Add K80W RTC Support

Recovery button support for Duo

.github/workflows/commit.yml

@@ -14,7 +14,7 @@ jobs:
 
     steps:
       - name: Checkout
-        uses: actions/checkout@v3.3.0
+        uses: actions/checkout@v4.1.1
 
       - name: Get Commit Ref
         run: |
@@ -36,7 +36,7 @@ jobs:
           find -type f -exec md5sum '{}' \;
 
       - name: Upload Artifact
-        uses: actions/upload-artifact@v3.1.1
+        uses: actions/upload-artifact@v4.3.0
         with:
           name: RomWBW-${{env.COMMIT_REF}}-Linux
           path: .
@@ -46,7 +46,7 @@ jobs:
 
     steps:
       - name: Checkout
-        uses: actions/checkout@v3.3.0
+        uses: actions/checkout@v4.1.1
 
       - name: Get Commit Ref
         run: |
@@ -68,7 +68,7 @@ jobs:
           find . -type f -exec md5 -r -- '{}' +;
 
       - name: Upload Artifact
-        uses: actions/upload-artifact@v3.1.1
+        uses: actions/upload-artifact@v4.3.0
         with:
           name: RomWBW-${{env.COMMIT_REF}}-MacOS
           path: .

.github/workflows/release.yml

@@ -12,7 +12,7 @@ jobs:
 
     steps:
       - name: Checkout
-        uses: actions/checkout@v3.3.0
+        uses: actions/checkout@v4.1.1
 
       - name: Build
         run: |

.gitignore

@@ -20,7 +20,7 @@
 
 Binary/**/*.mym
 Binary/**/*.pt3
-!Binary/cpnos-wbw.sys
+!Binary/CPNET/NetBoot/cpnos-wbw.sys
 
 Source/**/eeprom
 Source/Apps/Assign.com
@@ -85,6 +85,7 @@ Tools/unix/zx/zx
 !Source/BPBIOS/*.lib
 !Source/BPBIOS/Z34RCP11/cledinst.com
 !Source/BPBIOS/Z34RCP11/cledsave.com
+!Source/CPNET/**
 !Source/Fonts/*
 !Source/Images/**
 !Source/RomDsk/**

Binary/CPNET/Clean.cmd

@@ -0,0 +1,4 @@
+@echo off
+setlocal
+
+if exist *.lbr del *.lbr

Binary/CPNET/Makefile

@@ -0,0 +1,7 @@
+TOOLS = ../../Tools
+MOREDIFF := $(shell $(TOOLS)/unix/casefn.sh *.lbr)
+
+include $(TOOLS)/Makefile.inc
+
+clean::
+	@rm -f *.lbr

Binary/CPNET/ReadMe.txt

@@ -0,0 +1,38 @@
+***********************************************************************
+***                                                                 ***
+***                          R o m W B W                            ***
+***                                                                 ***
+***                    Z80/Z180 System Software                     ***
+***                                                                 ***
+***********************************************************************
+
+This directory contains the CP/NET client packages.  Please refer to 
+the RomWBW User Guide for instructions on installing these packages.  
+Either the MT011 RCBus module or the Duodyne Disk I/O board is required.
+
+All of these files come from Douglas Miller.  Please refer to
+https://github.com/durgadas311/cpnet-z80 for more information, complete
+documentation and the latest source code.  Refer to the RomWBW
+User Guide for basic installation and usage instructions under RomWBW.
+
+| File         | CP/NET Version | OS       | Hardware              |
++--------------+----------------+----------+-----------------------+
+| CPN12MT.LBR  | CP/NET 1.2     | CP/M 2.2 | RCBus w/ MT011        |
+| CPN3MT.LBR   | CP/NET 3       | CP/M 3   | RCBus w/ MT011        |
+| CPN12DUO.LBR | CP/NET 1.2     | CP/M 2.2 | Duodyne w/ Disk I/O   |
+| CPN3DUO.LBR  | CP/NET 3       | CP/M 3   | Duodyne w/ Disk I/O   |
+
+In general, to use CP/NET on RomWBW, it is intended that you will
+extract the appropriate set of files into your default directory in
+user area 0.  Refer to the RomWBW User Guide for more information.
+
+The libraries include enhanced help files appropriate for the version 
+of CP/NET.  Rename the desired topic collection to HELP.HLP on the
+target system.
+
+CPM2NET.HLP	CP/M 2.2 basic system with CP/NET 1.2
+CPNET12.HLP	CP/NET 1.2 help only
+CPM3NET.HLP	CP/M 3 basic system with CP/NET 3
+CPNET3.HLP	CP/NET 3 help only
+
+-- WBW 7:14 AM 2/11/2024

Binary/Clean.cmd

@@ -14,3 +14,4 @@ if exist *.eeprom del *.eeprom
 pushd Apps && call Clean || exit /b 1 & popd
 pushd CPM3 && call Clean || exit /b 1 & popd
 pushd ZPM3 && call Clean || exit /b 1 & popd
+pushd CPNET && call Clean || exit /b 1 & popd

Binary/Makefile

@@ -1,6 +1,6 @@
 TOOLS = ../Tools
 MOREDIFF := $(shell $(TOOLS)/unix/casefn.sh *.img *.rom *.com *.eeprom)
-SUBDIRS = Apps CPM3 ZPM3
+SUBDIRS = Apps CPM3 ZPM3 CPNET
 
 include $(TOOLS)/Makefile.inc
 

Binary/ReadMe.txt

@@ -110,7 +110,9 @@ Refer to the ReadMe.txt in the Source/Images directory
 for details.
 
 Documentation of the pre-built disk images is contained in the 
-DiskList.txt file in this directory.
+"RomWBW User Guide" found in the Doc directory.  The contents of
+the disk images is contained in the "RomWBW Disk Catalog", but it
+is significantly out-of-date.
 
 The contents of the floppy/hard disk images are created by 
 the BuildImages.cmd script in the Source directory.  Additional 

CONTRIBUTING.md

@@ -0,0 +1,42 @@
+# Contributing to RomWBW
+
+> **WARNING**: The `dev` branch of RomWBW has been deprecated as of v3.4.  All Pull Requests should now target the `master` branch.
+
+Contributions of all kinds to RomWBW are welcomed and greatly appreciated.
+
+- Reporting bug(s) and suggesting new feature(s)
+- Discussing the current state of the code
+- Submitting a fixes and enhancements
+
+## RomWBW GitHub Repository
+
+The [RomWBW GitHub Repository](https://github.com/wwarthen/RomWBW) is the primary location for developing, supporting, and distributing RomWBW.  Although input is gladly accepted from almost any channel, the GitHub Repository is preferred.
+
+- Use **Issues** to report bugs, request enhancements, or ask usage questions.
+- Use **Discussions** to interact with others
+- Use **Pull Requests** to submit content (code, documentation, etc.)
+
+## Submitting Content
+
+This RomWBW Project uses the standard [GitHub Flow](https://docs.github.com/en/get-started/quickstart/github-flow).  Submission of content changes (including code) are ideally done via Pull Requests.
+
+- Submitters are advised to contact [Wayne Warthen](mailto:wwarthen@gmail.com) or start a GitHub Discussion prior to starting any significant work.  This is simply to ensure that submissions are consistent
+  with the overall goals and intentions of RomWBW.
+- All submissions should be based on the `master` branch.  To create your submission, fork the RomWBW repository and create your branch from `master`.  Make (and test) your changes in your personal fork.
+- Please update relevant documentation and the `ChangeLog` found in the `Doc` folder.
+- You are encouraged to comment your submissions to ensure your work is properly attributed.
+- When ready, submit a Pull Request to merge your forked branch into the RomWBW master branch.
+
+## Coding Style
+
+Due to the nature of the project, you will find a variety of coding styles.  When making changes to existing code, please try to be consistent with the existing coding style.  You may not like the current style, but no one likes mixed styles
+in one file/module.
+
+Be careful with white space.  RomWBW is primarily assembly langauge code.  The use of tab stops at every 8 characters is pretty standard for assembler.  If you use something else, then your code will look odd when viewed by others.
+
+In most cases, the use of `<cr><lf>` line endings is preferred.  This is standard for the operating systems of the era that RomWBW provides.  Also note that CP/M text files should end with a ctrl-Z (0x1A).  This is not magically added by the
+tools that generate the disk images.
+
+## License
+
+RomWBW is licensed under GPLv3.  When you submit code changes, your submissions are understood to be under the same [GPLv3 License](https://www.gnu.org/licenses/gpl-3.0.html) that covers the project.

Doc/ChangeLog.txt

@@ -1,3 +1,18 @@
+Version 3.5
+-----------
+- M?F: Fix for hours display in HBRTC application
+- M?F: Fix for assembly error in DS1501RTC driver
+- WBW: Add VT-100 graphics char selection to Propeller firmware
+- WBW: Allow all lines of VGA display to be used on Propeller firmware
+- WBW: Allow front panel LED/Switch bits to be inverted in config
+- WBW: Add API to expose application banks available
+- WBW: Added console takeover at boot loader prompt
+- L?N: Fixed Propeller font vertical line character to align properly
+- L?S: EF9345 video display controller driver
+- WBW: Added Cowgol disk image based on the work of Ladislau Szilagyi
+- WBW: Added support for CP/NET on Duodyne Disk I/O
+- DDW: Added support for Duodyne Media board
+
 Version 3.4
 -----------
 NOTE: Changes require HBIOS/CBIOS/Apps sync, version bump to 3.4 to ensure integrity

ReadMe.md

@@ -1,9 +1,9 @@
 
 
 **RomWBW ReadMe** \
-Version 3.4 \
+Version 3.5 \
 Wayne Warthen  ([wwarthen@gmail.com](mailto:wwarthen@gmail.com)) \
-30 Dec 2023
+28 Feb 2024
 
 # Overview
 
@@ -223,6 +223,12 @@ let me know if I missed you!
 
 - Bill Shen has contributed boot loaders for several of his systems.
 
+- Laszlo Szolnoki has contributed an EF9345 video display controller
+  driver.
+
+- Ladislau Szilagyi has contributed an enhanced version of CP/M Cowgol
+  that leverages RomWBW memory banking.
+
 Contributions of all kinds to RomWBW are very welcome.
 
 # Licensing

ReadMe.txt

@@ -1,6 +1,6 @@
 RomWBW ReadMe
 Wayne Warthen (wwarthen@gmail.com)
-30 Dec 2023
+28 Feb 2024
 
 
 
@@ -224,6 +224,12 @@ let me know if I missed you!
 
 -   Bill Shen has contributed boot loaders for several of his systems.
 
+-   Laszlo Szolnoki has contributed an EF9345 video display controller
+    driver.
+
+-   Ladislau Szilagyi has contributed an enhanced version of CP/M Cowgol
+    that leverages RomWBW memory banking.
+
 Contributions of all kinds to RomWBW are very welcome.
 
