing to RomWBW! I will review your pull request as soon as possible.
DELETE EVERYTHING IN THIS COMMENT BLOCK AND REPLACE WITH YOUR COMMENTS
-->

25
.github/workflows/commit.yml vendored
View File

@@ -13,16 +13,18 @@ jobs:
runs-on: ubuntu-latest
steps:
- name: Make Slugs
uses: rlespinasse/github-slug-action@v4.4.1
- name: Checkout
uses: actions/checkout@v3.3.0
- name: Get Commit Ref
run: |
COMMIT_REF=$(git rev-parse --short $GITHUB_SHA)
echo "COMMIT_REF: $COMMIT_REF"
echo "COMMIT_REF=$COMMIT_REF" >>$GITHUB_ENV
- name: Build
run: |
export TZ='America/Los_Angeles'
sudo apt-get install libncurses-dev
sudo apt-get install srecord
make dist
rm -rf .git*
@@ -36,19 +38,22 @@ jobs:
- name: Upload Artifact
uses: actions/upload-artifact@v3.1.1
with:
name: RomWBW-${{env.GITHUB_SHA_SHORT}}-Linux
name: RomWBW-${{env.COMMIT_REF}}-Linux
path: .
buildMacOS:
runs-on: macOS-latest
steps:
- name: Make Slugs
uses: rlespinasse/github-slug-action@v4.4.1
- name: Checkout
uses: actions/checkout@v3.3.0
- name: Get Commit Ref
run: |
COMMIT_REF=$(git rev-parse --short $GITHUB_SHA)
echo "COMMIT_REF: $COMMIT_REF"
echo "COMMIT_REF=$COMMIT_REF" >>$GITHUB_ENV
- name: Build
run: |
export TZ='America/Los_Angeles'
@@ -65,5 +70,5 @@ jobs:
- name: Upload Artifact
uses: actions/upload-artifact@v3.1.1
with:
name: RomWBW-${{env.GITHUB_SHA_SHORT}}-MacOS
path: .
name: RomWBW-${{env.COMMIT_REF}}-MacOS
path: .

36
.github/workflows/release.yml vendored
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@@ -14,15 +14,6 @@ jobs:
- name: Checkout
uses: actions/checkout@v3.3.0
- name: Create Package Label
run: |
echo GITHUB_REF: "$GITHUB_REF"
LABEL=`echo "$GITHUB_REF" | sed "s|^refs/tags/||"`
echo "PKGLBL=$LABEL" >> $GITHUB_ENV
echo PKGLBL: "$PKGLBL"
echo Upload URL: "${{github.event.release.upload_url}}"
echo GITHUB_TOKEN: "${{secrets.GITHUB_TOKEN}}"
- name: Build
run: |
export TZ='America/Los_Angeles'
@@ -33,22 +24,37 @@ jobs:
- name: Create Package Archive
run: |
zip -r RomWBW-${{env.PKGLBL}}-Package.zip .
zip -r RomWBW-${{github.ref_name}}-Package.zip .
- name: Set Title
run: |
echo "Tag: ${{github.ref_name}}"
if grep -q "dev" <<< "${{github.ref_name}}"; then
TITLE="RomWBW Development Snapshot"
elif grep -q "pre" <<< "${{github.ref_name}}"; then
TITLE="RomWBW Prerelease"
elif grep -q "rc" <<< "${{github.ref_name}}"; then
TITLE="RomWBW Release Candidate"
else
TITLE="RomWBW"
fi
echo "Title: $TITLE"
echo "TITLE=$TITLE" >>$GITHUB_ENV
- name: Attach Package Archive
uses: wwarthen/actions/packages/automatic-releases@built-packages
with:
repo_token: "${{ secrets.GITHUB_TOKEN }}"
repo_token: "${{secrets.GITHUB_TOKEN}}"
draft: true
prerelease: true
title: "RomWBW Development SnapShot ${{env.PKGLBL}}"
title: "${{env.TITLE}} ${{github.ref_name}}"
files: |
RomWBW-${{env.PKGLBL}}-Package.zip
RomWBW-${{github.ref_name}}-Package.zip
# - name: Upload Package Archive
# uses: AButler/upload-release-assets@v2.0.2
# with:
# repo-token: ${{ secrets.GITHUB_TOKEN }}
# repo-token: ${{secrets.github_token}}
# files: |
# RomWBW-${{env.PKGLBL}}-Package.zip
@@ -57,7 +63,7 @@ jobs:
# uses: docker://antonyurchenko/git-release:latest
# env:
# GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
# RELEASE_NAME_PREFIX: "Development SnapShot Release "
# RELEASE_NAME_PREFIX: "${{env.TITLE}} "
# CHANGELOG_FILE: "none"
# with:
# args: |

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Doc/ChangeLog.txt
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@@ -1,3 +1,26 @@
Version 3.3
-----------
- WBW: Support Front Panel switches
- A?C: Preliminary support for Z80-Retro
- A?C: Support for SD PIO
- A?C: Support for Z80-Retro SD interface
- WBW: Support per-drive floppy configuration
- WBW: Support for Bill Shen's VGARC
- WBW: Support for MG014 Parallel Port module + printer
- WBW: Support for EMM Zip Drive on PPI interface (much inspiration from Alan Cox)
- WBW: Support for PPA Zip Drive on PPI interface (much inspiration from Alan Cox)
- WBW: Support for SyQuest SparQ Drive on PPI interface (much inspiration from Alan Cox)
- WBW: Support for ATAPI Disk Drives (not CD-ROMs) on IDE and PPIDE interfaces
- R?P: Added new disk images: Aztec C, MS BASIC Compiler, MS Fortran, Games, HiTech-C, Turbo Pascal, SLR Z80ASM
Version 3.2.1
-------------
- M?P: Fixed Zeta 2 FDD and CPUSPD config settings
- WBW: Fixed SURVEY.COM (again)
- DDW: Updates to DOS/65 binaries in disk images
- PMS: Updates to VGMPLAY including support for YM2151
- WBW: Fix for quark delay adjustment being trashed
Version 3.2
-----------
- WBW: Version bump for release

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60
Doc/ReadMe.txt
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@@ -6,8 +6,8 @@
*** ***
***********************************************************************
This directory ("Doc") is part of the RomWBW System Software
distribution archive. It contains documentation for components of
This directory ("Doc") is part of the RomWBW System Software
distribution archive. It contains documentation for components of
the system.
ChangeLog.txt
@@ -34,9 +34,9 @@ ROM Applications documents.
CPM Manual ("CPM Manual.pdf")
-----------------------------
The original DRI CP/M 2.x Operating System Manual. This should be
considered the primary reference for system operation. The section
on CP/M 2 Alteration can be ignored since this work has already been
The original DRI CP/M 2.x Operating System Manual. This should be
considered the primary reference for system operation. The section
on CP/M 2 Alteration can be ignored since this work has already been
completed as part of the RomWBW distribution.
@@ -59,7 +59,7 @@ Manual for the DDTZ v2.7 debug tool included on the ROM drive.
FDisk Manual ("FDisk Manual.pdf")
---------------------------------
The operational manual for John Coffman's hard disk partitioning
The operational manual for John Coffman's hard disk partitioning
program. This program is included in RomWBW as FDISK80.
@@ -78,9 +78,9 @@ NZCOM operating system operation manual.
ZCPR Manual ("ZCPR Manual.pdf")
-------------------------------
ZCPR is the command proccessor portion of Z-System. This is the
manual for ZCPR 1.x as included in RomWBW. The installation
instructions can be ignored since that work has already been
ZCPR is the command proccessor portion of Z-System. This is the
manual for ZCPR 1.x as included in RomWBW. The installation
instructions can be ignored since that work has already been
completed as part of the RomWBW distribution.
ZCPR D&J Manual ("ZCPR-DJ.doc")
@@ -92,9 +92,9 @@ ZCPR D&J User Manual. This manual supplements the ZCPR Manual.
ZSDOS Manual ("ZSDOS Manual.pdf")
---------------------------------
ZSDOS is the DOS portion of Z-System. This is the manual for ZSDOS
1.x as included in RomWBW. The installation instructions can be
ignored since that work has already been completed as part of the
ZSDOS is the DOS portion of Z-System. This is the manual for ZSDOS
1.x as included in RomWBW. The installation instructions can be
ignored since that work has already been completed as part of the
RomWBW distribution.
Microsoft Basic-80 Reference Manual v5.0 (Microsoft Basic-80 Reference Manual v5.0.pdf)
@@ -110,7 +110,6 @@ QP/M 2.7 Features and Facilities ("qcp27.pdf")
Official documentation set for QP/M 2.7 from original QP/M distribution.
SIO+CTC Baud Rate Options (SIO+CTC Baud Rate Options.pdf)
---------------------------------------------------------
@@ -133,4 +132,37 @@ UCSD p-System Users Manual ("UCSD p-System Users Manual.pdf")
Official user manual for p-System operating system included with
RomWBW.
--WBW 5:18 PM 3/16/2023
Z80 Assembler User Manual (z80asm (SLR Systems).pdf)
----------------------------------------------------
Official user manual for the Z80 Macro Assembler by SLR Systems
included in the z80asm disk image.
HI-TECH C Compiler User Manual (HI-TECH Z80 C Compiler Manual.txt)
------------------------------------------------------------------
Official user manual for the HI-TECH C Compiler included in the
hitechc disk image.
Borland TurboPascal User Manual (Turbo_Pascal_Version_3.0_Reference_Manual_1986.pdf)
------------------------------------------------------------------------------------
Official user manual Borland TurboPascal included in the pascal disk image.
Aztec C Compiler User Manual (Aztec_C_1.06_User_Manual_Mar84.pdf)
-----------------------------------------------------------------
Official user manual for the Aztec C Compiler included in the aztecc disk image.
FORTRAN-80 User Manual (Microsoft_FORTRAN-80_Users_Manual_1977.pdf)
---------------------------------------------------------------
Official user manual for Microsoft's FORTRAN-80 compiler included in the fortran
disk image.
--WBW 5:18 PM 6/14/2023

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16
ReadMe.md
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@@ -1,9 +1,9 @@
**RomWBW ReadMe** \
Version 3.2 \
Version 3.3 \
Wayne Warthen ([wwarthen@gmail.com](mailto:wwarthen@gmail.com)) \
18 Mar 2023
06 Jun 2023
# Overview
@@ -102,22 +102,22 @@ functionality.
Complete instructions for installation and operation of RomWBW are found
in the [RomWBW User
Guide](https://github.com/wwarthen/RomWBW/raw/master/Doc/RomWBW%20User%20Guide.pdf).
Guide](https://github.com/wwarthen/RomWBW/raw/dev/Doc/RomWBW%20User%20Guide.pdf).
## Documentation
Documentation for RomWBW includes:
- [RomWBW User
Guide](https://github.com/wwarthen/RomWBW/raw/master/Doc/RomWBW%20User%20Guide.pdf)
Guide](https://github.com/wwarthen/RomWBW/raw/dev/Doc/RomWBW%20User%20Guide.pdf)
- [RomWBW System
Guide](https://github.com/wwarthen/RomWBW/raw/master/Doc/RomWBW%20System%20Guide.pdf)
Guide](https://github.com/wwarthen/RomWBW/raw/dev/Doc/RomWBW%20System%20Guide.pdf)
- [RomWBW
Applications](https://github.com/wwarthen/RomWBW/raw/master/Doc/RomWBW%20Applications.pdf)
Applications](https://github.com/wwarthen/RomWBW/raw/dev/Doc/RomWBW%20Applications.pdf)
- [RomWBW ROM
Applications](https://github.com/wwarthen/RomWBW/raw/master/Doc/RomWBW%20ROM%20Applications.pdf)
Applications](https://github.com/wwarthen/RomWBW/raw/dev/Doc/RomWBW%20ROM%20Applications.pdf)
- [RomWBW
Errata](https://github.com/wwarthen/RomWBW/raw/master/Doc/RomWBW%20Errata.pdf)
Errata](https://github.com/wwarthen/RomWBW/raw/dev/Doc/RomWBW%20Errata.pdf)
# Acknowledgments

2
ReadMe.txt
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@@ -1,6 +1,6 @@
RomWBW ReadMe
Wayne Warthen (wwarthen@gmail.com)
18 Mar 2023
06 Jun 2023

122
Source/Apps/Survey/survey.mac
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@@ -15,6 +15,13 @@
;
;VERSION LIST - Most recent version first.
;
;21/Mar/23 - Previous hack was worthless because it broke
; the memory survey. Rehacked to use HBIOS to
; detect if N8VEM SBC MPCL memory management is
; in use and bypass MPCL ports if so. HBIOS check
; should allow use in non-RomWBW systems again.
; Wayne Warthen
;
;10/Feb/23 - Total hack to avoid crash on ECB SBC
; RomWBW now required by this version
; Wayne Warthen
@@ -240,20 +247,6 @@ TABS EQU 9 ; Tab columns
;
;ORG 100H
;
;
;
.Z80
LD HL,IMGORG
LD DE,START
LD BC,IMGEND-IMGORG
LDIR
JP START
.8080
;
IMGORG:
;
.PHASE 8000H
;
START:
LXI H,0 ; Save stack pointer
DAD SP
@@ -261,9 +254,38 @@ START:
LXI SP,FINIS+64
CALL TYPE ; Type initial CRLF
DW CRLF,CRLF
DB TAB,'*** RomWBW System Survey (Feb 2023) ***'
DB TAB,'*** RomWBW System Survey (Mar 2023) ***'
DW CRLF,CRLFE
;
; Are we running an N8VEM SBC w/ MPCL on RomWBW???
;
.Z80
XOR A ; assume not
LD (ISMPCL),A ; save it
; Check for RomWBW (HBIOS)
LD HL,(0FFFEH) ; HL := HBIOS ident location
LD A,'W' ; First byte of ident
CP (HL) ; Compare
JR NZ,NOTMPCL ; Not HBIOS
INC HL ; Next byte of ident
LD A,NOT 'W' ; Second byte of ident
CP (HL) ; Compare
JR NZ,NOTMPCL ; Not HBIOS
;
LD B,0F1H ; HBIOS: VER function
LD C,0 ; required reserved value
RST 08 ; DE := version, L := platform id
LD A,L ; Platform ID
CP 01H ; SBC?
JR NZ,NOTMPCL ; Not SBC
LD A,0FFH ; Flag
LD (ISMPCL),A ; Set flag
;
.8080
;
NOTMPCL:
;
;DISK SURVEY
LXI H,8 ; Init drive counter
MVI C,24 ; Get login vector
@@ -445,20 +467,19 @@ MSURV:
ENDM
DB '|'
DW CRLF
db ' ' ; dmb 31-May-82
DB 'T'+EOL
DB 'TT','T'+EOL
LXI H,RAM
MVI M,LOW 1023 ; Init RAM counter
MVI M,LOW 2047 ; Init RAM counter
INX H
MVI M,HIGH 1023
MVI M,HIGH 2047
MVI B,4 ; Clear ROM, EMP
CLREG:
INX H
MVI M,0
DCR B
JNZ CLREG
LXI H,1024 ; Init memory pointer
MVI C,63 ; K to be checked
LXI H,2048 ; Init memory pointer
MVI C,62 ; K to be checked
;Start of analysis loop
BEGANA:
@@ -492,7 +513,7 @@ NOTEM:
INXI ROM
NEXT:
INX H ; Index next byte
DCX D ; Decrement K counter
DCX D ; DEC DE; Decrement K counter
XRA A
ORA D
ORA E
@@ -545,8 +566,19 @@ NEXTK:
; contents of first page
call type
db 'BIOS at',' '+eol
hexout bios+2
hexout bios+1
;hexout bios+2
;hexout bios+1
.z80
ld hl,(bios+1)
ld de,-3
add hl,de
push hl
ld a,h
call hexprn
pop hl
ld a,l
call hexprn
.8080
call type
db tab,'iobyte',' '+eol
hexout bios+3
@@ -555,8 +587,19 @@ NEXTK:
hexout bios+4
call type
db tab,'BDOS at',' '+eol
hexout bdos+2
hexout bdos+1
;hexout bdos+2
;hexout bdos+1
.z80
ld hl,(bdos+1)
ld de,-6
add hl,de
push hl
ld a,h
call hexprn
pop hl
ld a,l
call hexprn
.8080
call type
dw crlf,crlfe
;
@@ -572,6 +615,8 @@ NEXTK:
CALL TYPE
DB ' Bytes ROM',TAB,TAB+EOL
LHLD BDOS+1
LXI D,-6
DAD D
CALL BINDEC
CALL TYPE
DB ' Bytes in TPA'
@@ -607,9 +652,6 @@ PDLY:
JNZ PDLY
;
.Z80
; record the active bank
ld a,(0ffe0h) ; get current hbios bank id
ld (BANK),a ; and save it
; Check for Z180 CPU
xor a ; assume Z80
ld (IS180),a ; save it
@@ -635,6 +677,17 @@ PORTLP:
ENDIF
;
.Z80
;
ld a,(ISMPCL) ; MPCL?
or a ; set flags
jr z,PCONT ; if not, skip ahead
ld a,d ; get port to test
and 0F8H ; range of 8 ports
cp 078H ; starting at 78H
jr z,ISPORT ; if in range, assume real port
;
PCONT:
di ; interrupts off
ld a,(IS180) ; Z180?
or a
@@ -679,11 +732,6 @@ pnum1b equ $-1
push af
;
rdz:
; Make sure correct bank is still selected!
push af
ld a,(BANK)
call 0FFF3H
pop af
;
ei ; interrupts back on now
;
@@ -818,13 +866,9 @@ RAMF: DS 1 ; RAM good flag
EMPF: DS 1 ; Empty so far flag
BLKSHF: DS 1 ; block shift factor
MAXALL: DS 2 ; maximum block number
BANK: DS 1 ; saved HBIOS bank id
IS180: DS 1 ; non-zero for Z180 CPU
ISMPCL: DS 1 ; non-zero for N8VEM SBC MPCL
FINIS EQU $ ; End of program
;
.DEPHASE
;
IMGEND:
;
END


14
Source/Apps/Tune/tune.asm
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@@ -45,6 +45,7 @@
; 2021-08-13 [WBW] Add support for LiNC Z50 Sound Card
; 2021-08-17 [WBW] When playing via HBIOS, call BF_SNDRESET at end
; 2022-03-20 [DDW] Add support for MBC PSG module
; 2023-03-30 [WBW] Fix for quark delay adjustment being trashed
;_______________________________________________________________________________
;
; ToDo:
@@ -301,6 +302,11 @@ GOPT3 LD A,0 ; SETUP value to PT3 sound files
JR GOPTX ; Play PTx file
GOPTX
LD HL,(QDLY) ; Get basic quark delay
OR A ; Clear carry
SBC HL,DE ; Adjust for file type
LD (QDLY),HL ; Save updated quark delay factor
CALL CRLF2
LD DE, MSGSONGNAME ; Print song name message
CALL PRTSTR
@@ -322,10 +328,6 @@ GOPTX2 LD A,(DE)
CALL CRLF2 ; Formatting
LD DE,MSGPLY ; Playing message
CALL PRTSTR ; Print message
LD HL,(QDLY) ; Get basic quark delay
OR A ; Clear carry
SBC HL,DE ; Adjust for file type
LD (QDLY),HL ; Save updated quark delay factor
CALL START ; Do initialization
PTXLP CALL START+5 ; Play one quark
LD A,(START+10) ; Get setup byte
@@ -655,8 +657,8 @@ TMP .DB 0 ; work around use of undocumented Z80
HBIOSMD .DB 0 ; NON-ZERO IF USING HBIOS SOUND DRIVER, ZERO OTHERWISE
OCTAVEADJ .DB 0 ; AMOUNT TO ADJUST OCTAVE UP OR DOWN
MSGBAN .DB "Tune Player for RomWBW v3.5, 20-Mar-2022",0
MSGUSE .DB "Copyright (C) 2021, Wayne Warthen, GNU GPL v3",13,10
MSGBAN .DB "Tune Player for RomWBW v3.5a, 30-Mar-2023",0
MSGUSE .DB "Copyright (C) 2023, Wayne Warthen, GNU GPL v3",13,10
.DB "PTxPlayer Copyright (C) 2004-2007 S.V.Bulba",13,10
.DB "MYMPlay by Marq/Lieves!Tuore",13,10,13,10
.DB "Usage: TUNE <filename>.[PT2|PT3|MYM] [--hbios] [+tn|-tn]",0

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Source/Apps/VGM/vgmplay.asm
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@@ -12,14 +12,12 @@
; default file type, basic file size checking, polled CTC mode
; added by Phil Summers
;
; Bugs: YM2151 playback untested & no mute.
; CTC polled timing - predicted 44100 divider is too slow
; Bugs: CTC polled timing - predicted 44100 divider is too slow
;
; Assemble with:
;
; TASM -80 -b VGMPLAY.ASM VGMPLAY.COM
;
;
; A VGM file can play 44100 samples a second. This may be sound chip
; register commands or PCM data. This player does not support PCM playback
; due to the high processor speed and file size required. Typical VGM files
@@ -31,60 +29,59 @@
; Device and system specific definitions
;------------------------------------------------------------------------------
;
custom .equ 0 ; System configurations
custom .equ 0 ; System configurations
P8X180 .equ 1
RCBUS .equ 2
sbcecb .equ 3
sbcecb .equ 3
MBC .equ 4
;
plt_romwbw .equ 1 ; Build for ROMWBW?
plt_type .equ sbcecb ; Select build configuration
debug .equ 0 ; Display port, register, config info
plt_romwbw .equ 1 ; Build for ROMWBW?
plt_type .equ sbcecb ; Select build configuration
debug .equ 0 ; Display port, register, config info
;
;------------------------------------------------------------------------------
; Platform specific definitions. If building for ROMWBW, these may be overridden
;------------------------------------------------------------------------------
#IF (plt_type=custom)
RSEL .equ 09AH ; Primary AY-3-8910 Register selection
RDAT .equ 09BH ; Primary AY-3-8910 Register data
RSEL2 .equ 88H ; Secondary AY-3-8910 Register selection
RDAT2 .equ 89H ; Secondary AY-3-8910 Register data
RSEL .equ 09AH ; Primary AY-3-8910 Register selection
RDAT .equ 09BH ; Primary AY-3-8910 Register data
RSEL2 .equ 88H ; Secondary AY-3-8910 Register selection
RDAT2 .equ 89H ; Secondary AY-3-8910 Register data
VGMBASE .equ $C0
YMSEL .equ VGMBASE+00H ; Primary YM2162 11000000 a1=0 a0=0
YMDAT .equ VGMBASE+01H ; Primary YM2162 11000001 a1=0 a0=1
YM2SEL .equ VGMBASE+02H ; Secondary YM2162 11000010 a1=1 a0=0
YM2DAT .equ VGMBASE+03H ; Secondary YM2162 11000011 a1=1 a0=1
PSG1REG .equ VGMBASE+08H ; Primary SN76489
PSG2REG .equ VGMBASE+09H ; Secondary SN76489
ctcbase .equ VGMBASE+0CH ; CTC base address
YM2151_SEL1 .equ 0FEH ; Primary YM2151 register selection
YM2151_DAT1 .equ 0FFH ; Primary YM2151 register data
YM2151_SEL2 .equ 0FEH ; Secondary YM2151 register selection
YM2151_DAT2 .equ 0FFH ; Secondary YM2151 register data
plt_cpuspd .equ 6;000000 ; Non ROMWBW cpu speed default
FRAME_DLY .equ 10 ; Frame delay (~ 1/44100)
YMSEL .equ VGMBASE+00H ; Primary YM2162 11000000 a1=0 a0=0
YMDAT .equ VGMBASE+01H ; Primary YM2162 11000001 a1=0 a0=1
YM2SEL .equ VGMBASE+02H ; Secondary YM2162 11000010 a1=1 a0=0
YM2DAT .equ VGMBASE+03H ; Secondary YM2162 11000011 a1=1 a0=1
PSG1REG .equ VGMBASE+04H ; Primary SN76489
PSG2REG .equ VGMBASE+05H ; Secondary SN76489
YM2151_SEL1 .equ VGMBASE+08H ; Primary YM2151 register selection
YM2151_DAT1 .equ VGMBASE+09H ; Primary YM2151 register data
YM2151_SEL2 .equ VGMBASE+0AH ; Secondary YM2151 register selection
YM2151_DAT2 .equ VGMBASE+0BH ; Secondary YM2151 register data
ctcbase .equ VGMBASE+0CH ; CTC base address
plt_cpuspd .equ 6;000000 ; Non ROMWBW cpu speed default
FRAME_DLY .equ 10 ; Frame delay (~ 1/44100)
#ENDIF
;
#IF (plt_type=P8X180)
RSEL .equ 82H ; Primary AY-3-8910 Register selection
RDAT .equ 83H ; Primary AY-3-8910 Register data
RSEL2 .equ 88H ; Secondary AY-3-8910 Register selection
RDAT2 .equ 89H ; Secondary AY-3-8910 Register data
PSG1REG .equ 84H ; Primary SN76489
PSG2REG .equ 8AH ; Secondary SN76489
YM2151_SEL1 .equ 0B0H ; Primary YM2151 register selection
YM2151_DAT1 .equ 0B1H ; Primary YM2151 register data
YM2151_SEL2 .equ 0B2H ; Secondary YM2151 register selection
YM2151_DAT2 .equ 0B3H ; Secondary YM2151 register data
ctcbase .equ 000H ; CTC base address
YMSEL .equ 000H ; Primary YM2162 11000000 a1=0 a0=0
YMDAT .equ 000H ; Primary YM2162 11000001 a1=0 a0=1
YM2SEL .equ 000H ; Secondary YM2162 11000010 a1=1 a0=0
YM2DAT .equ 000H ; Secondary YM2162 11000011 a1=1 a0=1
FRAME_DLY .equ 48 ; Frame delay (~ 1/44100)
plt_cpuspd .equ 20 ; Non ROMWBW cpu speed default
RSEL .equ 82H ; Primary AY-3-8910 Register selection
RDAT .equ 83H ; Primary AY-3-8910 Register data
RSEL2 .equ 88H ; Secondary AY-3-8910 Register selection
RDAT2 .equ 89H ; Secondary AY-3-8910 Register data
PSG1REG .equ 84H ; Primary SN76489
PSG2REG .equ 8AH ; Secondary SN76489
YM2151_SEL1 .equ 0B0H ; Primary YM2151 register selection
YM2151_DAT1 .equ 0B1H ; Primary YM2151 register data
YM2151_SEL2 .equ 0B2H ; Secondary YM2151 register selection
YM2151_DAT2 .equ 0B3H ; Secondary YM2151 register data
ctcbase .equ 000H ; CTC base address
YMSEL .equ 000H ; Primary YM2162 11000000 a1=0 a0=0
YMDAT .equ 000H ; Primary YM2162 11000001 a1=0 a0=1
YM2SEL .equ 000H ; Secondary YM2162 11000010 a1=1 a0=0
YM2DAT .equ 000H ; Secondary YM2162 11000011 a1=1 a0=1
FRAME_DLY .equ 48 ; Frame delay (~ 1/44100)
plt_cpuspd .equ 20 ; Non ROMWBW cpu speed default
#ENDIF
;
#IF (plt_type=RCBUS)
@@ -103,7 +100,7 @@ YMSEL .equ 000H ; UNDEFINED ; Primary YM2162 11000000 a1=0 a0=0
YMDAT .equ 000H ; UNDEFINED ; Primary YM2162 11000001 a1=0 a0=1
YM2SEL .equ 000H ; UNDEFINED ; Secondary YM2162 11000010 a1=1 a0=0
YM2DAT .equ 000H ; UNDEFINED ; Secondary YM2162 11000011 a1=1 a0=1
plt_cpuspd .equ 7;372800 ; CPUOSC ; Non ROMWBW cpu speed default
plt_cpuspd .equ 7;372800 ; CPUOSC ; Non ROMWBW cpu speed default
FRAME_DLY .equ 12 ; Frame delay (~ 1/44100)
#ENDIF
;
@@ -184,7 +181,7 @@ RTCIO .equ 070H
; YM2162 Register write macros - with wait and timeout
;------------------------------------------------------------------------------
;
#DEFINE setreg(reg,val) \
#DEFINE s2612reg(reg,val) \
#DEFCONT \ ld a,reg
#DEFCONT \ out (YMSEL),a
#DEFCONT \ ld a,val
@@ -195,7 +192,7 @@ RTCIO .equ 070H
#DEFCONT \ jp nc,$+5
#DEFCONT \ djnz $-6
;
#DEFINE setreg2(reg,val) \
#DEFINE s2612reg2(reg,val) \
#DEFCONT \ ld a,reg
#DEFCONT \ out (YM2SEL),a
#DEFCONT \ ld a,val
@@ -205,9 +202,30 @@ RTCIO .equ 070H
#DEFCONT \ rlca
#DEFCONT \ jp nc,$+5
#DEFCONT \ djnz $-6
;
;------------------------------------------------------------------------------
; VGM Codes - see vgmrips.net/wiki/VGM_specification
; YM2151 Register write macros - with wait and timeout
;------------------------------------------------------------------------------
;
; Status Byte: Bit
; 7 Busy Flag (1=Busy)
; 6-2 Not Used
; 1 Timer B Overflow (0=No Overflow, 1=Overflow)
; 0 Timer A Overflow (0=No Overflow, 1=Overflow)
;
#DEFINE s2151reg(reg,val) \
#DEFCONT \ ld a,reg
#DEFCONT \ out (YM2151_SEL1),a
#DEFCONT \ ld a,val
#DEFCONT \ out (YM2151_DAT1),a
#DEFCONT \ ld b,0
#DEFCONT \ in a,(YM2151_SEL1)
#DEFCONT \ rlca
#DEFCONT \ jp nc,$+5
#DEFCONT \ djnz $-6
;
;------------------------------------------------------------------------------
; VGM Codes - see vgmrips.net/wiki/VGM_Specification
;------------------------------------------------------------------------------
VGM_GG_W .equ 04FH ; GAME GEAR PSG STEREO. WRITE DD TO PORT 0X06
@@ -219,8 +237,8 @@ VGM_WNS .equ 061H ; WAIT N SAMPLES
VGM_W735 .equ 062H ; WAIT 735 SAMPLES (1/60TH SECOND)
VGM_W882 .equ 063H ; WAIT 882 SAMPLES (1/50TH SECOND)
VGM_ESD .equ 066H ; END OF SOUND DATA
VGM_YM21511_W .equ 054H ; YM2612 #1 WRITE VALUE DD
VGM_YM21512_W .equ 0A4H ; YM2612 #2 WRITE VALUE DD
VGM_YM21511_W .equ 054H ; YM2151 #1 WRITE VALUE DD
VGM_YM21512_W .equ 0A4H ; YM2151 #2 WRITE VALUE DD
;------------------------------------------------------------------------------
; Generic CP/M definitions
@@ -490,7 +508,7 @@ YM2162_2 CP VGM_YM26122_W
; YM2151 SECTION
;
YM2151_1 CP VGM_YM21511_W
JR NZ,YM2151_2
JR NZ,YM2151_2
LD A,(HL)
OUT (YM2151_SEL1),A
INC HL
@@ -759,252 +777,254 @@ SKIP1: LD A,(IX+0)
XOR A
OUT (RDAT), A
OUT (RDAT2), A
#IFDEF SBCV2004
CALL FASTIO
#ENDIF
SKIP2: LD A,(IX+0) ; mute all channels on ym2612
AND %00110000
JP Z,SKIP3
setreg($22,$00) ; lfo off
s2612reg($22,$00) ; lfo off
setreg($27,$00) ; Disable independant Channel 3
setreg($28,$00) ; note off ch 1
setreg($28,$01) ; note off ch 2
setreg($28,$02) ; note off ch 3
setreg($28,$04) ; note off ch 4
setreg($28,$05) ; note off ch 5
setreg($28,$06) ; note off ch 6
setreg($2b,$00) ; dac off
s2612reg($27,$00) ; Disable independant Channel 3
s2612reg($28,$00) ; note off ch 1
s2612reg($28,$01) ; note off ch 2
s2612reg($28,$02) ; note off ch 3
s2612reg($28,$04) ; note off ch 4
s2612reg($28,$05) ; note off ch 5
s2612reg($28,$06) ; note off ch 6
s2612reg($2b,$00) ; dac off
setreg($b4,$00) ; sound off ch 1-3
setreg($b5,$00)
setreg($b6,$00)
setreg2($b4,$00) ; sound off ch 4-6
setreg2($b5,$00)
setreg2($b6,$00)
s2612reg($b4,$00) ; sound off ch 1-3
s2612reg($b5,$00)
s2612reg($b6,$00)
s2612reg2($b4,$00) ; sound off ch 4-6
s2612reg2($b5,$00)
s2612reg2($b6,$00)
setreg($40,$7f) ; ch 1-3 total level minimum
setreg($41,$7f)
setreg($42,$7f)
setreg($44,$7f)
setreg($45,$7f)
setreg($46,$7f)
setreg($48,$7f)
setreg($49,$7f)
setreg($4a,$7f)
setreg($4c,$7f)
setreg($4d,$7f)
setreg($4e,$7f)
s2612reg($40,$7f) ; ch 1-3 total level minimum
s2612reg($41,$7f)
s2612reg($42,$7f)
s2612reg($44,$7f)
s2612reg($45,$7f)
s2612reg($46,$7f)
s2612reg($48,$7f)
s2612reg($49,$7f)
s2612reg($4a,$7f)
s2612reg($4c,$7f)
s2612reg($4d,$7f)
s2612reg($4e,$7f)
setreg2($40,$7f) ; ch 4-6 total level minimum
setreg2($41,$7f)
setreg2($42,$7f)
setreg2($44,$7f)
setreg2($45,$7f)
setreg2($46,$7f)
setreg2($48,$7f)
setreg2($49,$7f)
setreg2($4a,$7f)
setreg2($4c,$7f)
setreg2($4d,$7f)
setreg2($4e,$7f)
s2612reg2($40,$7f) ; ch 4-6 total level minimum
s2612reg2($41,$7f)
s2612reg2($42,$7f)
s2612reg2($44,$7f)
s2612reg2($45,$7f)
s2612reg2($46,$7f)
s2612reg2($48,$7f)
s2612reg2($49,$7f)
s2612reg2($4a,$7f)
s2612reg2($4c,$7f)
s2612reg2($4d,$7f)
s2612reg2($4e,$7f)
#if (0)
setreg($2a,$00) ; dac value
s2612reg($2a,$00) ; dac value
setreg($24,$00) ; timer A frequency
setreg($25,$00) ; timer A frequency
setreg($26,$00) ; time B frequency
s2612reg($24,$00) ; timer A frequency
s2612reg($25,$00) ; timer A frequency
s2612reg($26,$00) ; time B frequency
setreg($30,$00) ; ch 1-3 multiply & detune
setreg($31,$00)
setreg($32,$00)
setreg($34,$00)
setreg($35,$00)
setreg($36,$00)
setreg($38,$00)
setreg($39,$00)
setreg($3a,$00)
setreg($3c,$00)
setreg($3d,$00)
setreg($3e,$00)
s2612reg($30,$00) ; ch 1-3 multiply & detune
s2612reg($31,$00)
s2612reg($32,$00)
s2612reg($34,$00)
s2612reg($35,$00)
s2612reg($36,$00)
s2612reg($38,$00)
s2612reg($39,$00)
s2612reg($3a,$00)
s2612reg($3c,$00)
s2612reg($3d,$00)
s2612reg($3e,$00)
setreg2($30,$00) ; ch 4-6 multiply & detune
setreg2($31,$00)
setreg2($32,$00)
setreg2($34,$00)
setreg2($35,$00)
setreg2($36,$00)
setreg2($38,$00)
setreg2($39,$00)
setreg2($3a,$00)
setreg2($3c,$00)
setreg2($3d,$00)
setreg2($3e,$00)
s2612reg2($30,$00) ; ch 4-6 multiply & detune
s2612reg2($31,$00)
s2612reg2($32,$00)
s2612reg2($34,$00)
s2612reg2($35,$00)
s2612reg2($36,$00)
s2612reg2($38,$00)
s2612reg2($39,$00)
s2612reg2($3a,$00)
s2612reg2($3c,$00)
s2612reg2($3d,$00)
s2612reg2($3e,$00)
setreg($50,$00) ; ch 1-3 attack rate and scaling
setreg($51,$00)
setreg($52,$00)
setreg($54,$00)
setreg($55,$00)
setreg($56,$00)
setreg($58,$00)
setreg($59,$00)
setreg($5a,$00)
setreg($5c,$00)
setreg($5d,$00)
setreg($5e,$00)
s2612reg($50,$00) ; ch 1-3 attack rate and scaling
s2612reg($51,$00)
s2612reg($52,$00)
s2612reg($54,$00)
s2612reg($55,$00)
s2612reg($56,$00)
s2612reg($58,$00)
s2612reg($59,$00)
s2612reg($5a,$00)
s2612reg($5c,$00)
s2612reg($5d,$00)
s2612reg($5e,$00)
setreg2($50,$00) ; ch 4-6 attack rate and scaling
setreg2($51,$00)
setreg2($52,$00)
setreg2($54,$00)
setreg2($55,$00)
setreg2($56,$00)
setreg2($58,$00)
setreg2($59,$00)
setreg2($5a,$00)
setreg2($5c,$00)
setreg2($5d,$00)
setreg2($5e,$00)
s2612reg2($50,$00) ; ch 4-6 attack rate and scaling
s2612reg2($51,$00)
s2612reg2($52,$00)
s2612reg2($54,$00)
s2612reg2($55,$00)
s2612reg2($56,$00)
s2612reg2($58,$00)
s2612reg2($59,$00)
s2612reg2($5a,$00)
s2612reg2($5c,$00)
s2612reg2($5d,$00)
s2612reg2($5e,$00)
setreg($60,$00) ; ch 1-3 decay rate and am enable
setreg($61,$00)
setreg($62,$00)
setreg($64,$00)
setreg($65,$00)
setreg($66,$00)
setreg($68,$00)
setreg($69,$00)
setreg($6a,$00)
setreg($6c,$00)
setreg($6d,$00)
setreg($6e,$00)
s2612reg($60,$00) ; ch 1-3 decay rate and am enable
s2612reg($61,$00)
s2612reg($62,$00)
s2612reg($64,$00)
s2612reg($65,$00)
s2612reg($66,$00)
s2612reg($68,$00)
s2612reg($69,$00)
s2612reg($6a,$00)
s2612reg($6c,$00)
s2612reg($6d,$00)
s2612reg($6e,$00)
setreg2($60,$00) ; ch 4-6 decay rate and am enable
setreg2($61,$00)
setreg2($62,$00)
setreg2($64,$00)
setreg2($65,$00)
setreg2($66,$00)
setreg2($68,$00)
setreg2($69,$00)
setreg2($6a,$00)
setreg2($6c,$00)
setreg2($6d,$00)
setreg2($6e,$00)
s2612reg2($60,$00) ; ch 4-6 decay rate and am enable
s2612reg2($61,$00)
s2612reg2($62,$00)
s2612reg2($64,$00)
s2612reg2($65,$00)
s2612reg2($66,$00)
s2612reg2($68,$00)
s2612reg2($69,$00)
s2612reg2($6a,$00)
s2612reg2($6c,$00)
s2612reg2($6d,$00)
s2612reg2($6e,$00)
setreg($70,$00) ; ch 1-3 sustain rate
setreg($71,$00)
setreg($72,$00)
setreg($74,$00)
setreg($75,$00)
setreg($76,$00)
setreg($78,$00)
setreg($79,$00)
setreg($7a,$00)
setreg($7c,$00)
setreg($7d,$00)
setreg($7e,$00)
s2612reg($70,$00) ; ch 1-3 sustain rate
s2612reg($71,$00)
s2612reg($72,$00)
s2612reg($74,$00)
s2612reg($75,$00)
s2612reg($76,$00)
s2612reg($78,$00)
s2612reg($79,$00)
s2612reg($7a,$00)
s2612reg($7c,$00)
s2612reg($7d,$00)
s2612reg($7e,$00)
setreg2($70,$00) ; ch 4-6 sustain rate
setreg2($71,$00)
setreg2($72,$00)
setreg2($74,$00)
setreg2($75,$00)
setreg2($76,$00)
setreg2($78,$00)
setreg2($79,$00)
setreg2($7a,$00)
setreg2($7c,$00)
setreg2($7d,$00)
setreg2($7e,$00)
s2612reg2($70,$00) ; ch 4-6 sustain rate
s2612reg2($71,$00)
s2612reg2($72,$00)
s2612reg2($74,$00)
s2612reg2($75,$00)
s2612reg2($76,$00)
s2612reg2($78,$00)
s2612reg2($79,$00)
s2612reg2($7a,$00)
s2612reg2($7c,$00)
s2612reg2($7d,$00)
s2612reg2($7e,$00)
setreg($80,$00) ; ch 1-3 release rate and sustain level
setreg($81,$00)
setreg($82,$00)
setreg($84,$00)
setreg($85,$00)
setreg($86,$00)
setreg($88,$00)
setreg($89,$00)
setreg($8a,$00)
setreg($8c,$00)
setreg($8d,$00)
setreg($8e,$00)
s2612reg($80,$00) ; ch 1-3 release rate and sustain level
s2612reg($81,$00)
s2612reg($82,$00)
s2612reg($84,$00)
s2612reg($85,$00)
s2612reg($86,$00)
s2612reg($88,$00)
s2612reg($89,$00)
s2612reg($8a,$00)
s2612reg($8c,$00)
s2612reg($8d,$00)
s2612reg($8e,$00)
setreg2($80,$00) ; ch 4-6 release rate and sustain level
setreg2($81,$00)
setreg2($82,$00)
setreg2($84,$00)
setreg2($85,$00)
setreg2($86,$00)
setreg2($88,$00)
setreg2($89,$00)
setreg2($8a,$00)
setreg2($8c,$00)
setreg2($8d,$00)
setreg2($8e,$00)
s2612reg2($80,$00) ; ch 4-6 release rate and sustain level
s2612reg2($81,$00)
s2612reg2($82,$00)
s2612reg2($84,$00)
s2612reg2($85,$00)
s2612reg2($86,$00)
s2612reg2($88,$00)
s2612reg2($89,$00)
s2612reg2($8a,$00)
s2612reg2($8c,$00)
s2612reg2($8d,$00)
s2612reg2($8e,$00)
setreg($90,$00) ; ch 1-3 ssg-eg
setreg($91,$00)
setreg($92,$00)
setreg($94,$00)
setreg($95,$00)
setreg($96,$00)
setreg($98,$00)
setreg($99,$00)
setreg($9a,$00)
setreg($9c,$00)
setreg($9d,$00)
setreg($9e,$00)
s2612reg($90,$00) ; ch 1-3 ssg-eg
s2612reg($91,$00)
s2612reg($92,$00)
s2612reg($94,$00)
s2612reg($95,$00)
s2612reg($96,$00)
s2612reg($98,$00)
s2612reg($99,$00)
s2612reg($9a,$00)
s2612reg($9c,$00)
s2612reg($9d,$00)
s2612reg($9e,$00)
setreg2($90,$00) ; ch 4-6 ssg-eg
setreg2($91,$00)
setreg2($92,$00)
setreg2($94,$00)
setreg2($95,$00)
setreg2($96,$00)
setreg2($98,$00)
setreg2($99,$00)
setreg2($9a,$00)
setreg2($9c,$00)
setreg2($9d,$00)
setreg2($9e,$00)
s2612reg2($90,$00) ; ch 4-6 ssg-eg
s2612reg2($91,$00)
s2612reg2($92,$00)
s2612reg2($94,$00)
s2612reg2($95,$00)
s2612reg2($96,$00)
s2612reg2($98,$00)
s2612reg2($99,$00)
s2612reg2($9a,$00)
s2612reg2($9c,$00)
s2612reg2($9d,$00)
s2612reg2($9e,$00)
setreg($a0,$00) ; ch 1-3 frequency
setreg($a1,$00)
setreg($a2,$00)
setreg($a4,$00)
setreg($a5,$00)
setreg($a6,$00)
; setreg($a8,$00) ; ch 3 special mode
; setreg($a9,$00)
; setreg($aa,$00)
; setreg($ac,$00)
; setreg($ad,$00)
; setreg($ae,$00)
s2612reg($a0,$00) ; ch 1-3 frequency
s2612reg($a1,$00)
s2612reg($a2,$00)
s2612reg($a4,$00)
s2612reg($a5,$00)
s2612reg($a6,$00)
; s2612reg($a8,$00) ; ch 3 special mode
; s2612reg($a9,$00)
; s2612reg($aa,$00)
; s2612reg($ac,$00)
; s2612reg($ad,$00)
; s2612reg($ae,$00)
setreg2($a0,$00) ; ch 4-6 frequency
setreg2($a1,$00)
setreg2($a2,$00)
setreg2($a4,$00)
setreg2($a5,$00)
setreg2($a6,$00)
; setreg2($a8,$00) ; ch 3 special mode
; setreg2($a9,$00)
; setreg2($aa,$00)
; setreg2($ac,$00)
; setreg2($ad,$00)
; setreg2($ae,$00)
s2612reg2($a0,$00) ; ch 4-6 frequency
s2612reg2($a1,$00)
s2612reg2($a2,$00)
s2612reg2($a4,$00)
s2612reg2($a5,$00)
s2612reg2($a6,$00)
; s2612reg2($a8,$00) ; ch 3 special mode
; s2612reg2($a9,$00)
; s2612reg2($aa,$00)
; s2612reg2($ac,$00)
; s2612reg2($ad,$00)
; s2612reg2($ae,$00)
setreg($b0,$00) ; ch 1-3 algorith + feedback
setreg($b1,$00)
setreg($b2,$00)
setreg2($b0,$00) ; ch 4-6 algorith + feedback
setreg2($b1,$00)
setreg2($b2,$00)
s2612reg($b0,$00) ; ch 1-3 algorith + feedback
s2612reg($b1,$00)
s2612reg($b2,$00)
s2612reg2($b0,$00) ; ch 4-6 algorith + feedback
s2612reg2($b1,$00)
s2612reg2($b2,$00)
#endif
@@ -1014,6 +1034,64 @@ SKIP3: LD A,(IX+0) ; For YM2151 ... Unimplemented
; MUTE YM2151
s2151reg($14,$30) ; disable timer %00110000
s2151reg($0f,$00) ; disable noise
;
s2151reg($1b,$00) ; CTx output off, LFO waveform
s2151reg($08,$00) ; key off all channels
s2151reg($08,$01)
s2151reg($08,$02)
s2151reg($08,$03)
s2151reg($08,$04)
s2151reg($08,$05)
s2151reg($08,$06)
s2151reg($08,$07)
s2151reg($60,$7f) ; total level = silent
s2151reg($61,$7f)
s2151reg($62,$7f)
s2151reg($63,$7f)
s2151reg($64,$7f)
s2151reg($65,$7f)
s2151reg($66,$7f)
s2151reg($67,$7f)
s2151reg($68,$7f)
s2151reg($69,$7f)
s2151reg($6A,$7f)
s2151reg($6B,$7f)
s2151reg($6C,$7f)
s2151reg($6D,$7f)
s2151reg($6E,$7f)
s2151reg($6F,$7f)
s2151reg($70,$7f)
s2151reg($71,$7f)
s2151reg($72,$7f)
s2151reg($73,$7f)
s2151reg($74,$7f)
s2151reg($75,$7f)
s2151reg($76,$7f)
s2151reg($77,$7f)
s2151reg($78,$7f)
s2151reg($79,$7f)
s2151reg($7A,$7f)
s2151reg($7B,$7f)
s2151reg($7C,$7f)
s2151reg($7D,$7f)
s2151reg($7E,$7f)
s2151reg($7F,$7f)
s2151reg($20,$00) ; channel output off, no feedback
s2151reg($21,$00)
s2151reg($22,$00)
s2151reg($23,$00)
s2151reg($24,$00)
s2151reg($25,$00)
s2151reg($26,$00)
s2151reg($27,$00)
;
SKIP4 RET
;
;------------------------------------------------------------------------------

