Support for Application Banks

- Support DEC graphics character set
- Allow use of all lines on VGA display
- Support inverted bits on front panel LEDs and switches by config

.github/pull_request_template.md

@@ -1,7 +1,7 @@
 <!--
 BEFORE YOU CREATE A PULL REQUEST:
 
-- Please base all pull requests against the dev branch
+- Please base all pull requests against the master branch
 - Include a clear description of your change
 - Reference related Issue(s) (e.g., "Resolves Issue #123")
 

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 +1,11 @@
+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
+
 Version 3.4
 -----------
 NOTE: Changes require HBIOS/CBIOS/Apps sync, version bump to 3.4 to ensure integrity
@@ -5,10 +13,39 @@ NOTE: Changes require HBIOS/CBIOS/Apps sync, version bump to 3.4 to ensure integ
 - A?C: Support for EP ITX-Mini Z180 Platform
 - M?R: Significant improvement in User Guide document
 - J?P: Preliminary support for Monsputer (MON)
-
+- JLC: Standardize TMS driver memory map for compatibility
+- WBW: Improved IDE device detection
+- WBW: Fixed decompression when run on Z280
+- K?B: WDATE generic HBIOS date/time utility
+- WBW: Create new DSKY framework with simple driver style interface
+- JBL: Added ColecoVision config in TMS driver
+- WBW: Added support for interrupt mode 1 on Z180
+- WBW: Added S100 platform
+- WBW: Added Duodyne platform
+- WBW: Incorporated John Monahan's S100 Monitor in S100 platform build
+- WBW: Support ESP32 on Duodyne
+- M?C: Fixed port specification when using XM.COM send transfers
+- PMS: Support for Duodyne DMA
+- WBW: Added Serial ROM (SROM.COM) utility
+- WBW: Support S100 Propeller Console
+- SCC: Added support for SC700
+- WBW: Added Heath H8 platform
+- D?J: Enhanced build to run on Raspberry Pi 4
+- WBW: Complete overhaul of ROMless boot operation
+- WBW: Prevent access to slices outside of partition
+- T?P: Contributed the HTALK utility
+- WBW: CTS stall detection
+- W?S: Updated FLASH utility to v1.3.7
+- L?N: Updated UNARC to new OS universal version
+- B?C: Added support for Z1RCC
+- M?R: User Guide enhancements and corrections
+- D?H: Added support for specification of secondary console
+- WBW: Added platform for Monsputer
+- WBW: Added FAT.COM to standard ROM Disk (removed RMAC.COM & LINK.COM)
 
 Version 3.3
 -----------
+NOTE: v3.3 was never released
 - WBW: Support Front Panel switches
 - A?C: Preliminary support for Z80-Retro
 - A?C: Support for SD PIO
@@ -16,7 +53,7 @@ Version 3.3
 - 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 IMM 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

ReadMe.md

@@ -1,9 +1,9 @@
 
 
 **RomWBW ReadMe** \
-Version 3.4 \
+Version 3.5 \
 Wayne Warthen  ([wwarthen@gmail.com](mailto:wwarthen@gmail.com)) \
-18 Dec 2023
+24 Jan 2024
 
 # Overview
 
@@ -197,6 +197,32 @@ let me know if I missed you!
   Aztec C, HiTech C, SLR Z80ASM, Turbo Pascal, Microsoft BASIC Compiler,
   Microsoft Fortran Compiler, and a Games compendium.
 
+- Martin R has provided substantial help reviewing and improving the
+  User Guide.
+
+- Jacques Pelletier has contributed the DS1501 RTC driver code.
+
+- Jose Collado has contributed enhancements to the TMS driver including
+  compatibility with standard TMS register configuration.
+
+- Kevin Boone has contributed a generic HBIOS date/time utility (WDATE).
+
+- Matt Carroll has contributed a fix to XM.COM that corrects the port
+  specification when doing a send.
+
+- Dean Jenkins enhanced the build process to accommodate the Raspberry
+  Pi 4.
+
+- Tom Plano has contributed a new utility (HTALK) to allow talking
+  directly to HBIOS COM ports.
+
+- Lars Nelson has contributed several generic utilities such as a
+  universal (OS agnostic) UNARC application.
+
+- Dylan Hall added support for specifying a secondary console.
+
+- Bill Shen has contributed boot loaders for several of his systems.
+
 Contributions of all kinds to RomWBW are very welcome.
 
 # Licensing

ReadMe.txt

@@ -1,6 +1,6 @@
 RomWBW ReadMe
 Wayne Warthen (wwarthen@gmail.com)
-18 Dec 2023
+24 Jan 2024
 
 
 
@@ -197,6 +197,33 @@ let me know if I missed you!
     including Aztec C, HiTech C, SLR Z80ASM, Turbo Pascal, Microsoft
     BASIC Compiler, Microsoft Fortran Compiler, and a Games compendium.
 
+-   Martin R has provided substantial help reviewing and improving the
+    User Guide.
+
+-   Jacques Pelletier has contributed the DS1501 RTC driver code.
+
+-   Jose Collado has contributed enhancements to the TMS driver
+    including compatibility with standard TMS register configuration.
+
+-   Kevin Boone has contributed a generic HBIOS date/time utility
+    (WDATE).
+
+-   Matt Carroll has contributed a fix to XM.COM that corrects the port
+    specification when doing a send.
+
+-   Dean Jenkins enhanced the build process to accommodate the Raspberry
+    Pi 4.
+
+-   Tom Plano has contributed a new utility (HTALK) to allow talking
+    directly to HBIOS COM ports.
+
+-   Lars Nelson has contributed several generic utilities such as a
+    universal (OS agnostic) UNARC application.
+
+-   Dylan Hall added support for specifying a secondary console.
+
+-   Bill Shen has contributed boot loaders for several of his systems.
+
 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/cpuspd/cpuspd.asm

@@ -189,9 +189,9 @@ show_spd:
 	ld	b,BF_SYSGET
 	ld	c,BF_SYSGET_CPUINFO
 	rst	08
-	jp	nz,err_not_sup
+	jp	nz,err_api
 	call	crlf2
-	ld	(cpu_spd),de		; save CPU speed for now
+	push	de			; save CPU speed for now
 	push	bc			; Oscillator speed to HL
 	pop	hl
 	ld	de,str_spacer
@@ -199,10 +199,18 @@ show_spd:
 	call	prtd3m			; print it
 	ld	de,str_oscspd
 	call	prtstr
+	call	crlf
+	ld	de,str_cpuspd
+	call	prtstr
+	pop	hl			; recover CPU speed
+	call	prtd3m			; print it
+	ld	de,str_mhz
+	call	prtstr
+;
 	ld	b,BF_SYSGET
 	ld	c,BF_SYSGET_CPUSPD
 	rst	08
-	jp	nz,err_not_sup
+	ret	nz			; no CPU speed info, done
 	push	de			; save wait states for now
 	ld	a,l
 	ld	de,str_slow
@@ -216,11 +224,6 @@ show_spd:
 	jr	z,show_spd1
 	jp	err_invalid
 show_spd1:
-	call	crlf
-	call	prtstr
-	ld	hl,(cpu_spd)		; recover CPU speed
-	call	prtd3m
-	ld	de,str_cpuspd
 	call	prtstr
 	pop	hl
 	ld	a,h			; memory wait states
@@ -284,6 +287,9 @@ err_not_sup:
 err_invalid:
 	ld	de,str_err_invalid
 	jr	err_ret
+err_api:
+	ld	de,str_err_api
+	jr	err_ret
 ;
 err_ret:
 	call	crlf2
@@ -659,21 +665,24 @@ delay1:
 ; Constants
 ;=======================================================================
 ;
-str_banner		.db	"RomWBW CPU Speed Selector v0.5, 2-Feb-2022",0
+str_banner		.db	"RomWBW CPU Speed Selector v0.6, 29-Dec-2023",0
 str_spacer		.db	"  ",0
 str_oscspd		.db	" MHz Oscillator",0
-str_slow		.db	"  CPU speed is HALF (",0
-str_full		.db	"  CPU speed is FULL (",0
-str_dbl			.db	"  CPU speed is DOUBLE (",0
-str_cpuspd		.db	" MHz)",0
+str_cpuspd		.db	"  CPU speed is ",0
+str_mhz			.db	" MHz",0
+
+str_slow		.db	" (Half)",0
+str_full		.db	" (Full)",0
+str_dbl			.db	" (Double)",0
 str_memws		.db	" Memory Wait State(s)",0
 str_iows		.db	" I/O Wait State(s)",0
 str_err_una		.db	"  ERROR: UNA not supported by application",0
 str_err_inv		.db	"  ERROR: Invalid BIOS (signature missing)",0
 str_err_ver		.db	"  ERROR: Unexpected HBIOS version",0
 str_err_parm		.db	"  ERROR: Parameter error (CPUSPD /? for usage)",0
-str_err_not_sup		.db	"  ERROR: Platform or configuration not supported!",0
+str_err_not_sup		.db	"  ERROR: Platform or configuration does not support CPU speed configuration!",0
 str_err_invalid		.db	"  ERROR: Invalid configuration!",0
+str_err_api		.db	"  ERROR: HBIOS API error!",0
 str_usage		.db	"  Usage: CPUSPD <cpuspd>,<memws>,<iows>\r\n"
 			.db	"\r\n"
 			.db	"         <cpuspd>: \"Half\", \"Full\", or \"Double\"\r\n"
@@ -693,7 +702,6 @@ stack		.equ	$		; stack top
 ;
 ;
 tmpstr		.fill	9,0		; temp string (8 chars, 0 term)
-cpu_spd		.dw	0		; current cpu speed
 new_cpu_spd	.db	$FF		; new CPU speed
 new_ws_mem	.db	$FF		; new memory wait states
 new_ws_io	.db	$FF		; new I/O wait states

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/Doc/Applications.md

@@ -882,12 +882,12 @@ 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 8,320K
-(16,640 sectors). So, make sure to start your FAT partition beyond (<
-slice count> * 8,320K) or (<slice count * 16,640 sectors).
+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
@@ -899,8 +899,7 @@ 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 the current CP/M
-drive
+| `README.TXT` refers to CP/M file "README.TXT" on the current CP/M drive
 
 Files with SYS, HIDDEN, or R/O only attributes are not given any
 special treatment. Such files are found and processed like any other
@@ -915,6 +914,8 @@ 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
@@ -935,7 +936,7 @@ 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.