 

Source/Apps/FAT/ReadMe.md

@@ -0,0 +1,125 @@
+# RomWBW HBIOS CP/M FAT Utility ("FAT.COM")
+
+Author: Wayne Warthen \
+Updated: 6-Jan-2024
+
+This application allows copying files between CP/M filesystems and FAT 
+filesystems (DOS, Windows, Mac, Linux, etc.).  The application runs on 
+RomWBW hosted CP/M (and compatible) operating systems. The application 
+also has limited file management capabilities on FAT filesystems 
+including directory listing, renaming, deleting, and sub-directory 
+creation.
+
+### Usage:
+
+```
+  FAT DIR <path>
+  FAT COPY <src> <dst>
+  FAT REN <from> <to>
+  FAT DEL <path>[<file>|<dir>]
+  FAT MD <path>
+  FAT FORMAT <drv>
+```
+
+  CP/M filespec: \<d\>:FILENAME.EXT (\<d\> is CP/M drive letter A-P) \
+  FAT filespec:  \<u\>:/DIR/FILENAME.EXT (\<u\> is disk unit #)
+
+### Notes:
+
+ - Partitioned or non-partitioned media is handled automatically.
+   A floppy drive is a good example of a non-partitioned FAT
+   filesystem and will be recognized.  Larger media will typically
+   have a partition table which will be recognized by the
+   application to find the FAT filesystem.
+   
+ - Although RomWBW-style CP/M media does not know anything about
+   partition tables, it is entirely possible to have media that
+   has both CP/M and FAT file systems on it.  This is accomplished
+   by creating a FAT filesystem on the media that starts on a track
+   beyond the last track used by CP/M.  Each CP/M slice can occupy
+   up to 8MB.  So, make sure to start your FAT partition beyond
+   (slice count) * 9MB.
+
+ - The application infers whether you are attempting to reference
+   a FAT or CP/M filesystem via the drive specifier (char before ':').
+   A numeric drive character specifies the HBIOS disk unit number
+   for FAT access.  An alpha (A-P) character indicates a CP/M
+   file system access targeting the specified drive letter.  If there
+   is no drive character specified, the current CP/M filesystem and
+   current CP/M drive is assumed.  For example:
+   
+   `2:README.TXT` refers to FAT file README.TXT on disk unit #2 \
+   `C:README.TXT` refers to CP/M file README.TXT on CP/M drive C: \
+   `README.TXT` refers to CP/M file README.TXT on current CP/M drive
+   
+ - FAT files with SYS, HIDDEN, or R/O attributes are not given
+   any special treatment.  Such files are found and processed
+   like any other file.  However, any attempt to write to a
+   read-only file will fail and the application will abort.
+ 
+ - It is not currently possible to reference CP/M user areas other
+   than the current user.  To copy files to alternate user areas,
+   you must switch to the desired user number first or use an
+   additional step to copy the file to the desired user area.
+   
+ - Accessing FAT filesystems on a floppy requires the use of
+   RomWBW HBIOS v2.9.1-pre.13 or greater.
+
+ - Only the first 8 RomWBW disk units (0-7) can be referenced.
+   
+ - Files written are not verified.
+ 
+ - Wildcard matching in FAT filesystems is a bit unusual as
+   implemented by FatFs.  See FatFs documentation.
+
+### License:
+
+  GNU GPLv3 (see file LICENSE.txt)
+
+### Build Notes:
+
+ - Source is maintained on GitHub at <https://github.com/wwarthen/FAT>.
+
+ - Application is based on FatFs.  FatFs source is included.  See
+   <http://elm-chan.org/fsw/ff/>.
+
+ - SDCC compiler v4.3 or greater is required to build.  New calling
+   conventions introduced in v4.3 are assumed.
+
+ - See Build.cmd for sample build script under Windows.  References
+   to SDCC must be updated for your environment.
+   
+ - Note that ff.c (core FatFs code) generates quite a few compiler
+   warnings (all appear to be benign).
+
+### To Do:
+
+ - Allow ^C to abort any operation in progress.
+ 
+ - Allow referencing more than the first 8 RomWBW disk units.
+ 
+ - Handle wildcards in destination, e.g.:
+
+   `FAT REN 2:/*.TXT 2:/*.BAK`
+ 
+ - Do something intelligent with R/O and SYS file attributes
+ 
+ - Support UNA
+ 
+### History:
+
+| Date        | Version | Notes                                                       |
+|------------:|-------- |-------------------------------------------------------------|
+| 2-May-2019  | v0.9    | (beta) initial release                                      |
+| 7-May-2019  | v0.9.1  | (beta) added REN and DEL                                    |
+| 8-May-2019  | v0.9.2  | (beta) handle file collisions w/ user prompt                |
+| 8-Oct-2019  | v0.9.3  | (beta) fixed incorrect filename buffer size (MAX_FN)        |
+| 10-Oct-2019 | v0.9.4  | (beta) upgraded to FatFs R0.13c                             |
+| 10-Oct-2019 | v0.9.5  | (beta) added MD (make directory)                            |
+| 10-Oct-2019 | v0.9.6  | (beta) added FORMAT                                         |
+| 11-Oct-2019 | v0.9.7  | (beta) fix FORMAT to use existing partition table entries   |
+|             |         | add attributes to directory listing                         |
+| 12-Apr-2021 | v0.9.8  | (beta) support CP/NET drives                                |
+| 12-Oct-2023 | v0.9.9  | (beta) handle updated HBIOS Disk Device call                |
+| 6-Jan-2024  | v1.0.0  | updated to latest FsFat (v0.15)                             |
+|             |         | updated to latest SDCC (v4.3)                               |

Source/Apps/FAT/ReadMe.txt

@@ -1,105 +0,0 @@
-RomWBW HBIOS CP/M FAT Utility ("FAT.COM")
-
-Author: Wayne Warthen
-Updated: 12-Oct-2023
-
-Application to manipulate and exchange files with a FAT (DOS)
-filesystem.  Runs on any HBIOS hosted CP/M implementation.
-
-USAGE:
-  FAT DIR <path>
-  FAT COPY <src> <dst>
-  FAT REN <from> <to>
-  FAT DEL <path>[<file>|<dir>]
-  FAT MD <path>
-  FAT FORMAT <drv>
-
-  CP/M filespec: <d>:FILENAME.EXT (<d> is CP/M drive letter A-P)
-  FAT filespec:  <u>:/DIR/FILENAME.EXT (<u> is disk unit #)
-	
-LICENSE:
-  GNU GPLv3 (see file LICENSE.txt)
-
-NOTES:
- - Partitioned or non-partitioned media is handled automatically.
-   A floppy drive is a good example of a non-partitioned FAT
-   filesystem and will be recognized.  Larger media will typically
-   have a partition table which will be recognized by the
-   application to find the FAT filesystem.
-   
- - Although RomWBW-style CP/M media does not know anything about
-   partition tables, it is entirely possible to have media that
-   has both CP/M and FAT file systems on it.  This is accomplished
-   by creating a FAT filesystem on the media that starts on a track
-   beyond the last track used by CP/M.  Each CP/M slice on a
-   media will occupy a little over 8MB.  So, make sure to start
-   your FAT partition beyond (slice count) * 8MB.
-
- - The application infers whether you are attempting to reference
-   a FAT or CP/M filesystem via the drive specifier (char before ':').
-   A numeric drive character specifies the HBIOS disk unit number
-   for FAT access.  An alpha (A-P) character indicates a CP/M
-   file system access targeting the specified drive letter.  If there
-   is no drive character specified, the current CP/M filesystem and
-   current CP/M drive is assumed.  For example:
-   
-   "2:README.TXT" refers to FAT file README.TXT on disk unit #2
-   "C:README.TXT" refers to CP/M file README.TXT on CP/M drive C
-   "README.TXT" refers to CP/M file README.TXT on current CP/M drive
-   
- - FAT files with SYS, HIDDEN, or R/O only attributes are not given
-   any special treatment.  Such files are found and processed
-   like any other file.  However, any attempt to write to a
-   read-only file will fail and the application will abort.
- 
- - It is not currently possible to reference CP/M user areas other
-   than the current user.  To copy files to alternate user areas,
-   you must switch to the desired user number first or use an
-   additional step to copy the file to the desired user area.
-   
- - Accessing FAT filesystems on a floppy requires the use of
-   RomWBW HBIOS v2.9.1-pre.13 or greater.
-   
- - Files written are not verified.
- 
- - Wildcard matching in FAT filesystems is a bit unusual as
-   implemented by FatFs.  See FatFs documentation.
-
-BUILD NOTES:
- - Source is maintained on GitHub at https://github.com/wwarthen/FAT
-
- - Application is based on FatFs.  FatFs source is included.
-
- - SDCC compiler is required to build (v4.0.0 known working).
-
- - ZX CP/M emulator is required to build (from RomWBW distribution).
-
- - See Build.cmd for sample build script under Windows.  References
-   to SDCC and ZX must be updated for your environment.
-   
- - Note that ff.c (core FatFs code) generates quite a few compiler
-   warnings (all appear to be benign).
-
-TO DO:
- - Allow ^C to abort any operation in progress.
- 
- - Handle wildcards in destination, e.g.:
-     "FAT REN 2:/*.TXT 2:/*.BAK"
- 
- - Do something intelligent with R/O and SYS files on FAT
- 
- - Support UNA
- 
-HISTORY:
-   2-May-2019: v0.9   (beta) initial release
-   7-May-2019: v0.9.1 (beta) added REN and DEL
-   8-May-2019: v0.9.2 (beta) handle file collisions w/ user prompt
-   8-Oct-2019: v0.9.3 (beta) fixed incorrect filename buffer size (MAX_FN)
-  10-Oct-2019: v0.9.4 (beta) upgraded to FatFs R0.13c
-  10-Oct-2019: v0.9.5 (beta) added MD (make directory)
-  10-Oct-2019: v0.9.6 (beta) added FORMAT
-  11-Oct-2019: v0.9.7 (beta) fix FORMAT to use existing partition table entries
-                             add attributes to directory listing
-  12-Apr-2021: v0.9.8 (beta) support CP/NET drives
-  12-Oct-2023: v0.9.9 (beta) handle updated HBIOS Disk Device call
-		      

Source/Apps/Test/Build.cmd

@@ -24,6 +24,7 @@ pushd 2piotst && call Build || exit /b & popd
 pushd piomon && call Build || exit /b & popd
 pushd banktest && call Build || exit /b & popd
 pushd portscan && call Build || exit /b & popd
+pushd sound && call Build || exit /b & popd
 
 goto :eof
 

Source/Apps/Test/Clean.cmd

@@ -21,3 +21,4 @@ pushd 2piotst && call Clean || exit /b 1 & popd
 pushd piomon && call Clean || exit /b 1 & popd
 pushd banktest && call Clean || exit /b 1 & popd
 pushd portscan && call Clean || exit /b 1 & popd
+pushd sound && call Clean || exit /b 1 & popd

Source/Apps/Test/Makefile

@@ -1,5 +1,5 @@
-OBJECTS = 
-SUBDIRS = DMAmon I2C inttest ppidetst ramtest tstdskng rzsz vdctest kbdtest ps2info 2piotst piomon banktest portscan
+OBJECTS =
+SUBDIRS = DMAmon I2C inttest ppidetst ramtest tstdskng rzsz vdctest kbdtest ps2info 2piotst piomon banktest portscan sound
 DEST = ../../../Binary/Apps/Test
 TOOLS =../../../Tools
 

Source/Apps/Test/sound/Build.cmd

@@ -0,0 +1,12 @@
+@echo off
+setlocal
+
+set TOOLS=../../../../Tools
+set PATH=%TOOLS%\tasm32;%PATH%
+set TASMTABS=%TOOLS%\tasm32
+
+tasm -t80 -g3 -fFF sound.asm sound.com sound.lst || exit /b
+tasm -t80 -g3 -fFF ay-test.asm ay-test.com ay-test.lst || exit /b
+
+copy /Y sound.com ..\..\..\..\Binary\Apps\Test\ || exit /b
+copy /Y ay-test.com ..\..\..\..\Binary\Apps\Test\ || exit /b

Source/Apps/Test/sound/Clean.cmd

@@ -0,0 +1,6 @@
+@echo off
+setlocal
+
+if exist *.com del *.com
+if exist *.lst del *.lst
+if exist *.bin del *.bin

Source/Apps/Test/sound/Makefile

@@ -0,0 +1,7 @@
+OBJECTS = ay-test.com sound.com
+DEST = ../../../../Binary/Apps/Test
+TOOLS =../../../../Tools
+
+USETASM=1
+
+include $(TOOLS)/Makefile.inc