6
Source/Apps/VGM/vgmplay.txt
View File

@@ -21,7 +21,7 @@ Supported platforms
===================
VGM Player is currently being developed on the ROMWBW platform using the Retrobrew computers
EBC-SBC-V2 (Z80), ECB-SCG (AY-3-8910) and ECB-VGM (YM2612 and 2xSN76489) board.
EBC-SBC-V2 (Z80), ECB-SCG (AY-3-8910) and ECB-VGM (YM2612,YM2151 2xSN76489) board.
It can be configured to run with other hardware such as RCBus, P8X180 and nhyodyne MBC.
VGM files can be very big and are limited in size by the available TPA space, which is typically 52k.
@@ -50,13 +50,15 @@ FIELDMAP.VGM - SN76489+YM2612 - Taikou Risshiden: Field Map: Summer
ITSGAMOV.VGM - SN76489+YM2612 - Puyo Puyo Tsuu: It's Game Over! : 16K
STARTDEM.VGN - 2xSN76489+AY-3-8910 * Exed Exes / Savage Bees: Start Demo ~Main BGM : 32K
INCHINA.VGM - YM2612 * Double Dragon 3: The Rosetta Stone: In China : 44K
SURE.VGM - YM2151 - Martial Age: Sure?? : 36K
SABERDAN.VGM - YM2151 - Road Runner: Sabre Dance (Attract Mode - Stage 4) : 28K
* Included in disk images
VGM sources
===========
https://www.smspower.org/forums/15359-VGMPacksGameGearMegaCollection
https://vgmrips.net/packs/chip/ym2612
https://vgmrips.net/packs/chip/ym2151
https://project2612.org/
VGM Tools

6
Source/Apps/assign.asm
View File

@@ -1918,9 +1918,9 @@ dev06 .db "SD",0
dev07 .db "PRPSD",0
dev08 .db "PPPSD",0
dev09 .db "HDSK",0
dev10 .equ devunk
dev11 .equ devunk
dev12 .equ devunk
dev10 .db "PPA",0
dev11 .db "IMM",0
dev12 .db "SYQ",0
dev13 .equ devunk
dev14 .equ devunk
dev15 .equ devunk

15
Source/CBIOS/cbios.asm
View File

@@ -2929,6 +2929,14 @@ DRV_INIT3:
RET
;
DRV_INIT3A:
; CHECK FOR HARD DISK REMOVABLE CARTRIDGE DRIVES
CP DIODEV_PPA ; PPA (ZIP DRIVE) IS REMOVABLE
JR Z,DRV_INIT3B ; IF SO, SKIP MEDIA CHECK
CP DIODEV_IMM ; IMM (ZIP DRIVE) IS REMOVABLE
JR Z,DRV_INIT3B ; IF SO, SKIP MEDIA CHECK
CP DIODEV_SYQ ; IMM (ZIP DRIVE) IS REMOVABLE
JR Z,DRV_INIT3B ; IF SO, SKIP MEDIA CHECK
; CHECK FOR ACTIVE AND RETURN IF NOT
PUSH DE ; SAVE DE (HARD DISK VOLUME COUNTER)
PUSH HL ; SAVE DRIVE LIST PTR
@@ -2944,6 +2952,7 @@ DRV_INIT3A:
RET NZ ; IF NO MEDIA, JUST RETURN
DRV_INIT3B:
; IF ACTIVE...
LD (HL),C ; SAVE UNIT NUM IN LIST
INC HL ; BUMP PTR
@@ -3392,9 +3401,9 @@ DEV06 .DB "SD$"
DEV07 .DB "PRPSD$"
DEV08 .DB "PPPSD$"
DEV09 .DB "HDSK$"
DEV10 .EQU DEVUNK
DEV11 .EQU DEVUNK
DEV12 .EQU DEVUNK
DEV10 .DB "PPA$"
DEV11 .DB "IMM$"
DEV12 .DB "SYQ$"
DEV13 .EQU DEVUNK
DEV14 .EQU DEVUNK
DEV15 .EQU DEVUNK

11
Source/CPM3/boot.z80
View File

@@ -181,6 +181,14 @@ dinit3:
ret
;
dinit3a:
; check for hard disk removable cartridge drives
cp 0A0h ; ppa (zip drive) is removable
jr z,dinit3b ; if so, skip media check
cp 0B0h ; imm (zip drive) is removable
jr z,dinit3b ; if so, skip media check
cp 0C0h ; syq (syquest drive) is removable
jr z,dinit3b ; if so, skip media check
; check for active and return if not
push de ; save de (hard disk volume counter)
push hl ; save drive list ptr
@@ -195,7 +203,8 @@ dinit3a:
pop de ; restore de
ret nz ; if no media, just return
dinit3b:
; if active...
ld (hl),c ; save unit num in list
inc hl ; bump ptr

183
Source/Doc/Applications.md
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@@ -51,6 +51,7 @@ found:
| INTTEST | No | Yes | Yes |
| FAT | No | Yes | Yes |
| TUNE | No | Yes | Yes |
| WDATE | No | Yes | Yes |
`\clearpage`{=latex}
@@ -889,6 +890,28 @@ written in C and requires SDCC to compile. As such it is not part of
the RomWBW build process. However, the full project and source code is
found in the [FAT GitHub Repository](https://github.com/wwarthen/FAT).
## Known Issues
CP/M (and workalike) OSes have significant restrictions on filename
characters. The FAT application will block any attempt to create a
file on the CP/M filesystem containing any of these prohibited
characters:
| `< > . , ; : = ? * [ ] _ % | ( ) / \`
The operation will be aborted with "`Error: Invalid Path Name`" if such
a filename character is encountered.
Since MS-DOS does allow some of these characters, you can have
issues when copying files from MS-DOS to CP/M if the MS-DOS filenames
use these characters. Unfortunately, FAT is not yet smart enough to
substitute illegal characters with legal ones. So, you will need to
clean the filenames before trying to copy them to CP/M.
The FAT application does try to detect the scenario where you are
copying a file to itself. However, this detection is not perfect and
can corrupt a file if it occurs. Be careful to avoid this.
`\clearpage`{=latex}
# TUNE
@@ -1028,3 +1051,163 @@ hardware interface code is specific to RomWBW and the application will
not operate correctly on non-RomWBW systems.
The source code is provided in the RomWBW distribution.
`\clearpage`{=latex}
# VGMPLAY
This application will allow you to play Video Game Music files. VGM
files contain music samples from a range of different sound chips
that were used in arcade games, game consoles and personal computer
systems.
Video Game Music files have a .VGM file extension and each file
contains an embedded header that identifies the hardware it is
intended for and also the title of the music.
All RomWBW operating system boot disks include a selection of sound
files in user area 3. Additional music files can be found at:
[VGMRIPS website](https://vgmrips.net)
[PROJECT2612 website](https://project2612.org/)
Sound files are loaded into memory for playback, so the maximum size
file that can be played is around 52Kb.
Sound chips currently supported are:
* AY-3-8190 (and equivalent YM2149)
* YM2612 (and equivalent YM3848)
* SN76489 (single chip mono and dual chip stereo)
* YM2151
VGMPLAY supports playback of files with multiple combinations of these
chips.
## Syntax
`VGMPLAY `*`<filename>`*
*`<filename>`* is the name of a sound file ending in .VGM
## Usage
VGMPLAY does not automatically detect the hardware platform or sound
hardware that you are using. This means a version customized for your
system must be assembled before use.
To play a sound file, just use the VGMPLAY command and specify the file
to play after the command. So, for example, `VGMPLAY TEDDY` will load
the TEDDY.VGM sound file into memory and begin playing it.
Playback can be stopped by pressing a key. There may be a delay before
playback stops.
## Notes
The default build configuration for VGMPLAY is:
CPU speed: Autodetected
| chip | number | port | notes
| --------- | ------- | -------- | ----------
| AY-3-8910 | 1st | 09ah | stereo
| AY-3-8910 | 2nd | not set | stereo
| YM2612 | 1st | 0c0h | stereo
| YM2612 | 2nd | 0c4h | stereo
| SN76489 | 1st | 0c8h | mono/left
| SN76489 | 2nd | 0c9h | mono/right
| YM2151 | 1st | 0cah | stereo
| YM2151 | 2nd | 0cbh | stereo
Inconsistant, garbled or distorted playback can be an indication that
your CPU clock speed is too high for your sound chip. In this case, if
your platform supports speed switching, then the CPUSPD application
can be used to reduce your processor speed.
VGMPLAY is still under development. The source code is provided in the
RomWBW distribution.
`\clearpage`{=latex}
# WDATE
`wdate` is a utility for CP/M systems that have Wayne Warthen's
ROMWBW firmware. It reads or sets the real-time clock, using function
calls in the BIOS. It should work on any RTC device that is supported by
ROMWBW, including the internal interrupt-driven timer that is is available
on some systems.
`wdate` differs from the `rtc.com` utility that is provided with the
ROMWBW version of CP/M in that it only gets and sets the date/time.
`rtc.com` can also manipulate the nonvolatile RAM in certain clock
devices, and modify the charge controller. However, `wdate` is (I would
argue) easier to use, as it takes its input from the command line, which
can be edited, and it's less fussy about the format. It doesn't require
the date to be set if you only want to change the time, for example.
In addition, `wdate` has at least some error checking.
`wdate` displays the day-of-week and month as English text, not
numbers. It calculates the day-of-week from the year, month, and day.
RTC chips usually store a day-of-week value, but it's useless in this
application for two reasons: first, the BIOS does not expose it. Second,
there is no universally-accepted way to interpret it (which day does
the week start on? Is '0' a valid day of the week?)
## Syntax
| `WDATE`
| `WDATE ` *`<hr> <min>`*
| `WDATE ` *`<hr> <min> <sec>`*
| `WDATE ` *`<year> <month> <day> <hr> <min> <sec>`*
## Usage
A> wdate
Saturday 27 May 13:14:39 2023
With no arguments, displays the current date and time.
A> wdate hr min
With two arguments, sets the time in hours and minutes, without changing date
or seconds
A> wdate hr min sec
With three arguments, sets the time in hours, minutes, and seconds, without
changing date
A> wdate year month day hr min sec
With six arguments, sets date and time. All numbers are one or two digits. The
two-digit year starts at 2000.
A> wdate /?
Show a summary of the command-line usage.
## Notes
I've tested this utility with the DS1302 clock board designed by Ed
Brindly, and on the interrupt-driven timer built into my Z180 board.
However, it does not interact with hardware, only BIOS; I would expect
it to work with other hardware.
wdate checks for the non-existence of ROMWBW, and also for failing
operations on the RTC. It will display the terse "No RTC" message in
both cases.
The ROMWBW functions that manipulate the date and time operate on BCD
numbers, as RTC chips themselves usually do. wdate works in decimal, so
that it can check that the user input makes sense. A substantial part of
the program's code is taken up by number format conversion and range
checking.
## Etymology
The `WDATE` application was written and contributed by Kevin Boone.
The source code is available on GitHub at
[https://github.com/kevinboone/wdate-cpm/blob/main/README.md](https://github.com/kevinboone/wdate-cpm/blob/main/README.md).

4
Source/Doc/Basic.h
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@@ -1,6 +1,6 @@
$define{doc_ver}{Version 3.2}$
$define{doc_ver}{Version 3.3}$
$define{doc_product}{RomWBW}$
$define{doc_root}{https://github.com/wwarthen/RomWBW/raw/master/Doc}$
$define{doc_root}{https://github.com/wwarthen/RomWBW/raw/dev/Doc}$
$ifndef{doc_title}$ $define{doc_title}{Document Title}$ $endif$
$ifndef{doc_author}$ $define{doc_author}{Wayne Warthen}$ $endif$
$define{doc_date}{$date{%d %b %Y}$}$

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23
Source/Doc/SystemGuide.md
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@@ -2123,6 +2123,17 @@ Wait States (D) is the actual number of wait states, not the number
of wait states added. The returned Status (A) is a standard HBIOS
result code.
#### SYSGET Subfunction 0xF4 -- Get Front Panel Swithes (PANEL)
| **Entry Parameters** | **Returned Values** |
|----------------------------------------|----------------------------------------|
| B: 0xF8 | A: Status |
| C: 0xF4 | L: Switches |
This function will return the current value of the switches (L) from the
front panel of the system. If no front panel is available in the
system, the returned Status (A) will indicate a No Hardware error.
### Function 0xF9 -- System Set (SYSSET)
| **Entry Parameters** | **Returned Values** |
@@ -2206,6 +2217,18 @@ limited set of divisors. If there is no satisfactory divisor to
retain the existing baud rate under the new CPU speed, then the baud
rate of the ASCI port(s) will be affected.
#### SYSSET Subfunction 0xF4 -- Set Front Panel LEDs (PANEL)
| **Entry Parameters** | **Returned Values** |
|----------------------------------------|----------------------------------------|
| B: 0xF9 | A: Status |
| C: 0xF4 | |
| L: LEDs | |
This function will set the front panel LEDs based on the bits in L. If
no front panel is available in the system, the returned Status (A) will
indicate a No Hardware error.
### Function 0xFA -- System Peek (SYSPEEK)
| **Entry Parameters** | **Returned Values** |

78
Source/Doc/UserGuide.md
View File

@@ -201,6 +201,7 @@ below, **carefully** pick the appropriate ROM image for your hardware.
| [Z80 ZRC CPU Module]^7^ | RCBus | RCZ80_zrc.rom | 115200 |
| [Z280 ZZRCC CPU Module]^7^ | RCBus | RCZ280_zzrc.rom | 115200 |
| [Z280 ZZ80MB SBC]^7^ | RCBus | RCZ280_zz80mb.rom | 115200 |
| [Z80-Retro SBC]^8^ | - | Z80RETRO_std.rom | 38400 |
| ^1^Designed by Andrew Lynch
| ^2^Designed by Sergey Kiselev
@@ -209,6 +210,7 @@ below, **carefully** pick the appropriate ROM image for your hardware.
| ^5^Designed by Stephen Cousins
| ^6^Designed by Steve Garcia
| ^7^Designed by Bill Shen
| ^8^Designed by Peter Wilson
RCBus refers to Spencer Owen's RC2014 bus specification and derivatives
including RC26, RC40, RC80, and BP80.
@@ -782,6 +784,55 @@ The use of diagnostic levels above 4 are really intended only for
software developers. I do not recommend changing this under
normal circumstances.
## Front Panel
RomWBW supports the concept of a simple front panel. The following
image is a conceptual view of such a front panel. If your system has a
front panel, it should look similar to the [RomWBW Front Panel](#panel).
![RomWBW Front Panel](Graphics/Panel){#panel width=50% }
The LEDs in the top row of the panel are used for multiple purposes.
They are initially used to display the progress of the
system boot. This may help in diagnosing a hardware or configuration
issue in a system that does not progress far enough to display text
output on the console. The meaning of the LEDs is:
| | |
|------------|------------------------------|
| `O-------` | System Boot has started |
| `OO------` | Common RAM bank activated |
| `OOO-----` | HBIOS transitioned to RAM |
| `OOOO----` | Basic initialization done |
| `OOOOO---` | CPU detection complete |
| `OOOOOO--` | System timer configured |
| `OOOOOOO-` | Pre-console device init done |
| `OOOOOOOO` | Console activation |
Once the system has booted, the LEDs are used to indicate disk device
activity. Each LED numbered 7-0 represents disk units 7-0. As each
disk device performs I/O, the LED will light.
The second row of the front panel is composed of switches that allow
you to control a few aspects of the system startup.
The first two switches affect the device used as the console initially.
Setting the CRT/Serial switch will cause the system to boot directly
to an attached CRT device (if available). Setting the Pri/Sec switch
will cause the system to boot to the secondary Serial or CRT device
(depending on the setting of the first switch).
The final six switches allow you to cause the system to automatically
boot into a desired function. The Auto/Menu switch must be set to
enable this, otherwise the normal ROM Loader prompt will be used.
If the Disk/ROM switch is not set, then you can use the last 3
switches to select a ROM app to auto-start. If the Disk/ROM switch is
set, then the system will attempt a disk boot based on the following
switches. The Floppy/Hard switch can be used to boot to a Floppy or
Hard Disk. In either case, the first Floppy or Hard Disk will be used
for the boot. If a Hard Disk boot is selected, then the last three
switches can be used to select any of the first 8 slices.
# Disk Management
The systems supported by RomWBW all have the ability to use persistent
@@ -3353,7 +3404,7 @@ the RomWBW HBIOS configuration.
| Interrupts | Mode 2 |
- CPU speed is detected at startup if DS1302 RTC is active
- Otherwise 20.000 MHz assumed
- Otherwise 8.000 MHz assumed
- System timer is generated by onboard CTC
- Hardware auto-detected:
- Onboard DS1302 RTC
@@ -3757,6 +3808,7 @@ the RomWBW HBIOS configuration.
- WDC Floppy Disk Controller w/ 3.5" HD Drives
- Onboard IDE Hard Disk Interface Module
- PPIDE Hard Disk Interface Module
- VGARC Video & Keyboard Module
- Serial baud rate is usually determined by hardware for ACIA and
SIO interfaces
@@ -3780,6 +3832,7 @@ the RomWBW HBIOS configuration.
- WDC Floppy Disk Controller w/ 3.5" HD Drives
- Onboard IDE Hard Disk Interface Module
- PPIDE Hard Disk Interface Module
- VGARC Video & Keyboard Module
- Serial baud rate is usually determined by hardware for ACIA and
SIO interfaces
@@ -3803,11 +3856,27 @@ the RomWBW HBIOS configuration.
- WDC Floppy Disk Controller w/ 3.5" HD Drives
- Onboard IDE Hard Disk Interface Module
- PPIDE Hard Disk Interface Module
- VGARC Video & Keyboard Module
- Serial baud rate is usually determined by hardware for ACIA and
SIO interfaces
`\clearpage`{=latex}
### Z80-Retro SBC
| | |
|-------------------|------------------|
| ROM Image File | Z80RETRO_std.rom |
| Console Baud Rate | 38400 |
| Interrupts | Mode 2 |
- CPU speed is assumed to be 14.7456 MHz
- Hardware auto-detected:
- SIO Serial Interface Module
- Onboard CTC
`\clearpage`{=latex}
## Appendix B - Device Summary
The table below briefly describes each of the possible devices that
@@ -3827,10 +3896,12 @@ may be discovered by RomWBW in your system.
| DSKY | System | Keypad & Display |
| DSRTC | RTC | Maxim DS1302 Real-Time Clock w/ NVRAM |
| DUART | Char | SCC2681 or compatible Dual UART |
| FD | Disk | 8272 of compatible Floppy Disk Controller |
| EMM | Disk | Disk drive on Parallel Port emm interface (Zip Drive) |
| FD | Disk | 8272 or compatible Floppy Disk Controller |
| GDC | Video | uPD7220 Video Display Controller |
| HDSK | Disk | SIMH Simulator Hard Disk |
| IDE | Disk | IDE/ATA Hard Disk Interface |
| IMM | Disk | IMM Zip Drive on PPI |
| INTRTC | RTC | Interrupt-based Real Time Clock |
| KBD | Kbd | 8242 PS/2 Keyboard Controller |
| KIO | System | Zilog Serial/ Parallel Counter/Timer |
@@ -3840,6 +3911,7 @@ may be discovered by RomWBW in your system.
| I2C | System | I2C Interface |
| PIO | Char | Zilog Parallel Interface Controller |
| PPIDE | Disk | 8255 IDE/ATA Hard Disk Interface |
| PPA | Disk | PPA Zip Drive on PPI |
| PPK | Kbd | Matrix Keyboard |
| PPPSD | Disk | ParPortProp SD Card Interface |
| PPPCON | Serial | ParPortProp Serial Console Interface |
@@ -3852,10 +3924,12 @@ may be discovered by RomWBW in your system.
| SIO | Char | Zilog Serial Port Interface |
| SN76489 | Sound | SN76489 Programmable Sound Generator |
| SPK | Sound | Bit-bang Speaker |
| SYQ | Disk | Iomega SparQ Drive on PPI |
| TMS | Video | TMS9918/38/58 Video Display Controller |
| UART | Char | 16C550 Family Serial Interface |
| USB-FIFO | Char | FT232H-based ECB USB FIFO |
| VDU | Video | MC6845 Family Video Display Controller |
| VGA | Video | HD6445CP4-based Video Display Controller |
| VRC | Video | VGARC Video Display Controller |
| YM | Audio | YM2612 Programmable Sound Generator |
| Z2U | Char | Zilog Z280 CPU Built-in Serial Ports |

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Source/Fonts/Build.cmd
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@@ -11,8 +11,8 @@ echo Preparing compressed font files...
lzsa -f2 -r font8x8u.bin font8x8c.bin || exit /b
lzsa -f2 -r font8x11u.bin font8x11c.bin || exit /b
lzsa -f2 -r font8x16u.bin font8x16c.bin || exit /b
lzsa -f2 -r fontcgau.bin fontcgac.bin || exit /b
lzsa -f2 -r fontvgarcu.bin fontvgarcc.bin || exit /b
fonttool font8x8u.bin > font8x8u.asm || exit /b
fonttool font8x11u.bin > font8x11u.asm || exit /b
@@ -20,6 +20,7 @@ fonttool font8x16u.bin > font8x16u.asm || exit /b
fonttool font8x8c.bin > font8x8c.asm || exit /b
fonttool font8x11c.bin > font8x11c.asm || exit /b
fonttool font8x16c.bin > font8x16c.asm || exit /b
fonttool fontcgau.bin > fontcgau.asm || exit /b
fonttool fontcgac.bin > fontcgac.asm || exit /b
fonttool fontvgarcu.bin > fontvgarcu.asm || exit /b
fonttool fontvgarcc.bin > fontvgarcc.asm || exit /b

9
Source/Fonts/Makefile
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@@ -1,8 +1,8 @@
OBJECTS = \
font8x8u.asm font8x11u.asm font8x16u.asm fontcgau.asm \
font8x8c.asm font8x11c.asm font8x16c.asm fontcgac.asm
font8x8u.asm font8x11u.asm font8x16u.asm fontcgau.asm fontvgarcu.asm \
font8x8c.asm font8x11c.asm font8x16c.asm fontcgac.asm fontvgarcc.asm
OTHERS = font8x8c.bin font8x11c.bin font8x16c.bin fontcgac.bin
OTHERS = font8x8c.bin font8x11c.bin font8x16c.bin fontcgac.bin fontvgarcc.bin
TOOLS = ../../Tools
@@ -26,5 +26,8 @@ font8x16c.bin: font8x16u.bin
fontcgac.bin: fontcgau.bin
$(BINDIR)/lzsa -f2 -r $< $@
fontvgarcc.bin: fontvgarcu.bin
$(BINDIR)/lzsa -f2 -r $< $@
%.asm: %.bin
$(BINDIR)/bin2asm $< > $@

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11
Source/HBIOS/API.txt
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@@ -117,7 +117,11 @@ GET ($F8):
L=Clock Mult (0:Half, 1:Full, 2: Double)
D=Memory Wait States
E=I/O Wait States
PANEL ($F4):
BC=Function/Subfunction A=Result
L=Switch Values
SET ($F9):
BC=Function/Subfunction A=Result
@@ -142,6 +146,11 @@ SET ($F9):
E=I/O Wait States
PANEL ($F4):
BC=Function/Subfunction A=Result
L=LED Values
PEEK ($FA):
B=Function A=Result
D=Bank E=Byte Value

1
Source/HBIOS/Build.cmd
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@@ -223,5 +223,6 @@ call Build SCZ180 sc503 || exit /b
call Build DYNO std || exit /b
call Build UNA std || exit /b
call Build RPH std || exit /b
call Build Z80RETRO std || exit /b
goto :eof

2
Source/HBIOS/Build.ps1
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@@ -27,7 +27,7 @@ $ErrorAction = 'Stop'
# UNA BIOS is simply imbedded, it is not built here.
#
$PlatformListZ80 = "SBC", "MBC", "ZETA", "ZETA2", "RCZ80", "UNA"
$PlatformListZ80 = "SBC", "MBC", "ZETA", "ZETA2", "RCZ80", "Z80RETRO", "UNA"
$PlatformListZ180 = "N8", "MK4", "RCZ180", "SCZ180", "DYNO", "RPH"
$PlatformListZ280 = "RCZ280"

1
Source/HBIOS/Build.sh
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@@ -38,6 +38,7 @@ if [ "${ROM_PLATFORM}" == "dist" ] ; then
ROM_PLATFORM="SCZ180"; ROM_CONFIG="sc140"; bash Build.sh
ROM_PLATFORM="SCZ180"; ROM_CONFIG="sc503"; bash Build.sh
ROM_PLATFORM="UNA"; ROM_CONFIG="std"; bash Build.sh
ROM_PLATFORM="Z80RETRO"; ROM_CONFIG="std"; bash Build.sh
ROM_PLATFORM="ZETA"; ROM_CONFIG="std"; bash Build.sh
ROM_PLATFORM="ZETA2"; ROM_CONFIG="std"; bash Build.sh
exit

2
Source/HBIOS/Config/MBC_std.asm
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@@ -48,6 +48,8 @@ DSKYMODE .SET DSKYMODE_NG ; DSKY VERSION: DSKYMODE_[V1|NG]
UARTINTS .SET FALSE ; UART: INCLUDE INTERRUPT SUPPORT UNDER IM1/2/3
;UARTCFG .SET UARTCFG | SER_RTS
;
LPTENABLE .SET TRUE ; LPT: ENABLE CENTRONICS PRINTER DRIVER (LPT.ASM)
;
CVDUMON .SET CVDUMON_CGA ; CVDU: CVDU MONITOR SETUP: CVDUMON_[NONE|CGA|EGA]
;
FDENABLE .SET TRUE ; FD: ENABLE FLOPPY DISK DRIVER (FD.ASM)