Source/Doc/Basic.h

@@ -1,4 +1,4 @@
-$define{doc_ver}{Version 3.4}$
+$define{doc_ver}{Version 3.5}$
 $define{doc_product}{RomWBW}$
 $define{doc_root}{https://github.com/wwarthen/RomWBW/raw/dev/Doc}$
 $ifndef{doc_title}$ $define{doc_title}{Document Title}$ $endif$

Source/Doc/ReadMe.md

@@ -187,6 +187,33 @@ please let me know if I missed you!
   BASIC Compiler, Microsoft Fortran Compiler, and a Games
   compendium.
 
+* Martin R has provided substantial help reviewing and improving the
+  User Guide.
+
+* Jacques Pelletier has contributed the DS1501 RTC driver code.
+
+* Jose Collado has contributed enhancements to the TMS driver
+  including compatibility with standard TMS register configuration.
+
+* Kevin Boone has contributed a generic HBIOS date/time utility (WDATE).
+
+* Matt Carroll has contributed a fix to XM.COM that corrects the
+  port specification when doing a send.
+
+* Dean Jenkins enhanced the build process to accommodate the
+  Raspberry Pi 4.
+
+* Tom Plano has contributed a new utility (HTALK) to allow talking
+  directly to HBIOS COM ports.
+
+* Lars Nelson has contributed several generic utilities such as
+  a universal (OS agnostic) UNARC application.
+
+* Dylan Hall added support for specifying a secondary console.
+
+* Bill Shen has contributed boot loaders for several of his
+  systems.
+
 Contributions of all kinds to RomWBW are very welcome.
 
 # Licensing

Source/Doc/SystemGuide.md

@@ -312,13 +312,13 @@ hardware into the proper mode, etc.
 ## Invocation
 
 HBIOS functions are invoked by placing the required parameters in CPU 
-registers and executing an RST 08 instruction. Note that HBIOS does not 
+registers and executing an `RST 08` instruction. Note that HBIOS does not 
 preserve register values that are unused. However, the values of the Z80
 alternate registers and IX/IY will be preserved (these registers may be
 used within HBIOS, but will be saved and restored internally).
 
-An alternate method of invoking HBIOS functions is to use `CALL 0xFFF0`.
-Since the RST 08 vector exists in page zero of the CPU address space,
+An alternate method of invoking HBIOS functions is to use `CALL $FFF0`.
+Since the `RST 08` vector exists in page zero of the CPU address space,
 it may be paged out when alternate memory banks are selected.  If this
 may be true when you are invoking a function, you should use the `CALL`
 method.
@@ -352,6 +352,12 @@ buffers) will require double-buffering if the caller’s buffer is in the
 lower 32K of CPU address space. For optimal performance, such buffers 
 should be placed in the upper 32K of CPU address space.
 
+HBIOS also implements a small number of core functions in the HBIOS 
+proxy area at the top of RAM.  These exist primarily to faciliate the 
+operation of normal HBIOS function calls.  However, they are available 
+to be used by OSes and applications.  These functions can only be 
+invoked by calling into a jump table in upper RAM.
+
 ## Result Codes
 
 The following function result codes are defined generically for all 
@@ -1460,14 +1466,17 @@ standard HBIOS result code.
 |----------------------------------------|----------------------------------------|
 | B: 0x47                                | A: Status                              |
 | C: Video Unit                          |                                        |
+| D: Scope                               |                                        |
 | E: Color                               |                                        |
 
-Assign the specified Color (E) code to be used for all subsequent 
-character writes/fills. This color is also used to fill new lines 
-generated by scroll operations. Refer to the color code table above for 
-a list of the available color codes. Note that a given video display may
-or may not support any/all colors.  The Status (A) is a standard HBIOS 
-result code.
+Assign the specified Color (E) code for character foreground/background.
+If Scope (D) is 0, the specified color will  be used for all 
+subsequent character writes/fills. This color is also used to fill new 
+lines generated by scroll operations.  If Scope (D) is 1, then the 
+specified foreground/background color will be applied immediately to the
+ entire screen.  Refer to the color code table above for a list of the 
+available color codes. Note that a given video display may or may not 
+support any/all colors.  The Status (A) is a standard HBIOS result code.
 
 ### Function 0x48 -- Video Write Character (VDAWRC)
 
@@ -1973,10 +1982,25 @@ The hardware Platform (L) is identified as follows:
 | C: Bank ID                             | C: Prior Bank ID                       |
 
 Activates the specified memory Bank ID (C) and returns the Prior Bank ID
- (C). The function **must** be invoked from code located in the upper 
+(C).
+
+The function **must** be invoked from code located in the upper 
 32K and the stack **must** be in the upper 32K.  The Status (A) is a 
 standard HBIOS result code.
 
+If the system is using interrupt mode 1 interrupts, the you **must**
+take steps to ensure interrupts are properly handled.  You generally
+have two choices:
+
+- Disable interrupts while the normal user bank is switched out
+- Duplicate the interrupt mode 1 vector from the normal user bank
+  into the bank you are switching to.
+
+If the normal user bank has been switched out, you will not be able to
+invoke the HBIOS API functions using an `RST 08` instruction.  You can
+use the alternative mechanism using `CALL $FFF0` as described in
+[Invocation].
+
 ### Function 0xF3 -- System Get Bank (SYSGETBNK)
 
 | **Entry Parameters**                   | **Returned Values**                    |
@@ -2346,6 +2370,37 @@ 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.
 
+#### SYSGET Subfunction 0xF5 -- Get Application Banks Information (APPBNKS)
+
+| **Entry Parameters**                   | **Returned Values**                    |
+|----------------------------------------|----------------------------------------|
+| B: 0xF8                                | A: Status                              |
+| C: 0xF5                                | H: App Banks Start ID                  |
+|                                        | L: App Banks Count                     |
+|                                        | E: Bank Size                           |
+
+HBIOS may be configured to reserve a number of RAM memory banks that 
+will be available for application use.  This function returns 
+information about the RAM memory banks currently available for 
+application use.  The function provides the bank id of the first 
+available application bank (H) and the count of banks available (L).  It
+also returns the size of a bank expressed as a number of 256-byte pages
+(E).  The returned Status (A) is a standard HBIOS result code.
+
+The application banks are always a contiguous set of banks, so the App 
+Banks Start ID can be incremented to address additional banks up to the 
+limit indicated by App Banks Count.  If the App Banks Count is zero, 
+then there are no application banks available (regardless of the value 
+of App Banks Start ID).
+
+HBIOS does not provide any mechanism to reserve application banks. Any 
+concept of allocation of application banks must be implemented within 
+the OS or application.
+
+This function does not change the current bank selected.  You must use 
+[Function 0xF2 -- System Set Bank (SYSSETBNK)] or ???? for this. Be sure
+to observe the warnings in the description of this function.
+
 ### Function 0xF9 -- System Set (SYSSET)
 
 | **Entry Parameters**                   | **Returned Values**                    |
@@ -2571,6 +2626,99 @@ provided.
 
 `\clearpage`{=latex}
 
+## Proxy Functions
+
+The following special functions are implemented inside of the HBIOS
+proxy area at the top of RAM.  They do not cause a bank switch are are,
+therefore, much faster than their corresponding HBIOS API functions.
+
+The functions are invoked via the following dedicated jump table:
+
+| **Function**                           | **Address**                            |
+|----------------------------------------|----------------------------------------|
+| Invoke HBIOS Function (INVOKE)         | 0xFFF0                                 |
+| Bank Select (BNKSEL)                   | 0xFFF3                                 |
+| Bank Copy (BNKCPY)                     | 0xFFF6                                 |
+| Bank Call (BNKCALL)                    | 0xFFF9                                 |
+
+### Invoke HBIOS Function (INVOKE)
+
+**Address 0xFFF0**
+
+This function is an alternate mechanism for invoking the normal HBIOS
+API functions.  The parameters and return values are as documented
+above.  To put it another way, `CALL $FFF0` is equivalent to `RST 08`,
+but it can be used in any scenario when the normal bank is not
+selected.
+
+These functions are inherently dangerous and generally not value
+checked.  Use with extreme caution.
+
+### Bank Select (BNKSEL)
+
+**Address 0xFFF3**
+
+| **Entry Parameters**                   | **Returned Values**                    |
+|----------------------------------------|----------------------------------------|
+| A: Bank ID                             |                                        |
+
+This function will select the memory bank identified by Bank ID (A).
+All registers are preserved.
+
+The warnings described in [Function 0xF3 -- System Get Bank (SYSGETBNK)]
+should be observed.
+
+### Bank Copy (BNKCPY)
+
+**Address 0xFFF6**
+
+| **Entry Parameters**                   | **Returned Values**                    |
+|----------------------------------------|----------------------------------------|
+| HL: Source Address                     | HL: Ending Source Address              |
+| DE: Destination Address                | DE: Ending Destination Address         |
+| BC: Count                              | BC: 0                                  |
+| HB_SRCBNK: Source Bank ID              |                                        |
+| HB_DSTBNK: Destination Bank ID         |                                        |
+
+This function will copy Count (BC) bytes from Source Address (HL) in 
+Source Bank ID (HB_SRCBNK) to Destination Address (DE) in Destination 
+Bank ID (HB_DSTBNK).  The HB_SRCBNK and HB_DSTBNK fields are dedicated 
+locations in the proxy.  These locations are defined in hbios.inc:
+
+- Source Bank ID: `HB_SRCBNK` = $FFE4
+- Destination Bank ID: `HB_DSTBNK` = $FFE7
+
+The Source Bank ID and Destination Bank ID values must be populated in
+the specified addresses before calling this function.
+
+During processing, HL and DE, will be incremented.  At termination,
+HL and DE will contain the "next" source/destination addresses that
+would be copied.  This allows this function to be invoked repeatedly
+to copy continuous blocks of data.
+
+Register AF is destroyed by this function.  Register BC will be 0.
+
+### Bank Call (BNKCALL)
+
+**Address 0xFFF9**
+
+| **Entry Parameters**                   | **Returned Values**                    |
+|----------------------------------------|----------------------------------------|
+| A: Target Bank ID                      |                                        |
+| IX: Target Address                     |                                        |
+
+This function will perform a function call to a routine in another
+bank.  It does this by selecting the Target Bank ID (A) and then
+calling the Target Address (IX).  On return from the target function,
+the originally active bank is selected.
+
+Register usage is determined by the routine that is called.
+
+Since a different bank will be selected while the target function is
+active, the warnings described in
+[Function 0xF3 -- System Get Bank (SYSGETBNK)] should be observed.
+
+`\clearpage`{=latex}
 
 # Errors and diagnostics
 

Source/Doc/UserGuide.md

@@ -1749,10 +1749,84 @@ with 6 slices containing 5 ready-to-run OSes and a slice with
 the WordStar application files.  Alternatively, you can create your own
 hard disk image with the specific slice contents you choose.
 