Source/Apps/Test/sound/Scales.asm

@@ -1,329 +0,0 @@
-;
-;------------------------------------------------------------------------------
-; PLAY SCALES USING HBIOS
-;------------------------------------------------------------------------------
-;
-FCB		.EQU	$5C			; Location of default FCB
-BDOS		.EQU	$0005
-;
-		.ORG	$0100
-;
-                LD      (OLDSTACK),SP		; save old stack pointer
-                LD      SP,STACK		; set new stack pointer
-;
-;------------------------------------------------------------------------------
-; GET DEVICE # FROM COMMAND LINE
-;------------------------------------------------------------------------------
-;
-		LD	A,(FCB+1)		; GET FIRST CHAR 
-		SUB	' '
-		JR	Z,NO_ARG
-		SUB	'0'-' '
-		JP	C,EXIT
-;
-;------------------------------------------------------------------------------
-; DISPLAY DEVICE AND NUMBER OF CHANNELS
-;------------------------------------------------------------------------------
-;
-NO_ARG:		LD	(DEVICE),A		; 	
-		LD	DE,TXT_DEV		; DEVICE:
-		CALL	PRTSTR
-		CALL	PRTDECB
-		LD	C,A			; GET DEVICE ID
-		LD	A,':'
-		CALL	PRTCHR
-		LD	B,$55
-		PUSH	BC
-		LD	E,4
-		RST	08
-		LD	DE,TXT_NAME
-		LD	A,B
-		RRCA \ RRCA \ RRCA \ RRCA
-		CALL	PRTIDXDEA		; SHOW NAME
-		LD	DE,TXT_CH
-		CALL	PRTSTR
-;
-		POP	BC			; GET & DISPLAY # CHANNELS
-		LD	E,1
-		RST	08
-		LD	A,B		
-		CALL	PRTDECB
-		CALL	CRLF			; NUMBER OF CHANNELS IS IN B
-;
-;------------------------------------------------------------------------------
-; LOOP THROUGH EACH CHANNEL 
-;------------------------------------------------------------------------------
-
-CH__TONE:	LD	A,(DEVICE)	; C CONTAINS DEVICE
-		LD	C,A		; THROUGH THIS LOOP
-;
-		PUSH	BC
-		LD	B,50H		; RESET DEVICE
-		RST	08
-		POP	BC
-;
-		PUSH	BC
-		LD	B,51H		; VOLUME FULL
-		LD	L,0FFH
-		RST	08
-		POP	BC
-;
-		LD	A,B
-TST_TONE_LP:	DEC	A
-		LD	(CHANNEL),A	; SAVE CURRENT CHANNEL
-		CALL	TST_SCALES	; SCALES TEST
-;		CALL	TST_VOLUME	; VOLUME TEST
-		CALL	CRLF
-		DJNZ	TST_TONE_LP
-;
-		PUSH	BC
-		LD	B,50H		; RESET DEVICE
-		RST	08
-		POP	BC
-;
-;------------------------------------------------------------------------------
-; RESTORE STACK & EXIT
-;------------------------------------------------------------------------------
-;
-EXIT:		LD      SP, (OLDSTACK)		; Exit to CP/M
-		RST     00H
-		DI
-		HALT
-;
-;------------------------------------------------------------------------------
-; PLAY SCALES FROM HIGHEST HBIOS NOTE TO LOWEST
-;------------------------------------------------------------------------------
-;
-TST_SCALES:	PUSH	BC		
-		PUSH	AF
-;
-		LD	HL,380		; START NOTE
-		LD	(NOTE),HL	; Top of Octave 7 is 343
-
-		LD	B,51H		; VOLUME HIGH
-		LD	L,0FFH
-		PUSH	BC
-		RST	08
-		POP	BC
-;
-NEXT0:		PUSH	BC
-;
-		LD	DE,TXT_TSTCH	; DISPLAY CHANNEL 
-		CALL	PRTSTR
-		LD	A,(CHANNEL)
-		CALL	PRTDECB
-;
-		LD	DE,TXT_NOTE	; DISPLAY NOTE
-		CALL	PRTSTR
-		LD	HL,(NOTE)
-		CALL	PRTDECW
-		POP	BC
-;
-		LD	B,53H		; SET NOTE
-		LD	HL,(NOTE)
-		PUSH	BC
-		RST	08
-		POP	BC
-
-		OR	A		; DID DRIVER FAIL
-		JR	Z,NEXT4		; THIS NOTE ?
-
-		LD	DE,TXT_BAD_N
-		CALL	FAILMSG
-		JR	SKIP
-;
-NEXT4:		LD	B,57H		; DURATION
-		LD	HL,1000
-		PUSH	BC
-		RST	08
-		POP	BC
-
-		LD	B,54H		; PLAY
-		LD	A,(CHANNEL)
-		LD	D,A
-		PUSH	BC
-		RST	08
-		POP	BC
-;
-		OR	A		; DID DRIVER FAIL
-		JR	Z,NEXT2		; TO PLAY ?
-
-		LD	DE,TXT_BAD_N
-		CALL	FAILMSG
-		JR	SKIP
-;
-NEXT2:		CALL	DELAY
-		CALL	CRLF
-;
-SKIP:		LD	HL,(NOTE)
-		DEC	HL
-		LD	(NOTE),HL
-
-		INC	HL
-		LD	A,H
-		OR	L
-		DEC	HL
-		JR	NZ,NEXT0
-;
-		LD	B,51H		; VOLUME
-		LD	L,00H		; OFF
-		PUSH	BC
-		RST	08
-		POP	BC
-;
-		LD	B,54H		; PLAY
-		LD	A,(CHANNEL)
-		LD	D,A
-		PUSH	BC
-		RST	08
-		POP	BC
-
-		PUSH	BC
-		LD      C, 6		; check for keypress
-		LD      E,0FFH
-		CALL    BDOS
-		POP	BC
-		OR      A
-		JP	NZ,EXIT
-
-		POP	AF
-		POP	BC
-;
-		RET
-;
-FAILMSG:	PUSH	AF
-		PUSH	BC
-		CALL	PRTSTR
-		CALL	CRLF
-		POP	BC
-		POP	AF
-		RET
-;
-;------------------------------------------------------------------------------
-; CONSTANT TONE ON ALL CHANNELS, SCALE VOLUME
-;------------------------------------------------------------------------------
-;
-TST_VOLUME:
-	LD	HL,332+48		; TONE
-	LD	(NOTE),HL
-;
-	LD	B,3
-NEXTCH1	LD	A,B
-	DEC	A
-	LD	(CHANNEL),A
-	PUSH	BC		; ACROSS
-	CALL	TONE		; ALL
-
-	LD      C, 6		; KEYPRESS 
-        LD      E, 0FFH
-        CALL    BDOS
-	POP	BC		; CHANNELS
-
-        OR      A
-        JP	NZ,EXIT
-
-	DJNZ	NEXTCH1
-
-	RET
-
-TONE:	LD	A,(DEVICE)
-	LD	C,A
-
-	LD	B,50H		; RESET
-	PUSH	BC
-	RST	08
-	POP	BC
-;
-NEXT1:	LD	B,51H		; VOLUME
-	LD	A,(VOLUME)
-	LD	L,A
-	PUSH	BC
-	RST	08
-	POP	BC
-;
-	LD	B,53H		; NOTE
-	LD	HL,(NOTE)
-	PUSH	BC
-	RST	08
-	POP	BC
-;
-	LD	B,54H		; PLAY
-	LD	A,(CHANNEL)
-	LD	D,A
-	PUSH	BC
-	RST	08
-	POP	BC
-;
-	CALL	DELAY
-;
-	LD	A,(VOLUME)
-	DEC	A
-	LD	(VOLUME),A
-	JR	NZ,NEXT1
-;
-	LD	B,51H		; VOLUME
-	LD	L,00H
-	PUSH	BC
-	RST	08
-	POP	BC
-;
-	LD	B,54H		; PLAY
-	PUSH	BC
-	LD	A,(CHANNEL)
-	LD	D,A
-	POP	BC
-	RST	08
-;
-	RET
-;;
-;------------------------------------------------------------------------------
-; LONG DELAY
-;------------------------------------------------------------------------------
-;
-DELAY:	LD	HL,-1
-DELAY1:	DEC	HL
-	LD	A,H
-	OR	L
-	JR	NZ,DELAY1
-	RET
-;
-;------------------------------------------------------------------------------
-; PRINT THE nTH STRING IN A LIST OF STRINGS WHERE EACH IS TERMINATED BY 0
-; A REGISTER DEFINES THE nTH STRING IN THE LIST TO PRINT AND DE POINTS
-; TO THE START OF THE STRING LIST.
-;------------------------------------------------------------------------------
-;
-PRTIDXDEA:	LD	C,A
-		OR	A
-PRTIDXDEA1:	JR	Z,PRTIDXDEA3		; FOUND TARGET SO EXIT 
-PRTIDXDEA2:	LD	A,(DE)			; LOOP UNIT
-		INC	DE			; WE REACH
-		OR	A			; END OF STRING
-		JR	NZ,PRTIDXDEA2
-		DEC	C			; AT STRING END. SO GO
-		JR	PRTIDXDEA1		; CHECK FOR INDEX MATCH
-PRTIDXDEA3:	CALL	PRTSTR			; DISPLAY THE STRING
-		RET
-;
-#INCLUDE "printing.inc"
-;
-TXT_CH		.DB	"CHANNELS: ",0
-TXT_TSTCH	.DB	"CHANNEL: ",0
-TXT_BAD_N	.DB	" BAD NOTE",0
-TXT_BAD_P	.DB	" PLAY ERROR",0
-TXT_NOTE	.DB	" NOTE: ",0
-TXT_DEV		.DB	"DEVICE: ",0
-TXT_NAME	.DB	"SN76489 ",0
-		.DB	"AY-3-8910 ",0
-		.DB	"I/O PORT ",0
-		.DB	"YM2612 ",0
-MODE		.DB	0		; scales mode or volume mode
-DEVICE		.DB	0
-NOTE		.DW	128
-VOLUME		.DB	0
-CHANNEL		.DB	0
-OLDSTACK        .DW     0		; original stack pointer
-                .DS     40H		; space for stack
-STACK					; top of stack
-;
-	.END

Source/Apps/Test/sound/ay-test.asm

@@ -13,9 +13,9 @@
 ;
 ; Hardware port addresses
 ;
-rsel	.equ	$9A		; Register seelection port address
-rdat	.equ	$9B		; Register data port address
-acr	.equ	$9C		; Aux control register port address
+rsel	.equ	$A4		; Register seelection port address
+rdat	.equ	$A5		; Register data port address
+acr	.equ	$A2		; Aux control register port address
 ;
 ; CPU speed for delay scaling
 ;

Source/Apps/Test/sound/printing.inc

@@ -0,0 +1,177 @@
+;
+; Print character in A without destroying any registers
+;
+PRTCHR:
+	PUSH	BC		; save registers
+	PUSH	DE
+	PUSH	HL
+	LD	E,A		; character to print in E
+	LD	C,$02		; BDOS function to output a character
+	CALL	BDOS		; do it
+	POP	HL		; restore registers
+	POP	DE
+	POP	BC
+	RET
+;
+PRTDOT:
+;
+	; shortcut to print a dot preserving all regs
+	PUSH	AF		; save af
+	LD	A,'.'		; load dot char
+	CALL	PRTCHR		; print it
+	POP	AF		; restore af
+	RET			; done
+;
+PRTCR:
+;
+	; shortcut to print a carriage return preserving all regs
+	PUSH	AF		; save af
+	LD	A,13		; load CR value
+	CALL	PRTCHR		; print it
+	POP	AF		; restore af
+	RET			; done
+;
+; Print a zero terminated string at (DE) without destroying any registers
+;
+PRTSTR:
+	PUSH	AF
+	PUSH	DE
+;
+PRTSTR1:
+	LD	A,(DE)		; get next char
+	OR	A
+	JR	Z,PRTSTR2
+	CALL	PRTCHR
+	INC	DE
+	JR	PRTSTR1
+;
+PRTSTR2:
+	POP	DE		; restore registers
+	POP	AF
+	RET
+;
+; Print the value in A in hex without destroying any registers
+;
+PRTHEX:
+	PUSH	AF		; save AF
+	PUSH	DE		; save DE
+	CALL	HEXASCII	; convert value in A to hex chars in DE
+	LD	A,D		; get the high order hex char
+	CALL	PRTCHR		; print it
+	LD	A,E		; get the low order hex char
+	CALL	PRTCHR		; print it
+	POP	DE		; restore DE
+	POP	AF		; restore AF
+	RET			; done
+;
+; print the hex word value in bc
+;
+PRTHEXWORD:
+	PUSH	AF
+	LD	A,B
+	CALL	PRTHEX
+	LD	A,C
+	CALL	PRTHEX
+	POP	AF
+	RET
+;
+; print the hex dword value in de:hl
+;
+PRTHEX32:
+	PUSH	BC
+	PUSH	DE
+	POP	BC
+	CALL	PRTHEXWORD
+	PUSH	HL
+	POP	BC
+	CALL	PRTHEXWORD
+	POP	BC
+	RET
+;
+; Convert binary value in A to ascii hex characters in DE
+;
+HEXASCII:
+	LD	D,A		; save A in D
+	CALL	HEXCONV		; convert low nibble of A to hex
+	LD	E,A		; save it in E
+	LD	A,D		; get original value back
+	RLCA			; rotate high order nibble to low bits
+	RLCA
+	RLCA
+	RLCA
+	CALL	HEXCONV		; convert nibble
+	LD	D,A		; save it in D
+	RET			; done
+
+;
+; Convert low nibble of A to ascii hex
+;
+HEXCONV:
+	AND	$0F	     	; low nibble only
+	ADD	A,$90
+	DAA
+	ADC	A,$40
+	DAA
+	RET
+
+;
+; Print value of A or HL in decimal with leading zero suppression
+; Use prtdecb for A or prtdecw for HL
+;
+PRTDECB:
+	PUSH	HL
+	LD	H,0
+	LD	L,A
+	CALL	PRTDECW		; print it
+	POP	HL
+	RET
+;
+PRTDECW:
+	PUSH	AF
+	PUSH	BC
+	PUSH	DE
+	PUSH	HL
+	CALL	PRTDEC0
+	POP	HL
+	POP	DE
+	POP	BC
+	POP	AF
+	RET
+;
+PRTDEC0:
+	LD	E,'0'
+	LD	BC,-10000
+	CALL	PRTDEC1
+	LD	BC,-1000
+	CALL	PRTDEC1
+	LD	BC,-100
+	CALL	PRTDEC1
+	LD	C,-10
+	CALL	PRTDEC1
+	LD	E,0
+	LD	C,-1
+PRTDEC1:
+	LD	A,'0' - 1
+PRTDEC2:
+	INC	A
+	ADD	HL,BC
+	JR	C,PRTDEC2
+	SBC	HL,BC
+	CP	E
+	RET	Z
+	LD	E,0
+	CALL	PRTCHR
+	RET
+;
+; Start a new line
+;
+CRLF2:
+	CALL	CRLF		; two of them
+CRLF:
+	PUSH	AF		; preserve AF
+	LD	A,13		; <CR>
+	CALL	PRTCHR		; print it
+	LD	A,10		; <LF>
+	CALL	PRTCHR		; print it
+	POP	AF		; restore AF
+	RET