4
Source/HBIOS/Config/RCZ180_ext.asm
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@@ -29,6 +29,9 @@
CPUOSC .SET 18432000 ; CPU OSC FREQ IN MHZ
CRTACT .SET FALSE ; ACTIVATE CRT (VDU,CVDU,PROPIO,ETC) AT STARTUP
;
FPLED_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL LEDS
FPSW_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL SWITCHES
;
MEMMGR .SET MM_Z2 ; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180]
;
Z180_CLKDIV .SET 1 ; Z180: CHK DIV: 0=OSC/2, 1=OSC, 2=OSC*2
@@ -46,6 +49,7 @@ SIOENABLE .SET TRUE ; SIO: ENABLE ZILOG SIO SERIAL DRIVER (SIO.ASM)
TMSENABLE .SET FALSE ; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
TMSMODE .SET TMSMODE_MSX ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
MKYENABLE .SET FALSE ; MSX 5255 PPI KEYBOARD COMPATIBLE DRIVER (REQUIRES TMS VDA DRIVER)
VRCENABLE .SET FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
VDAEMU_SERKBD .SET 0 ; VDA EMULATION: SERIAL KBD UNIT #, OR $FF FOR HW KBD
;
;

5
Source/HBIOS/Config/RCZ180_nat.asm
View File

@@ -29,6 +29,9 @@
CPUOSC .SET 18432000 ; CPU OSC FREQ IN MHZ
CRTACT .SET FALSE ; ACTIVATE CRT (VDU,CVDU,PROPIO,ETC) AT STARTUP
;
FPLED_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL LEDS
FPSW_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL SWITCHES
;
MEMMGR .SET MM_Z180 ; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180]
;
Z180_CLKDIV .SET 1 ; Z180: CHK DIV: 0=OSC/2, 1=OSC, 2=OSC*2
@@ -46,9 +49,9 @@ SIOENABLE .SET TRUE ; SIO: ENABLE ZILOG SIO SERIAL DRIVER (SIO.ASM)
TMSENABLE .SET FALSE ; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
TMSMODE .SET TMSMODE_MSX ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
MKYENABLE .SET FALSE ; MSX 5255 PPI KEYBOARD COMPATIBLE DRIVER (REQUIRES TMS VDA DRIVER)
VRCENABLE .SET FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
VDAEMU_SERKBD .SET 0 ; VDA EMULATION: SERIAL KBD UNIT #, OR $FF FOR HW KBD
;
;
AY38910ENABLE .SET FALSE ; AY: AY-3-8910 / YM2149 SOUND DRIVER
AYMODE .SET AYMODE_RCZ180 ; AY: DRIVER MODE: AYMODE_[SCG|N8|RCZ80|RCZ180|MSX|LINC]
SN76489ENABLE .SET FALSE ; SN: ENABLE SN76489 SOUND DRIVER

4
Source/HBIOS/Config/RCZ280_ext.asm
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@@ -30,6 +30,9 @@ CPUOSC .SET 12000000 ; CPU OSC FREQ IN MHZ
INTMODE .SET 1 ; INTERRUPTS: 0=NONE, 1=MODE 1, 2=MODE 2
CRTACT .SET FALSE ; ACTIVATE CRT (VDU,CVDU,PROPIO,ETC) AT STARTUP
;
FPLED_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL LEDS
FPSW_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL SWITCHES
;
MEMMGR .SET MM_Z2 ; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180]
;
Z280_MEMLOWAIT .SET 0 ; Z280: LOW 8MB MEMORY WAIT STATES (0-3)
@@ -45,6 +48,7 @@ SIOENABLE .SET TRUE ; SIO: ENABLE ZILOG SIO SERIAL DRIVER (SIO.ASM)
TMSENABLE .SET FALSE ; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
TMSMODE .SET TMSMODE_MSX ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
MKYENABLE .SET FALSE ; MSX 5255 PPI KEYBOARD COMPATIBLE DRIVER (REQUIRES TMS VDA DRIVER)
VRCENABLE .SET FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
VDAEMU_SERKBD .SET 0 ; VDA EMULATION: SERIAL KBD UNIT #, OR $FF FOR HW KBD
;
AY38910ENABLE .SET FALSE ; AY: AY-3-8910 / YM2149 SOUND DRIVER

4
Source/HBIOS/Config/RCZ280_nat.asm
View File

@@ -30,6 +30,9 @@ CPUOSC .SET 12000000 ; CPU OSC FREQ IN MHZ
INTMODE .SET 3 ; INTERRUPTS: 0=NONE, 1=MODE 1, 2=MODE 2
CRTACT .SET FALSE ; ACTIVATE CRT (VDU,CVDU,PROPIO,ETC) AT STARTUP
;
FPLED_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL LEDS
FPSW_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL SWITCHES
;
MEMMGR .SET MM_Z280 ; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280]
;
Z280_MEMLOWAIT .SET 0 ; Z280: LOW 8MB MEMORY WAIT STATES (0-3)
@@ -45,6 +48,7 @@ SIOENABLE .SET TRUE ; SIO: ENABLE ZILOG SIO SERIAL DRIVER (SIO.ASM)
TMSENABLE .SET FALSE ; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
TMSMODE .SET TMSMODE_MSX ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
MKYENABLE .SET FALSE ; MSX 5255 PPI KEYBOARD COMPATIBLE DRIVER (REQUIRES TMS VDA DRIVER)
VRCENABLE .SET FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
VDAEMU_SERKBD .SET 0 ; VDA EMULATION: SERIAL KBD UNIT #, OR $FF FOR HW KBD
;
AY38910ENABLE .SET FALSE ; AY: AY-3-8910 / YM2149 SOUND DRIVER

6
Source/HBIOS/Config/RCZ280_zz80mb.asm
View File

@@ -32,6 +32,9 @@ CPUOSC .SET 12000000 ; CPU OSC FREQ IN MHZ
INTMODE .SET 3 ; INTERRUPTS: 0=NONE, 1=MODE 1, 2=MODE 2
CRTACT .SET FALSE ; ACTIVATE CRT (VDU,CVDU,PROPIO,ETC) AT STARTUP
;
FPLED_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL LEDS
FPSW_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL SWITCHES
;
MEMMGR .SET MM_Z280 ; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280]
;
RAMLOC .SET 23 ; START OF RAM AS POWER OF 2 (2^N) IN PHYSICAL ADDRESS SPACE
@@ -51,7 +54,8 @@ SIOENABLE .SET TRUE ; SIO: ENABLE ZILOG SIO SERIAL DRIVER (SIO.ASM)
TMSENABLE .SET FALSE ; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
TMSMODE .SET TMSMODE_MSX ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
MKYENABLE .SET FALSE ; MSX 5255 PPI KEYBOARD COMPATIBLE DRIVER (REQUIRES TMS VDA DRIVER)
VDAEMU_SERKBD .SET 0 ; VDA EMULATION: SERIAL KBD UNIT #, OR $FF FOR HW KBD
VRCENABLE .SET TRUE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
VDAEMU_SERKBD .SET $FF ; VDA EMULATION: SERIAL KBD UNIT #, OR $FF FOR HW KBD
;
AY38910ENABLE .SET FALSE ; AY: AY-3-8910 / YM2149 SOUND DRIVER
AYMODE .SET AYMODE_RCZ80 ; AY: DRIVER MODE: AYMODE_[SCG|N8|RCZ80|RCZ180|MSX|LINC]

6
Source/HBIOS/Config/RCZ280_zzrc.asm
View File

@@ -32,6 +32,9 @@ CPUOSC .SET 14745600 ; CPU OSC FREQ IN MHZ
INTMODE .SET 3 ; INTERRUPTS: 0=NONE, 1=MODE 1, 2=MODE 2
CRTACT .SET FALSE ; ACTIVATE CRT (VDU,CVDU,PROPIO,ETC) AT STARTUP
;
FPLED_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL LEDS
FPSW_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL SWITCHES
;
MEMMGR .SET MM_Z280 ; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280]
;
RAMSIZE .SET 256 ; SIZE OF RAM IN KB (MUST MATCH YOUR HARDWARE!!!)
@@ -59,7 +62,8 @@ SIOENABLE .SET TRUE ; SIO: ENABLE ZILOG SIO SERIAL DRIVER (SIO.ASM)
TMSENABLE .SET FALSE ; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
TMSMODE .SET TMSMODE_MSX ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
MKYENABLE .SET FALSE ; MSX 5255 PPI KEYBOARD COMPATIBLE DRIVER (REQUIRES TMS VDA DRIVER)
VDAEMU_SERKBD .SET 0 ; VDA EMULATION: SERIAL KBD UNIT #, OR $FF FOR HW KBD
VRCENABLE .SET TRUE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
VDAEMU_SERKBD .SET $FF ; VDA EMULATION: SERIAL KBD UNIT #, OR $FF FOR HW KBD
;
AY38910ENABLE .SET FALSE ; AY: AY-3-8910 / YM2149 SOUND DRIVER
AYMODE .SET AYMODE_RCZ80 ; AY: DRIVER MODE: AYMODE_[SCG|N8|RCZ80|RCZ180|MSX|LINC]

7
Source/HBIOS/Config/RCZ80_easy.asm
View File

@@ -33,11 +33,12 @@ CPUOSC .SET 10000000 ; CPU OSC FREQ IN MHZ
CRTACT .SET FALSE ; ACTIVATE CRT (VDU,CVDU,PROPIO,ETC) AT STARTUP
INTMODE .SET 2 ; INTERRUPTS: 0=NONE, 1=MODE 1, 2=MODE 2, 3=MODE 3 (Z280)
;
FPLED_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL LEDS
FPSW_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL SWITCHES
;
WDOGMODE .SET WDOG_EZZ80 ; WATCHDOG MODE: WDOG_[NONE|EZZ80|SKZ]
WDOGIO .SET $6F ; WATCHDOG REGISTER ADR
;
DIAGENABLE .SET FALSE ; ENABLES OUTPUT TO 8 BIT LED DIAGNOSTIC PORT
;
DSRTCENABLE .SET TRUE ; DSRTC: ENABLE DS-1302 CLOCK DRIVER (DSRTC.ASM)
RP5RTCENABLE .SET FALSE ; RP5C01 RTC BASED CLOCK (RP5RTC.ASM)
;
@@ -60,6 +61,7 @@ TMSENABLE .SET FALSE ; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
TMSTIMENABLE .SET FALSE ; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
TMSMODE .SET TMSMODE_MSX ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
MKYENABLE .SET FALSE ; MSX 5255 PPI KEYBOARD COMPATIBLE DRIVER (REQUIRES TMS VDA DRIVER)
VRCENABLE .SET FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
VDAEMU_SERKBD .SET 0 ; VDA EMULATION: SERIAL KBD UNIT #, OR $FF FOR HW KBD
;
AY38910ENABLE .SET FALSE ; AY: AY-3-8910 / YM2149 SOUND DRIVER
@@ -73,5 +75,6 @@ IDEENABLE .SET TRUE ; IDE: ENABLE IDE DISK DRIVER (IDE.ASM)
PPIDEENABLE .SET TRUE ; PPIDE: ENABLE PARALLEL PORT IDE DISK DRIVER (PPIDE.ASM)
SDENABLE .SET FALSE ; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)
SDCNT .SET 1 ; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD/SC/MT SC ONLY
IMMENABLE .SET FALSE ; IMM: ENABLE IMM DISK DRIVER (IMM.ASM)
;
PRPENABLE .SET FALSE ; PRP: ENABLE ECB PROPELLER IO BOARD DRIVER (PRP.ASM)

5
Source/HBIOS/Config/RCZ80_kio.asm
View File

@@ -30,6 +30,9 @@ CPUOSC .SET 7372800 ; CPU OSC FREQ IN MHZ
INTMODE .SET 2 ; INTERRUPTS: 0=NONE, 1=MODE 1, 2=MODE 2
CRTACT .SET FALSE ; ACTIVATE CRT (VDU,CVDU,PROPIO,ETC) AT STARTUP
;
FPLED_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL LEDS
FPSW_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL SWITCHES
;
DSRTCENABLE .SET TRUE ; DSRTC: ENABLE DS-1302 CLOCK DRIVER (DSRTC.ASM)
RP5RTCENABLE .SET FALSE ; RP5C01 RTC BASED CLOCK (RP5RTC.ASM)
KIOENABLE .SET TRUE ; ENABLE ZILOG KIO SUPPORT
@@ -55,6 +58,7 @@ TMSENABLE .SET FALSE ; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
TMSTIMENABLE .SET FALSE ; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
TMSMODE .SET TMSMODE_MSX ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
MKYENABLE .SET FALSE ; MSX 5255 PPI KEYBOARD COMPATIBLE DRIVER (REQUIRES TMS VDA DRIVER)
VRCENABLE .SET FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
VDAEMU_SERKBD .SET 0 ; VDA EMULATION: SERIAL KBD UNIT #, OR $FF FOR HW KBD
;
AY38910ENABLE .SET FALSE ; AY: AY-3-8910 / YM2149 SOUND DRIVER
@@ -68,5 +72,6 @@ IDEENABLE .SET TRUE ; IDE: ENABLE IDE DISK DRIVER (IDE.ASM)
PPIDEENABLE .SET TRUE ; PPIDE: ENABLE PARALLEL PORT IDE DISK DRIVER (PPIDE.ASM)
SDENABLE .SET FALSE ; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)
SDCNT .SET 1 ; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD/SC/MT SC ONLY
IMMENABLE .SET FALSE ; IMM: ENABLE IMM DISK DRIVER (IMM.ASM)
;
PRPENABLE .SET FALSE ; PRP: ENABLE ECB PROPELLER IO BOARD DRIVER (PRP.ASM)

5
Source/HBIOS/Config/RCZ80_skz.asm
View File

@@ -29,6 +29,9 @@
CPUOSC .SET 7372800 ; CPU OSC FREQ IN MHZ
CRTACT .SET FALSE ; ACTIVATE CRT (VDU,CVDU,PROPIO,ETC) AT STARTUP
;
FPLED_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL LEDS
FPSW_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL SWITCHES
;
SKZENABLE .SET TRUE ; ENABLE SERGEY'S Z80-512K FEATURES
SKZDIV .SET DIV_12 ; UART CLK (CLK2) DIVIDER FOR Z80-512K
WDOGMODE .SET WDOG_SKZ ; WATCHDOG MODE: WDOG_[NONE|EZZ80|SKZ]
@@ -50,6 +53,7 @@ TMSENABLE .SET FALSE ; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
TMSTIMENABLE .SET FALSE ; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
TMSMODE .SET TMSMODE_MSX ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
MKYENABLE .SET FALSE ; MSX 5255 PPI KEYBOARD COMPATIBLE DRIVER (REQUIRES TMS VDA DRIVER)
VRCENABLE .SET FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
VDAEMU_SERKBD .SET 0 ; VDA EMULATION: SERIAL KBD UNIT #, OR $FF FOR HW KBD
;
AY38910ENABLE .SET FALSE ; AY: AY-3-8910 / YM2149 SOUND DRIVER
@@ -63,5 +67,6 @@ IDEENABLE .SET TRUE ; IDE: ENABLE IDE DISK DRIVER (IDE.ASM)
PPIDEENABLE .SET TRUE ; PPIDE: ENABLE PARALLEL PORT IDE DISK DRIVER (PPIDE.ASM)
SDENABLE .SET FALSE ; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)
SDCNT .SET 1 ; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD/SC/MT SC ONLY
IMMENABLE .SET FALSE ; IMM: ENABLE IMM DISK DRIVER (IMM.ASM)
;
PRPENABLE .SET FALSE ; PRP: ENABLE ECB PROPELLER IO BOARD DRIVER (PRP.ASM)

8
Source/HBIOS/Config/RCZ80_std.asm
View File

@@ -29,6 +29,9 @@
CPUOSC .SET 7372800 ; CPU OSC FREQ IN MHZ
CRTACT .SET FALSE ; ACTIVATE CRT (VDU,CVDU,PROPIO,ETC) AT STARTUP
;
FPLED_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL LEDS
FPSW_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL SWITCHES
;
DSRTCENABLE .SET TRUE ; DSRTC: ENABLE DS-1302 CLOCK DRIVER (DSRTC.ASM)
RP5RTCENABLE .SET FALSE ; RP5C01 RTC BASED CLOCK (RP5RTC.ASM)
;
@@ -37,10 +40,13 @@ ACIAENABLE .SET TRUE ; ACIA: ENABLE MOTOROLA 6850 ACIA DRIVER (ACIA.ASM)
SIOENABLE .SET TRUE ; SIO: ENABLE ZILOG SIO SERIAL DRIVER (SIO.ASM)
DUARTENABLE .SET FALSE ; DUART: ENABLE 2681/2692 SERIAL DRIVER (DUART.ASM)
;
LPTENABLE .SET FALSE ; LPT: ENABLE CENTRONICS PRINTER DRIVER (LPT.ASM)
;
TMSENABLE .SET FALSE ; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
TMSTIMENABLE .SET FALSE ; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
TMSMODE .SET TMSMODE_MSX ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
MKYENABLE .SET FALSE ; MSX 5255 PPI KEYBOARD COMPATIBLE DRIVER (REQUIRES TMS VDA DRIVER)
VRCENABLE .SET FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
VDAEMU_SERKBD .SET 0 ; VDA EMULATION: SERIAL KBD UNIT #, OR $FF FOR HW KBD
;
AY38910ENABLE .SET FALSE ; AY: AY-3-8910 / YM2149 SOUND DRIVER
@@ -53,6 +59,8 @@ FDMODE .SET FDMODE_RCWDC ; FD: DRIVER MODE: FDMODE_[DIO|ZETA|ZETA2|DIDE|N8|DIO3
IDEENABLE .SET TRUE ; IDE: ENABLE IDE DISK DRIVER (IDE.ASM)
PPIDEENABLE .SET TRUE ; PPIDE: ENABLE PARALLEL PORT IDE DISK DRIVER (PPIDE.ASM)
SDENABLE .SET FALSE ; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)
SDMODE .SET SDMODE_PIO ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|PIO|USR]
SDCNT .SET 1 ; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD/SC/MT SC ONLY
IMMENABLE .SET FALSE ; IMM: ENABLE IMM DISK DRIVER (IMM.ASM)
;
PRPENABLE .SET FALSE ; PRP: ENABLE ECB PROPELLER IO BOARD DRIVER (PRP.ASM)

6
Source/HBIOS/Config/RCZ80_tiny.asm
View File

@@ -33,11 +33,13 @@ CPUOSC .SET 16000000 ; CPU OSC FREQ IN MHZ
CRTACT .SET FALSE ; ACTIVATE CRT (VDU,CVDU,PROPIO,ETC) AT STARTUP
INTMODE .SET 2 ; INTERRUPTS: 0=NONE, 1=MODE 1, 2=MODE 2, 3=MODE 3 (Z280)
;
FPLED_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL LEDS
FPSW_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL SWITCHES
;
EIPCENABLE .SET TRUE ; EIPC: ENABLE Z80 EIPC (Z84C15) INITIALIZATION
WDOGMODE .SET WDOG_EZZ80 ; WATCHDOG MODE: WDOG_[NONE|EZZ80|SKZ]
WDOGIO .SET $6F ; WATCHDOG REGISTER ADR
;
DIAGENABLE .SET FALSE ; ENABLES OUTPUT TO 8 BIT LED DIAGNOSTIC PORT
LEDENABLE .SET TRUE ; ENABLES STATUS LED (SINGLE LED)
LEDPORT .SET $6E ; STATUS LED PORT ADDRESS
;
@@ -65,6 +67,7 @@ TMSENABLE .SET FALSE ; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
TMSTIMENABLE .SET FALSE ; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
TMSMODE .SET TMSMODE_MSX ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
MKYENABLE .SET FALSE ; MSX 5255 PPI KEYBOARD COMPATIBLE DRIVER (REQUIRES TMS VDA DRIVER)
VRCENABLE .SET FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
VDAEMU_SERKBD .SET 0 ; VDA EMULATION: SERIAL KBD UNIT #, OR $FF FOR HW KBD
;
AY38910ENABLE .SET FALSE ; AY: AY-3-8910 / YM2149 SOUND DRIVER
@@ -79,5 +82,6 @@ IDE0BASE .SET $90 ; IDE 0: IO BASE ADDRESS
PPIDEENABLE .SET TRUE ; PPIDE: ENABLE PARALLEL PORT IDE DISK DRIVER (PPIDE.ASM)
SDENABLE .SET FALSE ; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)
SDCNT .SET 1 ; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD/SC/MT SC ONLY
IMMENABLE .SET FALSE ; IMM: ENABLE IMM DISK DRIVER (IMM.ASM)
;
PRPENABLE .SET FALSE ; PRP: ENABLE ECB PROPELLER IO BOARD DRIVER (PRP.ASM)

7
Source/HBIOS/Config/RCZ80_zrc.asm
View File

@@ -30,6 +30,9 @@
CPUOSC .SET 14745600 ; CPU OSC FREQ IN MHZ
CRTACT .SET FALSE ; ACTIVATE CRT (VDU,CVDU,PROPIO,ETC) AT STARTUP
;
FPLED_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL LEDS
FPSW_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL SWITCHES
;
RAMSIZE .SET 1536 ; SIZE OF RAM IN KB (MUST MATCH YOUR HARDWARE!!!)
MEMMGR .SET MM_ZRC ; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180]
;
@@ -42,7 +45,8 @@ TMSENABLE .SET FALSE ; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
TMSTIMENABLE .SET FALSE ; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
TMSMODE .SET TMSMODE_MSX ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
MKYENABLE .SET FALSE ; MSX 5255 PPI KEYBOARD COMPATIBLE DRIVER (REQUIRES TMS VDA DRIVER)
VDAEMU_SERKBD .SET 0 ; VDA EMULATION: SERIAL KBD UNIT #, OR $FF FOR HW KBD
VRCENABLE .SET TRUE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
VDAEMU_SERKBD .SET $FF ; VDA EMULATION: SERIAL KBD UNIT #, OR $FF FOR HW KBD
;
AY38910ENABLE .SET FALSE ; AY: AY-3-8910 / YM2149 SOUND DRIVER
AYMODE .SET AYMODE_RCZ80 ; AY: DRIVER MODE: AYMODE_[SCG|N8|RCZ80|RCZ180|MSX|LINC]
@@ -55,5 +59,6 @@ IDEENABLE .SET TRUE ; IDE: ENABLE IDE DISK DRIVER (IDE.ASM)
PPIDEENABLE .SET TRUE ; PPIDE: ENABLE PARALLEL PORT IDE DISK DRIVER (PPIDE.ASM)
SDENABLE .SET FALSE ; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)
SDCNT .SET 1 ; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD/SC/MT SC ONLY
IMMENABLE .SET FALSE ; IMM: ENABLE IMM DISK DRIVER (IMM.ASM)
;
PRPENABLE .SET FALSE ; PRP: ENABLE ECB PROPELLER IO BOARD DRIVER (PRP.ASM)

5
Source/HBIOS/Config/RCZ80_zrc_ram.asm
View File

@@ -31,6 +31,9 @@
CPUOSC .SET 7372800 ; CPU OSC FREQ IN MHZ
CRTACT .SET FALSE ; ACTIVATE CRT (VDU,CVDU,PROPIO,ETC) AT STARTUP
;
FPLED_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL LEDS
FPSW_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL SWITCHES
;
RAMSIZE .SET 2048 ; SIZE OF RAM IN KB (MUST MATCH YOUR HARDWARE!!!)
ROMSIZE .SET 0 ; SIZE OF ROM IN KB (MUST MATCH YOUR HARDWARE!!!)
MEMMGR .SET MM_ZRC ; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180]
@@ -46,6 +49,7 @@ TMSENABLE .SET FALSE ; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
TMSTIMENABLE .SET FALSE ; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
TMSMODE .SET TMSMODE_MSX ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
MKYENABLE .SET FALSE ; MSX 5255 PPI KEYBOARD COMPATIBLE DRIVER (REQUIRES TMS VDA DRIVER)
VRCENABLE .SET TRUE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
VDAEMU_SERKBD .SET 0 ; VDA EMULATION: SERIAL KBD UNIT #, OR $FF FOR HW KBD
;
AY38910ENABLE .SET FALSE ; AY: AY-3-8910 / YM2149 SOUND DRIVER
@@ -59,5 +63,6 @@ IDEENABLE .SET TRUE ; IDE: ENABLE IDE DISK DRIVER (IDE.ASM)
PPIDEENABLE .SET TRUE ; PPIDE: ENABLE PARALLEL PORT IDE DISK DRIVER (PPIDE.ASM)
SDENABLE .SET FALSE ; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)
SDCNT .SET 1 ; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD/SC/MT SC ONLY
IMMENABLE .SET FALSE ; IMM: ENABLE IMM DISK DRIVER (IMM.ASM)
;
PRPENABLE .SET FALSE ; PRP: ENABLE ECB PROPELLER IO BOARD DRIVER (PRP.ASM)

3
Source/HBIOS/Config/SBC_max.asm
View File

@@ -35,7 +35,8 @@ USELZSA2 .SET TRUE ; ENABLE FONT COMPRESSION
;
KIOENABLE .SET TRUE ; ENABLE ZILOG KIO SUPPORT
;
DIAGENABLE .SET TRUE ; ENABLES OUTPUT TO 8 BIT LED DIAGNOSTIC PORT
FPLED_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL LEDS
FPSW_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL SWITCHES
;
DSKYENABLE .SET TRUE ; ENABLES DSKY (DO NOT COMBINE WITH PPIDE)
;

3
Source/HBIOS/Config/SBC_simh.asm
View File

@@ -30,6 +30,9 @@ INTMODE .SET 1 ; INTERRUPTS: 0=NONE, 1=MODE 1, 2=MODE 2
;
HTIMENABLE .SET TRUE ; ENABLE SIMH TIMER SUPPORT
;
SIMRTCENABLE .SET TRUE ; ENABLE SIMH CLOCK DRIVER (SIMRTC.ASM)
DSRTCENABLE .SET FALSE ; DSRTC: ENABLE DS-1302 CLOCK DRIVER (DSRTC.ASM)
;
UARTENABLE .SET TRUE ; UART: ENABLE 8250/16550-LIKE SERIAL DRIVER (UART.ASM)
UARTSBCFORCE .SET TRUE ; UART: FORCE DETECTION OF SBC UART (FOR SIMH)
;

6
Source/HBIOS/Config/SCZ180_sc126.asm
View File

@@ -35,8 +35,9 @@ Z180_CLKDIV .SET 1 ; Z180: CHK DIV: 0=OSC/2, 1=OSC, 2=OSC*2
Z180_MEMWAIT .SET 0 ; Z180: MEMORY WAIT STATES (0-3)
Z180_IOWAIT .SET 1 ; Z180: I/O WAIT STATES TO ADD ABOVE 1 W/S BUILT-IN (0-3)
;
DIAGENABLE .SET TRUE ; ENABLES OUTPUT TO 8 BIT LED DIAGNOSTIC PORT
DIAGPORT .SET $0D ; DIAGNOSTIC PORT ADDRESS
FPLED_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL LEDS
FPSW_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL SWITCHES
FPLED_IO .SET $0D ; FP: PORT ADDRESS FOR FP LEDS
;
DSRTCENABLE .SET TRUE ; DSRTC: ENABLE DS-1302 CLOCK DRIVER (DSRTC.ASM)
INTRTCENABLE .SET TRUE ; ENABLE PERIODIC INTERRUPT CLOCK DRIVER (INTRTC.ASM)
@@ -50,6 +51,7 @@ TMSENABLE .SET FALSE ; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
TMSTIMENABLE .SET FALSE ; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
TMSMODE .SET TMSMODE_MSX ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
MKYENABLE .SET FALSE ; MSX 5255 PPI KEYBOARD COMPATIBLE DRIVER (REQUIRES TMS VDA DRIVER)
VRCENABLE .SET FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
VDAEMU_SERKBD .SET 0 ; VDA EMULATION: SERIAL KBD UNIT #, OR $FF FOR HW KBD
;
AY38910ENABLE .SET TRUE ; AY: AY-3-8910 / YM2149 SOUND DRIVER

5
Source/HBIOS/Config/SCZ180_sc130.asm
View File

@@ -35,8 +35,10 @@ Z180_CLKDIV .SET 1 ; Z180: CHK DIV: 0=OSC/2, 1=OSC, 2=OSC*2
Z180_MEMWAIT .SET 0 ; Z180: MEMORY WAIT STATES (0-3)
Z180_IOWAIT .SET 1 ; Z180: I/O WAIT STATES TO ADD ABOVE 1 W/S BUILT-IN (0-3)
;
FPLED_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL LEDS
FPSW_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL SWITCHES
;
LEDENABLE .SET TRUE ; ENABLE STATUS LED (SINGLE LED)
DIAGENABLE .SET FALSE ; ENABLES OUTPUT TO 8 BIT LED DIAGNOSTIC PORT
;
DSRTCENABLE .SET TRUE ; DSRTC: ENABLE DS-1302 CLOCK DRIVER (DSRTC.ASM)
INTRTCENABLE .SET TRUE ; ENABLE PERIODIC INTERRUPT CLOCK DRIVER (INTRTC.ASM)
@@ -50,6 +52,7 @@ TMSENABLE .SET FALSE ; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
TMSTIMENABLE .SET FALSE ; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
TMSMODE .SET TMSMODE_MSX ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
MKYENABLE .SET FALSE ; MSX 5255 PPI KEYBOARD COMPATIBLE DRIVER (REQUIRES TMS VDA DRIVER)
VRCENABLE .SET FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
VDAEMU_SERKBD .SET 0 ; VDA EMULATION: SERIAL KBD UNIT #, OR $FF FOR HW KBD
;
AY38910ENABLE .SET TRUE ; AY: AY-3-8910 / YM2149 SOUND DRIVER

4
Source/HBIOS/Config/SCZ180_sc131.asm
View File

@@ -34,8 +34,10 @@ Z180_CLKDIV .SET 1 ; Z180: CHK DIV: 0=OSC/2, 1=OSC, 2=OSC*2
Z180_MEMWAIT .SET 0 ; Z180: MEMORY WAIT STATES (0-3)
Z180_IOWAIT .SET 1 ; Z180: I/O WAIT STATES TO ADD ABOVE 1 W/S BUILT-IN (0-3)
;
FPLED_ENABLE .SET FALSE ; FP: ENABLES FRONT PANEL LEDS
FPSW_ENABLE .SET FALSE ; FP: ENABLES FRONT PANEL SWITCHES
;
LEDENABLE .SET TRUE ; ENABLE STATUS LED (SINGLE LED)
DIAGENABLE .SET FALSE ; ENABLES OUTPUT TO 8 BIT LED DIAGNOSTIC PORT
;
DSRTCENABLE .SET FALSE ; DSRTC: ENABLE DS-1302 CLOCK DRIVER (DSRTC.ASM)
INTRTCENABLE .SET TRUE ; ENABLE PERIODIC INTERRUPT CLOCK DRIVER (INTRTC.ASM)

7
Source/HBIOS/Config/SCZ180_sc140.asm
View File

@@ -34,9 +34,12 @@ Z180_CLKDIV .SET 1 ; Z180: CHK DIV: 0=OSC/2, 1=OSC, 2=OSC*2
Z180_MEMWAIT .SET 0 ; Z180: MEMORY WAIT STATES (0-3)
Z180_IOWAIT .SET 1 ; Z180: I/O WAIT STATES TO ADD ABOVE 1 W/S BUILT-IN (0-3)
;
FPLED_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL LEDS
FPLED_IO .SET $A0 ; FP: PORT ADDRESS FOR FP LEDS
FPSW_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL SWITCHES
FPSW_IO .SET $A0 ; FP: PORT ADDRESS FOR FP SWITCHES
;
LEDENABLE .SET TRUE ; ENABLE STATUS LED (SINGLE LED)
DIAGENABLE .SET TRUE ; ENABLES OUTPUT TO 8 BIT LED DIAGNOSTIC PORT
DIAGPORT .SET $A0 ; DIAGNOSTIC PORT ADDRESS
;
DSRTCENABLE .SET TRUE ; DSRTC: ENABLE DS-1302 CLOCK DRIVER (DSRTC.ASM)
INTRTCENABLE .SET TRUE ; ENABLE PERIODIC INTERRUPT CLOCK DRIVER (INTRTC.ASM)

7
Source/HBIOS/Config/SCZ180_sc503.asm
View File

@@ -34,9 +34,12 @@ Z180_CLKDIV .SET 1 ; Z180: CHK DIV: 0=OSC/2, 1=OSC, 2=OSC*2
Z180_MEMWAIT .SET 0 ; Z180: MEMORY WAIT STATES (0-3)
Z180_IOWAIT .SET 1 ; Z180: I/O WAIT STATES TO ADD ABOVE 1 W/S BUILT-IN (0-3)
;
FPLED_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL LEDS
FPLED_IO .SET $A0 ; FP: PORT ADDRESS FOR FP LEDS
FPSW_ENABLE .SET TRUE ; FP: ENABLES FRONT PANEL SWITCHES
FPSW_IO .SET $A0 ; FP: PORT ADDRESS FOR FP SWITCHES
;
LEDENABLE .SET TRUE ; ENABLE STATUS LED (SINGLE LED)
DIAGENABLE .SET TRUE ; ENABLES OUTPUT TO 8 BIT LED DIAGNOSTIC PORT
DIAGPORT .SET $A0 ; DIAGNOSTIC PORT ADDRESS
;
DSRTCENABLE .SET TRUE ; DSRTC: ENABLE DS-1302 CLOCK DRIVER (DSRTC.ASM)
INTRTCENABLE .SET TRUE ; ENABLE PERIODIC INTERRUPT CLOCK DRIVER (INTRTC.ASM)

35
Source/HBIOS/Config/Z80RETRO_std.asm Normal file
View File

@@ -0,0 +1,35 @@
;
;==================================================================================================
; ZETA2 STANDARD CONFIGURATION
;==================================================================================================
;
; THE COMPLETE SET OF DEFAULT CONFIGURATION SETTINGS FOR THIS PLATFORM ARE FOUND IN THE
; CFG_<PLT>.ASM INCLUDED FILE WHICH IS FOUND IN THE PARENT DIRECTORY. THIS FILE CONTAINS
; COMMON CONFIGURATION SETTINGS THAT OVERRIDE THE DEFAULTS. IT IS INTENDED THAT YOU MAKE
; YOUR CUSTOMIZATIONS IN THIS FILE AND JUST INHERIT ALL OTHER SETTINGS FROM THE DEFAULTS.
; EVEN BETTER, YOU CAN MAKE A COPY OF THIS FILE WITH A NAME LIKE <PLT>_XXX.ASM AND SPECIFY
; YOUR FILE IN THE BUILD PROCESS.
;
; THE SETTINGS BELOW ARE THE SETTINGS THAT ARE MOST COMMONLY MODIFIED FOR THIS PLATFORM.
; MANY OF THEM ARE EQUAL TO THE SETTINGS IN THE INCLUDED FILE, SO THEY DON'T REALLY DO
; ANYTHING AS IS. THEY ARE LISTED HERE TO MAKE IT EASY FOR YOU TO ADJUST THE MOST COMMON
; SETTINGS.
;
; N.B., SINCE THE SETTINGS BELOW ARE REDEFINING VALUES ALREADY SET IN THE INCLUDED FILE,
; TASM INSISTS THAT YOU USE THE .SET OPERATOR AND NOT THE .EQU OPERATOR BELOW. ATTEMPTING
; TO REDEFINE A VALUE WITH .EQU BELOW WILL CAUSE TASM ERRORS!
;
; PLEASE REFER TO THE CUSTOM BUILD INSTRUCTIONS (README.TXT) IN THE SOURCE DIRECTORY (TWO
; DIRECTORIES ABOVE THIS ONE).
;
#DEFINE BOOT_DEFAULT "H" ; DEFAULT BOOT LOADER CMD ON <CR> OR AUTO BOOT
;
#include "cfg_z80retro.asm"
;
CPUOSC .SET 14745600 ; CPU OSC FREQ IN MHZ
INTMODE .SET 2 ; INTERRUPTS: 0=NONE, 1=MODE 1, 2=MODE 2
CRTACT .SET FALSE ; ACTIVATE CRT (VDU,CVDU,PROPIO,ETC) AT STARTUP
;
UARTENABLE .SET FALSE ; UART: ENABLE 8250/16550-LIKE SERIAL DRIVER (UART.ASM)
;
SDENABLE .SET TRUE ; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)

4
Source/HBIOS/Config/ZETA2_std.asm
View File

@@ -26,7 +26,7 @@
;
#include "cfg_zeta2.asm"
;
CPUOSC .SET 20000000 ; CPU OSC FREQ IN MHZ
CPUOSC .SET 8000000 ; CPU OSC FREQ IN MHZ
INTMODE .SET 2 ; INTERRUPTS: 0=NONE, 1=MODE 1, 2=MODE 2
CRTACT .SET TRUE ; ACTIVATE CRT (VDU,CVDU,PROPIO,ETC) AT STARTUP
;
@@ -35,7 +35,7 @@ UARTENABLE .SET TRUE ; UART: ENABLE 8250/16550-LIKE SERIAL DRIVER (UART.ASM)
UARTSBC .SET TRUE ; UART: AUTO-DETECT SBC/ZETA ONBOARD UART
;
FDENABLE .SET TRUE ; FD: ENABLE FLOPPY DISK DRIVER (FD.ASM)
FDMODE .SET FDMODE_ZETA ; FD: DRIVER MODE: FDMODE_[DIO|ZETA|ZETA2|DIDE|N8|DIO3|RCSMC|RCWDC|DYNO|EPWDC]
FDMODE .SET FDMODE_ZETA2 ; FD: DRIVER MODE: FDMODE_[DIO|ZETA|ZETA2|DIDE|N8|DIO3|RCSMC|RCWDC|DYNO|EPWDC]
;
PPIDEENABLE .SET FALSE ; PPIDE: ENABLE PARALLEL PORT IDE DISK DRIVER (PPIDE.ASM)
SDENABLE .SET FALSE ; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)