+#### Standard Hard Disk Physical Layout
+
+As previously described in [Hard Disk Layouts], the exact placement of
+slices and optional FAT partition will vary depending on which disk
+layout (hd512 or hd1k) you are using and your partition table entries.
+To simplify the use of hard disk images, RomWBW has adopted standard
+partition table entries for disk image files provided.
+
+These partition sizes and locations were chosen to:
+
+- Fit entirely on 1GB media
+- Allow for 64 CP/M filesystem slices
+- Allow for a 384KB FAT filesystem
+
+**NOTE:** RomWBW is not limited to these partition table entries.  You 
+can change the size and location of the RomWBW and/or FAT partitions to 
+increase/decrease the number of slices or FAT filesystem size.
+
++---------------------------------+-------------------------------+-------------------------------+
+|                                 | **--- Legacy (hd512) ---**    | **--- Modern (hd1k) ---**     |
+|                                 +---------------+---------------+---------------+---------------+
+|                                 | Byte(s)       | Sector(s)     | Byte(s)       | Sector(s)     |
++=================================+==============:+==============:+==============:+==============:+
+| RomWBW (slices) Start           | 0             | 0             | 1,048,576     | 2,048         |
++---------------------------------+---------------+---------------+---------------+---------------+
+| RomWBW (slices) Size            | 545,259,520   | 1,064,960     | 536,870,912   | 1,048,576     |
++---------------------------------+---------------+---------------+---------------+---------------+
+| FAT Filesystem Start            | 545,259,520   | 1,064,960     | 537,919,488   | 1,050,624     |
++---------------------------------+---------------+---------------+---------------+---------------+
+| FAT Filesystem Size             | 402,653,184   | 786,432       | 402,653,184   | 786,432       |
++---------------------------------+---------------+---------------+---------------+---------------+
+| \<end\>                         | 947,912,704   | 1,851,392     | 940,572,672   | 1,837,056     |
++---------------------------------+---------------+---------------+---------------+---------------+
+
+The above partition table entries will result in the following locations and sizes of
+filesystems on the RomWBW disk images.
+
+
++---------------------------------+-------------------------------+-------------------------------+
+|                                 | **--- Legacy (hd512) ---**    | **--- Modern (hd1k) ---**     |
+|                                 +---------------+---------------+---------------+---------------+
+|                                 | Byte(s)       | Sector(s)     | Byte(s)       | Sector(s)     |
++=================================+==============:+==============:+==============:+==============:+
+| Prefix Start                    | --            | --            | 0             | 0             |
++---------------------------------+---------------+---------------+---------------+---------------+
+| Prefix Size                     | --            | --            | 1,048,576     | 2,048         |
++---------------------------------+---------------+---------------+---------------+---------------+
+| Slice Size                      | 8,519,680     | 16,640        | 8,388,608     | 16,384        |
++---------------------------------+---------------+---------------+---------------+---------------+
+| Slice 0 Start                   | 0             | 0             | 1,048,576     | 2,048         |
++---------------------------------+---------------+---------------+---------------+---------------+
+| Slice 1 Start                   | 8,519,680     | 16,640        | 9,437,184     | 18,432        |
++---------------------------------+---------------+---------------+---------------+---------------+
+| Slice 2 Start                   | 17,039,360    | 33,280        | 17,825,792    | 34,816        |
++---------------------------------+---------------+---------------+---------------+---------------+
+| Slice 3 Start                   | 25,559,040    | 49,920        | 26,214,400    | 51,200        |
++---------------------------------+---------------+---------------+---------------+---------------+
+| Slice 4 Start                   | 34,078,720    | 66,560        | 34,603,008    | 67,584        |
++---------------------------------+---------------+---------------+---------------+---------------+
+| Slice 5 Start                   | 42,598,400    | 83,200        | 42,991,616    | 83,968        |
++---------------------------------+---------------+---------------+---------------+---------------+
+| Slice 6 Start                   | 51,118,080    | 99,840        | 51,380,224    | 100,352       |
++---------------------------------+---------------+---------------+---------------+---------------+
+| Slice 7 Start                   | 59,637,760    | 116,480       | 59,768,832    | 116,736       |
++---------------------------------+---------------+---------------+---------------+---------------+
+| Slice 63 Start                  | 536,739,840   | 1,048,320     | 529,530,880   | 1,034,240     |
++---------------------------------+---------------+---------------+---------------+---------------+
+| FAT Filesystem Start            | 545,259,520   | 1,064,960     | 537,919,488   | 1,050,624     |
++---------------------------------+---------------+---------------+---------------+---------------+
+| FAT Filesystem Size             | 402,653,184   | 786,432       | 402,653,184   | 786,432       |
++---------------------------------+---------------+---------------+---------------+---------------+
+| \<end\>                         | 947,912,704   | 1,851,392     | 940,572,672   | 1,837,056     |
++---------------------------------+---------------+---------------+---------------+---------------+
+
 #### Combo Hard Disk Image
 
 The combo disk image is essentially just a single image that has several
- of the individual filesystem images (slices) already concatenated 
+of the individual filesystem images (slices) already concatenated 
 together. The combo disk image contains the following 6 slices in the 
 positions indicated:
 
@@ -2640,6 +2714,7 @@ therefore, globally available.
 | XM              | XModem file transfer program adapted to hardware. Automatically uses primary serial port on system.  |
 | FLASH           | Will Sowerbutts' in-situ ROM programming utility.                                                    |
 | FDISK80         | John Coffman's Z80 hard disk partitioning tool.  See documentation in Doc directory.                 |
+| FAT             | Access MS-DOS FAT filesystems from RomWBW (based on FatFs).        |
 | TALK            | Direct console I/O to a specified character device.                                                  |
 | RTC             | Manage and test the Real Time Clock hardware.                                                        |
 | TIMER           | Display value of running periodic system timer.                                                      |
@@ -2647,12 +2722,12 @@ therefore, globally available.
 
 Some custom applications do not fit on the ROM disk. They are found on the
 disk image files or the individual files can be found in the Binary/Apps
-directory of the distribution.
+directory of the distribution.  They are also included on the
+floppy disk and hard disk images.
 
 | **Application** | **Description**                                                    |
 |-----------------|--------------------------------------------------------------------|
 | TUNE            | Play .PT2, .PT3, .MYM audio files.                                 |
-| FAT             | Access MS-DOS FAT filesystems from RomWBW (based on FatFs).        |
 | INTTEST         | Test interrupt vector hooking.                                     |
 
 # FAT Filesystem
@@ -3624,8 +3699,8 @@ update your ROM. The following is a typical example of transferring
 ROM image using XModem and flashing the chip in-situ.
 
 **NOTE**: The FLASH utility **can not** determine the type of your
-ROM chip if it is write protected.  Additionally, it has not way to
-even determine if it is write protected.  If the FLASH utility
+ROM chip if it is write protected.  Additionally, it has no way to
+determine if it is write protected.  If the FLASH utility
 indicates it does not recognize your ROM chip, check to ensure the
 chip is not write protected.
 
@@ -3713,6 +3788,7 @@ them over any older versions of the app on your disk:
 * TALK.COM
 * RTC.COM
 * TIMER.COM
+* FAT.COM
 
 For example: `B>COPY ASSIGN.COM C:`
 
@@ -3722,9 +3798,13 @@ system and then update all copies. These applications are found in
 the Binary/Apps directory of the distribution and in all of the disk
 images.
 
-* FAT.COM
 * TUNE.COM
 
+The files normally contained on the standard ROM Disk is based on a 512K
+ROM.  If your system has a smaller size ROM, then not all of these 
+files will be included on your ROM Disk.  You will need to copy them to
+your system from the /Binary/Apps folder of the RomWBW distribution.
+
 **WARNING**: If you run a RomWBW-specific application that is not
 the appropriate for the version of RomWBW you are running, the
 application will generate an error message and abort.
@@ -3889,6 +3969,28 @@ please let me know if I missed you!
 
 * Jacques Pelletier has contributed the DS1501 RTC driver code.
 
+* Jose Collado has contributed enhancements to the TMS driver
+  including compatibility with standard TMS register configuration.
+
+* Kevin Boone has contributed a generic HBIOS date/time utility (WDATE).
+
+* Matt Carroll has contributed a fix to XM.COM that corrects the
+  port specification when doing a send.
+
+* Dean Jenkins enhanced the build process to accommodate the
+  Raspberry Pi 4.
+
+* Tom Plano has contributed a new utility (HTALK) to allow talking
+  directly to HBIOS COM ports.
+
+* Lars Nelson has contributed several generic utilities such as
+  a universal (OS agnostic) UNARC application.
+
+* Dylan Hall added support for specifying a secondary console.
+
+* Bill Shen has contributed boot loaders for several of his
+  systems.
+
 Contributions of all kinds to RomWBW are very welcome.
 