Source/Apps/Test/sound/sound.asm

@@ -0,0 +1,460 @@
+;
+;=======================================================================
+; RomWBW HBIOS Sound Device Test Tool (SOUND)
+;=======================================================================
+;
+; Simple utility that can exercise a sound device in RomWBW.  It can
+; play a single tone, sliding scale, or sliding volume.
+;
+; I'm not actually sure who wrote the original version of this, but I
+; suspect it was Phil Summers.
+;
+; WBW 2024-03-21: Control test function by command line
+;		  Add (T)one function
+;
+;=======================================================================
+;
+;------------------------------------------------------------------------------
+; PLAY SCALES USING HBIOS
+;------------------------------------------------------------------------------
+;
+FCB		.EQU	$5C			; Location of default FCB
+BDOS		.EQU	$0005
+;
+		.ORG	$0100
+;
+                LD      (OLDSTACK),SP		; save old stack pointer
+                LD      SP,STACK		; set new stack pointer
+;
+		LD	DE,TXT_BANNER
+		CALL	PRTSTR
+;
+;------------------------------------------------------------------------------
+; PARSE COMMAND LINE
+;------------------------------------------------------------------------------
+;
+		LD	HL,FCB+1		; POINT TO FCB CHARS
+		LD	B,8			; PARSE 8 CHARS
+PARSE:
+		PUSH	BC
+		LD	A,(HL)			; GET NEXT CHAR
+;
+		; IF NUMBER, SET DEVICE ID
+		CP	'0'
+		JR	C,PARSE1		; IF < 0, SKIP
+		CP	'9'+ 1
+		JR	NC,PARSE1		; IF > 9, SKIP
+		SUB	'0'			; MAKE BINARY
+		LD	(DEVICE),A		; SAVE DEVICE NUM
+		JR	PARSE2			; CONTINUE LOOP
+PARSE1:
+		; IF LETTER, SET RUN OPTION
+		CP	'A'
+		JR	C,PARSE2		; IF < A, SKIP
+		CP	'Z'+ 1
+		JR	NC,PARSE1		; IF > Z, SKIP
+		LD	(OPTION),A		; SAVE RUN OPTION
+		JR	PARSE2			; CONTINUE LOOP
+;
+PARSE2:	
+		INC	HL			; BUMP PTR
+		DJNZ	PARSE
+;
+		LD	A,(OPTION)		; GET OPTION
+		CP	' '			; HAVE OPTION?
+		JR	NZ,RUN			; IF SO, RUN
+		LD	DE,TXT_USAGE		; ELSE GET USAGE
+		CALL	PRTSTR			; AND DISPLAY IT
+		JP	EXIT			; AND GET OUT
+;
+;------------------------------------------------------------------------------
+; DISPLAY DEVICE AND NUMBER OF CHANNELS
+;------------------------------------------------------------------------------
+;
+RUN:
+		LD	DE,TXT_DEV		; DEVICE:
+		CALL	PRTSTR
+		LD	A,(DEVICE)
+		CALL	PRTDECB
+		LD	C,A			; GET DEVICE ID
+		LD	A,':'
+		CALL	PRTCHR
+;
+		LD	B,$55			; HBIOS SND QUERY
+		LD	A,(DEVICE)
+		LD	C,A
+;
+		PUSH	BC			; SAVE FUNC AND ID
+		LD	E,4			; HBIOS SNDQ DEV
+		RST	08
+		LD	A,B
+		;RRCA \ RRCA \ RRCA \ RRCA
+		LD	DE,TXT_NAME
+		CALL	PRTIDXDEA		; SHOW NAME
+;
+		LD	DE,TXT_CH
+		CALL	PRTSTR
+		POP	BC			; RESTORE FUNC AND ID
+		LD	E,1			; HBIOS SNDQ_CHCNT
+		RST	08
+		LD	A,B			; NUMBER OF CHANNELS IS IN B
+		LD	(CHANNELS),A		; SAVE IT
+		CALL	PRTDECB			; PRINT IT
+		CALL	CRLF
+;
+;------------------------------------------------------------------------------
+; LOOP THROUGH EACH CHANNEL 
+;------------------------------------------------------------------------------
+;
+		LD	A,(DEVICE)		; GET DEVICE
+		LD	C,A			; INTO C
+		PUSH	BC			; SAVE IT
+		LD	B,$50			; RESET SND DEVICE
+		RST	08			; DO IT
+		POP	BC			; RECOVER DEVICE
+		LD	B,$51			; SET VOLUME
+		LD	L,$FF			; TO MAX
+		RST	08			; DO IT
+;
+		LD	A,(CHANNELS)
+		LD	B,A			; B IS LOOP COUNTER
+		LD	C,0			; C IS CHANNEL INDEX
+;
+CH_LOOP:
+		PUSH	BC			; SAVE LOOP CTL
+		LD	A,C			; CHANNEL
+		LD	(CHANNEL),A		; TO STORAGE
+		CALL	CH_RUN			; DO CHANNEL
+		PUSH	AF
+		LD	A,(DEVICE)
+		LD	C,A
+		LD	B,50H			; RESET
+		RST	08
+		POP	AF
+		POP	BC			; RECOVER LOOP CTL
+		JR	NZ,EXIT			; HANDLE ERROR/ABORT
+		INC	C			; NEXT CHANNEL
+		DJNZ	CH_LOOP			; LOOP AS NEEDED
+;
+		LD	A,(DEVICE)		; GET DEVICE
+		LD	C,A			; TO C
+		LD	B,50H			; RESET DEVICE
+		RST	08			; DO IT
+		JR	EXIT			; DONE
+;
+CH_RUN:
+		LD	A,(OPTION)		; RUN OPTION
+		CP	'S'			; SCALES?
+		JP	Z,TST_SCALES		; IF SO, DO SCALES
+		CP	'V'			; VOLUME?
+		JP	Z,TST_VOLUME		; IF SO, DO VOLUME
+		CP	'T'			; TONE
+		JP	Z,TST_TONE		; IF SO, DO TONE
+		RET
+;
+;------------------------------------------------------------------------------
+; RESTORE STACK & EXIT
+;------------------------------------------------------------------------------
+;
+EXIT:		LD      SP, (OLDSTACK)		; Exit to CP/M
+		RST     00H
+		DI
+		HALT
+;
+;------------------------------------------------------------------------------
+; PLAY SCALES FROM HIGHEST HBIOS NOTE TO LOWEST
+;------------------------------------------------------------------------------
+;
+TST_SCALES:	LD	A,(DEVICE)	; SETUP DEVICE FOR BELOW
+		LD	C,A
+;
+		LD	HL,380		; START NOTE
+		LD	(NOTE),HL	; Top of Octave 7 is 343
+
+		LD	B,51H		; VOLUME HIGH
+		LD	L,0FFH		; MAX
+		PUSH	BC
+		RST	08
+		POP	BC
+;
+NEXT0:		PUSH	BC
+;
+		LD	DE,TXT_TSTCH	; DISPLAY CHANNEL 
+		CALL	PRTSTR
+		LD	A,(CHANNEL)
+		CALL	PRTDECB
+;
+		LD	DE,TXT_NOTE	; DISPLAY NOTE
+		CALL	PRTSTR
+		LD	HL,(NOTE)
+		CALL	PRTDECW
+		POP	BC
+;
+		LD	B,53H		; SET NOTE
+		LD	HL,(NOTE)
+		PUSH	BC
+		RST	08
+		POP	BC
+
+		OR	A		; DID DRIVER FAIL
+		JR	Z,NEXT4		; THIS NOTE ?
+
+		LD	DE,TXT_BAD_N
+		CALL	FAILMSG
+		JR	SKIP
+;
+NEXT4:		LD	B,57H		; DURATION
+		LD	HL,1000
+		PUSH	BC
+		RST	08
+		POP	BC
+
+		LD	B,54H		; PLAY
+		LD	A,(CHANNEL)
+		LD	D,A
+		PUSH	BC
+		RST	08
+		POP	BC
+;
+		OR	A		; DID DRIVER FAIL
+		JR	Z,NEXT2		; TO PLAY ?
+
+		LD	DE,TXT_BAD_N
+		CALL	FAILMSG
+		JR	SKIP
+;
+NEXT2:		CALL	DELAY
+		CALL	CRLF
+;
+SKIP:
+		PUSH	BC
+		LD      C, 6		; CHECK FOR KEYPRESS
+		LD      E,0FFH
+		CALL    BDOS
+		POP	BC
+		OR      A		; SET RESULT
+		RET	NZ		; RETURN IF ABORT
+
+		LD	HL,(NOTE)
+		DEC	HL
+		LD	(NOTE),HL
+
+		INC	HL
+		LD	A,H
+		OR	L
+		DEC	HL
+		JR	NZ,NEXT0
+;
+		LD	B,51H		; VOLUME
+		LD	L,00H		; OFF
+		PUSH	BC
+		RST	08
+		POP	BC
+;
+		LD	B,54H		; PLAY
+		LD	A,(CHANNEL)
+		LD	D,A
+		PUSH	BC
+		RST	08
+		POP	BC
+;
+		XOR      A		; SET RESULT
+		RET
+;
+FAILMSG:	PUSH	BC
+		CALL	PRTSTR
+		CALL	CRLF
+		POP	BC
+		RET
+;
+;------------------------------------------------------------------------------
+; CONSTANT TONE ON ALL CHANNELS, SCALE VOLUME
+;------------------------------------------------------------------------------
+;
+TST_VOLUME:
+;	LD	HL,332+48		; TONE
+	LD	HL,244			; ~1000 HZ
+	LD	(NOTE),HL
+;
+	LD	DE,TXT_TSTCH		; DISPLAY CHANNEL
+	CALL	PRTSTR
+	LD	A,(CHANNEL)
+	CALL	PRTDECB
+
+	LD	A,(DEVICE)
+	LD	C,A
+
+	LD	B,50H		; RESET
+	PUSH	BC
+	RST	08
+	POP	BC
+;
+NEXT1:
+	LD	B,51H		; VOLUME
+	LD	A,(VOLUME)
+	LD	L,A
+	PUSH	BC
+	RST	08
+	POP	BC
+;
+	LD	B,53H		; NOTE
+	LD	HL,(NOTE)
+	PUSH	BC
+	RST	08
+	POP	BC
+;
+	LD	B,54H		; PLAY
+	LD	A,(CHANNEL)
+	LD	D,A
+	PUSH	BC
+	RST	08
+	POP	BC
+;
+	CALL	DELAY
+
+	PUSH	BC
+	LD      C, 6			; KEYPRESS 
+        LD      E, 0FFH
+        CALL    BDOS
+	POP	BC			; RECOVER LOOP CTRL
+	OR	A			; KEY PRESSED?
+	RET	NZ			; BAIL OUT IF SO
+;
+	LD	A,(VOLUME)
+	DEC	A
+	LD	(VOLUME),A
+	JR	NZ,NEXT1
+;
+	CALL	CRLF
+;
+	RET
+;
+;------------------------------------------------------------------------------
+; 1 KHZ TONE ON CHANNEL, PLAY TILL KEYPRESS
+;------------------------------------------------------------------------------
+;
+TST_TONE:
+	LD	HL,244			; ~1000 HZ
+	LD	(NOTE),HL
+;
+	LD	DE,TXT_TSTCH		; DISPLAY CHANNEL
+	CALL	PRTSTR
+	LD	A,(CHANNEL)
+	CALL	PRTDECB
+;
+	LD	A,(DEVICE)
+	LD	C,A
+;
+	LD	B,50H		; RESET
+	PUSH	BC
+	RST	08
+	POP	BC
+;
+	LD	B,51H		; VOLUME
+	LD	A,$FF		; MAX
+	LD	L,A
+	PUSH	BC
+	RST	08
+	POP	BC
+;
+	LD	B,53H		; NOTE
+	LD	HL,(NOTE)
+	PUSH	BC
+	RST	08
+	POP	BC
+;
+TST_TONE1:
+;
+	LD	B,54H		; PLAY
+	LD	A,(CHANNEL)
+	LD	D,A
+	PUSH	BC
+	RST	08
+	POP	BC
+;
+	;CALL	DELAY
+;
+	PUSH	BC
+	LD      C, 6			; KEYPRESS 
+        LD      E, 0FFH
+        CALL    BDOS
+	OR	A			; KEY PRESSED?
+	POP	BC
+	JR	Z,TST_TONE1
+	CALL	CRLF
+	XOR	A
+	RET				; RETURN ON KEYPRESS
+;
+;------------------------------------------------------------------------------
+; LONG DELAY
+;------------------------------------------------------------------------------
+;
+;DELAY:	LD	HL,-1
+DELAY:	LD	HL,1000
+DELAY1:	DEC	HL
+	LD	A,H
+	OR	L
+	JR	NZ,DELAY1
+	RET
+;
+;------------------------------------------------------------------------------
+; PRINT THE nTH STRING IN A LIST OF STRINGS WHERE EACH IS TERMINATED BY 0
+; A REGISTER DEFINES THE nTH STRING IN THE LIST TO PRINT AND DE POINTS
+; TO THE START OF THE STRING LIST.
+;------------------------------------------------------------------------------
+;
+PRTIDXDEA:	LD	C,A
+		OR	A
+PRTIDXDEA1:	JR	Z,PRTIDXDEA3		; FOUND TARGET SO EXIT 
+PRTIDXDEA2:	LD	A,(DE)			; LOOP UNIT
+		INC	DE			; WE REACH
+		OR	A			; END OF STRING
+		JR	NZ,PRTIDXDEA2
+		DEC	C			; AT STRING END. SO GO
+		JR	PRTIDXDEA1		; CHECK FOR INDEX MATCH
+PRTIDXDEA3:	CALL	PRTSTR			; DISPLAY THE STRING
+		RET
+;
+#INCLUDE "printing.inc"
+;
+TXT_BANNER	.DB	13,10,"RomWBW HBIOS Sound Tool v1.0, 21-Mar-2024",13,10,13,10,0
+TXT_USAGE	.DB	"Usage:",13,10
+		.DB	"SOUND <d><o>",13,10
+		.DB	"",13,10
+		.DB	"  <d> is number of sound device",13,10
+		.DB	"  <o> is option to run:",13,10
+		.DB	"      'T': play a 1 KHz tone on each channel until keypress",13,10
+		.DB	"      'S': play a scale of notes on each channel",13,10
+		.DB	"      'V': play a 1 KHz tone at all volumes on each channel",13,10
+		.DB	"",13,10
+		.DB	"Examples:",13,10
+		.DB	"SOUND 1T    - play a tone on all channels of sound device unit #1",13,10
+		.DB	"SOUND 0S    - play a scale on all channels of sound device unit #0",13,10,0
+TXT_CH		.DB	"CHANNELS=",0
+TXT_TSTCH	.DB	"CHANNEL: ",0
+TXT_BAD_N	.DB	" BAD NOTE",0
+TXT_BAD_P	.DB	" PLAY ERROR",0
+TXT_NOTE	.DB	" NOTE: ",0
+TXT_VOL		.DB	" VOLUME: ",0
+TXT_DEV		.DB	"DEVICE: ",0
+TXT_NAME	.DB	"SN76489 ",0
+		.DB	"AY-3-8910 ",0
+		.DB	"I/O PORT ",0
+		.DB	"YM2612 ",0
+
+
+
+
+
+MODE		.DB	0		; scales mode or volume mode
+DEVICE		.DB	0
+OPTION		.DB	' '		; run scales
+NOTE		.DW	128
+VOLUME		.DB	0
+CHANNEL		.DB	0
+CHANNELS	.DB	0
+OLDSTACK        .DW     0		; original stack pointer
+                .DS     40H		; space for stack
+STACK					; top of stack
+;
+	.END