3
Source/HBIOS/Makefile
View File

@@ -24,7 +24,8 @@ endif
include $(TOOLS)/Makefile.inc
FONTS := font8x11c.asm font8x11u.asm font8x16c.asm font8x16u.asm font8x8c.asm font8x8u.asm fontcgac.asm fontcgau.asm
FONTS := font8x11c.asm font8x11u.asm font8x16c.asm font8x16u.asm font8x8c.asm font8x8u.asm \
fontcgac.asm fontcgau.asm fontvgarcc.asm fontvgarcu.asm
ifeq ($(CPUFAM),2)
TASM=$(BINDIR)/uz80as -t hd64180

4
Source/HBIOS/ansi.asm
View File

@@ -634,9 +634,9 @@ ANSI_BEL:
ANSI_BS:
LD A,(ANSI_COL) ; GET CURRENT COLUMN
DEC A ; BACK IT UP BY ONE
RET C ; IF CARRY, MARGIN EXCEEDED, ABORT
RET M ; IF CARRY, MARGIN EXCEEDED, ABORT
LD (ANSI_COL),A ; SAVE NEW COLUMN
JP ANSI_XY ; UDPATE CUSROR AND RETURN
JP ANSI_XY ; UDPATE CURSOR AND RETURN
;
ANSI_CR:
XOR A ; ZERO ACCUM

30
Source/HBIOS/asci.asm
View File

@@ -53,7 +53,7 @@
; ASEXT:
; 7 6 5 4 3 2 1 0
; R D C X B F D S
; 0 1 1 0 0 1 1 0 DEFAULT VALUES
; 0 1 1 0 0 0 0 0 DEFAULT VALUES
; | | | | | | | |
; | | | | | | | +-- SEND BREAK
; | | | | | | +---- BREAK DETECT (RO)
@@ -64,6 +64,10 @@
; | +-------------- DCD0 DISABLE
; +---------------- RDRF INT INHIBIT
;
ASCI_DEF_CNTLA .EQU $64
ASCI_DEF_CNTLB .EQU $20
ASCI_DEF_ASEXT .EQU $60
;
ASCI_BUFSZ .EQU 32 ; RECEIVE RING BUFFER SIZE
;
ASCI_NONE .EQU 0 ; NOT PRESENT
@@ -513,17 +517,29 @@ ASCI_INITDEV3:
SET 4,C ; SET CNTLB BIT 4 FOR ODD PARITY
;
ASCI_INITDEV4:
; SETUP ASEXT
LD A,D ; CONFIG HIGH BYTE
AND %00100000 ; BIT 5 IS RTS
CPL ; INVERT FOR ASEXT
LD L,A ; MOVE TO L
LD A,ASCI_DEF_ASEXT ; GET ASEXT DEFAULT
AND L ; COMBINE
LD L,A ; AND LEAVE IN L
;
; SAVE CONFIG PERMANENTLY NOW
LD (IY+4),E ; SAVE LOW WORD
LD (IY+5),D ; SAVE HI WORD
JR ASCI_INITGO
;
ASCI_INITSAFE:
LD B,$64 ; CNTLA FAILSAFE VALUE
LD C,$20 ; CNTLB FAILSAFE VALUE
LD B,ASCI_DEF_CNTLA ; CNTLA FAILSAFE VALUE
LD C,ASCI_DEF_CNTLB ; CNTLB FAILSAFE VALUE
LD L,ASCI_DEF_ASEXT ; ASEXT FAILSAFE VALUE
;
ASCI_INITGO:
; IMPLEMENT CONFIGURATION
; B = CNTLA, C=CNTLB, L=ASEXT
PUSH HL ; SAVE ASEXT
LD H,B ; H := CNTLA VAL
LD L,C ; L := CNTLB VAL
LD B,0 ; MSB OF PORT MUST BE ZERO!
@@ -532,6 +548,7 @@ ASCI_INITGO:
INC C ; BUMP TO
INC C ; ... CNTLB REG, B IS STILL 0
OUT (C),L ; WRITE CNTLB VALUE
POP HL ; RECOVER ASEXT
INC C ; BUMP TO
INC C ; ... STAT REG, B IS STILL 0
#IF ((ASCIINTS) & (INTMODE > 0))
@@ -543,8 +560,11 @@ ASCI_INITGO:
LD A,$0E ; BUMP TO
ADD A,C ; ... ASEXT REG
LD C,A ; PUT IN C FOR I/O, B IS STILL 0
LD A,$66 ; STATIC VALUE FOR ASEXT
OUT (C),A ; WRITE ASEXT REG
BIT 0,C ; IS C ADDRESSING AN ODD NUMBERED PORT?
JR NZ,ASCI_INITGOZ ; IF SO, THIS IS SEC SERIAL, NO CTS!
OUT (C),L ; WRITE ASEXT REG
;
ASCI_INITGOZ:
;
#IF ((ASCIINTS) & (INTMODE > 0))
;

28
Source/HBIOS/cfg_dyno.asm
View File

@@ -15,7 +15,7 @@
;
#INCLUDE "hbios.inc"
;
PLATFORM .EQU PLT_DYNO ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH]
PLATFORM .EQU PLT_DYNO ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
CPUFAM .EQU CPU_Z180 ; CPU FAMILY: CPU_[Z80|Z180|Z280]
BIOS .EQU BIOS_WBW ; HARDWARE BIOS: BIOS_[WBW|UNA]
BATCOND .EQU FALSE ; ENABLE LOW BATTERY WARNING MESSAGE
@@ -66,9 +66,12 @@ SKZENABLE .EQU FALSE ; ENABLE SERGEY'S Z80-512K FEATURES
;
WDOGMODE .EQU WDOG_NONE ; WATCHDOG MODE: WDOG_[NONE|EZZ80|SKZ]
;
DIAGENABLE .EQU FALSE ; ENABLES OUTPUT TO 8 BIT LED DIAGNOSTIC PORT
DIAGPORT .EQU $00 ; DIAGNOSTIC PORT ADDRESS
DIAGDISKIO .EQU TRUE ; ENABLES DISK I/O ACTIVITY ON DIAGNOSTIC LEDS
FPLED_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL LEDS
FPLED_IO .EQU $00 ; FP: PORT ADDRESS FOR FP LEDS
FPLED_DSKACT .EQU TRUE ; FP: ENABLES DISK I/O ACTIVITY ON FP LEDS
FPSW_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL SWITCHES
FPSW_IO .EQU $00 ; FP: PORT ADDRESS FOR FP SWITCHES
;
DIAGLVL .EQU DL_CRITICAL ; ERROR LEVEL REPORTING
;
LEDENABLE .EQU FALSE ; ENABLES STATUS LED (SINGLE LED)
@@ -146,7 +149,7 @@ SIOENABLE .EQU FALSE ; SIO: ENABLE ZILOG SIO SERIAL DRIVER (SIO.ASM)
SIODEBUG .EQU FALSE ; SIO: ENABLE DEBUG OUTPUT
SIOBOOT .EQU 0 ; SIO: REBOOT ON RCV CHAR (0=DISABLED)
SIOCNT .EQU 2 ; SIO: NUMBER OF CHIPS TO DETECT (1-2), 2 CHANNELS PER CHIP
SIO0MODE .EQU SIOMODE_RC ; SIO 0: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP]
SIO0MODE .EQU SIOMODE_RC ; SIO 0: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP|Z80R]
SIO0BASE .EQU $80 ; SIO 0: REGISTERS BASE ADR
SIO0ACLK .EQU 7372800 ; SIO 0A: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO0ACFG .EQU SER_115200_8N1 ; SIO 0A: SERIAL LINE CONFIG
@@ -154,7 +157,7 @@ SIO0ACTCC .EQU -1 ; SIO 0A: CTC CHANNEL 0=A, 1=B, 2=C, 3=D, -1 FOR NONE
SIO0BCLK .EQU 7372800 ; SIO 0B: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO0BCFG .EQU SER_115200_8N1 ; SIO 0B: SERIAL LINE CONFIG
SIO0BCTCC .EQU -1 ; SIO 0B: CTC CHANNEL 0=A, 1=B, 2=C, 3=D, -1 FOR NONE
SIO1MODE .EQU SIOMODE_RC ; SIO 1: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP]
SIO1MODE .EQU SIOMODE_RC ; SIO 1: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP|Z80R]
SIO1BASE .EQU $84 ; SIO 1: REGISTERS BASE ADR
SIO1ACLK .EQU 7372800 ; SIO 1A: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO1ACFG .EQU SER_115200_8N1 ; SIO 1A: SERIAL LINE CONFIG
@@ -172,6 +175,7 @@ TMSENABLE .EQU FALSE ; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
TMSMODE .EQU TMSMODE_MSX ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
TMSTIMENABLE .EQU FALSE ; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
VGAENABLE .EQU FALSE ; VGA: ENABLE VGA VIDEO/KBD DRIVER (VGA.ASM)
VRCENABLE .EQU FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
;
MDENABLE .EQU TRUE ; MD: ENABLE MEMORY (ROM/RAM) DISK DRIVER (MD.ASM)
MDROM .EQU TRUE ; MD: ENABLE ROM DISK
@@ -183,9 +187,9 @@ FDENABLE .EQU FALSE ; FD: ENABLE FLOPPY DISK DRIVER (FD.ASM)
FDMODE .EQU FDMODE_DYNO ; FD: DRIVER MODE: FDMODE_[DIO|ZETA|ZETA2|DIDE|N8|DIO3|RCSMC|RCWDC|DYNO|EPFDC|MBC]
FDCNT .EQU 2 ; FD: NUMBER OF FLOPPY DRIVES ON THE INTERFACE (1-2)
FDTRACE .EQU 1 ; FD: TRACE LEVEL (0=NO,1=FATAL,2=ERRORS,3=ALL)
FDMEDIA .EQU FDM144 ; FD: DEFAULT MEDIA FORMAT FDM[720|144|360|120|111]
FDMEDIAALT .EQU FDM720 ; FD: ALTERNATE MEDIA FORMAT FDM[720|144|360|120|111]
FDMAUTO .EQU TRUE ; FD: AUTO SELECT DEFAULT/ALTERNATE MEDIA FORMATS
FD0TYPE .EQU FDT_3HD ; FD 0: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
FD1TYPE .EQU FDT_3HD ; FD 1: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
;
RFENABLE .EQU FALSE ; RF: ENABLE RAM FLOPPY DRIVER
;
@@ -225,7 +229,7 @@ PPIDE2A8BIT .EQU FALSE ; PPIDE 2A (MASTER): 8 BIT XFER
PPIDE2B8BIT .EQU FALSE ; PPIDE 0B (SLAVE): 8 BIT XFER
;
SDENABLE .EQU FALSE ; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)
SDMODE .EQU SDMODE_PPI ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|USR]
SDMODE .EQU SDMODE_PPI ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|PIO|Z80R|USR]
SDPPIBASE .EQU $60 ; SD: BASE I/O ADDRESS OF PPI FOR PPI MODDE
SDCNT .EQU 1 ; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD/SC/MT ONLY
SDTRACE .EQU 1 ; SD: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
@@ -248,6 +252,12 @@ PIO1BASE .EQU $BC ; PIO 1: REGISTERS BASE ADR
;
LPTENABLE .EQU FALSE ; LPT: ENABLE CENTRONICS PRINTER DRIVER (LPT.ASM)
;
PPAENABLE .EQU FALSE ; PPA: ENABLE PPA DISK DRIVER (PPA.ASM)
;
IMMENABLE .EQU FALSE ; IMM: ENABLE IMM DISK DRIVER (IMM.ASM)
;
SYQENABLE .EQU FALSE ; SYQ: ENABLE IMM DISK DRIVER (SYQ.ASM)
;
PIO_4P .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB 4P BOARD
PIO_ZP .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB ZILOG PERIPHERALS BOARD (PIO.ASM)
PIO_SBC .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR 8255 CHIP

45
Source/HBIOS/cfg_master.asm
View File

@@ -12,7 +12,7 @@
;
#INCLUDE "hbios.inc"
;
PLATFORM .EQU PLT_SBC ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH]
PLATFORM .EQU PLT_SBC ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
CPUFAM .EQU CPU_Z80 ; CPU FAMILY: CPU_[Z80|Z180|Z280]
BIOS .EQU BIOS_WBW ; HARDWARE BIOS: BIOS_[WBW|UNA]
BATCOND .EQU FALSE ; ENABLE LOW BATTERY WARNING MESSAGE
@@ -95,9 +95,12 @@ SKZDIV .EQU DIV_1 ; UART CLK (CLK2) DIVIDER FOR Z80-512K
WDOGMODE .EQU WDOG_NONE ; WATCHDOG MODE: WDOG_[NONE|EZZ80|SKZ]
WDOGIO .EQU $6F ; WATCHDOG REGISTER ADR
;
DIAGENABLE .EQU FALSE ; ENABLES OUTPUT TO 8 BIT LED DIAGNOSTIC PORT
DIAGPORT .EQU $00 ; DIAGNOSTIC PORT ADDRESS
DIAGDISKIO .EQU TRUE ; ENABLES DISK I/O ACTIVITY ON DIAGNOSTIC LEDS
FPLED_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL LEDS
FPLED_IO .EQU $00 ; FP: PORT ADDRESS FOR FP LEDS
FPLED_DSKACT .EQU TRUE ; FP: ENABLES DISK I/O ACTIVITY ON FP LEDS
FPSW_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL SWITCHES
FPSW_IO .EQU $00 ; FP: PORT ADDRESS FOR FP SWITCHES
;
DIAGLVL .EQU DL_CRITICAL ; ERROR LEVEL REPORTING
;
LEDENABLE .EQU FALSE ; ENABLES STATUS LED (SINGLE LED)
@@ -194,7 +197,7 @@ SIOENABLE .EQU FALSE ; SIO: ENABLE ZILOG SIO SERIAL DRIVER (SIO.ASM)
SIODEBUG .EQU FALSE ; SIO: ENABLE DEBUG OUTPUT
SIOBOOT .EQU 0 ; SIO: REBOOT ON RCV CHAR (0=DISABLED)
SIOCNT .EQU 2 ; SIO: NUMBER OF CHIPS TO DETECT (1-2), 2 CHANNELS PER CHIP
SIO0MODE .EQU SIOMODE_RC ; SIO 0: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP]
SIO0MODE .EQU SIOMODE_RC ; SIO 0: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP|Z80R]
SIO0BASE .EQU $80 ; SIO 0: REGISTERS BASE ADR
SIO0ACLK .EQU CPUOSC ; SIO 0A: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO0ACFG .EQU DEFSERCFG ; SIO 0A: SERIAL LINE CONFIG
@@ -202,7 +205,7 @@ SIO0ACTCC .EQU -1 ; SIO 0A: CTC CHANNEL 0=A, 1=B, 2=C, 3=D, -1 FOR NONE
SIO0BCLK .EQU CPUOSC ; SIO 0B: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO0BCFG .EQU DEFSERCFG ; SIO 0B: SERIAL LINE CONFIG
SIO0BCTCC .EQU -1 ; SIO 0B: CTC CHANNEL 0=A, 1=B, 2=C, 3=D, -1 FOR NONE
SIO1MODE .EQU SIOMODE_RC ; SIO 1: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP]
SIO1MODE .EQU SIOMODE_RC ; SIO 1: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP|Z80R]
SIO1BASE .EQU $84 ; SIO 1: REGISTERS BASE ADR
SIO1ACLK .EQU CPUOSC ; SIO 1A: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO1ACFG .EQU DEFSERCFG ; SIO 1A: SERIAL LINE CONFIG
@@ -226,6 +229,7 @@ TMSMODE .EQU TMSMODE_NONE ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|M
TMSTIMENABLE .EQU FALSE ; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
VGAENABLE .EQU FALSE ; VGA: ENABLE VGA VIDEO/KBD DRIVER (VGA.ASM)
VGASIZ .EQU V80X25 ; VGA: DISPLAY FORMAT [V80X25|V80X30|V80X43]
VRCENABLE .EQU FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
;
MDENABLE .EQU TRUE ; MD: ENABLE MEMORY (ROM/RAM) DISK DRIVER (MD.ASM)
MDROM .EQU TRUE ; MD: ENABLE ROM DISK
@@ -237,9 +241,9 @@ FDENABLE .EQU FALSE ; FD: ENABLE FLOPPY DISK DRIVER (FD.ASM)
FDMODE .EQU FDMODE_NONE ; FD: DRIVER MODE: FDMODE_[DIO|ZETA|ZETA2|DIDE|N8|DIO3|RCSMC|RCWDC|DYNO|EPFDC|MBC]
FDCNT .EQU 2 ; FD: NUMBER OF FLOPPY DRIVES ON THE INTERFACE (1-2)
FDTRACE .EQU 1 ; FD: TRACE LEVEL (0=NO,1=FATAL,2=ERRORS,3=ALL)
FDMEDIA .EQU FDM144 ; FD: DEFAULT MEDIA FORMAT FDM[720|144|360|120|111]
FDMEDIAALT .EQU FDM720 ; FD: ALTERNATE MEDIA FORMAT FDM[720|144|360|120|111]
FDMAUTO .EQU TRUE ; FD: AUTO SELECT DEFAULT/ALTERNATE MEDIA FORMATS
FD0TYPE .EQU FDT_3HD ; FD 0: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
FD1TYPE .EQU FDT_3HD ; FD 1: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
;
RFENABLE .EQU FALSE ; RF: ENABLE RAM FLOPPY DRIVER
RFCNT .EQU 1 ; RF: NUMBER OF RAM FLOPPY UNITS (1-4)
@@ -280,7 +284,7 @@ PPIDE2A8BIT .EQU FALSE ; PPIDE 2A (MASTER): 8 BIT XFER
PPIDE2B8BIT .EQU FALSE ; PPIDE 0B (SLAVE): 8 BIT XFER
;
SDENABLE .EQU FALSE ; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)
SDMODE .EQU SDMODE_NONE ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|USR]
SDMODE .EQU SDMODE_NONE ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|PIO|Z80R|USR]
SDPPIBASE .EQU $60 ; SD: BASE I/O ADDRESS OF PPI FOR PPI MODDE
SDCNT .EQU 1 ; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD/SC/MT ONLY
SDTRACE .EQU 1 ; SD: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
@@ -307,10 +311,33 @@ PIO0BASE .EQU $B8 ; PIO 0: REGISTERS BASE ADR
PIO1BASE .EQU $BC ; PIO 1: REGISTERS BASE ADR
;
LPTENABLE .EQU FALSE ; LPT: ENABLE CENTRONICS PRINTER DRIVER (LPT.ASM)
LPTMODE .EQU LPTMODE_NONE ; LPT: DRIVER MODE: LPTMODE_[NONE|SPP|MG014]
LPTCNT .EQU 1 ; LPT: NUMBER OF CHIPS TO DETECT (1-2)
LPTTRACE .EQU 1 ; LPT: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
LPT0BASE .EQU $E8 ; LPT 0: REGISTERS BASE ADR
LPT1BASE .EQU $EC ; LPT 1: REGISTERS BASE ADR
;
PPAENABLE .EQU FALSE ; PPA: ENABLE PPA DISK DRIVER (PPA.ASM)
PPACNT .EQU 1 ; PPA: NUMBER OF PPA DEVICES (1-2)
PPATRACE .EQU 1 ; PPA: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
PPAMODE .EQU PPAMODE_SPP ; PPA: DRIVER MODE: PPAMODE_[NONE|SPP|MG014]
PPA0BASE .EQU LPT0BASE ; PPA 0: BASE I/O ADDRESS OF PPI FOR PPA
PPA1BASE .EQU LPT1BASE ; PPA 1: BASE I/O ADDRESS OF PPI FOR PPA
;
IMMENABLE .EQU FALSE ; IMM: ENABLE IMM DISK DRIVER (IMM.ASM)
IMMCNT .EQU 1 ; IMM: NUMBER OF IMM DEVICES (1-2)
IMMTRACE .EQU 1 ; IMM: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
IMMMODE .EQU IMMMODE_SPP ; IMM: DRIVER MODE: IMMMODE_[NONE|SPP|MG014]
IMM0BASE .EQU LPT0BASE ; IMM 0: BASE I/O ADDRESS OF PPI FOR IMM
IMM1BASE .EQU LPT1BASE ; IMM 1: BASE I/O ADDRESS OF PPI FOR IMM
;
SYQENABLE .EQU FALSE ; SYQ: ENABLE IMM DISK DRIVER (SYQ.ASM)
SYQCNT .EQU 1 ; SYQ: NUMBER OF SYQ DEVICES (1-2)
SYQTRACE .EQU 1 ; SYQ: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
SYQMODE .EQU IMMMODE_SPP ; SYQ: DRIVER MODE: SYQMODE_[NONE|SPP|MG014]
SYQ0BASE .EQU LPT0BASE ; SYQ 0: BASE I/O ADDRESS OF PPI FOR SYQ
SYQ1BASE .EQU LPT1BASE ; SYQ 1: BASE I/O ADDRESS OF PPI FOR SYQ
;
PIO_4P .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB 4P BOARD
PIO4BASE .EQU $90 ; PIO: PIO REGISTERS BASE ADR FOR ECB 4P BOARD
PIO_ZP .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB ZILOG PERIPHERALS BOARD (PIO.ASM)

45
Source/HBIOS/cfg_mbc.asm
View File

@@ -15,7 +15,7 @@
;
#INCLUDE "hbios.inc"
;
PLATFORM .EQU PLT_MBC ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH]
PLATFORM .EQU PLT_MBC ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
CPUFAM .EQU CPU_Z80 ; CPU FAMILY: CPU_[Z80|Z180|Z280]
BIOS .EQU BIOS_WBW ; HARDWARE BIOS: BIOS_[WBW|UNA]
BATCOND .EQU FALSE ; ENABLE LOW BATTERY WARNING MESSAGE
@@ -60,9 +60,12 @@ SKZENABLE .EQU FALSE ; ENABLE SERGEY'S Z80-512K FEATURES
;
WDOGMODE .EQU WDOG_NONE ; WATCHDOG MODE: WDOG_[NONE|EZZ80|SKZ]
;
DIAGENABLE .EQU FALSE ; ENABLES OUTPUT TO 8 BIT LED DIAGNOSTIC PORT
DIAGPORT .EQU $00 ; DIAGNOSTIC PORT ADDRESS
DIAGDISKIO .EQU TRUE ; ENABLES DISK I/O ACTIVITY ON DIAGNOSTIC LEDS
FPLED_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL LEDS
FPLED_IO .EQU $00 ; FP: PORT ADDRESS FOR FP LEDS
FPLED_DSKACT .EQU TRUE ; FP: ENABLES DISK I/O ACTIVITY ON FP LEDS
FPSW_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL SWITCHES
FPSW_IO .EQU $00 ; FP: PORT ADDRESS FOR FP SWITCHES
;
DIAGLVL .EQU DL_CRITICAL ; ERROR LEVEL REPORTING
;
LEDENABLE .EQU TRUE ; ENABLES STATUS LED
@@ -132,7 +135,7 @@ SIOENABLE .EQU TRUE ; SIO: ENABLE ZILOG SIO SERIAL DRIVER (SIO.ASM)
SIODEBUG .EQU FALSE ; SIO: ENABLE DEBUG OUTPUT
SIOBOOT .EQU 0 ; SIO: REBOOT ON RCV CHAR (0=DISABLED)
SIOCNT .EQU 1 ; SIO: NUMBER OF CHIPS TO DETECT (1-2), 2 CHANNELS PER CHIP
SIO0MODE .EQU SIOMODE_ZP ; SIO 0: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP]
SIO0MODE .EQU SIOMODE_ZP ; SIO 0: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP|Z80R]
SIO0BASE .EQU $B0 ; SIO 0: REGISTERS BASE ADR
SIO0ACLK .EQU (4915200/8) ; SIO 0A: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO0ACFG .EQU DEFSERCFG ; SIO 0A: SERIAL LINE CONFIG
@@ -154,6 +157,7 @@ TMSMODE .EQU TMSMODE_MBC ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MS
TMSTIMENABLE .EQU FALSE ; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
VGAENABLE .EQU FALSE ; VGA: ENABLE VGA VIDEO/KBD DRIVER (VGA.ASM)
VGASIZ .EQU V80X25 ; VGA: DISPLAY FORMAT [V80X25|V80X30|V80X43]
VRCENABLE .EQU FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
;
MDENABLE .EQU TRUE ; MD: ENABLE MEMORY (ROM/RAM) DISK DRIVER (MD.ASM)
MDROM .EQU TRUE ; MD: ENABLE ROM DISK
@@ -166,9 +170,9 @@ FDENABLE .EQU FALSE ; FD: ENABLE FLOPPY DISK DRIVER (FD.ASM)
FDMODE .EQU FDMODE_MBC ; FD: DRIVER MODE: FDMODE_[DIO|ZETA|ZETA2|DIDE|N8|DIO3|RCSMC|RCWDC|DYNO|EPFDC|MBC]
FDCNT .EQU 2 ; FD: NUMBER OF FLOPPY DRIVES ON THE INTERFACE (1-2)
FDTRACE .EQU 1 ; FD: TRACE LEVEL (0=NO,1=FATAL,2=ERRORS,3=ALL)
FDMEDIA .EQU FDM144 ; FD: DEFAULT MEDIA FORMAT FDM[720|144|360|120|111]
FDMEDIAALT .EQU FDM720 ; FD: ALTERNATE MEDIA FORMAT FDM[720|144|360|120|111]
FDMAUTO .EQU TRUE ; FD: AUTO SELECT DEFAULT/ALTERNATE MEDIA FORMATS
FD0TYPE .EQU FDT_3HD ; FD 0: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
FD1TYPE .EQU FDT_3HD ; FD 1: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
;
RFENABLE .EQU FALSE ; RF: ENABLE RAM FLOPPY DRIVER
RFCNT .EQU 1 ; RF: NUMBER OF RAM FLOPPY UNITS (1-4)
@@ -209,7 +213,7 @@ PPIDE2A8BIT .EQU FALSE ; PPIDE 2A (MASTER): 8 BIT XFER
PPIDE2B8BIT .EQU FALSE ; PPIDE 0B (SLAVE): 8 BIT XFER
;
SDENABLE .EQU FALSE ; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)
SDMODE .EQU SDMODE_JUHA ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|USR]
SDMODE .EQU SDMODE_JUHA ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|PIO|Z80R|USR]
SDPPIBASE .EQU $60 ; SD: BASE I/O ADDRESS OF PPI FOR PPI MODDE
SDCNT .EQU 1 ; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD/SC/MT ONLY
SDTRACE .EQU 1 ; SD: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
@@ -230,11 +234,34 @@ PIOCNT .EQU 2 ; PIO: NUMBER OF CHIPS TO DETECT (1-2), 2 CHANNELS PER CHIP
PIO0BASE .EQU $B8 ; PIO 0: REGISTERS BASE ADR
PIO1BASE .EQU $BC ; PIO 1: REGISTERS BASE ADR
;
LPTENABLE .EQU TRUE ; LPT: ENABLE CENTRONICS PRINTER DRIVER (LPT.ASM)
LPTENABLE .EQU FALSE ; LPT: ENABLE CENTRONICS PRINTER DRIVER (LPT.ASM)
LPTMODE .EQU LPTMODE_SPP ; LPT: DRIVER MODE: LPTMODE_[NONE|SPP|MG014]
LPTCNT .EQU 1 ; LPT: NUMBER OF CHIPS TO DETECT (1-2)
LPTTRACE .EQU 1 ; LPT: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
LPT0BASE .EQU $E8 ; LPT 0: REGISTERS BASE ADR
LPT1BASE .EQU $EC ; LPT 1: REGISTERS BASE ADR
;
PPAENABLE .EQU FALSE ; PPA: ENABLE PPA DISK DRIVER (PPA.ASM)
PPACNT .EQU 1 ; PPA: NUMBER OF PPA DEVICES (1-2)
PPATRACE .EQU 1 ; PPA: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
PPAMODE .EQU PPAMODE_SPP ; PPA: DRIVER MODE: PPAMODE_[NONE|MG014]
PPA0BASE .EQU LPT0BASE ; PPA 0: BASE I/O ADDRESS OF PPI FOR PPA
PPA1BASE .EQU LPT1BASE ; PPA 1: BASE I/O ADDRESS OF PPI FOR PPA
;
IMMENABLE .EQU FALSE ; IMM: ENABLE IMM DISK DRIVER (IMM.ASM)
IMMCNT .EQU 1 ; IMM: NUMBER OF IMM DEVICES (1-2)
IMMTRACE .EQU 1 ; IMM: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
IMMMODE .EQU IMMMODE_SPP ; IMM: DRIVER MODE: IMMMODE_[NONE|SPP|MG014]
IMM0BASE .EQU LPT0BASE ; IMM 0: BASE I/O ADDRESS OF PPI FOR IMM
IMM1BASE .EQU LPT1BASE ; IMM 1: BASE I/O ADDRESS OF PPI FOR IMM
;
SYQENABLE .EQU FALSE ; SYQ: ENABLE IMM DISK DRIVER (SYQ.ASM)
SYQCNT .EQU 1 ; SYQ: NUMBER OF SYQ DEVICES (1-2)
SYQTRACE .EQU 1 ; SYQ: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
SYQMODE .EQU IMMMODE_SPP ; SYQ: DRIVER MODE: SYQMODE_[NONE|SPP|MG014]
SYQ0BASE .EQU LPT0BASE ; SYQ 0: BASE I/O ADDRESS OF PPI FOR SYQ
SYQ1BASE .EQU LPT1BASE ; SYQ 1: BASE I/O ADDRESS OF PPI FOR SYQ
;
PIO_4P .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB 4P BOARD
PIO4BASE .EQU $90 ; PIO: PIO REGISTERS BASE ADR FOR ECB 4P BOARD
PIO_ZP .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB ZILOG PERIPHERALS BOARD (PIO.ASM)

28
Source/HBIOS/cfg_mk4.asm
View File

@@ -15,7 +15,7 @@
;
#INCLUDE "hbios.inc"
;
PLATFORM .EQU PLT_MK4 ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH]
PLATFORM .EQU PLT_MK4 ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
CPUFAM .EQU CPU_Z180 ; CPU FAMILY: CPU_[Z80|Z180|Z280]
BIOS .EQU BIOS_WBW ; HARDWARE BIOS: BIOS_[WBW|UNA]
BATCOND .EQU FALSE ; ENABLE LOW BATTERY WARNING MESSAGE
@@ -66,9 +66,12 @@ SKZENABLE .EQU FALSE ; ENABLE SERGEY'S Z80-512K FEATURES
;
WDOGMODE .EQU WDOG_NONE ; WATCHDOG MODE: WDOG_[NONE|EZZ80|SKZ]
;
DIAGENABLE .EQU FALSE ; ENABLES OUTPUT TO 8 BIT LED DIAGNOSTIC PORT
DIAGPORT .EQU $00 ; DIAGNOSTIC PORT ADDRESS
DIAGDISKIO .EQU TRUE ; ENABLES DISK I/O ACTIVITY ON DIAGNOSTIC LEDS
FPLED_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL LEDS
FPLED_IO .EQU $00 ; FP: PORT ADDRESS FOR FP LEDS
FPLED_DSKACT .EQU TRUE ; FP: ENABLES DISK I/O ACTIVITY ON FP LEDS
FPSW_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL SWITCHES
FPSW_IO .EQU $00 ; FP: PORT ADDRESS FOR FP SWITCHES
;
DIAGLVL .EQU DL_CRITICAL ; ERROR LEVEL REPORTING
;
LEDENABLE .EQU FALSE ; ENABLES STATUS LED (SINGLE LED)
@@ -143,7 +146,7 @@ SIOENABLE .EQU FALSE ; SIO: ENABLE ZILOG SIO SERIAL DRIVER (SIO.ASM)
SIODEBUG .EQU FALSE ; SIO: ENABLE DEBUG OUTPUT
SIOBOOT .EQU 0 ; SIO: REBOOT ON RCV CHAR (0=DISABLED)
SIOCNT .EQU 1 ; SIO: NUMBER OF CHIPS TO DETECT (1-2), 2 CHANNELS PER CHIP
SIO0MODE .EQU SIOMODE_ZP ; SIO 0: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP]
SIO0MODE .EQU SIOMODE_ZP ; SIO 0: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP|Z80R]
SIO0BASE .EQU $B0 ; SIO 0: REGISTERS BASE ADR
SIO0ACLK .EQU (4915200/8) ; SIO 0A: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO0ACFG .EQU DEFSERCFG ; SIO 0A: SERIAL LINE CONFIG
@@ -165,6 +168,7 @@ TMSMODE .EQU TMSMODE_SCG ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MS
TMSTIMENABLE .EQU FALSE ; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
VGAENABLE .EQU FALSE ; VGA: ENABLE VGA VIDEO/KBD DRIVER (VGA.ASM)
VGASIZ .EQU V80X25 ; VGA: DISPLAY FORMAT [V80X25|V80X30|V80X43]
VRCENABLE .EQU FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
;
MDENABLE .EQU TRUE ; MD: ENABLE MEMORY (ROM/RAM) DISK DRIVER (MD.ASM)
MDROM .EQU TRUE ; MD: ENABLE ROM DISK
@@ -176,9 +180,9 @@ FDENABLE .EQU FALSE ; FD: ENABLE FLOPPY DISK DRIVER (FD.ASM)
FDMODE .EQU FDMODE_DIDE ; FD: DRIVER MODE: FDMODE_[DIO|ZETA|ZETA2|DIDE|N8|DIO3|RCSMC|RCWDC|DYNO|EPFDC|MBC]
FDCNT .EQU 2 ; FD: NUMBER OF FLOPPY DRIVES ON THE INTERFACE (1-2)
FDTRACE .EQU 1 ; FD: TRACE LEVEL (0=NO,1=FATAL,2=ERRORS,3=ALL)
FDMEDIA .EQU FDM144 ; FD: DEFAULT MEDIA FORMAT FDM[720|144|360|120|111]
FDMEDIAALT .EQU FDM720 ; FD: ALTERNATE MEDIA FORMAT FDM[720|144|360|120|111]
FDMAUTO .EQU TRUE ; FD: AUTO SELECT DEFAULT/ALTERNATE MEDIA FORMATS
FD0TYPE .EQU FDT_3HD ; FD 0: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
FD1TYPE .EQU FDT_3HD ; FD 1: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
;
RFENABLE .EQU FALSE ; RF: ENABLE RAM FLOPPY DRIVER
RFCNT .EQU 1 ; RF: NUMBER OF RAM FLOPPY UNITS (1-4)
@@ -219,7 +223,7 @@ PPIDE2A8BIT .EQU FALSE ; PPIDE 2A (MASTER): 8 BIT XFER
PPIDE2B8BIT .EQU FALSE ; PPIDE 0B (SLAVE): 8 BIT XFER
;
SDENABLE .EQU TRUE ; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)
SDMODE .EQU SDMODE_MK4 ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|USR]
SDMODE .EQU SDMODE_MK4 ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|PIO|Z80R|USR]
SDPPIBASE .EQU $60 ; SD: BASE I/O ADDRESS OF PPI FOR PPI MODDE
SDCNT .EQU 1 ; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD/SC/MT ONLY
SDTRACE .EQU 1 ; SD: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
@@ -244,10 +248,18 @@ PIO0BASE .EQU $B8 ; PIO 0: REGISTERS BASE ADR
PIO1BASE .EQU $BC ; PIO 1: REGISTERS BASE ADR
;
LPTENABLE .EQU FALSE ; LPT: ENABLE CENTRONICS PRINTER DRIVER (LPT.ASM)
LPTMODE .EQU LPTMODE_NONE ; LPT: DRIVER MODE: LPTMODE_[NONE|SPP|MG014]
LPTCNT .EQU 1 ; LPT: NUMBER OF CHIPS TO DETECT (1-2)
LPTTRACE .EQU 1 ; LPT: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
LPT0BASE .EQU $E8 ; LPT 0: REGISTERS BASE ADR
LPT1BASE .EQU $EC ; LPT 1: REGISTERS BASE ADR
;
PPAENABLE .EQU FALSE ; PPA: ENABLE PPA DISK DRIVER (PPA.ASM)
;
IMMENABLE .EQU FALSE ; IMM: ENABLE IMM DISK DRIVER (IMM.ASM)
;
SYQENABLE .EQU FALSE ; SYQ: ENABLE IMM DISK DRIVER (SYQ.ASM)
;
PIO_4P .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB 4P BOARD
PIO4BASE .EQU $90 ; PIO: PIO REGISTERS BASE ADR FOR ECB 4P BOARD
PIO_ZP .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB ZILOG PERIPHERALS BOARD (PIO.ASM)