 # Licensing

Source/HBIOS/Build.cmd

@@ -135,11 +135,11 @@ for %%f in (hbios_rom.bin osimg.bin osimg1.bin osimg2.bin) do (
 ::
 
 if %ROMSize% gtr 0 (
-    copy /b hbios_rom.bin + osimg.bin + osimg1.bin + osimg2.bin + ..\RomDsk\rom%ROMSize%_wbw.dat %ROMName%.rom || exit /b
+    copy /b hbios_rom.bin + osimg.bin + osimg1.bin + osimg2.bin + ..\RomDsk\rom%ROMDiskSize%_wbw.dat %ROMName%.rom || exit /b
     copy /b hbios_rom.bin + osimg.bin + osimg1.bin + osimg2.bin %ROMName%.upd || exit /b
     copy /b hbios_app.bin + osimg_small.bin %ROMName%.com || exit /b
 ) else (
-    copy /b hbios_rom.bin + osimg.bin + osimg1.bin + osimg2.bin  + ..\RomDsk\ram%ROMSize%_wbw.dat %ROMName%.rom || exit /b
+    copy /b hbios_rom.bin + osimg.bin + osimg1.bin + osimg2.bin  + ..\RomDsk\rom%RAMDiskSize%_wbw.dat %ROMName%.rom || exit /b
     copy /b hbios_rom.bin + osimg.bin + osimg1.bin + osimg2.bin %ROMName%.upd || exit /b
     copy /b hbios_app.bin + osimg_small.bin %ROMName%.com || exit /b
 )
@@ -174,10 +174,10 @@ copy /b romldr.bin + dbgmon.bin + ..\zsdos\zsys_una.bin + ..\cpm22\cpm_una.bin o
 
 :: Copy OS Bank and ROM Disk image files to output
 copy /b osimg.bin ..\..\Binary\UNA_WBW_SYS.bin || exit /b
-copy /b ..\RomDsk\rom%ROMSize%_una.dat ..\..\Binary\UNA_WBW_ROM%ROMSize%.bin || exit /b
+copy /b ..\RomDsk\rom%ROMDiskSize%_una.dat ..\..\Binary\UNA_WBW_ROM%ROMDiskSize%.bin || exit /b
 
 :: Create the final ROM image
-copy /b ..\UBIOS\UNA-BIOS.BIN + osimg.bin + ..\UBIOS\FSFAT.BIN + ..\RomDsk\rom%ROMSize%_una.dat %ROMName%.rom || exit /b
+copy /b ..\UBIOS\UNA-BIOS.BIN + osimg.bin + ..\UBIOS\FSFAT.BIN + ..\RomDsk\rom%ROMDiskSize%_una.dat %ROMName%.rom || exit /b
 
 :: Copy to output
 copy %ROMName%.rom ..\..\Binary || exit /b

Source/HBIOS/Build.sh

@@ -6,6 +6,7 @@ set -e
 export ROM_PLATFORM
 export ROM_CONFIG
 export ROMSIZE
+export RAMSIZE
 export CPUFAM
 
 if [ "${ROM_PLATFORM}" == "dist" ] ; then
@@ -114,4 +115,4 @@ fi
 
 #echo OBJECTS=${OBJECTS}
 
-make ROM_PLATFORM=${ROM_PLATFORM} ROM_CONFIG=${ROM_CONFIG} ROMSIZE=${ROMSIZE}
+make ROM_PLATFORM=${ROM_PLATFORM} ROM_CONFIG=${ROM_CONFIG} ROMSIZE=${ROMSIZE} RAMSIZE=${RAMSIZE} ROMDISKSIZE=${ROMDISKSIZE} RAMDISKSIZE=${RAMDISKSIZE}

Source/HBIOS/Config/RCZ280_ext.asm

@@ -26,7 +26,7 @@
 ;
 #include "cfg_rcz280.asm"
 ;
-CPUOSC		.SET	12000000	; CPU OSC FREQ IN MHZ
+CPUOSC		.SET	24000000	; 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
 ;

Source/HBIOS/Config/RCZ280_nat.asm

@@ -26,7 +26,7 @@
 ;
 #include "cfg_rcz280.asm"
 ;
-CPUOSC		.SET	12000000	; CPU OSC FREQ IN MHZ
+CPUOSC		.SET	24000000	; 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
 ;

Source/HBIOS/Config/RCZ280_zzrcc.asm

@@ -50,7 +50,7 @@ MDROM		.SET	TRUE		; MD: ENABLE ROM DISK
 MDRAM		.SET	TRUE		; MD: ENABLE RAM DISK
 ;
 Z2UENABLE	.SET	TRUE		; Z2U: ENABLE Z280 UART SERIAL DRIVER (Z2U.ASM)
-Z2UOSC		.SET	(CPUOSC / 8)	; Z2U: OSC FREQUENCY IN MHZ
+Z2UOSC		.SET	(CPUOSC / 16)	; Z2U: OSC FREQUENCY IN MHZ
 Z2U0HFC		.SET	TRUE		; Z2U0: ENABLE HARDWARE FLOW CONTROL
 UARTENABLE	.SET	TRUE		; UART: ENABLE 8250/16550-LIKE SERIAL DRIVER (UART.ASM)
 ACIAENABLE	.SET	FALSE		; ACIA: ENABLE MOTOROLA 6850 ACIA DRIVER (ACIA.ASM)

Source/HBIOS/Config/RCZ280_zzrcc_ram.asm

@@ -50,7 +50,7 @@ MDROM		.SET	FALSE		; MD: ENABLE ROM DISK
 MDRAM		.SET	TRUE		; MD: ENABLE RAM DISK
 ;
 Z2UENABLE	.SET	TRUE		; Z2U: ENABLE Z280 UART SERIAL DRIVER (Z2U.ASM)
-Z2UOSC		.SET	(CPUOSC / 8)	; Z2U: OSC FREQUENCY IN MHZ
+Z2UOSC		.SET	(CPUOSC / 16)	; Z2U: OSC FREQUENCY IN MHZ
 Z2U0HFC		.SET	TRUE		; Z2U0: ENABLE HARDWARE FLOW CONTROL
 UARTENABLE	.SET	TRUE		; UART: ENABLE 8250/16550-LIKE SERIAL DRIVER (UART.ASM)
 ACIAENABLE	.SET	FALSE		; ACIA: ENABLE MOTOROLA 6850 ACIA DRIVER (ACIA.ASM)

Source/HBIOS/Config/RCZ80_zrc.asm

@@ -34,8 +34,8 @@ 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	512		; SIZE OF RAM IN KB (MUST MATCH YOUR HARDWARE!!!)
-ROMSIZE		.SET	256		; SIZE OF ROM IN KB (MUST MATCH YOUR HARDWARE!!!)
+RAMSIZE		.SET	1536		; SIZE OF RAM IN KB (MUST MATCH YOUR HARDWARE!!!)
+ROMSIZE		.SET	512		; SIZE OF ROM IN KB (MUST MATCH YOUR HARDWARE!!!)
 MEMMGR		.SET	MM_ZRC		; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180]
 ;
 UARTENABLE	.SET	TRUE		; UART: ENABLE 8250/16550-LIKE SERIAL DRIVER (UART.ASM)

Source/HBIOS/Makefile

@@ -53,6 +53,7 @@ ROMNAME=${ROM_PLATFORM}_${ROM_CONFIG}
 # $(info ROM_PLATFORM=$(ROM_PLATFORM))
 # $(info ROM_CONFIG=$(ROM_CONFIG))
 # $(info ROMSIZE=$(ROMSIZE))
+# $(info RAMSIZE=$(RAMSIZE))
 # $(info ROMNAME=$(ROMNAME))
 # $(info CPUFAM=$(CPUFAM))
 # $(info TASM=$(TASM))
@@ -73,15 +74,15 @@ $(OBJECTS) : $(ROMDEPS)
 	fi
 	if [ $(ROM_PLATFORM) = UNA ] ; then \
 		cp osimg.bin $(DEST)/UNA_WBW_SYS.bin ; \
-		cp ../RomDsk/rom$(ROMSIZE)_una.dat $(DEST)/UNA_WBW_ROM$(ROMSIZE).bin ; \
-		cat ../UBIOS/UNA-BIOS.BIN osimg.bin ../UBIOS/FSFAT.BIN ../RomDsk/rom$(ROMSIZE)_una.dat >$(ROMNAME).rom ; \
+		cp ../RomDsk/rom$(ROMDISKSIZE)_una.dat $(DEST)/UNA_WBW_ROM$(ROMDISKSIZE).bin ; \
+		cat ../UBIOS/UNA-BIOS.BIN osimg.bin ../UBIOS/FSFAT.BIN ../RomDsk/rom$(ROMDISKSIZE)_una.dat >$(ROMNAME).rom ; \
 	else \
 		if [ $(ROMSIZE) -gt 0 ] ; then \
-			cat hbios_rom.bin osimg.bin osimg1.bin osimg2.bin ../RomDsk/rom$(ROMSIZE)_wbw.dat >$(ROMNAME).rom ; \
+			cat hbios_rom.bin osimg.bin osimg1.bin osimg2.bin ../RomDsk/rom$(ROMDISKSIZE)_wbw.dat >$(ROMNAME).rom ; \
 			cat hbios_rom.bin osimg.bin osimg1.bin osimg2.bin >$(ROMNAME).upd ; \
 			cat hbios_app.bin osimg_small.bin > $(ROMNAME).com ; \
 		else \
-			cat hbios_rom.bin osimg.bin osimg1.bin osimg2.bin >$(ROMNAME).rom ; \
+			cat hbios_rom.bin osimg.bin osimg1.bin osimg2.bin ../RomDsk/rom$(RAMDISKSIZE)_wbw.dat >$(ROMNAME).rom ; \
 			cat hbios_rom.bin osimg.bin osimg1.bin osimg2.bin >$(ROMNAME).upd ; \
 			cat hbios_app.bin osimg_small.bin > $(ROMNAME).com ; \
 		fi \