Source/Apps/Tune/tune.asm

@@ -46,6 +46,7 @@
 ;   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
+;   2024-02-23 [WBW] Include ACR value in config table
 ;_______________________________________________________________________________
 ;
 ; ToDo:
@@ -138,11 +139,10 @@ CFGSEL:
 	; Activate card if applicable
 	CALL	SLOWIO			; Slow down I/O now
 	LD	A,(ACR)			; Get ACR port address (if any)
+	LD	C,A			; Copy to C for I/O later
 	INC	A			; $FF -> $00 & set flags
-	JR	Z,PROBE			; Skip ahead to probe if no ACR
-	DEC	A			; Restore real ACR port address
-	LD	C,A			; Put in C for I/O
-	LD	A,$FF			; Value to activate card
+	JR	Z,PROBE			; If no ACR, skip ahead
+	LD	A,(ACRVAL)		; Value to activate card
 	OUT	(C),A			; Write value to ACR
 ;
 PROBE:
@@ -554,83 +554,83 @@ ERR2:	; without the string
 ;
 ; CONFIG TABLE, ENTRY ORDER MATCHES HBIOS PLATFORM ID
 ;
-CFGSIZ	.EQU	8
-;
-CFGTBL:	;	PLT	RSEL	RDAT	RIN	Z180	ACR
+CFGTBL:	;	PLT	RSEL	RDAT	RIN	Z180	ACR	ACRVAL
 	;	DESC
-	.DB	$01,	$9A,	$9B,	$9A,	$FF,	$9C	; SBC W/ SCG
+	.DB	$01,	$9A,	$9B,	$9A,	$FF,	$9C,	$FF	; SBC W/ SCG
 	.DW	HWSTR_SCG
 ;
-	.DB	$04,	$9C,	$9D,	$9C,	$40,	$FF	; N8 W/ ONBOARD PSG
+CFGSIZ	.EQU	$ - CFGTBL
+;
+	.DB	$04,	$9C,	$9D,	$9C,	$40,	$FF,	$FF	; N8 W/ ONBOARD PSG
 	.DW	HWSTR_N8
 ;
-	.DB	$05,	$9A,	$9B,	$9A,	$40,	$9C	; MK4 W/ SCG
+	.DB	$05,	$9A,	$9B,	$9A,	$40,	$9C,	$FF	; MK4 W/ SCG
 	.DW	HWSTR_SCG
 ;
-	.DB	$07,	$D8,	$D0,	$D8,	$FF,	$FF	; RCZ80 W/ RC SOUND MODULE (EB)
+	.DB	$07,	$D8,	$D0,	$D8,	$FF,	$FF,	$FF	; RCZ80 W/ RC SOUND MODULE (EB)
 	.DW	HWSTR_RCEB
 ;
-	.DB	$07,	$A0,	$A1,	$A2,	$FF,	$FF	; RCZ80 W/ RC SOUND MODULE (EB Rev 6)
+	.DB	$07,	$A0,	$A1,	$A2,	$FF,	$FF,	$FF	; RCZ80 W/ RC SOUND MODULE (EB Rev 6)
 	.DW	HWSTR_RCEB6
 ;
-	.DB	$07,	$D1,	$D0,	$D0,	$FF,	$FF	; RCZ80 W/ RC SOUND MODULE (MF)
+	.DB	$07,	$D1,	$D0,	$D0,	$FF,	$FF,	$FF	; RCZ80 W/ RC SOUND MODULE (MF)
 	.DW	HWSTR_RCMF
 ;
-	.DB	$07,	$33,	$32,	$32,	$FF,	$FF	; RCZ80 W/ LINC SOUND MODULE
+	.DB	$07,	$33,	$32,	$32,	$FF,	$FF,	$FF	; RCZ80 W/ LINC SOUND MODULE
 	.DW	HWSTR_LINC
 ;
-	.DB	$08,	$68,	$60,	$68,	$C0,	$FF	; RCZ180 W/ RC SOUND MODULE (EB)
+	.DB	$08,	$68,	$60,	$68,	$C0,	$FF,	$FF	; RCZ180 W/ RC SOUND MODULE (EB)
 	.DW	HWSTR_RCEB
 ;
-	.DB	$08,	$A0,	$A1,	$A2,	$C0,	$FF	; RCZ180 W/ RC SOUND MODULE (EB Rev 6)
+	.DB	$08,	$A0,	$A1,	$A2,	$C0,	$FF,	$FF	; RCZ180 W/ RC SOUND MODULE (EB Rev 6)
 	.DW	HWSTR_RCEB6
 ;
-	.DB	$08,	$61,	$60,	$60,	$C0,	$FF	; RCZ180 W/ RC SOUND MODULE (MF)
+	.DB	$08,	$61,	$60,	$60,	$C0,	$FF,	$FF	; RCZ180 W/ RC SOUND MODULE (MF)
 	.DW	HWSTR_RCMF
 ;
-	.DB	$08,	$33,	$32,	$32,	$C0,	$FF	; RCZ180 W/ LINC SOUND MODULE
+	.DB	$08,	$33,	$32,	$32,	$C0,	$FF,	$FF	; RCZ180 W/ LINC SOUND MODULE
 	.DW	HWSTR_LINC
 ;
-	.DB	$09,	$D8,	$D0,	$D8,	$FF,	$FF	; EZZ80 W/ RC SOUND MODULE (EB)
+	.DB	$09,	$D8,	$D0,	$D8,	$FF,	$FF,	$FF	; EZZ80 W/ RC SOUND MODULE (EB)
 	.DW	HWSTR_RCEB
 ;
-	.DB	$09,	$A0,	$A1,	$A2,	$FF,	$FF	; EZZ80 W/ RC SOUND MODULE (EB Rev 6)
+	.DB	$09,	$A0,	$A1,	$A2,	$FF,	$FF,	$FF	; EZZ80 W/ RC SOUND MODULE (EB Rev 6)
 	.DW	HWSTR_RCEB6
 ;
-	.DB	$09,	$D1,	$D0,	$D0,	$FF,	$FF	; EZZ80 W/ RC SOUND MODULE (MF)
+	.DB	$09,	$D1,	$D0,	$D0,	$FF,	$FF,	$FF	; EZZ80 W/ RC SOUND MODULE (MF)
 	.DW	HWSTR_RCMF
 ;
-	.DB	$09,	$33,	$32,	$32,	$FF,	$FF	; EZZ80 W/ LINC SOUND MODULE
+	.DB	$09,	$33,	$32,	$32,	$FF,	$FF,	$FF	; EZZ80 W/ LINC SOUND MODULE
 	.DW	HWSTR_LINC
 ;
-	.DB	$0A,	$68,	$60,	$68,	$C0,	$FF	; SCZ180 W/ RC SOUND MODULE (EB)
+	.DB	$0A,	$68,	$60,	$68,	$C0,	$FF,	$FF	; SCZ180 W/ RC SOUND MODULE (EB)
 	.DW	HWSTR_RCEB
 ;
-	.DB	$0A,	$A0,	$A1,	$A2,	$C0,	$FF	; SCZ180 W/ RC SOUND MODULE (EB Rev 6)
+	.DB	$0A,	$A0,	$A1,	$A2,	$C0,	$FF,	$FF	; SCZ180 W/ RC SOUND MODULE (EB Rev 6)
 	.DW	HWSTR_RCEB6
 ;
-	.DB	$0A,	$61,	$60,	$60,	$C0,	$FF	; SCZ180 W/ RC SOUND MODULE (MF)
+	.DB	$0A,	$61,	$60,	$60,	$C0,	$FF,	$FF	; SCZ180 W/ RC SOUND MODULE (MF)
 	.DW	HWSTR_RCMF
 ;
-	.DB	$0A,	$33,	$32,	$32,	$C0,	$FF	; SCZ180 W/ LINC SOUND MODULE
+	.DB	$0A,	$33,	$32,	$32,	$C0,	$FF,	$FF	; SCZ180 W/ LINC SOUND MODULE
 	.DW	HWSTR_LINC
 ;
-	.DB	$0B,	$D8,	$D0,	$D8,	$FF,	$FF	; RCZ280 W/ RC SOUND MODULE (EB)
+	.DB	$0B,	$D8,	$D0,	$D8,	$FF,	$FF,	$FF	; RCZ280 W/ RC SOUND MODULE (EB)
 	.DW	HWSTR_RCEB
 ;
-	.DB	$0B,	$A0,	$A1,	$A2,	$FF,	$FF	; RCZ280 W/ RC SOUND MODULE (EB Rev 6)
+	.DB	$0B,	$A0,	$A1,	$A2,	$FF,	$FF,	$FF	; RCZ280 W/ RC SOUND MODULE (EB Rev 6)
 	.DW	HWSTR_RCEB6
 ;
-	.DB	$0B,	$D1,	$D0,	$D0,	$FF,	$FF	; RCZ280 W/ RC SOUND MODULE (MF)
+	.DB	$0B,	$D1,	$D0,	$D0,	$FF,	$FF,	$FF	; RCZ280 W/ RC SOUND MODULE (MF)
 	.DW	HWSTR_RCMF
 ;
-	.DB	$0B,	$33,	$32,	$32,	$FF,	$FF	; RCZ280 W/ LINC SOUND MODULE
+	.DB	$0B,	$33,	$32,	$32,	$FF,	$FF,	$FF	; RCZ280 W/ LINC SOUND MODULE
 	.DW	HWSTR_LINC
 ;
-	.DB	13,	$A0,	$A1,	$A0,	$FF,	$A2	; MBC
+	.DB	13,	$A0,	$A1,	$A0,	$FF,	$A2,	$FE	; MBC
 	.DW	HWSTR_MBC
 ;
-	.DB	17,	$A0,	$A1,	$A0,	$FF,	$A2	; DUODYNE
+	.DB	17,	$A4,	$A5,	$A4,	$FF,	$A6,	$FE	; DUODYNE
 	.DW	HWSTR_DUO
 ;
 	.DB	$FF					; END OF TABLE MARKER
@@ -642,7 +642,8 @@ RSEL		.DB	0	; Register selection port
 RDAT		.DB	0	; Register data port
 RIN		.DB	0	; Register input port
 Z180		.DB	0	; Z180 base I/O port
-ACR		.DB	0	; Aux Ctrl Reg I/O port on SCG
+ACR		.DB	0	; Aux Ctrl Reg I/O port (ACR)
+ACRVAL		.DB	0	; ACR sound enable value
 DESC		.DW	0	; Hardware description string adr
 ;
 CURPLT		.DB	0	; Current platform id reported by HBIOS
@@ -660,8 +661,8 @@ 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 v3.5a, 30-Mar-2023",0
-MSGUSE		.DB	"Copyright (C) 2023, Wayne Warthen, GNU GPL v3",13,10
+MSGBAN		.DB	"Tune Player for RomWBW v3.6, 23-Feb-2024",0
+MSGUSE		.DB	"Copyright (C) 2024, 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