26
Source/HBIOS/cfg_n8.asm
View File

@@ -15,7 +15,7 @@
;
#INCLUDE "hbios.inc"
;
PLATFORM .EQU PLT_N8 ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH]
PLATFORM .EQU PLT_N8 ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
CPUFAM .EQU CPU_Z180 ; CPU FAMILY: CPU_[Z80|Z180|Z280]
BIOS .EQU BIOS_WBW ; HARDWARE BIOS: BIOS_[WBW|UNA]
BATCOND .EQU FALSE ; ENABLE LOW BATTERY WARNING MESSAGE
@@ -68,9 +68,12 @@ SKZENABLE .EQU FALSE ; ENABLE SERGEY'S Z80-512K FEATURES
;
WDOGMODE .EQU WDOG_NONE ; WATCHDOG MODE: WDOG_[NONE|EZZ80|SKZ]
;
DIAGENABLE .EQU FALSE ; ENABLES OUTPUT TO 8 BIT LED DIAGNOSTIC PORT
DIAGPORT .EQU $00 ; DIAGNOSTIC PORT ADDRESS
DIAGDISKIO .EQU TRUE ; ENABLES DISK I/O ACTIVITY ON DIAGNOSTIC LEDS
FPLED_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL LEDS
FPLED_IO .EQU $00 ; FP: PORT ADDRESS FOR FP LEDS
FPLED_DSKACT .EQU TRUE ; FP: ENABLES DISK I/O ACTIVITY ON FP LEDS
FPSW_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL SWITCHES
FPSW_IO .EQU $00 ; FP: PORT ADDRESS FOR FP SWITCHES
;
DIAGLVL .EQU DL_CRITICAL ; ERROR LEVEL REPORTING
;
LEDENABLE .EQU FALSE ; ENABLES STATUS LED
@@ -145,7 +148,7 @@ SIOENABLE .EQU FALSE ; SIO: ENABLE ZILOG SIO SERIAL DRIVER (SIO.ASM)
SIODEBUG .EQU FALSE ; SIO: ENABLE DEBUG OUTPUT
SIOBOOT .EQU 0 ; SIO: REBOOT ON RCV CHAR (0=DISABLED)
SIOCNT .EQU 1 ; SIO: NUMBER OF CHIPS TO DETECT (1-2), 2 CHANNELS PER CHIP
SIO0MODE .EQU SIOMODE_ZP ; SIO 0: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP]
SIO0MODE .EQU SIOMODE_ZP ; SIO 0: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP|Z80R]
SIO0BASE .EQU $B0 ; SIO 0: REGISTERS BASE ADR
SIO0ACLK .EQU (4915200/8) ; SIO 0A: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO0ACFG .EQU DEFSERCFG ; SIO 0A: SERIAL LINE CONFIG
@@ -167,6 +170,7 @@ TMSMODE .EQU TMSMODE_N8 ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSX
TMSTIMENABLE .EQU FALSE ; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
VGAENABLE .EQU FALSE ; VGA: ENABLE VGA VIDEO/KBD DRIVER (VGA.ASM)
VGASIZ .EQU V80X25 ; VGA: DISPLAY FORMAT [V80X25|V80X30|V80X43]
VRCENABLE .EQU FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
;
MDENABLE .EQU TRUE ; MD: ENABLE MEMORY (ROM/RAM) DISK DRIVER (MD.ASM)
MDROM .EQU TRUE ; MD: ENABLE ROM DISK
@@ -178,9 +182,9 @@ FDENABLE .EQU TRUE ; FD: ENABLE FLOPPY DISK DRIVER (FD.ASM)
FDMODE .EQU FDMODE_N8 ; FD: DRIVER MODE: FDMODE_[DIO|ZETA|ZETA2|DIDE|N8|DIO3|RCSMC|RCWDC|DYNO|EPFDC|MBC]
FDCNT .EQU 2 ; FD: NUMBER OF FLOPPY DRIVES ON THE INTERFACE (1-2)
FDTRACE .EQU 1 ; FD: TRACE LEVEL (0=NO,1=FATAL,2=ERRORS,3=ALL)
FDMEDIA .EQU FDM144 ; FD: DEFAULT MEDIA FORMAT FDM[720|144|360|120|111]
FDMEDIAALT .EQU FDM720 ; FD: ALTERNATE MEDIA FORMAT FDM[720|144|360|120|111]
FDMAUTO .EQU TRUE ; FD: AUTO SELECT DEFAULT/ALTERNATE MEDIA FORMATS
FD0TYPE .EQU FDT_3HD ; FD 0: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
FD1TYPE .EQU FDT_3HD ; FD 1: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
;
RFENABLE .EQU FALSE ; RF: ENABLE RAM FLOPPY DRIVER
RFCNT .EQU 1 ; RF: NUMBER OF RAM FLOPPY UNITS (1-4)
@@ -221,7 +225,7 @@ PPIDE2A8BIT .EQU FALSE ; PPIDE 2A (MASTER): 8 BIT XFER
PPIDE2B8BIT .EQU FALSE ; PPIDE 0B (SLAVE): 8 BIT XFER
;
SDENABLE .EQU TRUE ; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)
SDMODE .EQU SDMODE_CSIO ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT]
SDMODE .EQU SDMODE_CSIO ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|PIO|Z80R|USR]
SDPPIBASE .EQU N8_PPI0 ; SD: BASE I/O ADDRESS OF PPI FOR PPI MODDE
SDCNT .EQU 1 ; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD/SC/MT ONLY
SDTRACE .EQU 1 ; SD: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
@@ -243,6 +247,12 @@ PIO1BASE .EQU $BC ; PIO 1: REGISTERS BASE ADR
;
LPTENABLE .EQU FALSE ; LPT: ENABLE CENTRONICS PRINTER DRIVER (LPT.ASM)
;
PPAENABLE .EQU FALSE ; PPA: ENABLE PPA DISK DRIVER (PPA.ASM)
;
IMMENABLE .EQU FALSE ; IMM: ENABLE IMM DISK DRIVER (IMM.ASM)
;
SYQENABLE .EQU FALSE ; SYQ: ENABLE IMM DISK DRIVER (SYQ.ASM)
;
PIO_4P .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB 4P BOARD
PIO4BASE .EQU $90 ; PIO: PIO REGISTERS BASE ADR FOR ECB 4P BOARD
PIO_ZP .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB ZILOG PERIPHERALS BOARD (PIO.ASM)

48
Source/HBIOS/cfg_rcz180.asm
View File

@@ -15,7 +15,7 @@
;
#INCLUDE "hbios.inc"
;
PLATFORM .EQU PLT_RCZ180 ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH]
PLATFORM .EQU PLT_RCZ180 ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
CPUFAM .EQU CPU_Z180 ; CPU FAMILY: CPU_[Z80|Z180|Z280]
BIOS .EQU BIOS_WBW ; HARDWARE BIOS: BIOS_[WBW|UNA]
BATCOND .EQU FALSE ; ENABLE LOW BATTERY WARNING MESSAGE
@@ -66,9 +66,18 @@ SKZENABLE .EQU FALSE ; ENABLE SERGEY'S Z80-512K FEATURES
;
WDOGMODE .EQU WDOG_NONE ; WATCHDOG MODE: WDOG_[NONE|EZZ80|SKZ]
;
FPENABLE .EQU FALSE ; ENABLES FRONT PANEL SWITCHES
FPBASE .EQU $00 ; FRONT PANEL I/O PORT BASE ADDRESS
DIAGENABLE .EQU TRUE ; ENABLES OUTPUT TO 8 BIT LED DIAGNOSTIC PORT
DIAGPORT .EQU $00 ; DIAGNOSTIC PORT ADDRESS
DIAGDISKIO .EQU TRUE ; ENABLES DISK I/O ACTIVITY ON DIAGNOSTIC LEDS
;
FPLED_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL LEDS
FPLED_IO .EQU $00 ; FP: PORT ADDRESS FOR FP LEDS
FPLED_DSKACT .EQU TRUE ; FP: ENABLES DISK I/O ACTIVITY ON FP LEDS
FPSW_ENABLE .EQU TRUE ; FP: ENABLES FRONT PANEL SWITCHES
FPSW_IO .EQU $00 ; FP: PORT ADDRESS FOR FP SWITCHES
;
DIAGLVL .EQU DL_CRITICAL ; ERROR LEVEL REPORTING
;
LEDENABLE .EQU FALSE ; ENABLES STATUS LED (SINGLE LED)
@@ -146,7 +155,7 @@ SIOENABLE .EQU TRUE ; SIO: ENABLE ZILOG SIO SERIAL DRIVER (SIO.ASM)
SIODEBUG .EQU FALSE ; SIO: ENABLE DEBUG OUTPUT
SIOBOOT .EQU 0 ; SIO: REBOOT ON RCV CHAR (0=DISABLED)
SIOCNT .EQU 2 ; SIO: NUMBER OF CHIPS TO DETECT (1-2), 2 CHANNELS PER CHIP
SIO0MODE .EQU SIOMODE_RC ; SIO 0: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP]
SIO0MODE .EQU SIOMODE_RC ; SIO 0: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP|Z80R]
SIO0BASE .EQU $80 ; SIO 0: REGISTERS BASE ADR
SIO0ACLK .EQU 7372800 ; SIO 0A: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO0ACFG .EQU SER_115200_8N1 ; SIO 0A: SERIAL LINE CONFIG
@@ -154,7 +163,7 @@ SIO0ACTCC .EQU -1 ; SIO 0A: CTC CHANNEL 0=A, 1=B, 2=C, 3=D, -1 FOR NONE
SIO0BCLK .EQU 7372800 ; SIO 0B: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO0BCFG .EQU SER_115200_8N1 ; SIO 0B: SERIAL LINE CONFIG
SIO0BCTCC .EQU -1 ; SIO 0B: CTC CHANNEL 0=A, 1=B, 2=C, 3=D, -1 FOR NONE
SIO1MODE .EQU SIOMODE_RC ; SIO 1: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP]
SIO1MODE .EQU SIOMODE_RC ; SIO 1: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP|Z80R]
SIO1BASE .EQU $84 ; SIO 1: REGISTERS BASE ADR
SIO1ACLK .EQU 7372800 ; SIO 1A: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO1ACFG .EQU SER_115200_8N1 ; SIO 1A: SERIAL LINE CONFIG
@@ -172,6 +181,7 @@ TMSENABLE .EQU FALSE ; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
TMSMODE .EQU TMSMODE_MSX ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
TMSTIMENABLE .EQU FALSE ; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
VGAENABLE .EQU FALSE ; VGA: ENABLE VGA VIDEO/KBD DRIVER (VGA.ASM)
VRCENABLE .EQU FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
;
MDENABLE .EQU TRUE ; MD: ENABLE MEMORY (ROM/RAM) DISK DRIVER (MD.ASM)
MDROM .EQU TRUE ; MD: ENABLE ROM DISK
@@ -183,9 +193,9 @@ FDENABLE .EQU FALSE ; FD: ENABLE FLOPPY DISK DRIVER (FD.ASM)
FDMODE .EQU FDMODE_RCWDC ; FD: DRIVER MODE: FDMODE_[DIO|ZETA|ZETA2|DIDE|N8|DIO3|RCSMC|RCWDC|DYNO|EPFDC|MBC]
FDCNT .EQU 2 ; FD: NUMBER OF FLOPPY DRIVES ON THE INTERFACE (1-2)
FDTRACE .EQU 1 ; FD: TRACE LEVEL (0=NO,1=FATAL,2=ERRORS,3=ALL)
FDMEDIA .EQU FDM144 ; FD: DEFAULT MEDIA FORMAT FDM[720|144|360|120|111]
FDMEDIAALT .EQU FDM720 ; FD: ALTERNATE MEDIA FORMAT FDM[720|144|360|120|111]
FDMAUTO .EQU TRUE ; FD: AUTO SELECT DEFAULT/ALTERNATE MEDIA FORMATS
FD0TYPE .EQU FDT_3HD ; FD 0: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
FD1TYPE .EQU FDT_3HD ; FD 1: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
;
RFENABLE .EQU FALSE ; RF: ENABLE RAM FLOPPY DRIVER
;
@@ -225,7 +235,7 @@ PPIDE2A8BIT .EQU FALSE ; PPIDE 2A (MASTER): 8 BIT XFER
PPIDE2B8BIT .EQU FALSE ; PPIDE 0B (SLAVE): 8 BIT XFER
;
SDENABLE .EQU FALSE ; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)
SDMODE .EQU SDMODE_MT ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|USR]
SDMODE .EQU SDMODE_MT ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|PIO|Z80R|USR]
SDPPIBASE .EQU $60 ; SD: BASE I/O ADDRESS OF PPI FOR PPI MODDE
SDCNT .EQU 2 ; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD/SC/MT ONLY
SDTRACE .EQU 1 ; SD: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
@@ -247,6 +257,32 @@ PIO0BASE .EQU $B8 ; PIO 0: REGISTERS BASE ADR
PIO1BASE .EQU $BC ; PIO 1: REGISTERS BASE ADR
;
LPTENABLE .EQU FALSE ; LPT: ENABLE CENTRONICS PRINTER DRIVER (LPT.ASM)
LPTMODE .EQU LPTMODE_MG014 ; LPT: DRIVER MODE: LPTMODE_[NONE|SPP|MG014]
LPTCNT .EQU 1 ; LPT: NUMBER OF CHIPS TO DETECT (1-2)
LPTTRACE .EQU 1 ; LPT: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
LPT0BASE .EQU $0C ; LPT 0: REGISTERS BASE ADR
LPT1BASE .EQU $00 ; LPT 1: REGISTERS BASE ADR
;
PPAENABLE .EQU FALSE ; PPA: ENABLE PPA DISK DRIVER (PPA.ASM)
PPACNT .EQU 1 ; PPA: NUMBER OF PPA DEVICES (1-2)
PPATRACE .EQU 1 ; PPA: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
PPAMODE .EQU PPAMODE_MG014 ; PPA: DRIVER MODE: PPAMODE_[NONE|SPP|MG014]
PPA0BASE .EQU LPT0BASE ; PPA 0: BASE I/O ADDRESS OF PPI FOR PPA
PPA1BASE .EQU LPT1BASE ; PPA 1: BASE I/O ADDRESS OF PPI FOR PPA
;
IMMENABLE .EQU FALSE ; IMM: ENABLE IMM DISK DRIVER (IMM.ASM)
IMMCNT .EQU 1 ; IMM: NUMBER OF IMM DEVICES (1-2)
IMMTRACE .EQU 1 ; IMM: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
IMMMODE .EQU IMMMODE_MG014 ; IMM: DRIVER MODE: IMMMODE_[NONE|SPP|MG014]
IMM0BASE .EQU LPT0BASE ; IMM 0: BASE I/O ADDRESS OF PPI FOR IMM
IMM1BASE .EQU LPT1BASE ; IMM 1: BASE I/O ADDRESS OF PPI FOR IMM
;
SYQENABLE .EQU FALSE ; SYQ: ENABLE IMM DISK DRIVER (SYQ.ASM)
SYQCNT .EQU 1 ; SYQ: NUMBER OF SYQ DEVICES (1-2)
SYQTRACE .EQU 1 ; SYQ: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
SYQMODE .EQU IMMMODE_MG014 ; SYQ: DRIVER MODE: SYQMODE_[NONE|SPP|MG014]
SYQ0BASE .EQU LPT0BASE ; SYQ 0: BASE I/O ADDRESS OF PPI FOR SYQ
SYQ1BASE .EQU LPT1BASE ; SYQ 1: BASE I/O ADDRESS OF PPI FOR SYQ
;
PIO_4P .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB 4P BOARD
PIO_ZP .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB ZILOG PERIPHERALS BOARD (PIO.ASM)

48
Source/HBIOS/cfg_rcz280.asm
View File

@@ -15,7 +15,7 @@
;
#INCLUDE "hbios.inc"
;
PLATFORM .EQU PLT_RCZ280 ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH]
PLATFORM .EQU PLT_RCZ280 ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
CPUFAM .EQU CPU_Z280 ; CPU FAMILY: CPU_[Z80|Z180|Z280]
BIOS .EQU BIOS_WBW ; HARDWARE BIOS: BIOS_[WBW|UNA]
BATCOND .EQU FALSE ; ENABLE LOW BATTERY WARNING MESSAGE
@@ -66,9 +66,12 @@ SKZENABLE .EQU FALSE ; ENABLE SERGEY'S Z80-512K FEATURES
;
WDOGMODE .EQU WDOG_NONE ; WATCHDOG MODE: WDOG_[NONE|EZZ80|SKZ]
;
DIAGENABLE .EQU TRUE ; ENABLES OUTPUT TO 8 BIT LED DIAGNOSTIC PORT
DIAGPORT .EQU $00 ; DIAGNOSTIC PORT ADDRESS
DIAGDISKIO .EQU TRUE ; ENABLES DISK I/O ACTIVITY ON DIAGNOSTIC LEDS
FPLED_ENABLE .EQU TRUE ; FP: ENABLES FRONT PANEL LEDS
FPLED_IO .EQU $00 ; FP: PORT ADDRESS FOR FP LEDS
FPLED_DSKACT .EQU TRUE ; FP: ENABLES DISK I/O ACTIVITY ON FP LEDS
FPSW_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL SWITCHES
FPSW_IO .EQU $00 ; FP: PORT ADDRESS FOR FP SWITCHES
;
DIAGLVL .EQU DL_CRITICAL ; ERROR LEVEL REPORTING
;
LEDENABLE .EQU FALSE ; ENABLES STATUS LED (SINGLE LED)
@@ -156,7 +159,7 @@ SIOENABLE .EQU TRUE ; SIO: ENABLE ZILOG SIO SERIAL DRIVER (SIO.ASM)
SIODEBUG .EQU FALSE ; SIO: ENABLE DEBUG OUTPUT
SIOBOOT .EQU 0 ; SIO: REBOOT ON RCV CHAR (0=DISABLED)
SIOCNT .EQU 2 ; SIO: NUMBER OF CHIPS TO DETECT (1-2), 2 CHANNELS PER CHIP
SIO0MODE .EQU SIOMODE_RC ; SIO 0: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP]
SIO0MODE .EQU SIOMODE_RC ; SIO 0: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP|Z80R]
SIO0BASE .EQU $80 ; SIO 0: REGISTERS BASE ADR
SIO0ACLK .EQU 7372800 ; SIO 0A: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO0ACFG .EQU DEFSERCFG ; SIO 0A: SERIAL LINE CONFIG
@@ -164,7 +167,7 @@ SIO0ACTCC .EQU -1 ; SIO 0A: CTC CHANNEL 0=A, 1=B, 2=C, 3=D, -1 FOR NONE
SIO0BCLK .EQU 7372800 ; SIO 0B: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO0BCFG .EQU DEFSERCFG ; SIO 0B: SERIAL LINE CONFIG
SIO0BCTCC .EQU -1 ; SIO 0B: CTC CHANNEL 0=A, 1=B, 2=C, 3=D, -1 FOR NONE
SIO1MODE .EQU SIOMODE_RC ; SIO 1: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP]
SIO1MODE .EQU SIOMODE_RC ; SIO 1: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP|Z80R]
SIO1BASE .EQU $84 ; SIO 1: REGISTERS BASE ADR
SIO1ACLK .EQU 7372800 ; SIO 1A: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO1ACFG .EQU DEFSERCFG ; SIO 1A: SERIAL LINE CONFIG
@@ -182,6 +185,7 @@ TMSENABLE .EQU FALSE ; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
TMSMODE .EQU TMSMODE_MSX ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
TMSTIMENABLE .EQU FALSE ; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
VGAENABLE .EQU FALSE ; VGA: ENABLE VGA VIDEO/KBD DRIVER (VGA.ASM)
VRCENABLE .EQU FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
;
MDENABLE .EQU TRUE ; MD: ENABLE MEMORY (ROM/RAM) DISK DRIVER (MD.ASM)
MDROM .EQU TRUE ; MD: ENABLE ROM DISK
@@ -193,9 +197,9 @@ FDENABLE .EQU FALSE ; FD: ENABLE FLOPPY DISK DRIVER (FD.ASM)
FDMODE .EQU FDMODE_RCWDC ; FD: DRIVER MODE: FDMODE_[DIO|ZETA|ZETA2|DIDE|N8|DIO3|RCSMC|RCWDC|DYNO|EPFDC|MBC]
FDCNT .EQU 2 ; FD: NUMBER OF FLOPPY DRIVES ON THE INTERFACE (1-2)
FDTRACE .EQU 1 ; FD: TRACE LEVEL (0=NO,1=FATAL,2=ERRORS,3=ALL)
FDMEDIA .EQU FDM144 ; FD: DEFAULT MEDIA FORMAT FDM[720|144|360|120|111]
FDMEDIAALT .EQU FDM720 ; FD: ALTERNATE MEDIA FORMAT FDM[720|144|360|120|111]
FDMAUTO .EQU TRUE ; FD: AUTO SELECT DEFAULT/ALTERNATE MEDIA FORMATS
FD0TYPE .EQU FDT_3HD ; FD 0: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
FD1TYPE .EQU FDT_3HD ; FD 1: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
;
RFENABLE .EQU FALSE ; RF: ENABLE RAM FLOPPY DRIVER
;
@@ -235,7 +239,7 @@ PPIDE2A8BIT .EQU FALSE ; PPIDE 2A (MASTER): 8 BIT XFER
PPIDE2B8BIT .EQU FALSE ; PPIDE 0B (SLAVE): 8 BIT XFER
;
SDENABLE .EQU FALSE ; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)
SDMODE .EQU SDMODE_MT ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|USR]
SDMODE .EQU SDMODE_MT ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|PIO|Z80R|USR]
SDPPIBASE .EQU $60 ; SD: BASE I/O ADDRESS OF PPI FOR PPI MODDE
SDCNT .EQU 2 ; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD/SC/MT ONLY
SDTRACE .EQU 1 ; SD: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
@@ -257,6 +261,32 @@ PIO0BASE .EQU $B8 ; PIO 0: REGISTERS BASE ADR
PIO1BASE .EQU $BC ; PIO 1: REGISTERS BASE ADR
;
LPTENABLE .EQU FALSE ; LPT: ENABLE CENTRONICS PRINTER DRIVER (LPT.ASM)
LPTMODE .EQU LPTMODE_MG014 ; LPT: DRIVER MODE: LPTMODE_[NONE|SPP|MG014]
LPTCNT .EQU 1 ; LPT: NUMBER OF CHIPS TO DETECT (1-2)
LPTTRACE .EQU 1 ; LPT: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
LPT0BASE .EQU $0C ; LPT 0: REGISTERS BASE ADR
LPT1BASE .EQU $00 ; LPT 1: REGISTERS BASE ADR
;
PPAENABLE .EQU FALSE ; PPA: ENABLE PPA DISK DRIVER (PPA.ASM)
PPACNT .EQU 1 ; PPA: NUMBER OF PPA DEVICES (1-2)
PPATRACE .EQU 1 ; PPA: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
PPAMODE .EQU PPAMODE_MG014 ; PPA: DRIVER MODE: PPAMODE_[NONE|SPP|MG014]
PPA0BASE .EQU LPT0BASE ; PPA 0: BASE I/O ADDRESS OF PPI FOR PPA
PPA1BASE .EQU LPT1BASE ; PPA 1: BASE I/O ADDRESS OF PPI FOR PPA
;
IMMENABLE .EQU FALSE ; IMM: ENABLE IMM DISK DRIVER (IMM.ASM)
IMMCNT .EQU 1 ; IMM: NUMBER OF IMM DEVICES (1-2)
IMMTRACE .EQU 1 ; IMM: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
IMMMODE .EQU IMMMODE_MG014 ; IMM: DRIVER MODE: IMMMODE_[NONE|SPP|MG014]
IMM0BASE .EQU LPT0BASE ; IMM 0: BASE I/O ADDRESS OF PPI FOR IMM
IMM1BASE .EQU LPT1BASE ; IMM 1: BASE I/O ADDRESS OF PPI FOR IMM
;
SYQENABLE .EQU FALSE ; SYQ: ENABLE IMM DISK DRIVER (SYQ.ASM)
SYQCNT .EQU 1 ; SYQ: NUMBER OF SYQ DEVICES (1-2)
SYQTRACE .EQU 1 ; SYQ: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
SYQMODE .EQU IMMMODE_MG014 ; SYQ: DRIVER MODE: SYQMODE_[NONE|SPP|MG014]
SYQ0BASE .EQU LPT0BASE ; SYQ 0: BASE I/O ADDRESS OF PPI FOR SYQ
SYQ1BASE .EQU LPT1BASE ; SYQ 1: BASE I/O ADDRESS OF PPI FOR SYQ
;
PIO_4P .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB 4P BOARD
PIO_ZP .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB ZILOG PERIPHERALS BOARD (PIO.ASM)

50
Source/HBIOS/cfg_rcz80.asm
View File

@@ -15,7 +15,7 @@
;
#INCLUDE "hbios.inc"
;
PLATFORM .EQU PLT_RCZ80 ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH]
PLATFORM .EQU PLT_RCZ80 ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
CPUFAM .EQU CPU_Z80 ; CPU FAMILY: CPU_[Z80|Z180|Z280]
BIOS .EQU BIOS_WBW ; HARDWARE BIOS: BIOS_[WBW|UNA]
BATCOND .EQU FALSE ; ENABLE LOW BATTERY WARNING MESSAGE
@@ -65,9 +65,12 @@ SKZDIV .EQU DIV_1 ; UART CLK (CLK2) DIVIDER FOR Z80-512K
WDOGMODE .EQU WDOG_NONE ; WATCHDOG MODE: WDOG_[NONE|EZZ80|SKZ]
WDOGIO .EQU $6E ; WATCHDOG REGISTER ADR
;
DIAGENABLE .EQU TRUE ; ENABLES OUTPUT TO 8 BIT LED DIAGNOSTIC PORT
DIAGPORT .EQU $00 ; DIAGNOSTIC PORT ADDRESS
DIAGDISKIO .EQU TRUE ; ENABLES DISK I/O ACTIVITY ON DIAGNOSTIC LEDS
FPLED_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL LEDS
FPLED_IO .EQU $00 ; FP: PORT ADDRESS FOR FP LEDS
FPLED_DSKACT .EQU TRUE ; FP: ENABLES DISK I/O ACTIVITY ON FP LEDS
FPSW_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL SWITCHES
FPSW_IO .EQU $00 ; FP: PORT ADDRESS FOR FP SWITCHES
;
DIAGLVL .EQU DL_CRITICAL ; ERROR LEVEL REPORTING
;
LEDENABLE .EQU FALSE ; ENABLES STATUS LED (SINGLE LED)
@@ -84,8 +87,8 @@ VDAEMU_SERKBD .EQU $FF ; VDA EMULATION: SERIAL KBD UNIT #, OR $FF FOR HW KBD
ANSITRACE .EQU 1 ; ANSI DRIVER TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
PPKTRACE .EQU 1 ; PPK DRIVER TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
KBDTRACE .EQU 1 ; KBD DRIVER TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
PPKKBLOUT .EQU KBD_US ; PPK KEYBOARD LANGUAGE: KBD_[US|DE]
KBDKBLOUT .EQU KBD_US ; KBD KEYBOARD LANGUAGE: KBD_[US|DE]
PPKKBLOUT .EQU KBD_US ; PPK KEYBOARD LANGUAGE: KBD_[US|DE]
MKYENABLE .EQU FALSE ; MSX 5255 PPI KEYBOARD COMPATIBLE DRIVER (REQUIRES TMS VDA DRIVER)
MKYKBLOUT .EQU KBD_US ; KBD KEYBOARD LANGUAGE: KBD_[US|DE]
;
@@ -150,7 +153,7 @@ SIOENABLE .EQU TRUE ; SIO: ENABLE ZILOG SIO SERIAL DRIVER (SIO.ASM)
SIODEBUG .EQU FALSE ; SIO: ENABLE DEBUG OUTPUT
SIOBOOT .EQU 0 ; SIO: REBOOT ON RCV CHAR (0=DISABLED)
SIOCNT .EQU 2 ; SIO: NUMBER OF CHIPS TO DETECT (1-2), 2 CHANNELS PER CHIP
SIO0MODE .EQU SIOMODE_RC ; SIO 0: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP]
SIO0MODE .EQU SIOMODE_RC ; SIO 0: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP|Z80R]
SIO0BASE .EQU $80 ; SIO 0: REGISTERS BASE ADR
SIO0ACLK .EQU CPUOSC ; SIO 0A: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO0ACFG .EQU DEFSERCFG ; SIO 0A: SERIAL LINE CONFIG
@@ -158,7 +161,7 @@ SIO0ACTCC .EQU -1 ; SIO 0A: CTC CHANNEL 0=A, 1=B, 2=C, 3=D, -1 FOR NONE
SIO0BCLK .EQU CPUOSC ; SIO 0B: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO0BCFG .EQU DEFSERCFG ; SIO 0B: SERIAL LINE CONFIG
SIO0BCTCC .EQU -1 ; SIO 0B: CTC CHANNEL 0=A, 1=B, 2=C, 3=D, -1 FOR NONE
SIO1MODE .EQU SIOMODE_RC ; SIO 1: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP]
SIO1MODE .EQU SIOMODE_RC ; SIO 1: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP|Z80R]
SIO1BASE .EQU $84 ; SIO 1: REGISTERS BASE ADR
SIO1ACLK .EQU CPUOSC ; SIO 1A: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO1ACFG .EQU DEFSERCFG ; SIO 1A: SERIAL LINE CONFIG
@@ -176,6 +179,7 @@ TMSENABLE .EQU FALSE ; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
TMSMODE .EQU TMSMODE_MSX ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
TMSTIMENABLE .EQU FALSE ; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
VGAENABLE .EQU FALSE ; VGA: ENABLE VGA VIDEO/KBD DRIVER (VGA.ASM)
VRCENABLE .EQU FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
;
MDENABLE .EQU TRUE ; MD: ENABLE MEMORY (ROM/RAM) DISK DRIVER (MD.ASM)
MDROM .EQU TRUE ; MD: ENABLE ROM DISK
@@ -187,9 +191,9 @@ FDENABLE .EQU FALSE ; FD: ENABLE FLOPPY DISK DRIVER (FD.ASM)
FDMODE .EQU FDMODE_RCWDC ; FD: DRIVER MODE: FDMODE_[DIO|ZETA|ZETA2|DIDE|N8|DIO3|RCSMC|RCWDC|DYNO|EPFDC|MBC]
FDCNT .EQU 2 ; FD: NUMBER OF FLOPPY DRIVES ON THE INTERFACE (1-2)
FDTRACE .EQU 1 ; FD: TRACE LEVEL (0=NO,1=FATAL,2=ERRORS,3=ALL)
FDMEDIA .EQU FDM144 ; FD: DEFAULT MEDIA FORMAT FDM[720|144|360|120|111]
FDMEDIAALT .EQU FDM720 ; FD: ALTERNATE MEDIA FORMAT FDM[720|144|360|120|111]
FDMAUTO .EQU TRUE ; FD: AUTO SELECT DEFAULT/ALTERNATE MEDIA FORMATS
FD0TYPE .EQU FDT_3HD ; FD 0: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
FD1TYPE .EQU FDT_3HD ; FD 1: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
;
RFENABLE .EQU FALSE ; RF: ENABLE RAM FLOPPY DRIVER
;
@@ -229,7 +233,7 @@ PPIDE2A8BIT .EQU FALSE ; PPIDE 2A (MASTER): 8 BIT XFER
PPIDE2B8BIT .EQU FALSE ; PPIDE 0B (SLAVE): 8 BIT XFER
;
SDENABLE .EQU FALSE ; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)
SDMODE .EQU SDMODE_MT ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|USR]
SDMODE .EQU SDMODE_MT ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|PIO|Z80R|USR]
SDPPIBASE .EQU $60 ; SD: BASE I/O ADDRESS OF PPI FOR PPI MODDE
SDCNT .EQU 2 ; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD/SC/MT ONLY
SDTRACE .EQU 1 ; SD: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
@@ -251,6 +255,32 @@ PIO0BASE .EQU $B8 ; PIO 0: REGISTERS BASE ADR
PIO1BASE .EQU $BC ; PIO 1: REGISTERS BASE ADR
;
LPTENABLE .EQU FALSE ; LPT: ENABLE CENTRONICS PRINTER DRIVER (LPT.ASM)
LPTMODE .EQU LPTMODE_MG014 ; LPT: DRIVER MODE: LPTMODE_[NONE|SPP|MG014]
LPTCNT .EQU 1 ; LPT: NUMBER OF CHIPS TO DETECT (1-2)
LPTTRACE .EQU 1 ; LPT: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
LPT0BASE .EQU $0C ; LPT 0: REGISTERS BASE ADR
LPT1BASE .EQU $00 ; LPT 1: REGISTERS BASE ADR
;
PPAENABLE .EQU FALSE ; PPA: ENABLE PPA DISK DRIVER (PPA.ASM)
PPACNT .EQU 1 ; PPA: NUMBER OF PPA DEVICES (1-2)
PPATRACE .EQU 1 ; PPA: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
PPAMODE .EQU PPAMODE_MG014 ; PPA: DRIVER MODE: PPAMODE_[NONE|SPP|MG014]
PPA0BASE .EQU LPT0BASE ; PPA 0: BASE I/O ADDRESS OF PPI FOR PPA
PPA1BASE .EQU LPT1BASE ; PPA 1: BASE I/O ADDRESS OF PPI FOR PPA
;
IMMENABLE .EQU FALSE ; IMM: ENABLE IMM DISK DRIVER (IMM.ASM)
IMMCNT .EQU 1 ; IMM: NUMBER OF IMM DEVICES (1-2)
IMMTRACE .EQU 1 ; IMM: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
IMMMODE .EQU IMMMODE_MG014 ; IMM: DRIVER MODE: IMMMODE_[NONE|SPP|MG014]
IMM0BASE .EQU LPT0BASE ; IMM 0: BASE I/O ADDRESS OF PPI FOR IMM
IMM1BASE .EQU LPT1BASE ; IMM 1: BASE I/O ADDRESS OF PPI FOR IMM
;
SYQENABLE .EQU FALSE ; SYQ: ENABLE IMM DISK DRIVER (SYQ.ASM)
SYQCNT .EQU 1 ; SYQ: NUMBER OF SYQ DEVICES (1-2)
SYQTRACE .EQU 1 ; SYQ: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
SYQMODE .EQU IMMMODE_MG014 ; SYQ: DRIVER MODE: SYQMODE_[NONE|SPP|MG014]
SYQ0BASE .EQU LPT0BASE ; SYQ 0: BASE I/O ADDRESS OF PPI FOR SYQ
SYQ1BASE .EQU LPT1BASE ; SYQ 1: BASE I/O ADDRESS OF PPI FOR SYQ
;
PIO_4P .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB 4P BOARD
PIO_ZP .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB ZILOG PERIPHERALS BOARD (PIO.ASM)