Source/HBIOS/Makefile.new

@@ -0,0 +1,133 @@
+DIST_OBJECTS := \
+	DYNO_std MK4_std N8_std RCZ180_ext RCZ180_nat RCZ180_z1rcc \
+	RCZ280_ext RCZ280_nat RCZ280_zz80mb RCZ280_zzrcc RCZ280_zzrcc_ram \
+	RCZ80_std RCZ80_kio RCZ80_easy RCZ80_tiny RCZ80_skz RCZ80_zrc \
+	RCZ80_zrc_ram RCZ80_zrc512 RPH_std SBC_std SBC_simh MBC_std \
+	DUO_std SCZ180_sc126 SCZ180_sc130 SCZ180_sc131 SCZ180_sc140 \
+	SCZ180_sc503 SCZ180_sc700 S100_std UNA_std Z80RETRO_std \
+	ZETA_std ZETA2_std HEATH_std EPITX_std
+#	RCZ80_mt RCZ80_duart MON_std 
+
+OBJECTS := $(DIST_OBJECTS)
+# OBJECTS := SBC_std MK4_std UNA_std S100_std
+
+OBJECTS := $(OBJECTS:=.rom) $(OBJECTS:=.com) $(OBJECTS:=.upd)
+OBJECTS := $(filter-out UNA_%.com UNA_%.upd,$(OBJECTS))
+
+DEST = ../../Binary
+TOOLS = ../../Tools
+OTHERS := *.img *.rom *.com *.upd *.bin *.hex cpm.sys zsys.sys build.inc
+OTHERS +=  *.build.inc font*.asm *.dat hbios_env.sh
+
+FONTS := font8x11c.asm font8x11u.asm font8x16c.asm font8x16u.asm
+FONTS += font8x8c.asm font8x8u.asm fontcgac.asm fontcgau.asm
+FONTS += fontvgarcc.asm fontvgarcu.asm
+
+BUILD_COMPONENT = \
+	cp $(*F).build.inc build.inc ; \
+	$(TASM) $(TASMFLAGS) $< $@ $(@:.bin=.lst) ; \
+	rm build.inc
+
+SHELL=/bin/bash
+
+include $(TOOLS)/Makefile.inc
+
+font%.asm:
+	cp ../Fonts/$@ .
+
+camel80.bin:
+	cp ../Forth/$@ .
+
+tastybasic.bin:
+	cp ../TastyBasic/src/$@ .
+
+s100mon.bin:
+	$(ZXCC) $(CPM)/SLR180 -s100mon/FH
+	$(ZXCC) $(CPM)/MLOAD25 -s100mon.bin=s100mon
+
+%.build.inc:
+	echo $@
+	echo "; RomWBW Configured for $(*F) at $$(date +%Y-%m-%d)" >>$@
+	echo ";" >>$@
+	echo "#DEFINE TIMESTAMP \"$$(date +%Y-%m-%d)\"" >>$@
+	echo "#DEFINE CONFIG \"$(*F)\"" >>$@
+	echo ";" >>$@
+	echo "#INCLUDE \"Config/$(*F).asm\"" >>$@
+	echo ";" >>$@
+	cat $@
+
+%.usrrom.bin: usrrom.asm %.build.inc ; $(BUILD_COMPONENT)
+%.updater.bin: updater.asm %.build.inc ; $(BUILD_COMPONENT)
+%.eastaegg.bin: eastaegg.asm %.build.inc ; $(BUILD_COMPONENT)
+%.game.bin: game.asm %.build.inc ; $(BUILD_COMPONENT)
+%.nascom.bin: nascom.asm %.build.inc ; $(BUILD_COMPONENT)
+%.romldr.bin: romldr.asm %.build.inc ; $(BUILD_COMPONENT)
+%.dbgmon.bin: dbgmon.asm %.build.inc ; $(BUILD_COMPONENT)
+
+%.hbios_env.com: hbios_env.asm %.build.inc
+	cp $(*F).build.inc build.inc
+	$(TASM) $(TASMFLAGS) -dBASH $< $@ $(@:.com=.lst)
+	rm build.inc
+
+%.hbios_env.sh: %.hbios_env.com
+	$(ZXCC) $< >$@
+
+%.hbios_rom.bin: hbios.asm %.build.inc %.hbios_env.sh $(FONTS)
+	. ./$(*F).hbios_env.sh ; \
+	TARGETS=("" "z80" "hd64180" "z280") ; \
+	CPU=$${TARGETS[$$CPUFAM]} ; \
+	cp $(*F).build.inc build.inc ; \
+	$(BINDIR)/uz80as -t $$CPU -dROMBOOT $< $@ $(@:.bin=.lst) ; \
+	srec_cat $@ -Binary -Crop 0 0x7FFF -Checksum_Negative_Big_Endian 0x7FFF 1 1 -o $@ -Binary ; \
+	rm build.inc
+
+%.hbios_app.bin: hbios.asm %.build.inc %.hbios_env.sh $(FONTS)
+	. ./$(*F).hbios_env.sh ; \
+	TARGETS=("" "z80" "hd64180" "z280") ; \
+	CPU=$${TARGETS[$$CPUFAM]} ; \
+	cp $(*F).build.inc build.inc ; \
+	$(BINDIR)/uz80as -t $$CPU -dAPPBOOT $< $@ $(@:.bin=.lst) ; \
+	rm build.inc
+
+UNA_%.osimg.bin: UNA_%.romldr.bin UNA_%.dbgmon.bin
+	cat UNA_$(*F).romldr.bin UNA_$(*F).dbgmon.bin ../ZSDOS/zsys_una.bin ../CPM22/cpm_una.bin >$@
+	srec_cat $@ -Binary -Crop 0 0x7FFF -Checksum_Negative_Big_Endian 0x7FFF 1 1 -o $@ -Binary
+
+%.osimg.bin: %.romldr.bin %.dbgmon.bin
+	cat $(*F).romldr.bin $(*F).dbgmon.bin ../ZSDOS/zsys_wbw.bin ../CPM22/cpm_wbw.bin >$@
+	srec_cat $@ -Binary -Crop 0 0x7FFF -Checksum_Negative_Big_Endian 0x7FFF 1 1 -o $@ -Binary
+
+%.osimg_small.bin: %.romldr.bin %.dbgmon.bin
+	cat $(*F).romldr.bin $(*F).dbgmon.bin ../ZSDOS/zsys_wbw.bin >$@
+
+%.osimg1.bin: camel80.bin %.nascom.bin tastybasic.bin %.game.bin %.eastaegg.bin netboot.mod %.updater.bin %.usrrom.bin
+	cat camel80.bin $(*F).nascom.bin tastybasic.bin $(*F).game.bin $(*F).eastaegg.bin netboot.mod $(*F).updater.bin $(*F).usrrom.bin >$@
+	srec_cat $@ -Binary -Crop 0 0x7FFF -Checksum_Negative_Big_Endian 0x7FFF 1 1 -o $@ -Binary
+
+S100_%.imgpad2.bin: s100mon.bin
+	cp $< $@
+	srec_cat $@ -Binary -Crop 0 0x7FFF -Checksum_Negative_Big_Endian 0x7FFF 1 1 -o $@ -Binary
+
+%.imgpad2.bin: imgpad2.asm %.build.inc
+	cp $(*F).build.inc build.inc
+	$(TASM) $(TASMFLAGS) $< $@ $(@:.bin=.lst)
+	srec_cat $@ -Binary -Crop 0 0x7FFF -Checksum_Negative_Big_Endian 0x7FFF 1 1 -o $@ -Binary
+	rm build.inc
+
+UNA_%.rom: UNA_%.osimg.bin UNA_%.hbios_env.sh
+	. ./UNA_$(*F).hbios_env.sh ; \
+	cat ../UBIOS/UNA-BIOS.BIN UNA_$(*F).osimg.bin ../UBIOS/FSFAT.BIN ../RomDsk/rom$${ROMDISKSIZE}_una.dat >$@ ; \
+	cp UNA_$(*F).osimg.bin $(DEST)/UNA_WBW_SYS.bin ; \
+	cp ../RomDsk/rom$${ROMDISKSIZE}_una.dat $(DEST)/UNA_WBW_ROM$${ROMDISKSIZE}.bin
+
+%.rom: %.hbios_rom.bin %.osimg.bin %.osimg1.bin %.imgpad2.bin %.hbios_env.sh
+	. ./$(*F).hbios_env.sh ; \
+	if [ $$ROMSIZE -gt 0 ] ; then RD="rom$$ROMDISKSIZE" ; else RD="rom$$RAMDISKSIZE" ; fi ; \
+	cat $(*F).hbios_rom.bin $(*F).osimg.bin $(*F).osimg1.bin $(*F).imgpad2.bin ../RomDsk/$${RD}_wbw.dat >$@
+
+%.com: %.hbios_app.bin %.osimg_small.bin
+	cat $(*F).hbios_app.bin $(*F).osimg_small.bin >$@
+
+%.upd: %.hbios_rom.bin %.osimg.bin %.osimg1.bin %.imgpad2.bin
+	cat $(*F).hbios_rom.bin $(*F).osimg.bin $(*F).osimg1.bin $(*F).imgpad2.bin >$@
+

Source/HBIOS/acia.asm

@@ -178,26 +178,13 @@ ACIA1_INT:
 ;
 ACIA_INTRCV:
         ; CHECK TO SEE IF SOMETHING IS ACTUALLY THERE
-	CALL	DELAY
         LD      C,(IY+3)                ; CMD/STAT PORT TO C
         IN      A,(C)                   ; GET STATUS
-	LD	B,A
-	AND	$01			; ISOLATE READY BIT
-	JR	NZ,ACIA_INTRCV1
-;
-#IF FALSE
-	CALL	PC_LT
-	LD	A,B
-	CALL	PRTHEXBYTE
-	INC	C
-	IN	A,(C)
-	CALL	PRTHEXBYTE
-	CALL	PC_GT
-	OR	$FF
-#ENDIF
-;
-	RET
-	
+        RRA                             ; READY BIT TO CF
+	JR	C,ACIA_INTRCV1		; RECEIVE CHAR
+	XOR	A			; INT NOT HANDLED, CLEAR ZF
+        RET                             ; ... AND RETURN
+
 ;
 ACIA_INTRCV1:
         ; RECEIVE CHARACTER INTO BUFFER
@@ -285,9 +272,9 @@ ACIA_IN:
 ACIA_IN:
         CALL    ACIA_IST                ; SEE IF CHAR AVAILABLE
         JR      Z,ACIA_IN               ; LOOP UNTIL SO
-        HB_DI                           ; AVOID COLLISION WITH INT HANDLER
         LD      L,(IY+6)                ; SET HL TO
         LD      H,(IY+7)                ; ... START OF BUFFER STRUCT
+        HB_DI                           ; AVOID COLLISION WITH INT HANDLER
         LD      A,(HL)                  ; GET COUNT
         DEC     A                       ; DECREMENT COUNT
         LD      (HL),A                  ; SAVE UPDATED COUNT
@@ -322,8 +309,8 @@ ACIA_IN2:
         LD      (HL),E                  ; SAVE UPDATED TAIL PTR
         INC     HL
         LD      (HL),D
-        LD      E,C                     ; MOVE CHAR TO RETURN TO E
         HB_EI                           ; INTERRUPTS OK AGAIN
+        LD      E,C                     ; MOVE CHAR TO RETURN TO E
         XOR     A                       ; SIGNAL SUCCESS
         RET                             ; AND DONE
 ;