Source/Apps/VGM/vgmplay.txt

@@ -48,7 +48,7 @@ SHIRAKAW.VGM - SN76489+YM2612      * Jantei Monogatari: St. Shirakawa University
 ANNA.VGM     - SN76489+YM2612      - Jantei Monogatari: Anna                                      : 32K
 FIELDMAP.VGM - SN76489+YM2612      - Taikou Risshiden: Field Map: Summer                          : 8K
 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
+STARTDEM.VGM - 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

Source/Apps/format.asm

@@ -19,6 +19,8 @@
 ;  1) Actually implement this
 ;_______________________________________________________________________________
 ;
+#include "../ver.inc"
+;
 ;===============================================================================
 ; Definitions
 ;===============================================================================
@@ -30,9 +32,6 @@ bdos	.equ	$0005		; BDOS invocation vector
 ;;
 ;stamp	.equ	$40		; loc of RomWBW CBIOS zero page stamp
 ;
-rmj	.equ	3		; CBIOS version - major
-rmn	.equ	0		; CBIOS version - minor
-;
 ;===============================================================================
 ; Code Section
 ;===============================================================================

Source/Apps/rtchb.asm

@@ -58,7 +58,7 @@ HBC_CLKTBL:
 	.DB	02H, 00111111B, '/'
 	.DB	01H, 00011111B, '/'
 	.DB	00H, 11111111B, ' '
-	.DB	03H, 00011111B, ':'
+	.DB	03H, 00111111B, ':'
 	.DB	04H, 01111111B, ':'
 	.DB	05H, 01111111B, 00H
 ;

Source/BPBIOS/@WBW Z3ENV.txt

@@ -12,7 +12,7 @@ Operating System (DOS), and Basic I/O System (BIOS).  The CCP and DOS components
 are pre-built, relocatable binaries.  The BIOS (BPBIOS) is assembled into a relocatable
 binary by the build, then the build links together all three components to form the
 final loadable image (.IMG) file.  The linking process is performed by the custom BPBIOS
-linker (BPBUILD.COM).  In addition to linking the 3 components, BPBUILD also sets
+linker (BPBUILD.COM).  In addition to linking the 3 components, BPBUILD also
 adjusts the ZCPR environment configuration.
 
 BPBUILD is designed to be run interactively.  However, it can be started with an
@@ -24,8 +24,8 @@ running of BPBUILD.
 
 The CCP can be ZCPR 3.3 (ZCPR33?.REL), ZCPR 3.4 (Z34.REL), or ZCPR 4.1 (Z41.ZRL).  ZCPR 3.3
 uses static references to the ZCPR segments, so a custom version of it must be assembled.
-The ZCPR33 subdirectory provides a build process for doing this.  It produces a specific
-version for each of the memory segment configurations (ZCPR33T.REL & ZCPR33N.REL).
+The ZCPR33 subdirectory provides a build process for doing this.  It produces a custom
+version of ZCPR33.REL with the correct static references to the ZCPR segments.
 
 The DOS can be ZSDOS 1.1 (ZSDOS.ZRL) or ZSDOS 2.03 (ZS203.ZRL).	 These are both pre-built
 relocatable binaries.  Note that only certain version combinations of ZSDOS and ZCPR are

Source/BPBIOS/bpbio-ww.z80

@@ -421,6 +421,12 @@ DRVTBL:	LD	HL,DPHTBL	; Point to DPH table
 	PAGE
 	  ENDIF		;HARDDSK
 
+	  IF  RAMDSK		; << ****** Hardware Specific ****** >>
+	INCLUDE	RAMD-WW.Z80	; << This Driver is for HBIOS >>
+
+	PAGE
+	  ENDIF		;RAMDSK
+
 
 				; << ****** Hardware Specific ****** >>
 				; <<   Enter Warm Boot routines in   >>

Source/BPBIOS/cboot-ww.z80

@@ -120,14 +120,14 @@ DYNLP:	LD	E,(HL)
 	DEC	DE		; Else back up Ptr to Driver
 	DEC	DE
 	LD	A,(DE)		; Get driver #
-;	   IF  RAMDSK
-;	DEC	A
-;	DEC	A		; Hard Disk (Driver 2)?
-;	JR	Z,ADDSIZ	; ..jump if so
-;	DEC	A		; RAM Disk (Driver 3)?
-;	   ELSE
+	   IF  RAMDSK
+	DEC	A
+	DEC	A		; Hard Disk (Driver 2)?
+	JR	Z,ADDSIZ	; ..jump if so
+	DEC	A		; RAM Disk (Driver 3)?
+	   ELSE
 	CP	2		; Hard Disk (Driver 2)?
-;	   ENDIF	; Ramdsk
+	   ENDIF	; Ramdsk
 	JR	NZ,DYNCHK	; ..jump to end if Not
 ADDSIZ:	PUSH	BC		; Save loop counter
 	PUSH	HL		;   and ptr to DPH

Source/BPBIOS/def-ww-z33.lib

@@ -74,7 +74,7 @@ MORDPB	EQU	NO		; Include additional Floppy DPB Formats?
 
 ;;--- RAM Disk Section ---
 ;
-;RAMDSK	EQU	YES		; YES = Make RAM-Disk Code, NO = No code made
+RAMDSK	EQU	YES		; YES = Make RAM-Disk Code, NO = No code made
 
 ;--- Hard Disk Section ---
 

Source/BPBIOS/def-ww-z33bnk.lib

@@ -74,7 +74,7 @@ MORDPB	EQU	NO		; Include additional Floppy DPB Formats?
 
 ;;--- RAM Disk Section ---
 ;
-;RAMDSK	EQU	YES		; YES = Make RAM-Disk Code, NO = No code made
+RAMDSK	EQU	YES		; YES = Make RAM-Disk Code, NO = No code made
 
 ;--- Hard Disk Section ---
 

Source/BPBIOS/def-ww-z34.lib

@@ -74,7 +74,7 @@ MORDPB	EQU	NO		; Include additional Floppy DPB Formats?
 
 ;;--- RAM Disk Section ---
 ;
-;RAMDSK	EQU	YES		; YES = Make RAM-Disk Code, NO = No code made
+RAMDSK	EQU	YES		; YES = Make RAM-Disk Code, NO = No code made
 
 ;--- Hard Disk Section ---
 

Source/BPBIOS/def-ww-z34bnk.lib

@@ -74,7 +74,7 @@ MORDPB	EQU	NO		; Include additional Floppy DPB Formats?
 
 ;;--- RAM Disk Section ---
 ;
-;RAMDSK	EQU	YES		; YES = Make RAM-Disk Code, NO = No code made
+RAMDSK	EQU	YES		; YES = Make RAM-Disk Code, NO = No code made
 
 ;--- Hard Disk Section ---
 

Source/BPBIOS/def-ww-z41bnk.lib

@@ -74,7 +74,7 @@ MORDPB	EQU	NO		; Include additional Floppy DPB Formats?
 
 ;;--- RAM Disk Section ---
 ;
-;RAMDSK	EQU	YES		; YES = Make RAM-Disk Code, NO = No code made
+RAMDSK	EQU	YES		; YES = Make RAM-Disk Code, NO = No code made
 
 ;--- Hard Disk Section ---
 

Source/BPBIOS/diskdefs

@@ -271,9 +271,9 @@ diskdef interak
   os 2.2
 end
 
-# RomWBW 256KB ROM (128KB reserved, 128KB ROM Disk)
+# RomWBW 128KB ROM Disk
 
-diskdef wbw_rom256
+diskdef wbw_rom128
   seclen 512
   tracks 4
   sectrk 64
@@ -284,35 +284,9 @@ diskdef wbw_rom256
   os 2.2
 end
 
-# RomWBW 512KB ROM (128KB reserved, 384KB ROM Disk)
+# RomWBW 256KB ROM Disk
 
-diskdef wbw_rom512
-  seclen 512
-  tracks 12
-  sectrk 64
-  blocksize 2048
-  maxdir 256
-  skew 0
-  boottrk 0
-  os 2.2
-end
-
-# RomWBW 1024KB ROM (128KB reserved, 896KB ROM Disk)
-
-diskdef wbw_rom1024
-  seclen 512
-  tracks 28
-  sectrk 64
-  blocksize 2048
-  maxdir 256
-  skew 0
-  boottrk 0
-  os 2.2
-end
-
-# RomWBW 512KB RAM (256KB reserved, 256KB RAM Disk)
-
-diskdef wbw_ram512
+diskdef wbw_rom256
   seclen 512
   tracks 8
   sectrk 64
@@ -323,11 +297,24 @@ diskdef wbw_ram512
   os 2.2
 end
 
-# RomWBW 1024KB RAM (256KB reserved, 768KB RAM Disk)
+# RomWBW 384KB ROM Disk
 
-diskdef wbw_ram1024
+diskdef wbw_rom384
   seclen 512
-  tracks 24
+  tracks 12
+  sectrk 64
+  blocksize 2048
+  maxdir 256
+  skew 0
+  boottrk 0
+  os 2.2
+end
+
+# RomWBW 896KB ROM Disk
+
+diskdef wbw_rom896
+  seclen 512
+  tracks 28
   sectrk 64
   blocksize 2048
   maxdir 256

Source/BPBIOS/dphhd.lib

@@ -9,10 +9,11 @@
 ; 1.0 - 31 Aug 92 - General Release.					HFB
 ; 0.1 -  3 Jan 92 - Initial release.					HFB
 ;:::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
-; The Physical Drive Number byte (XDPH+3) is simply an index to the Physical
-; Drive as specified in the ICFG-xx.Z80 file.  Up to three physical drives
-; may be defined in that section, the first byte of which defines the
-; Physical/Logical Unit Address (Device & LUN for SCSI, Master/Slave for IDE),
+; The Logical Drive Number byte (XDPH+3) is simply an index into the
+; BPBIOS physical drive table as specified in the ICFG-xx.Z80 file.
+; BPBIOS supports exactly three logical drives which
+; are defined in that section, the first byte of which defines the
+; Physical Unit (HBIOS Disk Unit)
 ; and a flag bit to specify whether or not the drive is physically present.
 ; See ICFG-xx.Z80 for a definition of the data.
 