24
Source/HBIOS/cfg_rph.asm
View File

@@ -15,7 +15,7 @@
;
#INCLUDE "hbios.inc"
;
PLATFORM .EQU PLT_RPH ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH]
PLATFORM .EQU PLT_RPH ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
CPUFAM .EQU CPU_Z180 ; CPU FAMILY: CPU_[Z80|Z180|Z280]
BIOS .EQU BIOS_WBW ; HARDWARE BIOS: BIOS_[WBW|UNA]
BATCOND .EQU TRUE ; ENABLE LOW BATTERY WARNING MESSAGE
@@ -66,9 +66,12 @@ SKZENABLE .EQU FALSE ; ENABLE SERGEY'S Z80-512K FEATURES
;
WDOGMODE .EQU WDOG_NONE ; WATCHDOG MODE: WDOG_[NONE|EZZ80|SKZ]
;
DIAGENABLE .EQU FALSE ; ENABLES OUTPUT TO 8 BIT LED DIAGNOSTIC PORT
DIAGPORT .EQU $00 ; DIAGNOSTIC PORT ADDRESS
DIAGDISKIO .EQU TRUE ; ENABLES DISK I/O ACTIVITY ON DIAGNOSTIC LEDS
FPLED_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL LEDS
FPLED_IO .EQU $00 ; FP: PORT ADDRESS FOR FP LEDS
FPLED_DSKACT .EQU TRUE ; FP: ENABLES DISK I/O ACTIVITY ON FP LEDS
FPSW_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL SWITCHES
FPSW_IO .EQU $00 ; FP: PORT ADDRESS FOR FP SWITCHES
;
DIAGLVL .EQU DL_CRITICAL ; ERROR LEVEL REPORTING
;
LEDENABLE .EQU FALSE ; ENABLES STATUS LED
@@ -156,6 +159,7 @@ TMSMODE .EQU TMSMODE_N8 ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSX
TMSTIMENABLE .EQU FALSE ; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
VGAENABLE .EQU FALSE ; VGA: ENABLE VGA VIDEO/KBD DRIVER (VGA.ASM)
VGASIZ .EQU V80X25 ; VGA: DISPLAY FORMAT [V80X25|V80X30|V80X43]
VRCENABLE .EQU FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
;
MDENABLE .EQU TRUE ; MD: ENABLE MEMORY (ROM/RAM) DISK DRIVER (MD.ASM)
MDROM .EQU TRUE ; MD: ENABLE ROM DISK
@@ -167,9 +171,9 @@ FDENABLE .EQU FALSE ; FD: ENABLE FLOPPY DISK DRIVER (FD.ASM)
FDMODE .EQU FDMODE_N8 ; FD: DRIVER MODE: FDMODE_[DIO|ZETA|ZETA2|DIDE|N8|DIO3|RCSMC|RCWDC|DYNO|EPFDC|MBC]
FDCNT .EQU 2 ; FD: NUMBER OF FLOPPY DRIVES ON THE INTERFACE (1-2)
FDTRACE .EQU 1 ; FD: TRACE LEVEL (0=NO,1=FATAL,2=ERRORS,3=ALL)
FDMEDIA .EQU FDM144 ; FD: DEFAULT MEDIA FORMAT FDM[720|144|360|120|111]
FDMEDIAALT .EQU FDM720 ; FD: ALTERNATE MEDIA FORMAT FDM[720|144|360|120|111]
FDMAUTO .EQU TRUE ; FD: AUTO SELECT DEFAULT/ALTERNATE MEDIA FORMATS
FD0TYPE .EQU FDT_3HD ; FD 0: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
FD1TYPE .EQU FDT_3HD ; FD 1: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
;
RFENABLE .EQU FALSE ; RF: ENABLE RAM FLOPPY DRIVER
RFCNT .EQU 1 ; RF: NUMBER OF RAM FLOPPY UNITS (1-4)
@@ -210,7 +214,7 @@ PPIDE2A8BIT .EQU FALSE ; PPIDE 2A (MASTER): 8 BIT XFER
PPIDE2B8BIT .EQU FALSE ; PPIDE 0B (SLAVE): 8 BIT XFER
;
SDENABLE .EQU FALSE ; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)
SDMODE .EQU SDMODE_CSIO ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|USR]
SDMODE .EQU SDMODE_CSIO ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|PIO|Z80R|USR]
SDPPIBASE .EQU RPH_PPI0 ; SD: BASE I/O ADDRESS OF PPI FOR PPI MODDE
SDCNT .EQU 1 ; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD/SC/MT ONLY
SDTRACE .EQU 1 ; SD: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
@@ -232,6 +236,12 @@ PIO1BASE .EQU $BC ; PIO 1: REGISTERS BASE ADR
;
LPTENABLE .EQU FALSE ; LPT: ENABLE CENTRONICS PRINTER DRIVER (LPT.ASM)
;
PPAENABLE .EQU FALSE ; PPA: ENABLE PPA DISK DRIVER (PPA.ASM)
;
IMMENABLE .EQU FALSE ; IMM: ENABLE IMM DISK DRIVER (IMM.ASM)
;
SYQENABLE .EQU FALSE ; SYQ: ENABLE IMM DISK DRIVER (SYQ.ASM)
;
PIO_4P .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB 4P BOARD
PIO4BASE .EQU $90 ; PIO: PIO REGISTERS BASE ADR FOR ECB 4P BOARD
PIO_ZP .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB ZILOG PERIPHERALS BOARD (PIO.ASM)

30
Source/HBIOS/cfg_sbc.asm
View File

@@ -15,7 +15,7 @@
;
#INCLUDE "hbios.inc"
;
PLATFORM .EQU PLT_SBC ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH]
PLATFORM .EQU PLT_SBC ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
CPUFAM .EQU CPU_Z80 ; CPU FAMILY: CPU_[Z80|Z180|Z280]
BIOS .EQU BIOS_WBW ; HARDWARE BIOS: BIOS_[WBW|UNA]
BATCOND .EQU FALSE ; ENABLE LOW BATTERY WARNING MESSAGE
@@ -60,9 +60,12 @@ SKZENABLE .EQU FALSE ; ENABLE SERGEY'S Z80-512K FEATURES
;
WDOGMODE .EQU WDOG_NONE ; WATCHDOG MODE: WDOG_[NONE|EZZ80|SKZ]
;
DIAGENABLE .EQU FALSE ; ENABLES OUTPUT TO 8 BIT LED DIAGNOSTIC PORT
DIAGPORT .EQU $00 ; DIAGNOSTIC PORT ADDRESS
DIAGDISKIO .EQU TRUE ; ENABLES DISK I/O ACTIVITY ON DIAGNOSTIC LEDS
FPLED_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL LEDS
FPLED_IO .EQU $00 ; FP: PORT ADDRESS FOR FP LEDS
FPLED_DSKACT .EQU TRUE ; FP: ENABLES DISK I/O ACTIVITY ON FP LEDS
FPSW_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL SWITCHES
FPSW_IO .EQU $00 ; FP: PORT ADDRESS FOR FP SWITCHES
;
DIAGLVL .EQU DL_CRITICAL ; ERROR LEVEL REPORTING
;
LEDENABLE .EQU FALSE ; ENABLES STATUS LED
@@ -132,7 +135,7 @@ SIOENABLE .EQU TRUE ; SIO: ENABLE ZILOG SIO SERIAL DRIVER (SIO.ASM)
SIODEBUG .EQU FALSE ; SIO: ENABLE DEBUG OUTPUT
SIOBOOT .EQU 0 ; SIO: REBOOT ON RCV CHAR (0=DISABLED)
SIOCNT .EQU 1 ; SIO: NUMBER OF CHIPS TO DETECT (1-2), 2 CHANNELS PER CHIP
SIO0MODE .EQU SIOMODE_ZP ; SIO 0: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP]
SIO0MODE .EQU SIOMODE_ZP ; SIO 0: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP|Z80R]
SIO0BASE .EQU $B0 ; SIO 0: REGISTERS BASE ADR
SIO0ACLK .EQU (4915200/8) ; SIO 0A: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO0ACFG .EQU DEFSERCFG ; SIO 0A: SERIAL LINE CONFIG
@@ -154,6 +157,7 @@ TMSMODE .EQU TMSMODE_SCG ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MS
TMSTIMENABLE .EQU FALSE ; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
VGAENABLE .EQU FALSE ; VGA: ENABLE VGA VIDEO/KBD DRIVER (VGA.ASM)
VGASIZ .EQU V80X25 ; VGA: DISPLAY FORMAT [V80X25|V80X30|V80X43]
VRCENABLE .EQU FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
;
MDENABLE .EQU TRUE ; MD: ENABLE MEMORY (ROM/RAM) DISK DRIVER (MD.ASM)
MDROM .EQU TRUE ; MD: ENABLE ROM DISK
@@ -161,14 +165,13 @@ MDRAM .EQU TRUE ; MD: ENABLE RAM DISK
MDTRACE .EQU 1 ; MD: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
MDFFENABLE .EQU FALSE ; MD: ENABLE FLASH FILE SYSTEM
;
;
FDENABLE .EQU FALSE ; FD: ENABLE FLOPPY DISK DRIVER (FD.ASM)
FDMODE .EQU FDMODE_DIO3 ; FD: DRIVER MODE: FDMODE_[DIO|ZETA|ZETA2|DIDE|N8|DIO3|RCSMC|RCWDC|DYNO|EPFDC|MBC]
FDCNT .EQU 2 ; FD: NUMBER OF FLOPPY DRIVES ON THE INTERFACE (1-2)
FDTRACE .EQU 1 ; FD: TRACE LEVEL (0=NO,1=FATAL,2=ERRORS,3=ALL)
FDMEDIA .EQU FDM144 ; FD: DEFAULT MEDIA FORMAT FDM[720|144|360|120|111]
FDMEDIAALT .EQU FDM720 ; FD: ALTERNATE MEDIA FORMAT FDM[720|144|360|120|111]
FDMAUTO .EQU TRUE ; FD: AUTO SELECT DEFAULT/ALTERNATE MEDIA FORMATS
FD0TYPE .EQU FDT_3HD ; FD 0: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
FD1TYPE .EQU FDT_3HD ; FD 1: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
;
RFENABLE .EQU FALSE ; RF: ENABLE RAM FLOPPY DRIVER
RFCNT .EQU 1 ; RF: NUMBER OF RAM FLOPPY UNITS (1-4)
@@ -209,7 +212,7 @@ PPIDE2A8BIT .EQU FALSE ; PPIDE 2A (MASTER): 8 BIT XFER
PPIDE2B8BIT .EQU FALSE ; PPIDE 0B (SLAVE): 8 BIT XFER
;
SDENABLE .EQU FALSE ; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)
SDMODE .EQU SDMODE_JUHA ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|USR]
SDMODE .EQU SDMODE_JUHA ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|PIO|Z80R|USR]
SDPPIBASE .EQU $60 ; SD: BASE I/O ADDRESS OF PPI FOR PPI MODDE
SDCNT .EQU 1 ; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD/SC/MT ONLY
SDTRACE .EQU 1 ; SD: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
@@ -231,9 +234,12 @@ PIO0BASE .EQU $B8 ; PIO 0: REGISTERS BASE ADR
PIO1BASE .EQU $BC ; PIO 1: REGISTERS BASE ADR
;
LPTENABLE .EQU FALSE ; LPT: ENABLE CENTRONICS PRINTER DRIVER (LPT.ASM)
LPTCNT .EQU 1 ; LPT: NUMBER OF CHIPS TO DETECT (1-2)
LPT0BASE .EQU $E8 ; LPT 0: REGISTERS BASE ADR
LPT1BASE .EQU $EC ; LPT 1: REGISTERS BASE ADR
;
PPAENABLE .EQU FALSE ; PPA: ENABLE PPA DISK DRIVER (PPA.ASM)
;
IMMENABLE .EQU FALSE ; IMM: ENABLE IMM DISK DRIVER (IMM.ASM)
;
SYQENABLE .EQU FALSE ; SYQ: ENABLE IMM DISK DRIVER (SYQ.ASM)
;
PIO_4P .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB 4P BOARD
PIO4BASE .EQU $90 ; PIO: PIO REGISTERS BASE ADR FOR ECB 4P BOARD

48
Source/HBIOS/cfg_scz180.asm
View File

@@ -15,7 +15,7 @@
;
#INCLUDE "hbios.inc"
;
PLATFORM .EQU PLT_SCZ180 ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH]
PLATFORM .EQU PLT_SCZ180 ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
CPUFAM .EQU CPU_Z180 ; CPU FAMILY: CPU_[Z80|Z180|Z280]
BIOS .EQU BIOS_WBW ; HARDWARE BIOS: BIOS_[WBW|UNA]
BATCOND .EQU FALSE ; ENABLE LOW BATTERY WARNING MESSAGE
@@ -66,9 +66,12 @@ SKZENABLE .EQU FALSE ; ENABLE SERGEY'S Z80-512K FEATURES
;
WDOGMODE .EQU WDOG_NONE ; WATCHDOG MODE: WDOG_[NONE|EZZ80|SKZ]
;
DIAGENABLE .EQU TRUE ; ENABLES OUTPUT TO 8 BIT LED DIAGNOSTIC PORT
DIAGPORT .EQU $0D ; DIAGNOSTIC PORT ADDRESS
DIAGDISKIO .EQU TRUE ; ENABLES DISK I/O ACTIVITY ON DIAGNOSTIC LEDS
FPLED_ENABLE .EQU TRUE ; FP: ENABLES FRONT PANEL LEDS
FPLED_IO .EQU $00 ; FP: PORT ADDRESS FOR FP LEDS
FPLED_DSKACT .EQU TRUE ; FP: ENABLES DISK I/O ACTIVITY ON FP LEDS
FPSW_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL SWITCHES
FPSW_IO .EQU $00 ; FP: PORT ADDRESS FOR FP SWITCHES
;
DIAGLVL .EQU DL_CRITICAL ; ERROR LEVEL REPORTING
;
LEDENABLE .EQU FALSE ; ENABLES STATUS LED (SINGLE LED)
@@ -146,7 +149,7 @@ SIOENABLE .EQU TRUE ; SIO: ENABLE ZILOG SIO SERIAL DRIVER (SIO.ASM)
SIODEBUG .EQU FALSE ; SIO: ENABLE DEBUG OUTPUT
SIOBOOT .EQU 0 ; SIO: REBOOT ON RCV CHAR (0=DISABLED)
SIOCNT .EQU 2 ; SIO: NUMBER OF CHIPS TO DETECT (1-2), 2 CHANNELS PER CHIP
SIO0MODE .EQU SIOMODE_RC ; SIO 0: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP]
SIO0MODE .EQU SIOMODE_RC ; SIO 0: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP|Z80R]
SIO0BASE .EQU $80 ; SIO 0: REGISTERS BASE ADR
SIO0ACLK .EQU 7372800 ; SIO 0A: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO0ACFG .EQU SER_115200_8N1 ; SIO 0A: SERIAL LINE CONFIG
@@ -154,7 +157,7 @@ SIO0ACTCC .EQU -1 ; SIO 0A: CTC CHANNEL 0=A, 1=B, 2=C, 3=D, -1 FOR NONE
SIO0BCLK .EQU 7372800 ; SIO 0B: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO0BCFG .EQU SER_115200_8N1 ; SIO 0B: SERIAL LINE CONFIG
SIO0BCTCC .EQU -1 ; SIO 0B: CTC CHANNEL 0=A, 1=B, 2=C, 3=D, -1 FOR NONE
SIO1MODE .EQU SIOMODE_RC ; SIO 1: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP]
SIO1MODE .EQU SIOMODE_RC ; SIO 1: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP|Z80R]
SIO1BASE .EQU $84 ; SIO 1: REGISTERS BASE ADR
SIO1ACLK .EQU 7372800 ; SIO 1A: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO1ACFG .EQU SER_115200_8N1 ; SIO 1A: SERIAL LINE CONFIG
@@ -172,6 +175,7 @@ TMSENABLE .EQU FALSE ; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
TMSMODE .EQU TMSMODE_MSX ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
TMSTIMENABLE .EQU FALSE ; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
VGAENABLE .EQU FALSE ; VGA: ENABLE VGA VIDEO/KBD DRIVER (VGA.ASM)
VRCENABLE .EQU FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
;
MDENABLE .EQU TRUE ; MD: ENABLE MEMORY (ROM/RAM) DISK DRIVER (MD.ASM)
MDROM .EQU TRUE ; MD: ENABLE ROM DISK
@@ -183,9 +187,9 @@ FDENABLE .EQU FALSE ; FD: ENABLE FLOPPY DISK DRIVER (FD.ASM)
FDMODE .EQU FDMODE_RCWDC ; FD: DRIVER MODE: FDMODE_[DIO|ZETA|ZETA2|DIDE|N8|DIO3|RCSMC|RCWDC|DYNO|EPFDC|MBC]
FDCNT .EQU 2 ; FD: NUMBER OF FLOPPY DRIVES ON THE INTERFACE (1-2)
FDTRACE .EQU 1 ; FD: TRACE LEVEL (0=NO,1=FATAL,2=ERRORS,3=ALL)
FDMEDIA .EQU FDM144 ; FD: DEFAULT MEDIA FORMAT FDM[720|144|360|120|111]
FDMEDIAALT .EQU FDM720 ; FD: ALTERNATE MEDIA FORMAT FDM[720|144|360|120|111]
FDMAUTO .EQU TRUE ; FD: AUTO SELECT DEFAULT/ALTERNATE MEDIA FORMATS
FD0TYPE .EQU FDT_3HD ; FD 0: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
FD1TYPE .EQU FDT_3HD ; FD 1: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
;
RFENABLE .EQU FALSE ; RF: ENABLE RAM FLOPPY DRIVER
;
@@ -225,7 +229,7 @@ PPIDE2A8BIT .EQU FALSE ; PPIDE 2A (MASTER): 8 BIT XFER
PPIDE2B8BIT .EQU FALSE ; PPIDE 0B (SLAVE): 8 BIT XFER
;
SDENABLE .EQU TRUE ; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)
SDMODE .EQU SDMODE_SC ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|USR]
SDMODE .EQU SDMODE_SC ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|PIO|Z80R|USR]
SDPPIBASE .EQU $60 ; SD: BASE I/O ADDRESS OF PPI FOR PPI MODDE
SDCNT .EQU 1 ; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD/SC/MT ONLY
SDTRACE .EQU 1 ; SD: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
@@ -247,6 +251,32 @@ PIO0BASE .EQU $B8 ; PIO 0: REGISTERS BASE ADR
PIO1BASE .EQU $BC ; PIO 1: REGISTERS BASE ADR
;
LPTENABLE .EQU FALSE ; LPT: ENABLE CENTRONICS PRINTER DRIVER (LPT.ASM)
LPTMODE .EQU LPTMODE_MG014 ; LPT: DRIVER MODE: LPTMODE_[NONE|SPP|MG014]
LPTCNT .EQU 1 ; LPT: NUMBER OF CHIPS TO DETECT (1-2)
LPTTRACE .EQU 1 ; LPT: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
LPT0BASE .EQU $18 ; LPT 0: REGISTERS BASE ADR
LPT1BASE .EQU $00 ; LPT 1: REGISTERS BASE ADR
;
PPAENABLE .EQU FALSE ; PPA: ENABLE PPA DISK DRIVER (PPA.ASM)
PPACNT .EQU 1 ; PPA: NUMBER OF PPA DEVICES (1-2)
PPATRACE .EQU 1 ; PPA: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
PPAMODE .EQU PPAMODE_MG014 ; PPA: DRIVER MODE: PPAMODE_[NONE|SPP|MG014]
PPA0BASE .EQU LPT0BASE ; PPA 0: BASE I/O ADDRESS OF PPI FOR PPA
PPA1BASE .EQU LPT1BASE ; PPA 1: BASE I/O ADDRESS OF PPI FOR PPA
;
IMMENABLE .EQU FALSE ; IMM: ENABLE IMM DISK DRIVER (IMM.ASM)
IMMCNT .EQU 1 ; IMM: NUMBER OF IMM DEVICES (1-2)
IMMTRACE .EQU 1 ; IMM: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
IMMMODE .EQU IMMMODE_MG014 ; IMM: DRIVER MODE: IMMMODE_[NONE|SPP|MG014]
IMM0BASE .EQU LPT0BASE ; IMM 0: BASE I/O ADDRESS OF PPI FOR IMM
IMM1BASE .EQU LPT1BASE ; IMM 1: BASE I/O ADDRESS OF PPI FOR IMM
;
SYQENABLE .EQU FALSE ; SYQ: ENABLE IMM DISK DRIVER (SYQ.ASM)
SYQCNT .EQU 1 ; SYQ: NUMBER OF SYQ DEVICES (1-2)
SYQTRACE .EQU 1 ; SYQ: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
SYQMODE .EQU IMMMODE_MG014 ; SYQ: DRIVER MODE: SYQMODE_[NONE|SPP|MG014]
SYQ0BASE .EQU LPT0BASE ; SYQ 0: BASE I/O ADDRESS OF PPI FOR SYQ
SYQ1BASE .EQU LPT1BASE ; SYQ 1: BASE I/O ADDRESS OF PPI FOR SYQ
;
PIO_4P .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB 4P BOARD
PIO_ZP .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB ZILOG PERIPHERALS BOARD (PIO.ASM)

8
Source/HBIOS/cfg_una.asm
View File

@@ -15,10 +15,14 @@
;
#INCLUDE "../UBIOS/ubios.inc"
;
;PLATFORM .EQU PLT_UNA ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH]
;PLATFORM .EQU PLT_UNA ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
CPUFAM .EQU CPU_Z80 ; CPU FAMILY: CPU_[Z80|Z180|Z280]
BIOS .EQU BIOS_UNA ; HARDWARE BIOS: BIOS_[WBW|UNA]
;
FPSW_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL SWITCHES
;
DIAGLVL .EQU DL_CRITICAL ; ERROR LEVEL REPORTING
;
BOOT_TIMEOUT .EQU -1 ; AUTO BOOT TIMEOUT IN SECONDS, -1 TO DISABLE, 0 FOR IMMEDIATE
;
CPUSPDCAP .EQU SPD_FIXED ; CPU SPEED CHANGE CAPABILITY SPD_FIXED|SPD_HILO
@@ -32,5 +36,3 @@ ROMSIZE .EQU 512 ; SIZE OF ROM IN KB (MUST MATCH YOUR HARDWARE!!!)
RTCIO .EQU $70 ; RTC LATCH REGISTER ADR
;
DSKYENABLE .EQU FALSE ; ENABLES DSKY (DO NOT COMBINE WITH PPIDE)
DIAGLVL .EQU DL_CRITICAL ; ERROR LEVEL REPORTING

231
Source/HBIOS/cfg_z80retro.asm Normal file
View File

@@ -0,0 +1,231 @@
;
;==================================================================================================
; ROMWBW 2.X CONFIGURATION DEFAULTS FOR SIMPLE Z80 RETRO
;==================================================================================================
;
; THIS FILE CONTAINS THE FULL SET OF DEFAULT CONFIGURATION SETTINGS FOR THE PLATFORM
; INDICATED ABOVE. THIS FILE SHOULD *NOT* NORMALLY BE CHANGED. INSTEAD, YOU SHOULD
; OVERRIDE ANY SETTINGS YOU WANT USING A CONFIGURATION FILE IN THE CONFIG DIRECTORY
; UNDER THIS DIRECTORY.
;
; THIS FILE CAN BE CONSIDERED A REFERENCE THAT LISTS ALL POSSIBLE CONFIGURATION SETTINGS
; FOR THE PLATFORM.
;
#DEFINE PLATFORM_NAME "Z80Retro", " [", CONFIG, "]"
;
#INCLUDE "hbios.inc"
;
PLATFORM .EQU PLT_Z80RETRO ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
CPUFAM .EQU CPU_Z80 ; CPU FAMILY: CPU_[Z80|Z180|Z280]
BIOS .EQU BIOS_WBW ; HARDWARE BIOS: BIOS_[WBW|UNA]
BATCOND .EQU FALSE ; ENABLE LOW BATTERY WARNING MESSAGE
HBIOS_MUTEX .EQU FALSE ; ENABLE REENTRANT CALLS TO HBIOS (ADDS OVERHEAD)
USELZSA2 .EQU TRUE ; ENABLE FONT COMPRESSION
TICKFREQ .EQU 50 ; DESIRED PERIODIC TIMER INTERRUPT FREQUENCY (HZ)
;
BOOT_TIMEOUT .EQU -1 ; AUTO BOOT TIMEOUT IN SECONDS, -1 TO DISABLE, 0 FOR IMMEDIATE
BOOT_DELAY .EQU 0 ; FIXED BOOT DELAY IN SECONDS PRIOR TO CONSOLE OUTPUT
;
CPUSPDCAP .EQU SPD_FIXED ; CPU SPEED CHANGE CAPABILITY SPD_FIXED|SPD_HILO
CPUSPDDEF .EQU SPD_HIGH ; CPU SPEED DEFAULT SPD_UNSUP|SPD_HIGH|SPD_LOW
CPUOSC .EQU 14745600 ; CPU OSC FREQ IN MHZ
INTMODE .EQU 2 ; INTERRUPTS: 0=NONE, 1=MODE 1, 2=MODE 2, 3=MODE 3 (Z280)
DEFSERCFG .EQU SER_38400_8N1 ; DEFAULT SERIAL LINE CONFIG (SEE STD.ASM)
;
RAMSIZE .EQU 512 ; SIZE OF RAM IN KB (MUST MATCH YOUR HARDWARE!!!)
ROMSIZE .EQU 512 ; SIZE OF ROM IN KB (MUST MATCH YOUR HARDWARE!!!)
ROMSIZE_CHK .EQU 0 ; ROMSIZE VALUE VERIFICATION (0=DISABLED)
MEMMGR .EQU MM_Z2 ; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280|MBC|RPH]
MPGSEL_0 .EQU $60 ; Z2 MEM MGR BANK 0 PAGE SELECT REG (WRITE ONLY)
MPGSEL_1 .EQU $61 ; Z2 MEM MGR BANK 1 PAGE SELECT REG (WRITE ONLY)
MPGSEL_2 .EQU $62 ; Z2 MEM MGR BANK 2 PAGE SELECT REG (WRITE ONLY)
MPGSEL_3 .EQU $63 ; Z2 MEM MGR BANK 3 PAGE SELECT REG (WRITE ONLY)
MPGENA .EQU $64 ; Z2 MEM MGR PAGING ENABLE REGISTER (BIT 0, WRITE ONLY)
;
RTCIO .EQU $70 ; RTC LATCH REGISTER ADR
;
KIOENABLE .EQU FALSE ; ENABLE ZILOG KIO SUPPORT
KIOBASE .EQU $80 ; KIO BASE I/O ADDRESS
;
CTCENABLE .EQU TRUE ; ENABLE ZILOG CTC SUPPORT
CTCDEBUG .EQU FALSE ; ENABLE CTC DRIVER DEBUG OUTPUT
CTCBASE .EQU $40 ; CTC BASE I/O ADDRESS
CTCTIMER .EQU FALSE ; ENABLE CTC PERIODIC TIMER (too fast for RomWBW right now)
CTCMODE .EQU CTCMODE_CTR ; CTC MODE: CTCMODE_[NONE|CTR|TIM16|TIM256]
CTCPRE .EQU 256 ; PRESCALE CONSTANT (1-256)
CTCPRECH .EQU 0 ; PRESCALE CHANNEL (0-3)
CTCTIMCH .EQU 1 ; TIMER CHANNEL (0-3)
CTCOSC .EQU 7372800 ; CTC CLOCK FREQUENCY
;
EIPCENABLE .EQU FALSE ; EIPC: ENABLE Z80 EIPC (Z84C15) INITIALIZATION
;
SKZENABLE .EQU FALSE ; ENABLE SERGEY'S Z80-512K FEATURES
;
WDOGMODE .EQU WDOG_NONE ; WATCHDOG MODE: WDOG_[NONE|EZZ80|SKZ]
;
FPLED_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL LEDS
FPLED_IO .EQU $00 ; FP: PORT ADDRESS FOR FP LEDS
FPLED_DSKACT .EQU TRUE ; FP: ENABLES DISK I/O ACTIVITY ON FP LEDS
FPSW_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL SWITCHES
FPSW_IO .EQU $00 ; FP: PORT ADDRESS FOR FP SWITCHES
;
DIAGLVL .EQU DL_CRITICAL ; ERROR LEVEL REPORTING
;
LEDENABLE .EQU FALSE ; ENABLES STATUS LED
LEDMODE .EQU LEDMODE_RTC ; LEDMODE_[STD|RTC]
LEDPORT .EQU $00 ; STATUS LED PORT ADDRESS
LEDDISKIO .EQU TRUE ; ENABLES DISK I/O ACTIVITY ON STATUS LED
;
DSKYENABLE .EQU FALSE ; ENABLES DSKY
DSKYMODE .EQU DSKYMODE_V1 ; DSKY VERSION: DSKYMODE_[V1|NG]
DSKYPPIBASE .EQU $60 ; BASE I/O ADDRESS OF DSKY PPI
DSKYOSC .EQU 3000000 ; OSCILLATOR FREQ FOR DSKYNG (IN HZ)
;
BOOTCON .EQU 0 ; BOOT CONSOLE DEVICE
CRTACT .EQU FALSE ; ACTIVATE CRT (VDU,CVDU,PROPIO,ETC) AT STARTUP
VDAEMU .EQU EMUTYP_ANSI ; VDA EMULATION: EMUTYP_[TTY|ANSI]
VDAEMU_SERKBD .EQU $FF ; VDA EMULATION: SERIAL KBD UNIT #, OR $FF FOR HW KBD
ANSITRACE .EQU 1 ; ANSI DRIVER TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
MKYENABLE .EQU FALSE ; MSX 5255 PPI KEYBOARD COMPATIBLE DRIVER (REQUIRES TMS VDA DRIVER)
;
DSRTCENABLE .EQU FALSE ; DSRTC: ENABLE DS-1302 CLOCK DRIVER (DSRTC.ASM)
DSRTCMODE .EQU DSRTCMODE_STD ; DSRTC: OPERATING MODE: DSRTC_[STD|MFPIC]
DSRTCCHG .EQU FALSE ; DSRTC: FORCE BATTERY CHARGE ON (USE WITH CAUTION!!!)
;
DS1501RTCENABLE .EQU FALSE ; DS1501RTC: ENABLE DS-1501 CLOCK DRIVER (DS1501RTC.ASM)
DS1501RTC_BASE .EQU $50 ; DS1501RTC: I/O BASE ADDRESS
;
BQRTCENABLE .EQU FALSE ; BQRTC: ENABLE BQ4845 CLOCK DRIVER (BQRTC.ASM)
BQRTC_BASE .EQU $50 ; BQRTC: I/O BASE ADDRESS
;
INTRTCENABLE .EQU FALSE ; ENABLE PERIODIC INTERRUPT CLOCK DRIVER (INTRTC.ASM)
;
RP5RTCENABLE .EQU FALSE ; RP5C01 RTC BASED CLOCK (RP5RTC.ASM)
;
HTIMENABLE .EQU FALSE ; ENABLE SIMH TIMER SUPPORT
SIMRTCENABLE .EQU FALSE ; ENABLE SIMH CLOCK DRIVER (SIMRTC.ASM)
;
DS7RTCENABLE .EQU FALSE ; DS7RTC: ENABLE DS-1307 I2C CLOCK DRIVER (DS7RTC.ASM)
DS7RTCMODE .EQU DS7RTCMODE_PCF ; DS7RTC: OPERATING MODE: DS7RTC_[PCF]
;
DUARTENABLE .EQU FALSE ; DUART: ENABLE 2681/2692 SERIAL DRIVER (DUART.ASM)
;
UARTENABLE .EQU FALSE ; UART: ENABLE 8250/16550-LIKE SERIAL DRIVER (UART.ASM)
UARTOSC .EQU 1843200 ; UART: OSC FREQUENCY IN MHZ
UARTINTS .EQU FALSE ; UART: INCLUDE INTERRUPT SUPPORT UNDER IM1/2/3
UARTCFG .EQU DEFSERCFG ; UART: LINE CONFIG FOR UART PORTS
UARTCASSPD .EQU SER_300_8N1 ; UART: ECB CASSETTE UART DEFAULT SPEED
UARTSBC .EQU TRUE ; UART: AUTO-DETECT SBC/ZETA ONBOARD UART
UARTSBCFORCE .EQU FALSE ; UART: FORCE DETECTION OF SBC UART (FOR SIMH)
UARTCAS .EQU FALSE ; UART: AUTO-DETECT ECB CASSETTE UART
UARTMFP .EQU FALSE ; UART: AUTO-DETECT MF/PIC UART
UART4 .EQU FALSE ; UART: AUTO-DETECT 4UART UART
UARTRC .EQU FALSE ; UART: AUTO-DETECT RC UART
UARTDUAL .EQU FALSE ; UART: AUTO-DETECT DUAL UART
;
ASCIENABLE .EQU FALSE ; ASCI: ENABLE Z180 ASCI SERIAL DRIVER (ASCI.ASM)
;
Z2UENABLE .EQU FALSE ; Z2U: ENABLE Z280 UART SERIAL DRIVER (Z2U.ASM)
;
ACIAENABLE .EQU FALSE ; ACIA: ENABLE MOTOROLA 6850 ACIA DRIVER (ACIA.ASM)
;
SIOENABLE .EQU TRUE ; SIO: ENABLE ZILOG SIO SERIAL DRIVER (SIO.ASM)
SIODEBUG .EQU FALSE ; SIO: ENABLE DEBUG OUTPUT
SIOBOOT .EQU 0 ; SIO: REBOOT ON RCV CHAR (0=DISABLED)
SIOCNT .EQU 1 ; SIO: NUMBER OF CHIPS TO DETECT (1-2), 2 CHANNELS PER CHIP
SIO0MODE .EQU SIOMODE_Z80R ; SIO 0: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP|Z80R]
SIO0BASE .EQU $80 ; SIO 0: REGISTERS BASE ADR
SIO0ACLK .EQU CPUOSC/2 ; SIO 0A: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO0ACFG .EQU DEFSERCFG ; SIO 0A: SERIAL LINE CONFIG
SIO0ACTCC .EQU -1 ; SIO 0A: CTC CHANNEL 0=A, 1=B, 2=C, 3=D, -1 FOR NONE
SIO0BCLK .EQU CPUOSC/2 ; SIO 0B: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO0BCFG .EQU DEFSERCFG ; SIO 0B: SERIAL LINE CONFIG
SIO0BCTCC .EQU -1 ; SIO 0B: CTC CHANNEL 0=A, 1=B, 2=C, 3=D, -1 FOR NONE
SIO1MODE .EQU SIOMODE_Z80R ; SIO 1: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP|Z80R]
SIO1BASE .EQU $84 ; SIO 1: REGISTERS BASE ADR
SIO1ACLK .EQU CPUOSC/2 ; SIO 1A: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO1ACFG .EQU DEFSERCFG ; SIO 1A: SERIAL LINE CONFIG
SIO1ACTCC .EQU -1 ; SIO 1A: CTC CHANNEL 0=A, 1=B, 2=C, 3=D, -1 FOR NONE
SIO1BCLK .EQU CPUOSC/2 ; SIO 1B: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
SIO1BCFG .EQU DEFSERCFG ; SIO 1B: SERIAL LINE CONFIG
SIO1BCTCC .EQU -1 ; SIO 1B: CTC CHANNEL 0=A, 1=B, 2=C, 3=D, -1 FOR NONE
;
XIOCFG .EQU DEFSERCFG ; XIO: SERIAL LINE CONFIG
;
VDUENABLE .EQU FALSE ; VDU: ENABLE VDU VIDEO/KBD DRIVER (VDU.ASM)
CVDUENABLE .EQU FALSE ; CVDU: ENABLE CVDU VIDEO/KBD DRIVER (CVDU.ASM)
GDCENABLE .EQU FALSE ; GDC: ENABLE 7220 GDC VIDEO/KBD DRIVER (GDC.ASM)
TMSENABLE .EQU FALSE ; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
TMSMODE .EQU TMSMODE_NONE ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
TMSTIMENABLE .EQU FALSE ; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
VGAENABLE .EQU FALSE ; VGA: ENABLE VGA VIDEO/KBD DRIVER (VGA.ASM)
VRCENABLE .EQU FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
;
MDENABLE .EQU TRUE ; MD: ENABLE MEMORY (ROM/RAM) DISK DRIVER (MD.ASM)
MDROM .EQU TRUE ; MD: ENABLE ROM DISK
MDRAM .EQU TRUE ; MD: ENABLE RAM DISK
MDTRACE .EQU 1 ; MD: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
MDFFENABLE .EQU FALSE ; MD: ENABLE FLASH FILE SYSTEM
;
FDENABLE .EQU FALSE ; FD: ENABLE FLOPPY DISK DRIVER (FD.ASM)
FDMODE .EQU FDMODE_ZETA2 ; FD: DRIVER MODE: FDMODE_[DIO|ZETA|ZETA2|DIDE|N8|DIO3|RCSMC|RCWDC|DYNO|EPFDC|MBC]
FDCNT .EQU 1 ; FD: NUMBER OF FLOPPY DRIVES ON THE INTERFACE (1-2)
FDTRACE .EQU 1 ; FD: TRACE LEVEL (0=NO,1=FATAL,2=ERRORS,3=ALL)
FDMAUTO .EQU TRUE ; FD: AUTO SELECT DEFAULT/ALTERNATE MEDIA FORMATS
FD0TYPE .EQU FDT_3HD ; FD 0: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
FD1TYPE .EQU FDT_3HD ; FD 1: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
;
RFENABLE .EQU FALSE ; RF: ENABLE RAM FLOPPY DRIVER
;
IDEENABLE .EQU FALSE ; IDE: ENABLE IDE DISK DRIVER (IDE.ASM)
;
PPIDEENABLE .EQU FALSE ; PPIDE: ENABLE PARALLEL PORT IDE DISK DRIVER (PPIDE.ASM)
PPIDETRACE .EQU 1 ; PPIDE: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
PPIDECNT .EQU 1 ; PPIDE: NUMBER OF PPI CHIPS TO DETECT (1-3), 2 DRIVES PER CHIP
PPIDE0BASE .EQU $60 ; PPIDE 0: PPI REGISTERS BASE ADR
PPIDE0A8BIT .EQU FALSE ; PPIDE 0A (MASTER): 8 BIT XFER
PPIDE0B8BIT .EQU FALSE ; PPIDE 0B (SLAVE): 8 BIT XFER
;
SDENABLE .EQU TRUE ; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)
SDMODE .EQU SDMODE_Z80R ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|PIO|Z80R|USR]
SDCNT .EQU 1 ; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD/SC/MT ONLY
SDTRACE .EQU 1 ; SD: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
SDCSIOFAST .EQU FALSE ; SD: ENABLE TABLE-DRIVEN BIT INVERTER IN CSIO MODE
;
PRPENABLE .EQU FALSE ; PRP: ENABLE ECB PROPELLER IO BOARD DRIVER (PRP.ASM)
;
PPPENABLE .EQU FALSE ; PPP: ENABLE ZETA PARALLEL PORT PROPELLER BOARD DRIVER (PPP.ASM)
PPPBASE .EQU $60 ; PPP: PPI REGISTERS BASE ADDRESS
PPPSDENABLE .EQU TRUE ; PPP: ENABLE PPP DRIVER SD CARD SUPPORT
PPPSDTRACE .EQU 1 ; PPP: SD CARD TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
PPPCONENABLE .EQU TRUE ; PPP: ENABLE PPP DRIVER VIDEO/KBD SUPPORT
;
HDSKENABLE .EQU FALSE ; HDSK: ENABLE SIMH HDSK DISK DRIVER (HDSK.ASM)
;
PIOENABLE .EQU FALSE ; PIO: ENABLE ZILOG PIO DRIVER (PIO.ASM)
;
LPTENABLE .EQU FALSE ; LPT: ENABLE CENTRONICS PRINTER DRIVER (LPT.ASM)
;
PPAENABLE .EQU FALSE ; PPA: ENABLE PPA DISK DRIVER (PPA.ASM)
;
IMMENABLE .EQU FALSE ; IMM: ENABLE IMM DISK DRIVER (IMM.ASM)
;
SYQENABLE .EQU FALSE ; SYQ: ENABLE IMM DISK DRIVER (SYQ.ASM)
;
PIO_4P .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB 4P BOARD
PIO_ZP .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB ZILOG PERIPHERALS BOARD (PIO.ASM)
PIO_SBC .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR 8255 CHIP
PIOSBASE .EQU $60 ; PIO: PIO REGISTERS BASE ADR FOR SBC PPI
;
UFENABLE .EQU FALSE ; UF: ENABLE ECB USB FIFO DRIVER (UF.ASM)
;
SN76489ENABLE .EQU FALSE ; SN76489 SOUND DRIVER
AY38910ENABLE .EQU FALSE ; AY: AY-3-8910 / YM2149 SOUND DRIVER
SPKENABLE .EQU FALSE ; SPK: ENABLE RTC LATCH IOBIT SOUND DRIVER (SPK.ASM)
;
DMAENABLE .EQU FALSE ; DMA: ENABLE DMA DRIVER (DMA.ASM)
DMABASE .EQU $E0 ; DMA: DMA BASE ADDRESS
DMAMODE .EQU DMAMODE_NONE ; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC)
;
YM2612ENABLE .EQU FALSE ; YM2612: ENABLE YM2612 DRIVER (MUTE STUB)
VGMBASE .EQU $C0 ; YM2612: BASE ADDRESS FOR VGM BOARD (YM2612/SN76469s/CTC)