Source/HBIOS/ansi.asm

@@ -3,6 +3,10 @@
 ;   ANSI EMULATION MODULE
 ;==================================================================================================
 ;
+; ENHANCED BY: JOSE L. COLLADO -- 12/21/2023 - 
+;  NEW ANSI PRIVATE SEQUENCE TO INIT VDU AND CHANGE DEFAULT COLORS
+;  (SEE ANSI CONTROL SEQUENCE DISPATCHING SECTION BELOW FOR DETAILS)
+;
 ; TODO:
 ;   1) INSERT/DELETE CHARACTERS CTL SEQUENCES
 ;   2) OTHER CTL SEQUENCES?
@@ -61,6 +65,7 @@ ANSI_RESET:
 	LD	(ANSI_ATTR),A	; CLEAR ATTRIBUTES
 	LD	A,ANSI_DEFCOLOR	; DEFAULT COLOR
 	LD	(ANSI_COLOR),A	; RESET COLOR
+	LD	(ANSI_SCOLOR),A	; RESET SCREEN COLOR
 	XOR	A		; ZERO ACCUM
 	LD	(ANSI_WRAP),A	; CLEAR WRAP FLAG
 	LD	(ANSI_LNM),A	; SET LINE FEED NEW LINE MODE
@@ -385,6 +390,17 @@ ANSI_ESCDISP2:	; ESC DISPATCHING FOR '#' INT CHAR
 ;   ANSI CONTROL SEQUENCE DISPATCHING
 ;==================================================================================================
 ;
+;--------------------------------------------------------------------------------------------------
+; ### JLC Mod - NEW ANSI PRIVATE SEQUENCE TO INIT VDU AND CHANGE DEFAULT COLORS ###
+;--------------------------------------------------------------------------------------------------
+; Follows ANSI Standards described in VT100.net for Private Sequences.
+; Implements the ESC Seq.: \ESC[{Num1};{Num2}'{' where '{' is the final char of new Private Sequence.
+;  Initializes the VDU and Changes Default Colors according to the following table:
+;  	{Num1}: 30..37 - Foreground color (black, red, green, yellow, blue, magenta, cyan, white)
+;  	{Num2}: 40..47 - Background color (black, red, green, yellow, blue, magenta, cyan, white)
+;
+; Example: \ESC[37;44{ sets text to white on blue background, \ESC[0{ returns to default colors.
+;
 ANSI_CTLDISP:
 	LD	(ANSI_FINAL),A		; RECORD THE FINAL CHARACTER
 #IF (ANSITRACE >= 2)
@@ -453,6 +469,11 @@ ANSI_STD1:	; DISPATCH FOR FINAL CHAR W/ NO INTERMEDIATE CHAR AND NO PRIVATE CHAR
 	CP	'm'			; SGR: SELECT GRAPHIC RENDITION
 	JP	Z,ANSI_SGR
 	; CHECK FOR ANY OTHERS HERE
+	; ### JLC Mod - New Private Sequence with Parameters checked here...
+	CP	'{'					; SSC: SET SCREEN COLORS
+	JP	Z,ANSI_SSC
+	;
+	; ANY OTHERS ARE IGNORED
 	JR	ANSI_UNK		; UNKNOWN, ABORT
 ;
 ANSI_DEC:	; DISPATCH ON INTERMEDIATE CHAR W/ PRIVATE CHAR = '?' (DEC)
@@ -1147,14 +1168,15 @@ ANSI_SGR1:	; PROCESSING LOOP
 	INC	HL			; POINT TO NEXT PARM
 	DJNZ	ANSI_SGR1		; LOOP TILL DONE
 ;
-	; NOW IMPLEMENT ALL CHANGES
+	; NOW IMPLEMENT ALL CHANGES FOR SGR
 	LD	A,(ANSI_ATTR)		; GET THE ATTRIBUTE VALUE
 	LD	E,A			; MOVE TO E
 	LD	B,BF_VDASAT		; SET ATTRIBUTE FUNCTION
 	CALL	ANSI_VDADISP		; CALL THE FUNCTION
 	LD	A,(ANSI_COLOR)		; GET THE COLOR VALUE
 	LD	E,A			; MOVE TO E
-	LD	B,BF_VDASCO		; SET ATTRIBUTE FUNCTION
+	LD	D,0			; SET INDIVIDUAL CHAR COLORS
+	LD	B,BF_VDASCO		; SET COLOR FUNCTION
 	CALL	ANSI_VDADISP		; CALL THE FUNCTION
 	RET				; RETURN
 ;
@@ -1234,6 +1256,81 @@ ANSI_SGR_BG:
 ;
 ;
 ;
+;......................................................................................
+; ### JLC Mod - Implement new Private Sequence to call VDASCO and Change Default Colors
+;
+ANSI_SSC:	; SET SCREEN COLOR (CUSTOM EXTENSION)
+	LD	A,(ANSI_PARIDX)		; GET CURRENT PARM INDEX
+	INC	A			; INC TO MAKE IT THE COUNT
+	LD	B,A			; B IS NOW LOOP COUNTER
+	LD	HL,ANSI_PARLST		; HL POINTS TO START OF PARM LIST
+;
+ANSI_SSC1:	; PROCESSING LOOP
+	PUSH	BC			; PRESERVE BC
+	PUSH	HL			; PRESERVE HL
+	LD	A,(HL)
+	CALL	ANSI_SSC2		; HANDLE PARM
+	POP	HL			; RESTORE HL
+	POP	BC			; RESTORE BC
+	INC	HL			; POINT TO NEXT PARM
+	DJNZ	ANSI_SSC1		; LOOP TILL DONE
+;
+	; NOW IMPLEMENT ALL CHANGES FOR SSC
+	LD	A,(ANSI_SCOLOR)		; GET THE COLOR VALUE
+	LD	E,A			; MOVE TO E
+	LD	D,1			; SET SCREEN COLORS
+	LD	B,BF_VDASCO		; SET COLOR FUNCTION
+	CALL	ANSI_VDADISP		; CALL THE FUNCTION
+	RET				; RETURN
+;
+ANSI_SSC2:	; HANDLE THE REQUEST CODE
+	CP	0			; ALL OFF
+	JR	Z,ANSI_SSC_OFF		; DO IT
+	CP	30			; START OF FOREGROUND
+	RET	C			; OUT OF RANGE
+	CP	38			; END OF RANGE
+	JR	C,ANSI_SSC_FG		; SET FOREGROUND
+	CP	40			; START OF BACKGROUND
+	RET	C			; OUT OF RANGE
+	CP	48			; END OF RANGE
+	JR	C,ANSI_SSC_BG		; SET BACKGROUND
+	RET				; OTHERWISE OUT OF RANGE
+;
+ANSI_SSC_OFF:
+	LD	A,ANSI_DEFCOLOR		; DEFAULT COLOR
+	LD	(ANSI_SCOLOR),A		; RESET COLOR
+	RET
+;
+ANSI_SSC_BOLD:
+	LD	A,(ANSI_SCOLOR)		; LOAD CURRENT COLOR
+	OR	%00001000		; SET BOLD BIT
+	LD	(ANSI_SCOLOR),A		; SAVE IT
+	RET
+;
+ANSI_SSC_FG:
+	SUB	30
+	LD	E,A
+	LD	A,(ANSI_SCOLOR)
+	AND	%11111000
+	OR	E
+	LD	(ANSI_SCOLOR),A
+	RET
+;
+ANSI_SSC_BG:
+	SUB	40
+	RLCA
+	RLCA
+	RLCA
+	RLCA
+	LD	E,A
+	LD	A,(ANSI_SCOLOR)
+	AND	%10001111
+	OR	E
+	LD	(ANSI_SCOLOR),A
+	RET
+;
+;
+;
 ANSI_DECALN:	; DEC SCREEN ALIGNMENT TEST
 	LD	DE,0		; PREPARE TO HOME CURSOR
 	LD	(ANSI_POS),DE	; SAVE NEW CURSOR POSITION
@@ -1394,7 +1491,8 @@ ANSI_ROWS	.DB	24	; NUMBER OF ROWS ON SCREEN
 ;
 ANSI_STATE	.DW	PANIC		; CURRENT FUNCTION FOR STATE MACHINE
 ANSI_ATTR	.DB	ANSI_DEFATTR	; CURRENT CHARACTER ATTRIBUTE
-ANSI_COLOR	.DB	ANSI_DEFCOLOR	; CURRENT CHARACTER COLOR;
+ANSI_COLOR	.DB	ANSI_DEFCOLOR	; CURRENT CHARACTER FG/BG COLOR
+ANSI_SCOLOR	.DB	ANSI_DEFCOLOR	; CURRENT SCREEN FG/BG COLOR
 ANSI_WRAP	.DB	0		; WRAP PENDING FLAG
 ANSI_TABS	.FILL	32,0		; TAB STOP BIT MAP (256 BITS)
 ANSI_LNM	.DB	0		; LINE FEED NEW LINE MODE FLAG
@@ -1415,3 +1513,25 @@ ANSI_VARLEN	.EQU	$ - ANSI_VARS
 ;
 ANSI_VDAUNIT	.DB	$FF	; VIDEO UNIT NUM OF ATTACHED VDA DEVICE
 ANSI_DEVNUM	.DB	$FF	; TERMINAL DEVICE NUMBER
+;
+;=============================================================
+; BASIC ANSI COLOR TABLE (NIBBLES FOR FOREGROUND & BACKGROUND)
+; ------------------------------------------------------------
+;	 0 Black
+;	 1 Red
+;	 2 Green
+;	 3 Brown
+;	 4 Blue
+;	 5 Magenta
+;	 6 Cyan
+;	 7 White
+;	 8 Gray
+;	 9 Light Red
+;	 A Light Green
+;	 B Yellow
+;	 C Light Blue
+;	 D Light Magenta
+;	 E Light Cyan
+;	 F Bright White
+;=============================================================
+;