@@ -21,7 +22,7 @@
 
 XDPH90:	DEFB	TRUE		; Format lock flag (Lock RAM Drive)
 	DEFB	FIXDSK		; Disk Drive Type
-	DEFB	2		; Driver ID = Treat as Hard Drive
+	DEFB	3		; Driver ID = Treat as Hard Drive
 	DEFB	HB_MDRAM	; Physical Drive Number
 DPH$90:	DEFW	0		; Skew Table pointer
 	DEFW	0,0,0		; Scratch area
@@ -34,7 +35,7 @@ DPH$90:	DEFW	0		; Skew Table pointer
 
 XDPH91:	DEFB	TRUE		; Format lock flag (Lock ROM Drive)
 	DEFB	FIXDSK		; Disk Drive Type
-	DEFB	2		; Driver ID = Treat as Hard Drive
+	DEFB	3		; Driver ID = Treat as Hard Drive
 	DEFB	HB_MDROM	; Physical Drive Number
 DPH$91:	DEFW	0		; Skew Table pointer
 	DEFW	0,0,0		; Scratch area
@@ -48,7 +49,7 @@ DPH$91:	DEFW	0		; Skew Table pointer
 XDPH50:	DEFB	TRUE		; Format lock flag (Lock First Hard Drive)
 	DEFB	FIXDSK		; Disk drive type
 	DEFB	2		; Driver ID - 2=hard drive
-	DEFB	HB_HDDEV0	; Physical drive [0..6] for this Partition
+	DEFB	0		; Logical drive [0..2] for this Partition
 DPH$50:	DEFW	0		; Skew table pointer
 	DEFW	0,0,0		; Scratch area
 	DEFW	DIRBUF		; Directory buffer pointer
@@ -61,7 +62,7 @@ DPH$50:	DEFW	0		; Skew table pointer
 XDPH51:	DEFB	TRUE		; --- Second Hard Drive/Partition
 	DEFB	FIXDSK		; Disk drive type
 	DEFB	2		; Driver ID - 2=hard drive
-	DEFB	HB_HDDEV0	; Physical drive [0..6] for this Partition
+	DEFB	0		; Logical drive [0..2] for this Partition
 DPH$51:	DEFW	0
 	DEFW	0,0,0
 	DEFW	DIRBUF
@@ -74,7 +75,7 @@ DPH$51:	DEFW	0
 XDPH52:	DEFB	TRUE		; --- Third Hard Drive/Partition
 	DEFB	FIXDSK		; Disk drive type
 	DEFB	2		; Driver ID - 2=hard drive
-	DEFB	HB_HDDEV0	; Physical drive [0..2] for this Partition
+	DEFB	0		; Physical drive [0..2] for this Partition
 DPH$52:	DEFW	0
 	DEFW	0,0,0
 	DEFW	DIRBUF
@@ -87,7 +88,7 @@ DPH$52:	DEFW	0
 XDPH53:	DEFB	TRUE		; --- Fourth Hard Drive/Partition
 	DEFB	FIXDSK		; Disk drive type
 	DEFB	2		; Driver ID - 2=hard drive
-	DEFB	HB_HDDEV0	; Physical drive [0..6] for this Partition
+	DEFB	0		; Logical drive [0..2] for this Partition
 DPH$53:	DEFW	0
 	DEFW	0,0,0
 	DEFW	DIRBUF
@@ -100,7 +101,7 @@ DPH$53:	DEFW	0
 XDPH54:	DEFB	TRUE		; --- Fifth Hard Drive/Partition
 	DEFB	FIXDSK		; Disk drive type
 	DEFB	2		; Driver ID - 2=hard drive
-	DEFB	HB_HDDEV0	; Physical drive [0..6] for this Partition
+	DEFB	0		; Logical drive [0..2] for this Partition
 DPH$54:	DEFW	0
 	DEFW	0,0,0
 	DEFW	DIRBUF
@@ -113,7 +114,7 @@ DPH$54:	DEFW	0
 XDPH55:	DEFB	TRUE		; --- Sixth Hard Drive/Partition
 	DEFB	FIXDSK		; Disk drive type
 	DEFB	2		; Driver ID - 2=hard drive
-	DEFB	HB_HDDEV0	; Physical drive [0..6] for this Partition
+	DEFB	0		; Logical drive [0..2] for this Partition
 DPH$55:	DEFW	0
 	DEFW	0,0,0
 	DEFW	DIRBUF
@@ -126,7 +127,7 @@ DPH$55:	DEFW	0
 XDPH56:	DEFB	TRUE		; --- Seventh Hard Drive/Partition
 	DEFB	FIXDSK		; Disk drive type
 	DEFB	2		; Driver ID - 2=hard drive
-	DEFB	HB_HDDEV0	; Physical drive [0..6] for this Partition
+	DEFB	0		; Logical drive [0..2] for this Partition
 DPH$56:	DEFW	0
 	DEFW	0,0,0
 	DEFW	DIRBUF
@@ -139,7 +140,7 @@ DPH$56:	DEFW	0
 XDPH57:	DEFB	TRUE		; --- Eighth Hard Drive/Partition
 	DEFB	FIXDSK		; Disk drive type
 	DEFB	2		; Driver ID - 2=hard drive
-	DEFB	HB_HDDEV0	; Physical drive [0..6] for this Partition
+	DEFB	0		; Logical drive [0..2] for this Partition
 DPH$57:	DEFW	0
 	DEFW	0,0,0
 	DEFW	DIRBUF
@@ -152,7 +153,7 @@ DPH$57:	DEFW	0
 XDPH58:	DEFB	TRUE		; --- Ninth Hard Drive/Partition
 	DEFB	FIXDSK		; Disk drive type
 	DEFB	2		; Driver ID - 2=hard drive
-	DEFB	HB_HDDEV1	; Physical drive [0..6] for this Partition
+	DEFB	1		; Logical drive [0..2] for this Partition
 DPH$58:	DEFW	0
 	DEFW	0,0,0
 	DEFW	DIRBUF
@@ -165,7 +166,7 @@ DPH$58:	DEFW	0
 XDPH59:	DEFB	TRUE		; --- Tenth Hard Drive/Partition
 	DEFB	FIXDSK		; Disk drive type
 	DEFB	2		; Driver ID - 2=hard drive
-	DEFB	HB_HDDEV1	; Physical drive [0..6] for this Partition
+	DEFB	1		; Logical drive [0..2] for this Partition
 DPH$59:	DEFW	0
 	DEFW	0,0,0
 	DEFW	DIRBUF
@@ -178,7 +179,7 @@ DPH$59:	DEFW	0
 XDPH60:	DEFB	TRUE		; --- Eleventh Hard Drive/Partition
 	DEFB	FIXDSK		; Disk drive type
 	DEFB	2		; Driver ID - 2=hard drive
-	DEFB	HB_HDDEV1	; Physical drive [0..6] for this Partition
+	DEFB	1		; Logical drive [0..2] for this Partition
 DPH$60:	DEFW	0
 	DEFW	0,0,0
 	DEFW	DIRBUF
@@ -191,7 +192,7 @@ DPH$60:	DEFW	0
 XDPH61:	DEFB	TRUE		; --- Twelveth Hard Drive/Partition
 	DEFB	FIXDSK		; Disk drive type
 	DEFB	2		; Driver ID - 2=hard drive
-	DEFB	HB_HDDEV1	; Physical drive [0..6] for this Partition
+	DEFB	1		; Logical drive [0..2] for this Partition
 DPH$61:	DEFW	0
 	DEFW	0,0,0
 	DEFW	DIRBUF

Source/BPBIOS/hard-ww.z80

@@ -104,15 +104,69 @@ SELHD:	; SET DEVICE
 ;  Writes from HSTBUF using HSTTRK and HSTSEC to build Block Number.
 ; NOTE: This routine uses physical drive characteristics from ICFG-xx.
 
-HDWRIT:	
+HDWRIT:
+;	CALL	PRTSTRD
+;	DEFB	'[HD WRITE]$'
 
 	XOR	A
 	LD	(HSTWRT),A	; Show no active writes pending
-	JP	HDSK_WRITE	; ..continue
+
+	LD	B,HB_DIOWRITE	; HBIOS WRITE
+	JR	HDIO	; ..continue
 
 ;::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
 ; Read from Hard Disk Drive			< Internal BIOS Routine >
 ;  Reads to HSTBUF using HSTTRK and HSTSEC to build Block Number.
+
+HDREAD:
+;	CALL	PRTSTRD		; DEBUG
+;	DEFB	'[HD READ]$'	; DEBUG
+
+	LD	B,HB_DIOREAD	; HBIOS READ
+	JR	HDIO	; ..continue
+
+;::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
+; Common read/write code for hard disk
+
+HDIO:
+	LD	HL,(HSTDPH)	; GET ACTIVE DPH POINTER
+	DEC	HL		; ADJUST TO POINT TO BPBIOS LOGICAL UNIT NUMBER
+	LD	A,(HL)		; LOAD IT IN A
+;
+	; Convert logical -> physical
+	; Code below is ugly brute force approach, but since there are
+	; always exactly 3 logical drives in BPBIOS and the first one
+	; is the most commonly used, this turns out to be reasonably
+	; efficient.
+	LD	HL,HDRV0	; PERHAPS HDRV0
+	OR	A		; A == 0?
+	JR	Z,HDSK_HDIO1	; HANDLE IF SO
+	LD	HL,HDRV1	; PERHAPS HDRV1
+	DEC	A		; A == 1?
+	JR	Z,HDSK_HDIO1	; HANDLE IF SO
+	LD	HL,HDRV2	; PERHAPS HDRV2
+	DEC	A		; A == 2?
+	JR	Z,HDSK_HDIO1	; HANDLE IF SO
+	CALL	PANIC		; INVALID LOGICAL UNIT NUMBER
+HDSK_HDIO1:
+	LD	A,(HL)		; LOAD PHYS UNIT NUM (HBIOS DISK UNIT)
+	AND	0FH		; REMOVE EXTRANEOUS BITS
+	LD	C,A		; PUT IN C FOR BELOW
+	JR	HB_DSKIO
+
+	  IF  BANKED
+	COMMON	/BANK2/
+	  ELSE
+	CSEG
+	  ENDIF
+;
+;==================================================================================================
+;   HBIOS Disk Driver Interface
+;==================================================================================================
+;
+; Enter with B=HBIOS disk function code (read/write)
+;            C=HBIOS disk unit number
+;
 ; NOTE: This routine uses physical drive characteristics from ICFG-xx.
 ; The routine computes a sequential block number with the algorithm; 
 ; Trk * 16 + Sector, HBIOS uses LBA addressing for hard drive like 
@@ -127,43 +181,8 @@ HDWRIT:
 ;   Sector := (Block# MOD hdSPT)+1	(* Quotient1 := Block# DIV hdSPT *)
 ;   Head   := Quotient1 MOD hdHds	(* Quotient2 := Quotient1 DIV hdHds *)
 ;   Track  := Quotient2
-;::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
 
-HDREAD:
-	JP	HDSK_READ
-
-	  IF  BANKED
-	COMMON	/BANK2/
-	  ELSE
-	CSEG
-	  ENDIF
-;
-;==================================================================================================
-;   HBIOS Disk Driver Interface
-;==================================================================================================
-;
-; HBIOS disk commands
-;
-HB_DSKRD	EQU	13H
-HB_DSKWR	EQU	14H
-;
-HDSK_READ:
-;	CALL	PRTSTRD		; DEBUG
-;	DEFB	'[HDSK READ]$'	; DEBUG
-
-	LD	B,HB_DSKRD	; HBIOS DISK READ (13H)
-	JR	HDSK_RW
-;
-HDSK_WRITE:
-;	CALL	PRTSTRD
-;	DEFB	'[HDSK WRITE]$'
-
-	LD	B,HB_DSKWR	; HBIOS DISK WRITE (14H)
-;
-HDSK_RW:
-	LD	HL,(HSTDPH)	; GET ACTIVE DPH POINTER
-	DEC	HL		; ADJUST TO POINT TO UNIT NUMBER
-	LD	C,(HL)		; LOAD IT IN C FOR HBIOS CALL LATER
+HB_DSKIO:
 	PUSH	BC		; SAVE FUNCTION AND DEVICE FOR LATER
 	LD	HL,(HSTTRK)	; GET TRACK VALUE
 	LD	A,L		; LSB OF TRACK TO A
@@ -172,10 +191,10 @@ HDSK_RW:
 	LD	A,(HSTSEC)	; GET SECTOR
 	LD	E,A		; STUFF IT IN E
 	LD	B,4		; PREPARE TO SHIFT OUT 4 BIT HEAD VALUE
-HDSK_RW1:                       
+HB_DSKIO1:                       
 	SRL	H		; SHIFT ONE BIT OUT
 	RR	L		; ... OF HL
-	DJNZ	HDSK_RW1	; DO ALL 4 BITS
+	DJNZ	HB_DSKIO1	; DO ALL 4 BITS
 	POP	BC		; RECOVER FUNCTION AND DEVICE
 	PUSH	BC		; SAVE INCOMING FUNCTION, DEVICE/UNIT
 	LD	B,12H		; SETUP FOR NEW SEEK CALL
@@ -192,17 +211,3 @@ HDSK_RW1:
 
 	OR	0FFH		; A=$FF TO SIGNAL ERROR
 	RET			; AND DONE W/ ERROR
-;
-;==================================================================================================
-;   HDSK DISK DRIVER - DATA
-;==================================================================================================
-;
-	  IF  BANKED
-	COMMON	/B2RAM/
-	  ELSE
-	DSEG
-	  ENDIF
-
-HDSK_PDN	DEFS	1		; PHYSICAL DEVICE
-
-

Source/BPBIOS/hbios.z80

@@ -27,6 +27,11 @@ HBX_SRCBNK	EQU	0FFE4H
 HBX_DSTADR	EQU	0FFE5H
 HBX_DSTBNK	EQU	0FFE7H
 HBX_CPYLEN	EQU	0FFE8H
+;
+; HBIOS disk commands
+;
+HB_DIOREAD	EQU	13H
+HB_DIOWRITE	EQU	14H
 
 	CSEG
 

Source/BPBIOS/ramd-ww.z80

@@ -11,9 +11,8 @@
 	COMMON	/BANK2/
 	  ENDIF
 
-; This module creates a RAM Drive using the available memory (if available)
-; above the TPA and possible System banks.  For a banked system, the minimum
-; needed is a 64k Main TPA and a 32k System Bank.
+; This module implements the HBIOS RAM disk driver by using the
+; RomWBW disk interface.
 