24
Source/HBIOS/cfg_zeta.asm
View File

@@ -15,7 +15,7 @@
;
#INCLUDE "hbios.inc"
;
PLATFORM .EQU PLT_ZETA ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH]
PLATFORM .EQU PLT_ZETA ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
CPUFAM .EQU CPU_Z80 ; CPU FAMILY: CPU_[Z80|Z180|Z280]
BIOS .EQU BIOS_WBW ; BIOS_[WBW|UNA]: HARDWARE BIOS
BATCOND .EQU FALSE ; ENABLE LOW BATTERY WARNING MESSAGE
@@ -52,9 +52,12 @@ SKZENABLE .EQU FALSE ; ENABLE SERGEY'S Z80-512K FEATURES
;
WDOGMODE .EQU WDOG_NONE ; WATCHDOG MODE: WDOG_[NONE|EZZ80|SKZ]
;
DIAGENABLE .EQU FALSE ; ENABLES OUTPUT TO 8 BIT LED DIAGNOSTIC PORT
DIAGPORT .EQU $00 ; DIAGNOSTIC PORT ADDRESS
DIAGDISKIO .EQU TRUE ; ENABLES DISK I/O ACTIVITY ON DIAGNOSTIC LEDS
FPLED_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL LEDS
FPLED_IO .EQU $00 ; FP: PORT ADDRESS FOR FP LEDS
FPLED_DSKACT .EQU TRUE ; FP: ENABLES DISK I/O ACTIVITY ON FP LEDS
FPSW_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL SWITCHES
FPSW_IO .EQU $00 ; FP: PORT ADDRESS FOR FP SWITCHES
;
DIAGLVL .EQU DL_CRITICAL ; ERROR LEVEL REPORTING
;
LEDENABLE .EQU FALSE ; ENABLES STATUS LED
@@ -126,6 +129,7 @@ TMSENABLE .EQU FALSE ; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
TMSMODE .EQU TMSMODE_NONE ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
TMSTIMENABLE .EQU FALSE ; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
VGAENABLE .EQU FALSE ; VGA: ENABLE VGA VIDEO/KBD DRIVER (VGA.ASM)
VRCENABLE .EQU FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
;
MDENABLE .EQU TRUE ; MD: ENABLE MEMORY (ROM/RAM) DISK DRIVER (MD.ASM)
MDROM .EQU TRUE ; MD: ENABLE ROM DISK
@@ -137,9 +141,9 @@ FDENABLE .EQU TRUE ; FD: ENABLE FLOPPY DISK DRIVER (FD.ASM)
FDMODE .EQU FDMODE_ZETA ; FD: DRIVER MODE: FDMODE_[DIO|ZETA|ZETA2|DIDE|N8|DIO3|RCSMC|RCWDC|DYNO|EPFDC|MBC]
FDCNT .EQU 1 ; FD: NUMBER OF FLOPPY DRIVES ON THE INTERFACE (1-2)
FDTRACE .EQU 1 ; FD: TRACE LEVEL (0=NO,1=FATAL,2=ERRORS,3=ALL)
FDMEDIA .EQU FDM144 ; FD: DEFAULT MEDIA FORMAT FDM[720|144|360|120|111]
FDMEDIAALT .EQU FDM720 ; FD: ALTERNATE MEDIA FORMAT FDM[720|144|360|120|111]
FDMAUTO .EQU TRUE ; FD: AUTO SELECT DEFAULT/ALTERNATE MEDIA FORMATS
FD0TYPE .EQU FDT_3HD ; FD 0: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
FD1TYPE .EQU FDT_3HD ; FD 1: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
;
RFENABLE .EQU FALSE ; RF: ENABLE RAM FLOPPY DRIVER
;
@@ -153,7 +157,7 @@ PPIDE0A8BIT .EQU FALSE ; PPIDE 0A (MASTER): 8 BIT XFER
PPIDE0B8BIT .EQU FALSE ; PPIDE 0B (SLAVE): 8 BIT XFER
;
SDENABLE .EQU FALSE ; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)
SDMODE .EQU SDMODE_PPI ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|USR]
SDMODE .EQU SDMODE_PPI ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|PIO|Z80R|USR]
SDPPIBASE .EQU $60 ; SD: BASE I/O ADDRESS OF PPI FOR PPI MODDE
SDCNT .EQU 1 ; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD/SC/MT ONLY
SDTRACE .EQU 1 ; SD: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
@@ -173,6 +177,12 @@ PIOENABLE .EQU FALSE ; PIO: ENABLE ZILOG PIO DRIVER (PIO.ASM)
;
LPTENABLE .EQU FALSE ; LPT: ENABLE CENTRONICS PRINTER DRIVER (LPT.ASM)
;
PPAENABLE .EQU FALSE ; PPA: ENABLE PPA DISK DRIVER (PPA.ASM)
;
IMMENABLE .EQU FALSE ; IMM: ENABLE IMM DISK DRIVER (IMM.ASM)
;
SYQENABLE .EQU FALSE ; SYQ: ENABLE IMM DISK DRIVER (SYQ.ASM)
;
PIO_4P .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB 4P BOARD
PIO_ZP .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB ZILOG PERIPHERALS BOARD (PIO.ASM)
PIO_SBC .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR 8255 CHIP

26
Source/HBIOS/cfg_zeta2.asm
View File

@@ -15,7 +15,7 @@
;
#INCLUDE "hbios.inc"
;
PLATFORM .EQU PLT_ZETA2 ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH]
PLATFORM .EQU PLT_ZETA2 ; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
CPUFAM .EQU CPU_Z80 ; CPU FAMILY: CPU_[Z80|Z180|Z280]
BIOS .EQU BIOS_WBW ; HARDWARE BIOS: BIOS_[WBW|UNA]
BATCOND .EQU FALSE ; ENABLE LOW BATTERY WARNING MESSAGE
@@ -28,7 +28,7 @@ BOOT_DELAY .EQU 0 ; FIXED BOOT DELAY IN SECONDS PRIOR TO CONSOLE OUTPUT
;
CPUSPDCAP .EQU SPD_FIXED ; CPU SPEED CHANGE CAPABILITY SPD_FIXED|SPD_HILO
CPUSPDDEF .EQU SPD_HIGH ; CPU SPEED DEFAULT SPD_UNSUP|SPD_HIGH|SPD_LOW
CPUOSC .EQU 20000000 ; CPU OSC FREQ IN MHZ
CPUOSC .EQU 8000000 ; CPU OSC FREQ IN MHZ
INTMODE .EQU 2 ; INTERRUPTS: 0=NONE, 1=MODE 1, 2=MODE 2, 3=MODE 3 (Z280)
DEFSERCFG .EQU SER_38400_8N1 ; DEFAULT SERIAL LINE CONFIG (SEE STD.ASM)
;
@@ -63,9 +63,12 @@ SKZENABLE .EQU FALSE ; ENABLE SERGEY'S Z80-512K FEATURES
;
WDOGMODE .EQU WDOG_NONE ; WATCHDOG MODE: WDOG_[NONE|EZZ80|SKZ]
;
DIAGENABLE .EQU FALSE ; ENABLES OUTPUT TO 8 BIT LED DIAGNOSTIC PORT
DIAGPORT .EQU $00 ; DIAGNOSTIC PORT ADDRESS
DIAGDISKIO .EQU TRUE ; ENABLES DISK I/O ACTIVITY ON DIAGNOSTIC LEDS
FPLED_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL LEDS
FPLED_IO .EQU $00 ; FP: PORT ADDRESS FOR FP LEDS
FPLED_DSKACT .EQU TRUE ; FP: ENABLES DISK I/O ACTIVITY ON FP LEDS
FPSW_ENABLE .EQU FALSE ; FP: ENABLES FRONT PANEL SWITCHES
FPSW_IO .EQU $00 ; FP: PORT ADDRESS FOR FP SWITCHES
;
DIAGLVL .EQU DL_CRITICAL ; ERROR LEVEL REPORTING
;
LEDENABLE .EQU FALSE ; ENABLES STATUS LED
@@ -137,6 +140,7 @@ TMSENABLE .EQU FALSE ; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
TMSMODE .EQU TMSMODE_NONE ; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
TMSTIMENABLE .EQU FALSE ; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
VGAENABLE .EQU FALSE ; VGA: ENABLE VGA VIDEO/KBD DRIVER (VGA.ASM)
VRCENABLE .EQU FALSE ; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
;
MDENABLE .EQU TRUE ; MD: ENABLE MEMORY (ROM/RAM) DISK DRIVER (MD.ASM)
MDROM .EQU TRUE ; MD: ENABLE ROM DISK
@@ -148,9 +152,9 @@ FDENABLE .EQU TRUE ; FD: ENABLE FLOPPY DISK DRIVER (FD.ASM)
FDMODE .EQU FDMODE_ZETA2 ; FD: DRIVER MODE: FDMODE_[DIO|ZETA|ZETA2|DIDE|N8|DIO3|RCSMC|RCWDC|DYNO|EPFDC|MBC]
FDCNT .EQU 1 ; FD: NUMBER OF FLOPPY DRIVES ON THE INTERFACE (1-2)
FDTRACE .EQU 1 ; FD: TRACE LEVEL (0=NO,1=FATAL,2=ERRORS,3=ALL)
FDMEDIA .EQU FDM144 ; FD: DEFAULT MEDIA FORMAT FDM[720|144|360|120|111]
FDMEDIAALT .EQU FDM720 ; FD: ALTERNATE MEDIA FORMAT FDM[720|144|360|120|111]
FDMAUTO .EQU TRUE ; FD: AUTO SELECT DEFAULT/ALTERNATE MEDIA FORMATS
FD0TYPE .EQU FDT_3HD ; FD 0: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
FD1TYPE .EQU FDT_3HD ; FD 1: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
;
RFENABLE .EQU FALSE ; RF: ENABLE RAM FLOPPY DRIVER
;
@@ -164,7 +168,7 @@ PPIDE0A8BIT .EQU FALSE ; PPIDE 0A (MASTER): 8 BIT XFER
PPIDE0B8BIT .EQU FALSE ; PPIDE 0B (SLAVE): 8 BIT XFER
;
SDENABLE .EQU FALSE ; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)
SDMODE .EQU SDMODE_PPI ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|USR]
SDMODE .EQU SDMODE_PPI ; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|PIO|Z80R|USR]
SDPPIBASE .EQU $60 ; SD: BASE I/O ADDRESS OF PPI FOR PPI MODDE
SDCNT .EQU 1 ; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD/SC/MT ONLY
SDTRACE .EQU 1 ; SD: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
@@ -184,6 +188,12 @@ PIOENABLE .EQU FALSE ; PIO: ENABLE ZILOG PIO DRIVER (PIO.ASM)
;
LPTENABLE .EQU FALSE ; LPT: ENABLE CENTRONICS PRINTER DRIVER (LPT.ASM)
;
PPAENABLE .EQU FALSE ; PPA: ENABLE PPA DISK DRIVER (PPA.ASM)
;
IMMENABLE .EQU FALSE ; IMM: ENABLE IMM DISK DRIVER (IMM.ASM)
;
SYQENABLE .EQU FALSE ; SYQ: ENABLE IMM DISK DRIVER (SYQ.ASM)
;
PIO_4P .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB 4P BOARD
PIO_ZP .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB ZILOG PERIPHERALS BOARD (PIO.ASM)
PIO_SBC .EQU FALSE ; PIO: ENABLE PARALLEL PORT DRIVER FOR 8255 CHIP

67
Source/HBIOS/ctc.asm
View File

@@ -9,7 +9,7 @@ CTC_DEFCFG .EQU %01010011 ; CTC DEFAULT CONFIG
CTC_CTRCFG .EQU %01010111 ; CTC COUNTER MODE CONFIG
CTC_TIM16CFG .EQU %00010111 ; CTC TIMER/16 MODE CONFIG
CTC_TIM256CFG .EQU %00110111 ; CTC TIMER/256 MODE CONFIG
CTC_TIMCFG .EQU %11010111 ; CTC TIMER CHANNEL CONFIG
;CTC_TIMCFG .EQU %11010111 ; CTC TIMER CHANNEL CONFIG
; |||||||+-- CONTROL WORD FLAG
; ||||||+--- SOFTWARE RESET
; |||||+---- TIME CONSTANT FOLLOWS
@@ -147,18 +147,16 @@ CTCTIVT .EQU INT_CTC0A + CTCTIMCH
;==================================================================================================
;
CTC_PREINIT:
; BLINDLY RESET THE CTC ASSUMING IT IS THERE
LD A,CTC_DEFCFG
OUT (CTCBASE),A
OUT (CTCBASE+1),A
OUT (CTCBASE+2),A
OUT (CTCBASE+3),A
;
CALL CTC_DETECT ; DO WE HAVE ONE?
LD (CTC_EXIST),A ; SAVE IT
RET NZ ; ABORT IF NONE
;
; RESET ALL CTC CHANNELS
LD B,4 ; 4 CHANNELS
LD C,CTCBASE ; FIRST CHANNEL PORT
CTC_PREINIT1:
LD A,CTC_DEFCFG ; CTC DEFAULT CONFIG
OUT (C),A ; CTC COMMAND
INC C ; NEXT CHANNEL PORT
DJNZ CTC_PREINIT1
;
#IF (CTCTIMER & (INTMODE == 2))
; SETUP TIMER INTERRUPT IVT SLOT
@@ -177,12 +175,12 @@ CTC_PREINIT1:
; CTC CHANNEL AS A PRESCALER AND ANOTHER AS THE ACTUAL
; TIMER INTERRUPT. THE PRESCALE CHANNEL OUTPUT MUST BE WIRED
; TO THE TIMER CHANNEL TRIGGER INPUT VIA HARDWARE.
LD A,CTC_PRECFG ; PRESCALE CHANNEL CONFIGURATION
LD A,CTC_PRECFG ; PRESCALE TIMER CHANNEL CFG
OUT (CTC_PREIO),A ; SETUP PRESCALE CHANNEL
LD A,CTC_DIVHI & $FF ; PRESCALE CHANNEL CONSTANT
OUT (CTC_PREIO),A ; SET PRESCALE CONSTANT
;
LD A,CTC_TIMCFG ; TIMER CHANNEL CONTROL WORD VALUE
LD A,CTC_CTRCFG | $80 ; TIMER CHANNEL + INT CFG
OUT (CTC_SCLIO),A ; SETUP TIMER CHANNEL
LD A,CTC_DIVLO & $FF ; TIMER CHANNEL CONSTANT
OUT (CTC_SCLIO),A ; SET TIMER CONSTANT
@@ -258,32 +256,33 @@ CTC_PRTCFG1:
RET
;
;==================================================================================================
; DETECT CTC BY CHECKING REGISTER CAN BE WRITTEN AND READ, AND THEN BY SETTING UP ONE CHANNEL IN
; TIMER MODE AND CHECKING IT IS COUNTING DOWN.
; DETECT CTC BY PROGRAMMING THE FIRST CHANNEL TO COUNT IN TIMER
; MODE (BASED ON CPU CLOCK). THEN CHECK IF COUNTER IS ACTUALLY
; RUNNING.
;==================================================================================================
;
CTC_DETECT:
LD A,CTC_TIM256CFG
OUT (CTCBASE),A
XOR A
OUT (CTCBASE),A
; CTC SHOULD NOW BE RUNNING WITH TIME CONSTANT 0
LD A,CTC_TIM256CFG ; RESET
OUT (CTCBASE),A
IN A,(CTCBASE) ; SHOULD READ 0 NOW
CP 0
JR NZ,CTC_NO
LD A,CTC_TIM16CFG ; RESET & SETUP TIMER MODE
OUT (CTCBASE),A ; SEND TO CTC
LD A,$FF ; TIME CONSTANT $FF
OUT (CTCBASE),A
IN A,(CTCBASE) ; SHOULD NOT BE 0 NOW
CP 0
JR Z,CTC_NO
XOR A
RET
OUT (CTCBASE),A ; SEND CONSTANT & START CTR
NOP ; BRIEF DELAY
IN A,(CTCBASE) ; READ COUNTER
LD C,A ; SAVE VALUE
CALL DLY8 ; WAIT A BIT
IN A,(CTCBASE) ; READ COUNTER AGAIN
PUSH AF ; SAVE RESULT
LD A,CTC_DEFCFG ; DEFAULT CHANNEL CFG
OUT (CTCBASE),A ; RESTORE TO DEFAULTS
POP AF ; GET RESULT BACK
CP C ; COMPARE TO PREVIOUS
JR Z,CTC_NO ; IF SAME, FAIL
XOR A ; SIGNAL SUCCESS
RET ; AND DONE
CTC_NO:
OR $FF
RET
OR $FF ; SIGNAL FAILURE
RET ; AND DONE
;
; CTC DRIVER DATA STORAGE
;
;
CTC_EXIST .DB $FF
CTC_EXIST .DB $FF ; SET TO ZERO IF EXISTS

1
Source/HBIOS/cvdu.asm
View File

@@ -902,5 +902,6 @@ CVDU_INIT8563:
;==================================================================================================
;
CVDU_IDAT:
.DB KBDMODE_PS2 ; PS/2 8242 KEYBOARD CONTROLLER
.DB CVDU_KBDST
.DB CVDU_KBDDATA

3
Source/HBIOS/dbgmon.asm
View File

@@ -878,6 +878,8 @@ GETLNLOP:
JR Z,GETLNDONE ; YES, EXIT
CP CHR_BS ; IS <BS>?
JR Z,GETLNBS ; IF SO, HANDLE IT
CP CHR_DEL ; IS <DEL>?
JR Z,GETLNBS ; IF SO, HANDLE AS <BS>
CP ' ' ; UNEXPECTED CONTROL CHAR?
JR C,GETLNLOP ; IF SO, IGNORE IT AND GET NEXT
LD B,A ; SAVE CHAR IN B FOR NOW
@@ -1854,6 +1856,7 @@ CHR_CR .EQU 0DH
CHR_LF .EQU 0AH
CHR_BS .EQU 08H
CHR_ESC .EQU 1BH
CHR_DEL .EQU 7FH
;
;__________________________________________________________________________________________________
;

168
Source/HBIOS/fd.asm
View File

@@ -109,7 +109,7 @@ FRC_TOSEEKWT .EQU -15H ; EB
; FD DEVICE CONFIGURATION
;
FD_DEVCNT .EQU FDCNT ; 2 DEVICES SUPPORTED
FD_CFGSIZ .EQU 8 ; SIZE OF CFG TBL ENTRIES
FD_CFGSIZ .EQU 9 ; SIZE OF CFG TBL ENTRIES
;
; PER DEVICE DATA OFFSETS
; ; OFFSET OF...
@@ -121,25 +121,28 @@ FD_HST .EQU 4 ; HOSTS SEEK POSITION
FD_HSTTRK .EQU FD_HST + 0 ; HOST TRACK (WORD)
FD_HSTSEC .EQU FD_HST + 2 ; HOST SECTOR (BYTE)
FD_HSTHD .EQU FD_HST + 3 ; HOST HEAD (BYTE)
FD_TYPE .EQU 8 ; FLOPPY DSIK TYPE (BYTE)
;
FD_CFGTBL:
; DEVICE 0, PRIMARY MASTER
.DB 0 ; DEVICE NUMBER
.DB 0 ; DEVICE STATUS
.DB FDMEDIA ; MEDIA TYPE
.DB $FF ; CURRENT MEDIA TYPE (INIT TO NONE)
.DB $FF ; CURRENT TRACK
.DW 0 ; HOST TRACK
.DB 0 ; HOST SECTOR
.DB 0 ; HOST HEAD
.DB FD0TYPE ; DRIVE TYPE
#IF (FD_DEVCNT >= 2)
; DEVICE 1, PRIMARY SLAVE
.DB 1 ; DRIVER DEVICE NUMBER
.DB 0 ; DEVICE STATUS
.DB FDMEDIA ; MEDIA TYPE
.DB $FF ; CURRENT MEDIA TYPE (INIT TO NONE)
.DB $FF ; CURRENT TRACK
.DW 0 ; HOST TRACK
.DB 0 ; HOST SECTOR
.DB 0 ; HOST HEAD
.DB FD1TYPE ; DRIVE TYPE
#ENDIF
;
#IF ($ - FD_CFGTBL) != (FD_DEVCNT * FD_CFGSIZ)
@@ -199,6 +202,42 @@ FSST_ENTSIZ .EQU $ - FSST
FSST_COUNT .EQU (($ - FSST) / FSST_ENTSIZ) ; # ENTRIES IN TABLE
#ENDIF
;
; FDC DRIVE TYPE MEDIA OPTIONS
;
; THIS TABLE LISTS THE TYPES OF MEDIA THAT SHOULD BE ATTEMPTED
; FOR EACH POSSIBLE DRIVE TYPE. THE ENTRIES MATCH THE ORDER OF THE
; FDT_ VALUES DEFINED IN STD.ASM
;
FD_MEDIAMAP:
.DW FDMM_NONE ; NO DRIVE TYPE
.DW FDMM_3DD
.DW FDMM_3HD
.DW FDMM_5DD
.DW FDMM_5HD
.DW FDMM_8
;
FDMM_NONE .DB $FF
FDMM_3DD .DB FDM720, $FF
FDMM_3HD .DB FDM144, FDM720, $FF
FDMM_5DD .DB FDM360, $FF
FDMM_5HD .DB FDM120, FDM360, $FF
FDMM_8 .DB FDM111, $FF
;
; FDC DRIVE TYPE ATTRIBUTES
;
; LOOKUP TABLE TO MAP THE DEVICE ATTRIBUTES BYTE RETURNED
; BY THE FD_DEVICE FUNCTION BASED ON THE DRIVE TYPE.
; THE ENTRIES MATCH THE ORDER OF THE
; FDT_ VALUES DEFINED IN STD.ASM
;
FD_DEVATTR:
.DB %11100000 ; DRIVE TYPE NONE
.DB %11010100 ; DRIVE TYPE 3.5 DD
.DB %11011000 ; DRIVE TYPE 3.5 HD
.DB %10110100 ; DRIVE TYPE 5.25 DD
.DB %10111000 ; DRIVE TYPE 5.25 HD
.DB %10010100 ; DRIVE TYPE 8
;
; FDC COMMANDS
;
CFD_READ .EQU 00000110B ; CMD,HDS/DS,C,H,R,N,EOT,GPL,DTL --> ST0,ST1,ST2,C,H,R,N
@@ -498,21 +537,11 @@ FD_DEFMED:
FD_DEVICE:
LD D,DIODEV_FD ; D := DEVICE TYPE
LD E,(IY+FD_DEV) ; E := PHYSICAL DEVICE NUMBER
#IF (FDMEDIA == FDM720)
LD C,%11010100 ; 3.5" DS/DD
#ENDIF
#IF (FDMEDIA == FDM144)
LD C,%11011000 ; 3.5" DS/HD
#ENDIF
#IF (FDMEDIA == FDM360)
LD C,%10110100 ; 5.25" DS/DD
#ENDIF
#IF (FDMEDIA == FDM120)
LD C,%10111000 ; 5.25" DS/HD
#ENDIF
#IF (FDMEDIA == FDM111)
LD C,%10010100 ; 8" DS/DD
#ENDIF
LD A,(IY+FD_TYPE) ; DRIVE TYPE
LD HL,FD_DEVATTR ; DEVICE ATTR TABLE
CALL ADDHLA ; POINT TO ENTRY
LD C,(HL) ; GET IT
LD H,FDMODE ; H := MODE
LD L,FDC_MSR ; L := BASE I/O ADDRESS
XOR A ; SIGNAL SUCCESS
@@ -527,9 +556,7 @@ FD_MEDIA:
#IF (FDMAUTO)
; SETUP TO READ TRK 0, HD 0, SEC 0
;LD A,C ; C STILL HAS REQUESTED DRIVE
LD A,(IY+FD_DEV) ; GET DRIVE UNIT
;AND 0FH
LD (FCD_DS),A
LD A,0
LD (FCD_C),A
@@ -538,53 +565,77 @@ FD_MEDIA:
LD (FCD_R),A
LD A,DOP_READID
LD (FCD_DOP),A
#ENDIF
#IF (FDTRACE < 3)
LD A,(IY+FD_TYPE) ; GET DRIVE TYPE VALUE
;CALL PRTHEXBYTE ; *DEBUG*
LD HL,FD_MEDIAMAP ; POINT TO MEDIA MAP TABLE
ADD A,A ; TABLE IS WORD SIZED
CALL ADDHLA ; LOOKUP ENTRY
LD A,(HL) ; DEREFERENCE
INC HL
LD H,(HL)
LD L,A
#IF (FDMAUTO)
#IF (FDTRACE < 3)
; SUPPRESS TRACING FOR MEDIA TESTS
LD A,0
LD (FCD_TRACE),A
#ENDIF
LD B,5
#ENDIF
LD B,5 ; 5 ATTEMPTS
FD_MEDIARETRY:
; TRY PRIMARY MEDIA CHOICE FIRST
LD A,FDMEDIA
CALL FD_TESTMEDIA
JR Z,FD_MEDIA3 ; IF SUCCESS, WE ARE DONE
; TRY ALTERNATE MEDIA CHOICE
LD A,FDMEDIAALT
CALL FD_TESTMEDIA
JR Z,FD_MEDIA3 ; IF SUCCESS, WE ARE DONE
DJNZ FD_MEDIARETRY
PUSH HL ; SAVE MEDIA MAP PTR
CALL FD_MEDIALOOP ; TRY IT
POP HL ; RECOVER MEDIA MAP PTR
JR Z,FD_MEDIA3 ; CONTINUE ON SUCCESS
DJNZ FD_MEDIARETRY ; LOOP TILL DONE
FD_MEDIARETRY1:
; NO JOY, RETURN WITH E=0 (NO MEDIA)
;LD HL,(FDDS_MEDIAADR)
;LD (HL),0 ; SET TO NO MEDIA
LD (IY+FD_MEDTYP),0 ; SET DRIVE = NO MEDIA
LD E,0
LD (IY+FD_MEDTYP),$FF ; SET MEDIA TYPE TO UNDEFINED
LD E,0 ; NO MEDIA FLAG
LD A,ERR_NOMEDIA ; SIGNAL ERROR
OR A ; SET FLAGS
RET
FD_MEDIALOOP:
LD A,(HL) ; LOAD NEXT MEDIA TYPE TO TRY
CP $FF ; END OF MEDIA TYPES TO TRY?
JR Z,FD_MEDIALOOP1 ; NO MORE TO TRY, LOOP EXIT
CALL FD_TESTMEDIA ; TRY IT
RET Z ; RETURN ON SUCCESS
INC HL ; NEXT MEDIA TYPE TO TRY
JR FD_MEDIALOOP ; LOOP
FD_MEDIALOOP1:
OR $FF ; SIGNAL FAILURE
RET ; RETURN
FD_TESTMEDIA:
;LD HL,(FDDS_MEDIAADR)
;LD (HL),A
;CALL PRTHEXBYTE ; *DEBUG*
LD (IY+FD_MEDTYP),A
PUSH HL
PUSH BC
CALL FD_START
POP BC
POP HL
;CALL PRTHEXBYTE ; *DEBUG*
RET
FD_MEDIA3:
#IF (FDTRACE < 3)
#IF (FDTRACE < 3)
; RESTORE TRACING FOR MEDIA TESTS
LD A,FDTRACE
LD (FCD_TRACE),A
#ENDIF
#ENDIF
#ELSE
LD A,(HL)
LD (IY+FD_MEDTYP),A
#ENDIF
FD_MEDIA4:
@@ -778,7 +829,7 @@ FD_DETECT1:
;
FD_INITUNIT:
LD (IY+FD_STAT),0 ; CLEAR STATUS
LD (IY+FD_MEDTYP),FDMEDIA ; SET DEFAULT MEDIA TYPE
LD (IY+FD_MEDTYP),$FF ; SET UNKNOWN MEDIA TYPE
LD (IY+FD_CURTRK),$FE ; SPECIAL VALUE FOR CURTRK
RET
;
@@ -1285,7 +1336,8 @@ FC_SETUPIO:
LD (DE),A
INC DE
LD A,(FCD_EOT)
;LD A,(FCD_EOT)
LD A,(FCD_R) ; READ ONLY ONE SECTOR
LD (DE),A
INC DE
@@ -1397,15 +1449,17 @@ FC_RESETFDC:
; PULSE TERMCT TO TERMINATE ANY ACTIVE EXECUTION PHASE
;
FC_PULSETC:
#IF ((FDMODE == FDMODE_DIDE) | (FDMODE == FDMODE_N8) | (FDMODE == FDMODE_ZETA2) | (FDMODE == FDMODE_RCWDC) | (FDMODE == FDMODE_DYNO) | (FDMODE == FDMODE_EPFDC) | (FDMODE == FDMODE_MBC))
IN A,(FDC_TC)
#ELSE
LD A,(FST_DOR)
SET 0,A
OUT (FDC_DOR),A
RES 0,A
OUT (FDC_DOR),A
#ENDIF
; PULSING TC NO LONGER REQUIRED BECAUSE WE ONLY READ A SINGLE SECTOR
;
;#IF ((FDMODE == FDMODE_DIDE) | (FDMODE == FDMODE_N8) | (FDMODE == FDMODE_ZETA2) | (FDMODE == FDMODE_RCWDC) | (FDMODE == FDMODE_DYNO) | (FDMODE == FDMODE_EPFDC) | (FDMODE == FDMODE_MBC))
; IN A,(FDC_TC)
;#ELSE
; LD A,(FST_DOR)
; SET 0,A
; OUT (FDC_DOR),A
; RES 0,A
; OUT (FDC_DOR),A
;#ENDIF
RET
;
; SET FST_DOR FOR MOTOR CONTROL ON
@@ -1694,7 +1748,7 @@ FXR_TO: ; TIMEOUT
;
FXR_ABORT: ; EXECUTION ABORTED
HB_EI ; INTERRUPTS OK AGAIN
JR FOP_RES ; GET RSEULTS, NO NEED TO PULSE TC
JR FOP_RES ; GET RESULTS, NO NEED TO PULSE TC
;
FXR_END: ; EXECUTION COMPLETED NORMALLY
CALL FC_PULSETC ; PULSE TC TO END EXECUTION
@@ -1828,7 +1882,9 @@ FOP_EVALST1:
LD C,FRC_ENDCYL
BIT 7,A
JR NZ,FOP_SETFST
; THI IS NORMAL BECAUSE WE NOW READ ONLY A SINGLE SECTOR
;JR NZ,FOP_SETFST
JR NZ,FOP_EXIT
LD C,FRC_DATAERR
BIT 5,A

1
Source/HBIOS/gdc.asm
View File

@@ -325,5 +325,6 @@ GDC_POS .DW 0 ; CURRENT DISPLAY POSITION
;==================================================================================================
;
GDC_IDAT:
.DB KBDMODE_PS2 ; PS/2 8242 KEYBOARD CONTROLLER
.DB GDC_KBDST
.DB GDC_KBDDATA

940
Source/HBIOS/hbios.asm
View File

File diff suppressed because it is too large Load Diff

17
Source/HBIOS/hbios.inc
View File

@@ -109,11 +109,13 @@ BF_SYSGET_CPUINFO .EQU $F0 ; GET CPU INFORMATION
BF_SYSGET_MEMINFO .EQU $F1 ; GET MEMORY CAPACTITY INFO
BF_SYSGET_BNKINFO .EQU $F2 ; GET BANK ASSIGNMENT INFO
BF_SYSGET_CPUSPD .EQU $F3 ; GET CLOCK SPEED & WAIT STATES
BF_SYSGET_PANEL .EQU $F4 ; GET FRONT PANEL SWITCHES VAL
;
BF_SYSSET_TIMER .EQU $D0 ; SET TIMER VALUE
BF_SYSSET_SECS .EQU $D1 ; SET SECONDS VALUE
BF_SYSSET_BOOTINFO .EQU $E0 ; SET BOOT INFORMATION
BF_SYSSET_CPUSPD .EQU $F3 ; SET CLOCK SPEED & WAIT STATES
BF_SYSSET_PANEL .EQU $F4 ; SET FRONT PANEL LEDS
;
BF_SYSINT_INFO .EQU $00 ; GET INTERRUPT SYSTEM INFO
BF_SYSINT_GET .EQU $10 ; GET INT VECTOR ADDRESS
@@ -137,6 +139,7 @@ PLT_DYNO .EQU 11 ; DYNO MICRO-ATX MOTHERBOARD
PLT_RCZ280 .EQU 12 ; RCBUS W/ Z280
PLT_MBC .EQU 13 ; MULTI BOARD COMPUTER
PLT_RPH .EQU 14 ; RHYOPHYRE GRAPHICS COMPUTER
PLT_Z80RETRO .EQU 15 ; Z80 RETRO COMPUTER
;
; HBIOS GLOBAL ERROR RETURN VALUES
;
@@ -261,6 +264,15 @@ DIAG_08 .EQU 11111111B ; ON
DIAG_09 .EQU 11111111B ; ON
#ENDIF
;
; FRONT PANEL SWITCHES
;
SW_CRT .EQU %10000000 ; CRT/SER CONSOLE
SW_SEC .EQU %01000000 ; SEC/PRI CONSOLE
SW_AUTO .EQU %00100000 ; AUTO/MENU BOOT
SW_DISK .EQU %00010000 ; DISK/ROM
SW_FLOP .EQU %00001000 ; FLOP/HD
SW_OPT .EQU %00000111 ; SLICE/ROM APP
;
; MEDIA ID VALUES
;
MID_NONE .EQU 0
@@ -309,6 +321,9 @@ DIODEV_SD .EQU $60
DIODEV_PRPSD .EQU $70
DIODEV_PPPSD .EQU $80
DIODEV_HDSK .EQU $90
DIODEV_PPA .EQU $A0
DIODEV_IMM .EQU $B0
DIODEV_SYQ .EQU $C0
;
; RTC DEVICE IDS
;
@@ -326,7 +341,7 @@ VDADEV_CVDU .EQU $10 ; ECB COLOR VDU - MOS 8563
VDADEV_GDC .EQU $20 ; GRAPHICS DISPLAY CTLR - UPD7220
VDADEV_TMS .EQU $30 ; N8 ONBOARD VDA SUBSYSTEM - TMS 9918
VDADEV_VGA .EQU $40 ; ECB VGA3 - HITACHI HD6445
;VDADEV_V9958 .EQU $50 ; V9958 VDU
VDADEV_VRC .EQU $50 ; VGARC
;
; SOUND DEVICE IDS
;