Source/HBIOS/cfg_duo.asm

@@ -34,6 +34,7 @@ DEFSERCFG	.EQU	SER_38400_8N1 | SER_RTS	; 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!!!)
+APP_BNKS	.EQU	$FF		; BANKS TO RESERVE FOR APP USE ($FF FOR AUTO SIZING)
 MEMMGR		.EQU	MM_Z2		; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280|MBC|RPH|MON]
 MPGSEL_0	.EQU	$50		; Z2 MEM MGR BANK 0 PAGE SELECT REG (WRITE ONLY)
 MPGSEL_1	.EQU	$51		; Z2 MEM MGR BANK 1 PAGE SELECT REG (WRITE ONLY)
@@ -67,9 +68,11 @@ WDOGMODE	.EQU	WDOG_NONE	; WATCHDOG MODE: WDOG_[NONE|EZZ80|SKZ]
 ;
 FPLED_ENABLE	.EQU	TRUE		; FP: ENABLES FRONT PANEL LEDS
 FPLED_IO	.EQU	$42		; FP: PORT ADDRESS FOR FP LEDS
+FPLED_INV	.EQU	FALSE		; FP: LED BITS ARE INVERTED
 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	$42		; FP: PORT ADDRESS FOR FP SWITCHES
+FPSW_INV	.EQU	FALSE		; FP: SWITCH BITS ARE INVERTED
 ;
 DIAGLVL		.EQU	DL_CRITICAL	; ERROR LEVEL REPORTING
 ;
@@ -78,12 +81,12 @@ LEDMODE		.EQU	LEDMODE_RTC	; LEDMODE_[STD|RTC]
 LEDPORT		.EQU	RTCIO		; STATUS LED PORT ADDRESS
 LEDDISKIO	.EQU	TRUE		; ENABLES DISK I/O ACTIVITY ON STATUS LED
 ;
-DSKYENABLE	.EQU	FALSE		; ENABLES DSKY FUNCTIONALITY
+DSKYENABLE	.EQU	TRUE		; ENABLES DSKY FUNCTIONALITY
 DSKYDSKACT	.EQU	TRUE		; ENABLES DISK ACTIVITY ON DSKY DISPLAY
 ICMENABLE	.EQU	FALSE		; ENABLES ORIGINAL DSKY ICM DRIVER (7218)
-ICMPPIBASE	.EQU	$60		; BASE I/O ADDRESS OF ICM PPI
-PKDENABLE	.EQU	FALSE		; ENABLES DSKY NG PKD DRIVER (8259)
-PKDPPIBASE	.EQU	$60		; BASE I/O ADDRESS OF PKD PPI
+ICMPPIBASE	.EQU	$88		; BASE I/O ADDRESS OF ICM PPI
+PKDENABLE	.EQU	TRUE		; ENABLES DSKY NG PKD DRIVER (8259)
+PKDPPIBASE	.EQU	$88		; BASE I/O ADDRESS OF PKD PPI
 PKDOSC		.EQU	3000000		; OSCILLATOR FREQ FOR PKD (IN HZ)
 H8PENABLE	.EQU	FALSE		; ENABLES HEATH H8 FRONT PANEL
 ;

Source/HBIOS/cfg_dyno.asm

@@ -34,6 +34,7 @@ DEFSERCFG	.EQU	SER_38400_8N1 | SER_RTS	; 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!!!)
+APP_BNKS	.EQU	$FF		; BANKS TO RESERVE FOR APP USE ($FF FOR AUTO SIZING)
 MEMMGR		.EQU	MM_Z180		; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280|MBC|RPH|MON]
 RAMBIAS		.EQU	ROMSIZE		; OFFSET OF START OF RAM IN PHYSICAL ADDRESS SPACE
 MPGSEL_0	.EQU	$78		; Z2 MEM MGR BANK 0 PAGE SELECT REG (WRITE ONLY)
@@ -69,9 +70,11 @@ 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_INV	.EQU	FALSE		; FP: LED BITS ARE INVERTED
 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
+FPSW_INV	.EQU	FALSE		; FP: SWITCH BITS ARE INVERTED
 ;
 DIAGLVL		.EQU	DL_CRITICAL	; ERROR LEVEL REPORTING
 ;

Source/HBIOS/cfg_epitx.asm

@@ -34,6 +34,7 @@ DEFSERCFG	.EQU	SER_115200_8N1 | SER_RTS	; DEFAULT SERIAL LINE CONFIG (SEE STD.AS
 ;
 RAMSIZE		.EQU	512		; SIZE OF RAM IN KB (MUST MATCH YOUR HARDWARE!!!)
 ROMSIZE		.EQU	512		; SIZE OF ROM IN KB (MUST MATCH YOUR HARDWARE!!!)
+APP_BNKS	.EQU	$FF		; BANKS TO RESERVE FOR APP USE ($FF FOR AUTO SIZING)
 MEMMGR		.EQU	MM_Z180		; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280|MBC|RPH|MON]
 RAMBIAS		.EQU	ROMSIZE		; OFFSET OF START OF RAM IN PHYSICAL ADDRESS SPACE
 ;
@@ -70,9 +71,11 @@ 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_INV	.EQU	FALSE		; FP: LED BITS ARE INVERTED
 FPLED_DSKACT	.EQU	FALSE		; 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
+FPSW_INV	.EQU	FALSE		; FP: SWITCH BITS ARE INVERTED
 ;
 DIAGLVL		.EQU	DL_CRITICAL	; ERROR LEVEL REPORTING
 ;

Source/HBIOS/cfg_heath.asm

@@ -34,6 +34,7 @@ DEFSERCFG	.EQU	SER_115200_8N1 | SER_RTS	; DEFAULT SERIAL LINE CONFIG (SEE STD.AS
 ;
 RAMSIZE		.EQU	512		; SIZE OF RAM IN KB (MUST MATCH YOUR HARDWARE!!!)
 ROMSIZE		.EQU	512		; SIZE OF ROM IN KB (MUST MATCH YOUR HARDWARE!!!)
+APP_BNKS	.EQU	$FF		; BANKS TO RESERVE FOR APP USE ($FF FOR AUTO SIZING)
 MEMMGR		.EQU	MM_Z2		; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280|MBC|RPH|MON]
 MPGSEL_0	.EQU	$78		; Z2 MEM MGR BANK 0 PAGE SELECT REG (WRITE ONLY)
 MPGSEL_1	.EQU	$79		; Z2 MEM MGR BANK 1 PAGE SELECT REG (WRITE ONLY)
@@ -69,9 +70,11 @@ WDOGIO		.EQU	$6E		; WATCHDOG REGISTER ADR
 ;
 FPLED_ENABLE	.EQU	FALSE		; FP: ENABLES FRONT PANEL LEDS
 FPLED_IO	.EQU	$00		; FP: PORT ADDRESS FOR FP LEDS
+FPLED_INV	.EQU	FALSE		; FP: LED BITS ARE INVERTED
 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
+FPSW_INV	.EQU	FALSE		; FP: SWITCH BITS ARE INVERTED
 ;
 DIAGLVL		.EQU	DL_CRITICAL	; ERROR LEVEL REPORTING
 ;

Source/HBIOS/cfg_master.asm

@@ -31,6 +31,7 @@ DEFSERCFG	.EQU	SER_38400_8N1 | SER_RTS	; 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!!!)
+APP_BNKS	.EQU	$FF		; BANKS TO RESERVE FOR APP USE ($FF FOR AUTO SIZING)
 MEMMGR		.EQU	MM_NONE		; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280|MBC|RPH|MON]
 RAMBIAS		.EQU	ROMSIZE		; OFFSET OF START OF RAM IN PHYSICAL ADDRESS SPACE
 MPCL_RAM	.EQU	$78		; SBC MEM MGR RAM PAGE SELECT REG (WRITE ONLY)
@@ -98,9 +99,11 @@ WDOGIO		.EQU	$6F		; WATCHDOG REGISTER ADR
 ;
 FPLED_ENABLE	.EQU	FALSE		; FP: ENABLES FRONT PANEL LEDS
 FPLED_IO	.EQU	$00		; FP: PORT ADDRESS FOR FP LEDS
+FPLED_INV	.EQU	FALSE		; FP: LED BITS ARE INVERTED
 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
+FPSW_INV	.EQU	FALSE		; FP: SWITCH BITS ARE INVERTED
 ;
 DIAGLVL		.EQU	DL_CRITICAL	; ERROR LEVEL REPORTING
 ;

Source/HBIOS/cfg_mbc.asm

@@ -34,6 +34,7 @@ DEFSERCFG	.EQU	SER_38400_8N1 | SER_RTS	; 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!!!)
+APP_BNKS	.EQU	$FF		; BANKS TO RESERVE FOR APP USE ($FF FOR AUTO SIZING)
 MEMMGR		.EQU	MM_MBC		; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280|MBC|RPH|MON]
 MPCL_RAM	.EQU	$78		; SBC MEM MGR RAM PAGE SELECT REG (WRITE ONLY)
 MPCL_ROM	.EQU	$7C		; SBC MEM MGR ROM PAGE SELECT REG (WRITE ONLY)
@@ -64,9 +65,11 @@ 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_INV	.EQU	FALSE		; FP: LED BITS ARE INVERTED
 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
+FPSW_INV	.EQU	FALSE		; FP: SWITCH BITS ARE INVERTED
 ;
 DIAGLVL		.EQU	DL_CRITICAL	; ERROR LEVEL REPORTING
 ;

Source/HBIOS/cfg_mk4.asm

@@ -34,6 +34,7 @@ DEFSERCFG	.EQU	SER_38400_8N1 | SER_RTS	; 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!!!)
+APP_BNKS	.EQU	$FF		; BANKS TO RESERVE FOR APP USE ($FF FOR AUTO SIZING)
 MEMMGR		.EQU	MM_Z180		; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280|MBC|RPH|MON]
 RAMBIAS		.EQU	ROMSIZE		; OFFSET OF START OF RAM IN PHYSICAL ADDRESS SPACE
 ;
@@ -69,9 +70,11 @@ 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_INV	.EQU	FALSE		; FP: LED BITS ARE INVERTED
 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
+FPSW_IO		.EQU	$00		; FP: PORT ADDRESS FOR FP SWITCHES
+FPSW_INV	.EQU	FALSE		; FP: SWITCH BITS ARE INVERTED
 ;
 DIAGLVL		.EQU	DL_CRITICAL	; ERROR LEVEL REPORTING
 ;