 ;.....
 ; Select the RAM Drive.  This routine performs any setup required in a select.
@@ -22,70 +21,28 @@ SELRAM:	JP	SETPARMS	; No action locally.
 
 ;.....
 ; Read a 128-byte logical sector from the RAM Drive to main memory.
-;  This routine uses the HSTxxx values from the base BIOS routines.
 
-RAMRD:	OR	0FFH		; Set Read flag (non-0)
-	JR	RamRW		; ..go to common code
+RAMRD:
+	LD	B,HB_DIOREAD	; HBIOS READ
+	JR	RAMIO		; READ/WRITE COMMON CODE
 
 ;.....
 ; Write a 128-byte logical sector from main memory to the RAM Drive.
-;  This routine uses the HSTxxx values from the base BIOS routines.
 
-RAMWR:	XOR	A		; Set Write flag with 0, Read w/AFH
+RAMWR:
+	XOR	A		; Set Write flag with 0, Read w/AFH
 	LD	(HSTWRT),A	;  clear pending write flag
-			;..fall thru to common code..
+;
+	LD	B,HB_DIOWRITE	; HBIOS WRITE
+	JR	RAMIO		; READ/WRITE COMMON CODE
 
-; The following performs calculations for the proper address and bank, sets
-; the DMA block and executes the Move to/from the Host Buffer.
-
-RamRW:
-	PUSH	AF		; Save R/W flag for later
-	; BUILD TOTAL BYTE OFFSET INTO A:HL
-	XOR	A,A		; A STARTS OUT ZERO
-	LD	HL,(HSTTRK)	; HL STARTS WITH TRACK NUM
-	LD	H,0		; ONLY LSB IS NEEDED (INIRAMD PASSES INVALID MSB)
-	LD	B,5		; MULT BY 32 SECTORS PER TRACK
-RAMWR1:
-	ADD	HL,HL		; DOUBLE VALUE
-	ADC	A,A		; ... INCLUDING A WITH CARRY
-	DJNZ	RAMWR1		; LOOP 5 TIMES FOR MULT BY 32
-	LD	DE,(HSTSEC)	; SECTOR VALUE TO 3 (ONE BYTE)
-	LD	D,0		; CLEAR MSB SINCE HSTSEC IS JUST ONE BYTE
-	ADD	HL,DE		; ADD TO WORKING VALUE
-	ADC	A,0		; HANDLE POSSIBLE CARRY
-	LD	B,7		; MULT BY 128 BYTES PER SECTOR
-RAMWR2:
-	ADD	HL,HL		; DOUBLE VALUE
-	ADC	A,A		; ... INCLUDING A WITH CARRY
-	DJNZ	RAMWR2		; LOOP 7 TIME FOR MULT BY 128
-	; CONVERT BYTE OFFSET IN A:HL TO BANK(A):OFFSET(HL)
-	SLA	H		; ROTATE HIGH BIT OF H INTO CF
-	RL	A		; ROTATE CF INTO LOW BIT OF A
-	SRL	H		; FIX H (ROTATE BACK W/ ZERO INTO HIGH BIT)
-	; ADJUST FOR STARTING RAM BANK
-	LD	C,A		; BANK TO C
-	LD	A,(RAMBNK)	; GET STARTING RAM BANK NUM
-	ADD	A,C		; COMBINE TO GET ACTUAL SOURCE BANK NUM
-	; SETUP FOR INTERBANK COPY
-	LD	C,A		; SOURCE BANK TO C
-	LD	B,BID_HB	; DEST BANK TO B (HSTBUF IN HBIOS)
-	;LD	A,(HB_BNKBIOS)	; DEST BANK (HSTBUF IN HBIOS)
-	;LD	B,A		; PUT IN B
-	LD	DE,(HB_DSKBUF)	; DEST ADDRESS TO DE; HL ALREADY HAS SOURCE ADDRESS
-	; REVERSE VALUES IF WRITE
-	POP	AF		; Read or Write?
-	JR	NZ,RAMWR3	; ..jump if Read
-	EX	DE,HL		; Else swap things around
-	LD	A,C
-	LD	C,B
-	LD	B,A
-RAMWR3:
-	; PERFORM THE COPY
-	CALL	XMOVE		; SET BANKS FOR COPY
-	LD	BC,128		; SET LENGTH OF COPY (ONE SECTOR)
-	CALL	MOVE		; DO THE COPY
-	; CLEAN UP AND RETURN
-	XOR	A		; SIGNAL SUCCESS
-	RET			; AND RETURN
+;.....
+; Common code to setup RomWBW disk access
+;
+RAMIO:
+	LD	HL,(HSTDPH)	; GET ACTIVE DPH PTR
+	DEC	HL		; ADJUST TO POINT TO BPBIOS LOGICAL UNIT
+	LD	C,(HL)		; USE AS HBIOS DISK UNIT NUMBER
+	JP	HB_DSKIO	; DO THE REST IN HARD DISK DRIVER
 
 ;================== End of RAM Disk Code ====================

Source/BPBIOS/romwbw.lib

@@ -27,7 +27,11 @@ HB_IODEV	EQU	80H		; 0x80 is current HBIOS console
 HB_MDRAM	EQU	0		; HBIOS Disk Unit #0 is usually the RAM Disk
 HB_MDROM	EQU	1		; HBIOS Disk Unit #1 is usually the ROM Disk
 ;
-; Set HB_HDDEVN to appropriate HBIOS disk device numbers
+; Map BPBIOS logical drive numbers (0-2) to HBIOS physical disk units
+; HB_HDDEVn values map to HDRVn (see icfg-ww).
+;
+; The values below will be the default mapping.  They can be changed
+; using BPCNFG *Physical Drive* configuration.
 ;
 ; If the RomWBW system has no floppy drives, then the hard disk units
 ; will start right after the memory disk units.  So, the first hard disk

Source/BPBIOS/selrwd.z80

@@ -115,17 +115,17 @@ DVRVCT:	DEFW	SELERR		; Driver 0 Select
 	DEFW	HDREAD		; Driver 2 Read
 	DEFW	HDWRIT		; Driver 2 Write
 	  ENDIF		; harddsk
-;	  IF  [RAMDSK AND NOT HARDDSK]
-;	DEFW	SELERR		; Driver 2 Select (Dummy if No Hard Drive)
-;	DEFW	ISTRUE		; Driver 2 Read
-;	DEFW	ISTRUE		; Driver 2 Write
-;	  ENDIF		;ramdsk & not harddsk
+	  IF  [RAMDSK AND NOT HARDDSK]
+	DEFW	SELERR		; Driver 2 Select (Dummy if No Hard Drive)
+	DEFW	ISTRUE		; Driver 2 Read
+	DEFW	ISTRUE		; Driver 2 Write
+	  ENDIF		;ramdsk & not harddsk
 
-;	  IF  RAMDSK
-;	DEFW	SELHD		; Driver 3 Select (RAM Drive)
-;	DEFW	HDREAD		; Driver 3 Read
-;	DEFW	HDWRIT		; Driver 3 Write
-;	  ENDIF		;ramdsk
+	  IF  RAMDSK
+	DEFW	SELRAM		; Driver 3 Select (RAM Drive)
+	DEFW	RAMRD		; Driver 3 Read
+	DEFW	RAMWR		; Driver 3 Write
+	  ENDIF		;ramdsk
 
 SELERR:	LD	HL,0		; Send null DPH pointer back to caller
 	RET

Source/BuildShared.cmd

@@ -10,6 +10,7 @@ pushd ZCPR-DJ && call Build || exit /b & popd
 pushd ZSDOS && call Build || exit /b & popd
 pushd CPM3 && call Build || exit /b & popd
 pushd ZPM3 && call Build || exit /b & popd
+pushd CPNET && call Build || exit /b & popd
 pushd pSys && call Build || exit /b & popd
 pushd Apps && call Build || exit /b & popd
 pushd Forth && call Build || exit /b & popd

Source/CPNET/Build.cmd

@@ -0,0 +1,16 @@
+@echo off
+setlocal
+
+set TOOLS=%~dp0..\..\Tools
+
+set PATH=%TOOLS%\zxcc;%PATH%
+set CPMDIR80=%TOOLS%\cpm\
+
+zxcc nulu --O -cpn12mt "-<30" --A mt011/cpnet12/*.* --L --X || exit /b
+zxcc nulu --O -cpn3mt "-<30" --A mt011/cpnet3/*.* --L --X || exit /b
+zxcc nulu --O -cpn12duo "-<30" --A duo/cpnet12/*.* --L --X || exit /b
+zxcc nulu --O -cpn3duo "-<30" --A duo/cpnet3/*.* --L --X || exit /b
+zxcc nulu --O -cpn12ser "-<30" --A serial/cpnet12/*.* --L --X || exit /b
+zxcc nulu --O -cpn3ser "-<30" --A serial/cpnet3/*.* --L --X || exit /b
+
+copy *.lbr ..\..\Binary\CPNET

Source/CPNET/Clean.cmd

@@ -0,0 +1,4 @@
+@echo off
+setlocal
+
+if exist *.lbr del *.lbr

Source/CPNET/Makefile

@@ -0,0 +1,19 @@
+OBJECTS = cpn12mt.lbr cpn3mt.lbr cpn12duo.lbr cpn3duo.lbr cpn12ser.lbr cpn3ser.lbr
+DEST = ../../Binary/CPNET/
+TOOLS = ../../Tools
+
+include $(TOOLS)/Makefile.inc
+
+cpn12%.lbr: CPNETVER=cpnet12
+cpn3%.lbr: CPNETVER=cpnet3
+%mt.lbr: HWVER=mt011
+%duo.lbr: HWVER=duo
+%ser.lbr: HWVER=serial
+
+%.lbr:
+	rm -f $@
+	$(ZXCC) NULU --O -$(*F) -\<30 --X
+	for f in `ls $(HWVER)/$(CPNETVER) | sort` ; \
+	do \
+	  $(ZXCC) NULU --O -$(*F) --A $(HWVER)/$(CPNETVER)/$$f --X ; \
+	done

Source/CPNET/ReadMe.txt

@@ -6,12 +6,15 @@
 ***                                                                 ***
 ***********************************************************************
 
-This directory contains the CP/M 2.2 client tools for CP/NET.  These
-tools work only with the MT011 RCBus module.
+This directory contains the CP/M client components for CP/NET.  These
+components require either the MT011 RCBus module or the Duodyne
+Disk I/O board.
 
 All of these files come from Douglas Miller.  Please refer to
 https://github.com/durgadas311/cpnet-z80 for more information and
 the latest source code.
 
-In general, to use CP/NET on RomWBW, it is intended that you will
-copy all of these files into your user 0 directory.
+The build process packages the client files into .lbr packages
+appropriate for the hardware variations and CP/NET versions.
+
+-- WBW 7:15 AM 2/11/2024