1241
Source/HBIOS/ide.asm
View File

File diff suppressed because it is too large Load Diff

1543
Source/HBIOS/imm.asm Normal file
View File

File diff suppressed because it is too large Load Diff

52
Source/HBIOS/kbd.asm
View File

@@ -14,9 +14,10 @@
;
; DRIVER DATA OFFSETS (FROM IY)
;
KBD_ST .EQU 0 ; BYTE, STATUS PORT NUM (R)
KBD_MODE .EQU 0 ; BYTE, KEYBOARD MODE (STD OR VRC)
KBD_ST .EQU 1 ; BYTE, STATUS PORT NUM (R)
KBD_CMD .EQU KBD_ST ; BYTE, CMD PORT NUM (W)
KBD_DAT .EQU 1 ; BYTE, DATA PORT NUM (R/W)
KBD_DAT .EQU 2 ; BYTE, DATA PORT NUM (R/W)
;
; TIMING CONSTANTS
;
@@ -69,17 +70,33 @@ KBD_INIT:
LD (KBD_REPEAT),A ; SAVE IT
LD A,KBD_DEFSTATE ; GET DEFAULT STATE
LD (KBD_STATE),A ; SAVE IT
;
LD A,(IY+KBD_MODE) ; GET KBD MODE BYTE
CP KBDMODE_VRC ; VRC?
JR Z,KBD_INIT1 ; IF SO, MUST ASSUME PRESENT
;
LD A,$AA ; CONTROLLER SELF TEST
CALL KBD_PUTCMD ; SEND IT
CALL KBD_GETDATA ; CONTROLLER SHOULD RESPOND WITH $55 (ACK)
;
CP $55 ; IS IT THERE?
JR Z,KBD_INIT1 ; IF SO, CONTINUE
PRTS(" NOT PRESENT$") ; DIAGNOSE PROBLEM
RET ; BAIL OUT
;
KBD_INIT1:
PRTS(" MODE=$") ; TAG
LD A,(IY+KBD_MODE) ; GET MODE VALUE
LD DE,KBD_STR_MODEPS2
CP KBDMODE_PS2
JR Z,KBD_INIT2
LD DE,KBD_STR_MODEVRC
CP KBDMODE_VRC
JR Z,KBD_INIT2
LD DE,KBD_STR_MODEUNK
KBD_INIT2:
CALL WRITESTR
;
LD A,$60 ; SET COMMAND REGISTER
CALL KBD_PUTCMD ; SEND IT
; LD A,$60 ; XLAT ENABLED, MOUSE DISABLED, NO INTS
@@ -88,11 +105,6 @@ KBD_INIT1:
CALL KBD_GETDATA ; GOBBLE UP $AA FROM POWER UP, AS NEEDED
; LD A,$AE ; COMMAND = ENABLE KEYBOARD
; CALL KBD_PUTCMD ; SEND IT
; LD A,$A7 ; COMMAND = DISABLE MOUSE
; CALL KBD_PUTCMD ; SEND IT
CALL KBD_RESET ; RESET THE KEYBOARD
CALL KBD_SETLEDS ; UPDATE LEDS BASED ON CURRENT TOGGLE STATE BITS
CALL KBD_SETRPT ; UPDATE REPEAT RATE BASED ON CURRENT SETTING
@@ -177,6 +189,9 @@ KBD_PUTCMD:
; PUT A CMD BYTE FROM A TO THE KEYBOARD INTERFACE WITH TIMEOUT
;
LD E,A ; SAVE INCOMING VALUE IN E
LD A,(IY+KBD_MODE) ; GET MODE BYTE
CP KBDMODE_VRC ; VGARC KEYBOARD?
JR Z,KBD_PUTCMD2 ; BAIL OUT
LD B,KBD_WAITTO ; SETUP TO LOOP
KBD_PUTCMD0:
CALL KBD_OST ; GET OUTPUT REGISTER STATUS
@@ -194,6 +209,7 @@ KBD_PUTCMD1:
#ENDIF
LD C,(IY+KBD_CMD) ; COMMAND PORT
OUT (C),A ; WRITE IT
KBD_PUTCMD2:
XOR A ; SIGNAL SUCCESS
RET
;
@@ -203,6 +219,9 @@ KBD_PUTDATA:
; PUT A DATA BYTE FROM A TO THE KEYBOARD INTERFACE WITH TIMEOUT
;
LD E,A ; SAVE INCOMING VALUE IN E
LD A,(IY+KBD_MODE) ; GET MODE BYTE
CP KBDMODE_VRC ; VGARC KEYBOARD?
JR Z,KBD_PUTDATA2 ; BAIL OUT
LD B,KBD_WAITTO ; SETUP TO LOOP
KBD_PUTDATA0:
CALL KBD_OST ; GET OUTPUT REGISTER STATUS
@@ -219,6 +238,7 @@ KBD_PUTDATA1:
#ENDIF
LD C,(IY+KBD_DAT) ; DATA PORT
OUT (C),A ; WRITE IT
KBD_PUTDATA2:
XOR A ; SIGNAL SUCCESS
RET
;
@@ -681,11 +701,21 @@ KBD_DECNEW: ; START NEW KEYPRESS (CLEAR ALL STATUS BITS)
LD (KBD_STATUS),A ; CLEAR STATUS
JP KBD_DEC1 ; RESTART THE ENGINE
;
; DRIVER DATA
;
KBD_STR_MODEPS2 .TEXT "PS2$"
KBD_STR_MODEVRC .TEXT "VRC$"
KBD_STR_MODEUNK .TEXT "???$"
;
;
;
#IF (KBDKBLOUT == KBD_US)
;
;__________________________________________________________________________________________________
;
; MAPPING TABLES US/ENGLISH
;__________________________________________________________________________________________________
;
KBD_MAPSTD: ; SCANCODE IS INDEX INTO TABLE TO RESULTANT LOOKUP KEYCODE
.DB $FF,$E8,$FF,$E4,$E2,$E0,$E1,$EB,$FF,$E9,$E7,$E5,$E3,$09,'`',$FF
.DB $FF,$B4,$B0,$FF,$B2,'q','1',$FF,$FF,$FF,'z','s','a','w','2',$FF
@@ -722,7 +752,9 @@ KBD_MAPNUMPAD: ; KEYCODE TRANSLATION FROM NUMPAD RANGE TO STD ASCII/KEYCODES
.DB $F3,$F7,$F5,$F8,$FF,$F9,$F2,$F6,$F4,$F0,$F1,$2F,$2A,$2D,$2B,$0D
.DB $31,$32,$33,$34,$35,$36,$37,$38,$39,$30,$2E,$2F,$2A,$2D,$2B,$0D
#ENDIF
;
#IF (KBDKBLOUT == KBD_DE)
;
;__________________________________________________________________________________________________
;
; MAPPING TABLES GERMAN

182
Source/HBIOS/lpt.asm
View File

@@ -3,13 +3,17 @@
; CENTRONICS (LPT) INTERFACE DRIVER
;==================================================================================================
;
; CENTRONICS-STYLE PARALLEL PRINTER DRIVER. ASSUMES IBM STYLE
; HARDWARE INTERFACE AS DESCRIBED BELOW.
; CENTRONICS-STYLE PARALLEL PRINTER DRIVER.
;
; IMPLEMENTED AS A ROMWBW CHARACTER DEVICE. CURRENTLY HANDLES OUPUT
; ONLY.
;
; PORT 0 (INPUT/OUTPUT):
;==================================================================================================
;
; IBM PC STANDARD PARALLEL PORT (SPP):
; - NHYODYNE PRINT MODULE
;
; PORT 0 (OUTPUT):
;
; D7 D6 D5 D4 D3 D2 D1 D0
; +-------+-------+-------+-------+-------+-------+-------+-------+
@@ -20,26 +24,51 @@
;
; D7 D6 D5 D4 D3 D2 D1 D0
; +-------+-------+-------+-------+-------+-------+-------+-------+
; | BUSY | ACK | POUT | SEL | ERR | 0 | 0 | 0 |
; | /BUSY | /ACK | POUT | SEL | /ERR | 0 | 0 | 0 |
; +-------+-------+-------+-------+-------+-------+-------+-------+
;
; PORT 2 (INPUT/OUTPUT):
; PORT 2 (OUTPUT):
;
; D7 D6 D5 D4 D3 D2 D1 D0
; +-------+-------+-------+-------+-------+-------+-------+-------+
; | STAT1 | STAT0 | ENBL | PINT | SEL | RES | LF | STB |
; +-------+-------+-------+-------+-------+-------+-------+-------+
;
LPT_NONE .EQU 0 ; NOT PRESENT
LPT_IBM .EQU 1 ; IBM PC STYLE INTERFACE
;==================================================================================================
;
; MG014 STYLE INTERFACE:
; - RCBUS MG014 MODULE
;
; PORT 0 (OUTPUT):
;
; D7 D6 D5 D4 D3 D2 D1 D0
; +-------+-------+-------+-------+-------+-------+-------+-------+
; | PD7 | PD6 | PD5 | PD4 | PD3 | PD2 | PD1 | PD0 |
; +-------+-------+-------+-------+-------+-------+-------+-------+
;
; PORT 1 (INPUT):
;
; D7 D6 D5 D4 D3 D2 D1 D0
; +-------+-------+-------+-------+-------+-------+-------+-------+
; | | | | /ERR | SEL | POUT | BUSY | /ACK |
; +-------+-------+-------+-------+-------+-------+-------+-------+
;
; PORT 2 (OUTPUT):
;
; D7 D6 D5 D4 D3 D2 D1 D0
; +-------+-------+-------+-------+-------+-------+-------+-------+
; | LED | | | | /SEL | /RES | /LF | /STB |
; +-------+-------+-------+-------+-------+-------+-------+-------+
;
;==================================================================================================
;
; PRE-CONSOLE INITIALIZATION - DETECT AND INIT HARDWARE
;
LPT_PREINIT:
;
; SETUP THE DISPATCH TABLE ENTRIES
; NOTE: INTS WILL BE DISABLED WHEN PREINIT IS CALLED AND THEY MUST REMIAIN
; DISABLED.
; NOTE: INTS WILL BE DISABLED WHEN PREINIT IS CALLED AND THEY MUST
; REMAIN DISABLED.
;
LD B,LPT_CFGCNT ; LOOP CONTROL
XOR A ; ZERO TO ACCUM
@@ -136,18 +165,26 @@ LPT_IN:
LPT_OUT:
CALL LPT_OST ; READY TO SEND?
JR Z,LPT_OUT ; LOOP IF NOT
LD A,(IY+3)
LD C,A ; PORT 0 (DATA)
OUT (C),E ; OUTPUT DATA TO PORT
CALL DELAY ; IGNORE ANYTHING BACK AFTER A RESET
LD A,%00001101 ; SELECT & STROBE, LEDS OFF
INC C ; PUT CONTROL PORT IN C
INC C
OUT (C),A ; OUTPUT DATA TO PORT
CALL DELAY ; IGNORE ANYTHING BACK AFTER A RESET
LD A,%00001100 ; SELECT, LEDS OFF
OUT (C),A ; OUTPUT DATA TO PORT
LD C,(IY+3) ; PORT 0 (DATA)
OUT (C),E ; OUTPUT DATA TO PORT
#IF (LPTMODE == LPTMODE_SPP)
LD A,%00001101 ; SELECT & STROBE, LEDS OFF
#ENDIF
#IF (LPTMODE == LPTMODE_MG014)
LD A,%00000100 ; SELECT & STROBE, LED OFF
#ENDIF
INC C ; PUT CONTROL PORT IN C
INC C
OUT (C),A ; OUTPUT DATA TO PORT
CALL DELAY
#IF (LPTMODE == LPTMODE_SPP)
LD A,%00001100 ; SELECT, LEDS OFF
#ENDIF
#IF (LPTMODE == LPTMODE_MG014)
LD A,%00000101 ; SELECT, LED OFF
#ENDIF
OUT (C),A ; OUTPUT DATA TO PORT
CALL DELAY
XOR A ; SIGNAL SUCCESS
RET
;
@@ -161,11 +198,16 @@ LPT_IST:
; OUTPUT STATUS
;
LPT_OST:
LD A,(IY+3)
LD C,A ; PORT 0 (DATA)
INC C ; SELECT STATUS PORT
IN A,(C) ; GET STATUS INFO
AND %10000000 ; ONLY INTERESTED IN BUSY FLAG
LD C,(IY+3) ; BASE PORT
INC C ; SELECT STATUS PORT
IN A,(C) ; GET STATUS INFO
#IF (LPTMODE == LPTMODE_SPP)
AND %10000000 ; ISOLATE /BUSY
#ENDIF
#IF (LPTMODE == LPTMODE_MG014)
AND %00000010 ; ISOLATE BUSY
XOR %00000010 ; INVERT TO READY
#ENDIF
RET ; DONE
;
; INITIALIZE DEVICE
@@ -180,20 +222,40 @@ LPT_INITDEV:
; PREINIT ABOVE. PREINIT IS NOT ALLOWED TO ENABLE INTS!
;
LPT_INITDEVX:
LD A,(IY+3)
LD C,A ; PORT 0 (DATA)
;
#IF (LPTMODE == LPTMODE_SPP)
;
LD C,(IY+3) ; PORT 0 (DATA)
XOR A ; CLEAR ACCUM
OUT (C),A ; SEND IT
INC C ; BUMP TO
INC C ; ... PORT 2
LD A,%00001000 ; SELECT AND ASSERT RESET, LEDS OFF
OUT (C),A ; SEND IT
CALL LDELAY ; HALF SECOND DELAY
CALL LDELAY ; HALF SECOND DELAY
LD A,%00001100 ; SELECT AND DEASSERT RESET, LEDS OFF
OUT (C),A ; SEND IT
XOR A ; SIGNAL SUCCESS
RET ; RETURN
;
#ENDIF
;
#IF (LPTMODE == LPTMODE_MG014)
LD A,(IY+3) ; BASE PORT
ADD A,3 ; BUMP TO CONTROL PORT
LD C,A ; MOVE TO C FOR I/O
LD A,$82 ; CONFIG A OUT, B IN, C OUT
OUT (C),A ; DO IT
DEC C ; OUTPUT PORT
LD A,$81 ; STROBE OFF, SELECT ON, RES ON, LED ON
OUT (C),A ; SEND IT
CALL LDELAY ; HALF SECOND DELAY
LD A,$05 ; STROBE OFF, SELECT ON, RES OFF, LED OFF
OUT (C),A ; SEND IT
XOR A ; SIGNAL SUCCESS
RET ; RETURN
#ENDIF
;
;
;
LPT_QUERY:
@@ -215,17 +277,26 @@ LPT_DEVICE:
;
; LPT DETECTION ROUTINE
;
#IF (LPTMODE == LPTMODE_NONE)
;
LPT_DETECT:
LD A,(IY+3) ; BASE PORT ADDRESS
LD C,A ; PUT IN C FOR I/O
LD A,LPTMODE_NONE ; NOTHING TO DETECT
RET
;
#ENDIF
;
#IF (LPTMODE == LPTMODE_SPP)
;
LPT_DETECT:
LD C,(IY+3) ; BASE PORT ADDRESS
CALL LPT_DETECT2 ; CHECK IT
JR Z,LPT_DETECT1 ; FOUND IT, RECORD IT
LD A,LPT_NONE ; NOTHING FOUND
LD A,LPTMODE_NONE ; NOTHING FOUND
RET ; DONE
;
LPT_DETECT1:
; LPT FOUND, RECORD IT
LD A,LPT_IBM ; RETURN CHIP TYPE
LD A,LPTMODE_SPP ; RETURN CHIP TYPE
RET ; DONE
;
LPT_DETECT2:
@@ -253,6 +324,43 @@ LPT_DETECT2:
CP $A5 ; CORRECT?
RET ; RETURN (ZF SET CORRECTLY)
;
#ENDIF
;
#IF (LPTMODE == LPTMODE_MG014)
LPT_DETECT:
;
; TEST FOR PPI EXISTENCE
; WE SETUP THE PPI TO WRITE, THEN WRITE A VALUE OF $A5
; TO PORT A (DATALO), THEN READ IT BACK. IF THE PPI IS THERE
; THEN THE BUS HOLD CIRCUITRY WILL READ BACK THE $A5. SINCE
; WE ARE IN WRITE MODE, AN IDE CONTROLLER WILL NOT BE ABLE TO
; INTERFERE WITH THE VALUE BEING READ.
;
LD A,(IY+3) ; BASE IO ADDRESS
ADD A,3 ; BUMP TO CONTROL PORT
LD C,A ; PUT IN C
LD A,$80 ; SET PORT A TO WRITE
OUT (C),A ; WRITE IT
;
LD C,(IY+3) ; PPI PORT A
LD A,$A5 ; TEST VALUE
OUT (C),A ; PUSH VALUE TO PORT
IN A,(C) ; GET PORT VALUE
#IF (LPTTRACE >= 3)
CALL PC_SPACE
CALL PRTHEXBYTE
#ENDIF
CP $A5 ; CHECK FOR TEST VALUE
JR Z,LPT_DETECT1 ; FOUND IT
LD A,LPTMODE_NONE ; NOT FOUND
RET
;
LPT_DETECT1:
; LPT FOUND, RECORD IT
LD A,LPTMODE_MG014 ; RETURN CHIP TYPE
RET ; DONE
#ENDIF
;
;
;
LPT_PRTCFG:
@@ -266,7 +374,7 @@ LPT_PRTCFG:
CALL PRTHEXBYTE ; PRINT BASE PORT
; PRINT THE LPT TYPE
CALL PC_SPACE ; FORMATTING
PRTS(" MODE=$") ; FORMATTING
LD A,(IY+1) ; GET LPT TYPE BYTE
RLCA ; MAKE IT A WORD OFFSET
LD HL,LPT_TYPE_MAP ; POINT HL TO TYPE MAP TABLE
@@ -290,10 +398,12 @@ LPT_PRTCFG:
;
LPT_TYPE_MAP:
.DW LPT_STR_NONE
.DW LPT_STR_IBM
.DW LPT_STR_SPP
.DW LPT_STR_MG014
;
LPT_STR_NONE .DB "<NOT PRESENT>$"
LPT_STR_IBM .DB "IBM$"
LPT_STR_SPP .DB "SPP$"
LPT_STR_MG014 .DB "MG014$"
;
; WORKING VARIABLES
;

1403
Source/HBIOS/ppa.asm Normal file
View File

File diff suppressed because it is too large Load Diff

1110
Source/HBIOS/ppide.asm
View File

File diff suppressed because it is too large Load Diff

2
Source/HBIOS/ppp.asm
View File

@@ -904,7 +904,7 @@ PPPSD_GETCSD:
CALL PPP_SNDCMD ; SEND COMMAND
RET NZ ; ABORT ON ERROR
LD B,16 ; GET 4 BYTES
LD B,16 ; GET 16 BYTES
LD HL,PPPSD_CSDBUF
PPPSD_GETCSD1:
CALL PPP_GETBYTE

169
Source/HBIOS/romldr.asm
View File

@@ -41,6 +41,7 @@ bel .equ 7 ; ASCII bell
bs .equ 8 ; ASCII backspace
lf .equ 10 ; ASCII linefeed
cr .equ 13 ; ASCII carriage return
del .equ 127 ; ASCII del/rubout
;
cmdbuf .equ $80 ; cmd buf is in second half of page zero
cmdmax .equ 60 ; max cmd len (arbitrary), must be < bufsiz
@@ -179,6 +180,30 @@ start1:
call pstr ; do it
call clrbuf ; zero fill the cmd buffer
;
#if ((BIOS == BIOS_WBW) & FPSW_ENABLE)
;
ld b,BF_SYSGET ; HBIOS SysGet
ld c,BF_SYSGET_PANEL ; ... Panel swiches value
rst 08 ; do it
jr nz,nofp ; no switches, skip over
ld a,l ; put value in A
ld (switches),a ; save it
;
call nl ; formatting
ld hl,str_switches ; tag
call pstr ; display
ld a,(switches) ; get switches value
call prthexbyte ; display
;
ld a,(switches) ; get switches value
and SW_AUTO ; auto boot?
call nz,runfp ; process front panel
;
nofp:
; fall thru
;
#endif
;
#if (BOOT_TIMEOUT != -1)
; Initialize auto command timeout downcounter
or $FF ; auto cmd active value
@@ -211,12 +236,12 @@ prompt:
ld hl,msg_sel ; boot select msg
call DSKY_SHOW ; show on DSKY
#IF (DSKYMODE == DSKYMODE_NG)
#if (DSKYMODE == DSKYMODE_NG)
call DSKY_PUTLED
.db $3f,$3f,$3f,$3f,$00,$00,$00,$00
call DSKY_BEEP
call DSKY_L2ON
#ENDIF
#endif
#endif
;
@@ -365,6 +390,125 @@ runcmd2:
ld (bootslice),a ; save boot slice
jp diskboot ; boot the disk unit/slice
;
#if ((BIOS == BIOS_WBW) & FPSW_ENABLE)
;
;=======================================================================
; Process Front Panel switches
;=======================================================================
;
runfp:
ld a,(switches) ; get switches value
and SW_DISK ; disk boot?
jr nz,fp_diskboot ; handle disk boot
;
fp_romboot:
; Handle FP ROM boot
ld a,(switches) ; get switches value
and SW_OPT ; isolate options bits
ld hl,fpapps ; rom apps cmd char list
call addhla ; point to the right one
ld a,(hl) ; get it
;
; Attempt ROM application launch
ld ix,(ra_tbl_loc) ; point to start of ROM app tbl
ld c,a ; save command in C
fp_romboot1:
ld a,(ix+ra_conkey) ; get match char
and ~$80 ; clear "hidden entry" bit
cp c ; compare
jp z,romload ; if match, load it
ld de,ra_entsiz ; table entry size
add ix,de ; bump IX to next entry
ld a,(ix) ; check for end
or (ix+1) ; ... of table
jr nz,fp_romboot1 ; loop till done
ret ; no match, return
;
fpapps .db "MBFPCZNU"
;
fp_diskboot:
; get count of disk units
ld b,BF_SYSGET ; HBIOS Get function
ld c,BF_SYSGET_DIOCNT ; HBIOS DIO Count sub fn
rst 08 ; call HBIOS
ld a,e ; count to A
ld (diskcnt),a ; save it
or a ; set flags
ret z ; bort if no disk units
ld a,(switches) ; get switches value
and SW_FLOP ; floppy switch bit
jr nz,fp_flopboot ; handle auto flop boot
; fall thru for auto hd boot
;
fp_hdboot:
; Find the first hd with media and boot to that unit using
; the slice specified by the FP switches.
ld a,(diskcnt) ; get disk count
ld b,a ; init loop counter
ld c,0 ; init disk index
fp_hdboot1:
push bc ; save loop control
ld b,BF_DIODEVICE ; HBIOS Disk Device func
rst 08 ; unit in C, do it
pop bc ; restore loop control
ld a,d ; device type to A
cp DIODEV_IDE ; type IDE or greater is HD
jr c,fp_hdboot2 ; if not, continue loop
push bc ; save loop control
ld b,BF_DIOMEDIA ; HBIOS Sense Media
ld e,1 ; perform media discovery
rst 08 ; do it
pop bc ; restore loop control
jr z,fp_hdboot3 ; if has media, go boot it
fp_hdboot2:
inc c ; else next disk
djnz fp_hdboot1 ; loop thru all disks
ret ; nothing works, abort
;
fp_hdboot3:
ld a,c ; disk unit to A
ld (bootunit),a ; save it
ld a,(switches) ; get switches value
and SW_OPT ; isolate slice value
ld (bootslice),a ; save it
jp diskboot ; do it
;
fp_flopboot:
; Find the nth floppy drive and boot to that unit. The
; floppy number is based on the option switches.
ld a,(diskcnt) ; get disk count
ld b,a ; init loop counter
ld c,0 ; init disk index
ld a,(switches) ; get switches value
and SW_OPT ; isolate option bits
ld e,a ; floppy unit down counter
inc e ; pre-increment for ZF check
fp_flopboot1:
push bc ; save loop control
push de ; save floppy down ctr
ld b,BF_DIODEVICE ; HBIOS Disk Device func
rst 08 ; unit in C, do it
ld a,d ; device type to A
pop de ; restore loop control
pop bc ; restore floppy down ctr
cp DIODEV_FD ; type FD?
jr nz,fp_flopboot3 ; if not floppy, skip
dec e ; decrement down ctr
jr z,fp_flopboot2 ; if ctr expired, boot this unit
fp_flopboot3:
inc c ; else next disk
djnz fp_flopboot1 ; loop thru all disks
ret ; nothing works, abort
;
fp_flopboot2:
ld a,c ; disk unit to A
ld (bootunit),a ; save it
xor a ; ; zero accum
ld (bootslice),a ; floppy boot slice is always 0
jp diskboot ; do it
;
#endif
;
;=======================================================================
; Process a DSKY command from key in A
;=======================================================================
@@ -1208,20 +1352,24 @@ diskread:
;
clrled:
#if (BIOS == BIOS_WBW)
#if (DIAGENABLE)
xor a ; zero accum
out (DIAGPORT),a ; clear diag leds
#if (FPLED_ENABLE)
;xor a ; zero accum
;out (FPLED_IO),a ; clear diag leds
ld b,BF_SYSSET ; HBIOS SysGet
ld c,BF_SYSSET_PANEL ; ... Panel swiches value
ld l,$00 ; all LEDs off
rst 08 ; do it
#endif
#if (LEDENABLE)
#if (LEDMODE == LEDMODE_STD)
ld a,$FF ; led is inverted
out (LEDPORT),a ; clear led
ld a,$FF ; led is inverted
out (LEDPORT),a ; clear led
#endif
#if (LEDMODE == LEDMODE_RTC)
; Bits 0 and 1 of the RTC latch are for the LEDs.
ld a,(HB_RTCVAL)
and ~%00000011
out (RTCIO),a ; clear led
out (RTCIO),a ; clear led
ld (HB_RTCVAL),a
#endif
#endif
@@ -1281,6 +1429,8 @@ rdln_nxt:
call cin ; get a character
cp bs ; backspace?
jr z,rdln_bs ; handle it if so
cp del ; del/rubout?
jr z,rdln_bs ; handle as backspace
cp cr ; return?
jr z,rdln_cr ; handle it if so
;
@@ -2165,6 +2315,7 @@ str_upd .db "XModem Flash Updater",0
str_user .db "User App",0
str_egg .db "",0
str_net .db "Network Boot",0
str_switches .db "FP Switches = 0x",0
newcon .db 0
newspeed .db 0
;
@@ -2191,6 +2342,8 @@ ra_tbl_loc .dw 0 ; points to active ra_tbl
bootunit .db 0 ; boot disk unit
bootslice .db 0 ; boot disk slice
loadcnt .db 0 ; num disk sectors to load
switches .db 0 ; front panel switches
diskcnt .db 0 ; disk unit count value
;
;=======================================================================
; Pad remainder of ROM Loader

190
Source/HBIOS/sd.asm
View File

@@ -282,6 +282,35 @@ SD_INVCS .EQU FALSE ; INVERT CS
#ENDIF
;
;
#IF (SDMODE == SDMODE_PIO) ; Z80 PIO
;
; These mappings work for the RCbus Gluino card with an Arduino
; shield attached and are the ones also used in other bitbang setups
; directly attached to a PIO. It also works on a straight digital I/O
; port as the config writes will disappear into oblivion harmlessly
;
; The Gluino mapping (ie Arduino pin mapping equivalent) is thus
; D10 SS, D11 CIPO, D12 COPI, D13 SCL.
;
; For speed reasons MISO/MOSI are mapped to the top and bottom bits.
; RomWBW doesn't yet use this fact but the optimized Fuzix routines do.
;
SD_DEVMAX .EQU 1 ; NUMBER OF PHYSICAL UNITS (SOCKETS)
SD_IOBASE .EQU $69 ; IO BASE ADDRESS FOR SD INTERFACE
SD_OPRREG .EQU SD_IOBASE ; OUTPUT PORT (OUTPUT: CS, CLK, DIN)
SD_OPRDEF .EQU %11111111 ; OUTPUT PORT DEFAULT STATE
SD_INPREG .EQU SD_IOBASE ; INPUT REGISTER
SD_CS0 .EQU %00001000 ; SELECT
SD_CLK .EQU %00010000 ; CLOCK
SD_DI .EQU %00000001 ; DATA IN (CARD <- CPU) MOSI
SD_DO .EQU %10000000 ; DATA OUT (CARD -> CPU) MISO
SD_CINIT .EQU TRUE ; INITIALIZE OUTPUT PORT
SD_DDR .EQU $6B ; DATA DIRECTION REGISTER
SD_DDRVAL .EQU %11100110 ; DATA DIRECTION REGISTER VALUE
SD_INVCS .EQU TRUE ; INVERT CS
#ENDIF
;
;
#IF (SDMODE == SDMODE_USR) ; USER DEFINED HARDWARE CONFIGURATION
;
; THIS MODE IS INTENDED TO ALLOW A USER TO EASILY CONFIGURE A CUSTOM
@@ -304,6 +333,27 @@ SD_DDRVAL .EQU %00001101 ; DATA DIRECTION REGISTER VALUE
SD_INVCS .EQU FALSE ; INVERT CS
#ENDIF
;
#IF (SDMODE == SDMODE_Z80R) ; Z80 Retro
;
; SPLIT OVER TWO REGISTERS TO DRIVE CLK. THE CS LINE IS ON THE GPIO
; WHICH IS THE SAME LATCHES THAT CONTROL MMU ON/OFF, SO DON;T GLITCH
; THEM WHEN UPDATING!
;
SD_DEVMAX .EQU 1 ; NUMBER OF PHYSICAL UNITS (SOCKETS)
SD_OPRDEF .EQU %00000001 ; OUTPUT PORT DEFAULT STATE
SD_OPRMSK .EQU %00000101 ; OUTPUT PORT MASK
SD_OPRREG .EQU $64 ; CS VIA GPIO
SD_IOBASE .EQU $68 ; 68/69 FOR OUTPUT
SD_IOREG .EQU SD_IOBASE ; INPUT REGISTER
SD_IOCLK .EQU SD_IOBASE+1 ; CLOCK IS OFF A0
SD_GPIO .EQU $64 ; MISO IS ON THE GPIO
SD_CS0 .EQU %00000100 ; SELECT
SD_DI .EQU %00000001 ; DATA IN (CARD <- CPU) MOSI
SD_DO .EQU %00000001 ; DATA OUT (CARD -> CPU) MISO
SD_CINIT .EQU FALSE ; INITIALIZE OUTPUT PORT
SD_INVCS .EQU FALSE ; INVERT CS
#ENDIF
;
#IF (SD_DEVCNT > SD_DEVMAX)
.ECHO "*** ERROR: SDCNT EXCEEDS MAXIMUM SUPPORTED BY INTERFACE!!!\n"
!!! ; FORCE AN ASSEMBLY ERROR
@@ -510,6 +560,22 @@ SD_INIT:
CALL PRTHEXBYTE
#ENDIF
;
#IF (SDMODE == SDMODE_PIO)
PRTS(" MODE=PIO$")
PRTS(" IO=0x$")
LD A,SD_IOBASE
CALL PRTHEXBYTE
#ENDIF
;
#IF (SDMODE == SDMODE_Z80R)
PRTS(" MODE=Z80R$")
PRTS(" IO=0x$")
LD A,SD_IOBASE
CALL PRTHEXBYTE
LD A,SD_OPRDEF
LD (SD_OPRVAL),A
#ENDIF
;
#IF (SDMODE == SDMODE_USR)
PRTS(" MODE=USER$")
PRTS(" IO=0x$")
@@ -1736,6 +1802,17 @@ SD_SETUP:
OUT (SD_OPRREG),A ; OPRREG == SIO_MCR
#ENDIF
;
#IF (SDMODE == SDMODE_PIO)
LD A,SD_OPRDEF ; All output bits high
OUT (SD_OPRREG),A
LD A,$CF ; Port B mode 3
OUT (SD_DDR),A
LD A,SD_DDRVAL ; Set the direction bits
OUT (SD_DDR),A
LD A,$07 ; No interrupts
OUT (SD_DDR),A
#ENDIF
;
#IF (SDMODE == SDMODE_USR)
#IF (SD_CINIT == TRUE)
LD A,(SD_OPRMSK) ; GET OUTPUT PORT MASK
@@ -1863,7 +1940,7 @@ SD_DESELECT:
AND ~SD_CS0
#ENDIF
; ADJUST BIT(S) FOR INTERFACES USING INVERTED CS BITS
#IF ((SDMODE == SDMODE_PPI) | (SDMODE == SDMODE_UART) | (SDMODE == SDMODE_SC))
#IF ((SDMODE == SDMODE_PPI) | (SDMODE == SDMODE_UART) | (SDMODE == SDMODE_SC) | (SDMODE == SDMODE_PIO) | (SDMODE == SDMODE_Z80R))
#IF ((SDMODE == SDMODE_SC) & (SD_DEVCNT > 1))
XOR SD_CS0 | SD_CS1
#ELSE
@@ -1910,9 +1987,48 @@ SD_PUT:
SET 4,A ; SET TRANSMIT ENABLE
OUT0 (SD_CNTR),A
#ELSE
#IF (SDMODE == SDMODE_UART)
#IF (SDMODE == SDMODE_Z80R)
; USE C - THE CALLING CODE FOR COMMAND SEND FAILS TO SAVE HL/DE
; WHILST THE OTHER PATHS DO ?
LD C,A
RL C
RLA
OUT (SD_IOREG),A
OUT (SD_IOCLK),A
RL C
RLA
OUT (SD_IOREG),A
OUT (SD_IOCLK),A
RL C
RLA
OUT (SD_IOREG),A
OUT (SD_IOCLK),A
RL C
RLA
OUT (SD_IOREG),A
OUT (SD_IOCLK),A
RL C
RLA
OUT (SD_IOREG),A
OUT (SD_IOCLK),A
RL C
RLA
OUT (SD_IOREG),A
OUT (SD_IOCLK),A
RL C
RLA
OUT (SD_IOREG),A
OUT (SD_IOCLK),A
RL C
RLA
OUT (SD_IOREG),A
OUT (SD_IOCLK),A
#ELSE
#IF (SDMODE == SDMODE_UART)
XOR $FF ; DI IS INVERTED ON UART
#ENDIF
#ENDIF
LD C,A ; C=BYTE TO SEND
LD B,8 ; SEND 8 BITS (LOOP 8 TIMES)
LD A,(SD_OPRVAL) ; LOAD CURRENT OPR VALUE
@@ -1928,6 +2044,7 @@ SD_PUT1:
DJNZ SD_PUT1 ; REPEAT FOR ALL 8 BITS
LD A,(SD_OPRVAL) ; LOAD CURRENT OPR VALUE
OUT (SD_OPRREG),A ; LEAVE WITH CLOCK LOW
#ENDIF
#ENDIF
#ENDIF
RET ; DONE
@@ -1950,34 +2067,83 @@ SD_GET:
CALL MIRROR ; MSB<-->LSB MIRROR BITS
LD A,C ; KEEP RESULT
#ELSE
#IF (SDMODE == SDMODE_Z80R)
; MUST PRESERVE HL,DE
PUSH DE
LD A,1
LD C,SD_GPIO
OUT (SD_IOREG),A
OUT (SD_IOCLK),A
IN B,(C)
RR B
RL E
OUT (SD_IOREG),A
OUT (SD_IOCLK),A
IN B,(C)
RR B
RL E
OUT (SD_IOREG),A
OUT (SD_IOCLK),A
IN B,(C)
RR B
RL E
OUT (SD_IOREG),A
OUT (SD_IOCLK),A
IN B,(C)
RR B
RL E
OUT (SD_IOREG),A
OUT (SD_IOCLK),A
IN B,(C)
RR B
RL E
OUT (SD_IOREG),A
OUT (SD_IOCLK),A
IN B,(C)
RR B
RL E
OUT (SD_IOREG),A
OUT (SD_IOCLK),A
IN B,(C)
RR B
RL E
OUT (SD_IOREG),A
OUT (SD_IOCLK),A
IN B,(C)
RR B
RL E
LD A,E
POP DE
#ELSE
LD B,8 ; RECEIVE 8 BITS (LOOP 8 TIMES)
LD A,(SD_OPRVAL) ; LOAD CURRENT OPR VALUE
SD_GET1:
XOR SD_CLK ; TOGGLE CLOCK
OUT (SD_OPRREG),A ; UPDATE CLOCK
IN A,(SD_INPREG) ; READ THE DATA WHILE CLOCK IS ACTIVE
#IF ((SDMODE == SDMODE_JUHA) | (SDMODE == SDMODE_PPI))
#IF ((SDMODE == SDMODE_JUHA) | (SDMODE == SDMODE_PPI) | (SDMODE == SDMODE_PIO))
RLA ; ROTATE INP:7 INTO CF
#ENDIF
#IF (SDMODE == SDMODE_N8)
#ENDIF
#IF (SDMODE == SDMODE_N8)
RLA ; ROTATE INP:6 INTO CF
RLA ; "
#ENDIF
#IF (SDMODE == SDMODE_UART)
#ENDIF
#IF (SDMODE == SDMODE_UART)
RLA ; ROTATE INP:5 INTO CF
RLA ; "
RLA ; "
#ENDIF
#IF (SDMODE == SDMODE_DSD)
#ENDIF
#IF (SDMODE == SDMODE_DSD)
RRA ; ROTATE INP:0 INTO CF
#ENDIF
#ENDIF
RL C ; ROTATE CF INTO C:0
LD A,(SD_OPRVAL) ; BACK TO INITIAL VALUES (TOGGLE CLOCK)
OUT (SD_OPRREG),A ; DO IT
DJNZ SD_GET1 ; REPEAT FOR ALL 8 BITS
LD A,C ; GET BYTE RECEIVED INTO A
#IF (SDMODE == SDMODE_UART)
#IF (SDMODE == SDMODE_UART)
XOR $FF ; DO IS INVERTED ON UART
#ENDIF
#ENDIF
#ENDIF
#ENDIF

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