Source/HBIOS/cfg_mon.asm

@@ -34,6 +34,7 @@ DEFSERCFG	.EQU	SER_115200_8N1 | SER_RTS	; DEFAULT SERIAL LINE CONFIG (SEE STD.AS
 ;
 RAMSIZE		.EQU	512		; SIZE OF RAM IN KB (MUST MATCH YOUR HARDWARE!!!)
 ROMSIZE		.EQU	512		; SIZE OF ROM IN KB (MUST MATCH YOUR HARDWARE!!!)
+APP_BNKS	.EQU	$FF		; BANKS TO RESERVE FOR APP USE ($FF FOR AUTO SIZING)
 MEMMGR		.EQU	MM_MON		; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280|MBC|RPH|MON]
 ;
 RTCIO		.EQU	$C0		; RTC LATCH REGISTER ADR
@@ -64,9 +65,11 @@ WDOGIO		.EQU	$6E		; WATCHDOG REGISTER ADR
 ;
 FPLED_ENABLE	.EQU	FALSE		; FP: ENABLES FRONT PANEL LEDS
 FPLED_IO	.EQU	$00		; FP: PORT ADDRESS FOR FP LEDS
+FPLED_INV	.EQU	FALSE		; FP: LED BITS ARE INVERTED
 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
+FPSW_INV	.EQU	FALSE		; FP: SWITCH BITS ARE INVERTED
 ;
 DIAGLVL		.EQU	DL_CRITICAL	; ERROR LEVEL REPORTING
 ;

Source/HBIOS/cfg_n8.asm

@@ -34,6 +34,7 @@ DEFSERCFG	.EQU	SER_38400_8N1 | SER_RTS	; 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!!!)
+APP_BNKS	.EQU	$FF		; BANKS TO RESERVE FOR APP USE ($FF FOR AUTO SIZING)
 MEMMGR		.EQU	MM_N8		; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280|MBC|RPH|MON]
 RAMBIAS		.EQU	0		; OFFSET OF START OF RAM IN PHYSICAL ADDRESS SPACE
 ;
@@ -71,9 +72,11 @@ 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_INV	.EQU	FALSE		; FP: LED BITS ARE INVERTED
 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
+FPSW_INV	.EQU	FALSE		; FP: SWITCH BITS ARE INVERTED
 ;
 DIAGLVL		.EQU	DL_CRITICAL	; ERROR LEVEL REPORTING
 ;

Source/HBIOS/cfg_rcz180.asm

@@ -34,6 +34,7 @@ DEFSERCFG	.EQU	SER_115200_8N1 | SER_RTS	; DEFAULT SERIAL LINE CONFIG (SEE STD.AS
 ;
 RAMSIZE		.EQU	512		; SIZE OF RAM IN KB (MUST MATCH YOUR HARDWARE!!!)
 ROMSIZE		.EQU	512		; SIZE OF ROM IN KB (MUST MATCH YOUR HARDWARE!!!)
+APP_BNKS	.EQU	$FF		; BANKS TO RESERVE FOR APP USE ($FF FOR AUTO SIZING)
 MEMMGR		.EQU	MM_Z180		; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280|MBC|RPH|MON]
 RAMBIAS		.EQU	ROMSIZE		; OFFSET OF START OF RAM IN PHYSICAL ADDRESS SPACE
 MPGSEL_0	.EQU	$78		; Z2 MEM MGR BANK 0 PAGE SELECT REG (WRITE ONLY)
@@ -75,9 +76,11 @@ 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_INV	.EQU	FALSE		; FP: LED BITS ARE INVERTED
 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
+FPSW_INV	.EQU	FALSE		; FP: SWITCH BITS ARE INVERTED
 ;
 DIAGLVL		.EQU	DL_CRITICAL	; ERROR LEVEL REPORTING
 ;

Source/HBIOS/cfg_rcz280.asm

@@ -28,12 +28,13 @@ 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	12000000	; CPU OSC FREQ IN MHZ
+CPUOSC		.EQU	24000000	; CPU OSC FREQ IN MHZ
 INTMODE		.EQU	0		; INTERRUPTS: 0=NONE, 1=MODE 1, 2=MODE 2, 3=MODE 3 (Z280)
 DEFSERCFG	.EQU	SER_115200_8N1 | SER_RTS	; 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!!!)
+APP_BNKS	.EQU	$FF		; BANKS TO RESERVE FOR APP USE ($FF FOR AUTO SIZING)
 MEMMGR		.EQU	MM_Z2		; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280|MBC|RPH|MON]
 RAMBIAS		.EQU	ROMSIZE		; OFFSET OF START OF RAM IN PHYSICAL ADDRESS SPACE
 MPGSEL_0	.EQU	$78		; Z2 MEM MGR BANK 0 PAGE SELECT REG (WRITE ONLY)
@@ -69,9 +70,11 @@ WDOGMODE	.EQU	WDOG_NONE	; WATCHDOG MODE: WDOG_[NONE|EZZ80|SKZ]
 ;
 FPLED_ENABLE	.EQU	TRUE		; FP: ENABLES FRONT PANEL LEDS
 FPLED_IO	.EQU	$00		; FP: PORT ADDRESS FOR FP LEDS
+FPLED_INV	.EQU	FALSE		; FP: LED BITS ARE INVERTED
 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
+FPSW_INV	.EQU	FALSE		; FP: SWITCH BITS ARE INVERTED
 ;
 DIAGLVL		.EQU	DL_CRITICAL	; ERROR LEVEL REPORTING
 ;

Source/HBIOS/cfg_rcz80.asm

@@ -34,6 +34,7 @@ DEFSERCFG	.EQU	SER_115200_8N1 | SER_RTS	; DEFAULT SERIAL LINE CONFIG (SEE STD.AS
 ;
 RAMSIZE		.EQU	512		; SIZE OF RAM IN KB (MUST MATCH YOUR HARDWARE!!!)
 ROMSIZE		.EQU	512		; SIZE OF ROM IN KB (MUST MATCH YOUR HARDWARE!!!)
+APP_BNKS	.EQU	$FF		; BANKS TO RESERVE FOR APP USE ($FF FOR AUTO SIZING)
 MEMMGR		.EQU	MM_Z2		; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280|MBC|RPH|MON]
 MPGSEL_0	.EQU	$78		; Z2 MEM MGR BANK 0 PAGE SELECT REG (WRITE ONLY)
 MPGSEL_1	.EQU	$79		; Z2 MEM MGR BANK 1 PAGE SELECT REG (WRITE ONLY)
@@ -69,9 +70,11 @@ WDOGIO		.EQU	$6E		; WATCHDOG REGISTER ADR
 ;
 FPLED_ENABLE	.EQU	FALSE		; FP: ENABLES FRONT PANEL LEDS
 FPLED_IO	.EQU	$00		; FP: PORT ADDRESS FOR FP LEDS
+FPLED_INV	.EQU	FALSE		; FP: LED BITS ARE INVERTED
 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
+FPSW_INV	.EQU	FALSE		; FP: SWITCH BITS ARE INVERTED
 ;
 DIAGLVL		.EQU	DL_CRITICAL	; ERROR LEVEL REPORTING
 ;

Source/HBIOS/cfg_rph.asm

@@ -34,6 +34,7 @@ DEFSERCFG	.EQU	SER_38400_8N1 | SER_RTS	; 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!!!)
+APP_BNKS	.EQU	$FF		; BANKS TO RESERVE FOR APP USE ($FF FOR AUTO SIZING)
 MEMMGR		.EQU	MM_RPH		; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280|MBC|RPH|MON]
 RAMBIAS		.EQU	0		; OFFSET OF START OF RAM IN PHYSICAL ADDRESS SPACE
 ;
@@ -69,9 +70,11 @@ 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_INV	.EQU	FALSE		; FP: LED BITS ARE INVERTED
 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
+FPSW_INV	.EQU	FALSE		; FP: SWITCH BITS ARE INVERTED
 ;
 DIAGLVL		.EQU	DL_CRITICAL	; ERROR LEVEL REPORTING
 ;

Source/HBIOS/cfg_s100.asm

@@ -34,6 +34,7 @@ DEFSERCFG	.EQU	SER_57600_8N1 | SER_RTS	; 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!!!)
+APP_BNKS	.EQU	$FF		; BANKS TO RESERVE FOR APP USE ($FF FOR AUTO SIZING)
 MEMMGR		.EQU	MM_Z180		; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280|MBC|RPH|MON]
 RAMBIAS		.EQU	ROMSIZE		; OFFSET OF START OF RAM IN PHYSICAL ADDRESS SPACE
 MPGSEL_0	.EQU	$78		; Z2 MEM MGR BANK 0 PAGE SELECT REG (WRITE ONLY)
@@ -69,9 +70,11 @@ WDOGMODE	.EQU	WDOG_NONE	; WATCHDOG MODE: WDOG_[NONE|EZZ80|SKZ]
 ;
 FPLED_ENABLE	.EQU	TRUE		; FP: ENABLES FRONT PANEL LEDS
 FPLED_IO	.EQU	$00		; FP: PORT ADDRESS FOR FP LEDS
+FPLED_INV	.EQU	FALSE		; FP: LED BITS ARE INVERTED
 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
+FPSW_INV	.EQU	FALSE		; FP: SWITCH BITS ARE INVERTED
 ;
 DIAGLVL		.EQU	DL_CRITICAL	; ERROR LEVEL REPORTING
 ;

Source/HBIOS/cfg_sbc.asm

@@ -34,6 +34,7 @@ DEFSERCFG	.EQU	SER_38400_8N1 | SER_RTS	; 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!!!)
+APP_BNKS	.EQU	$FF		; BANKS TO RESERVE FOR APP USE ($FF FOR AUTO SIZING)
 MEMMGR		.EQU	MM_SBC		; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280|MBC|RPH|MON]
 MPCL_RAM	.EQU	$78		; SBC MEM MGR RAM PAGE SELECT REG (WRITE ONLY)
 MPCL_ROM	.EQU	$7C		; SBC MEM MGR ROM PAGE SELECT REG (WRITE ONLY)
@@ -64,9 +65,11 @@ 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_INV	.EQU	FALSE		; FP: LED BITS ARE INVERTED
 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
+FPSW_INV	.EQU	FALSE		; FP: SWITCH BITS ARE INVERTED
 ;
 DIAGLVL		.EQU	DL_CRITICAL	; ERROR LEVEL REPORTING
 ;

Source/HBIOS/cfg_scz180.asm

@@ -34,6 +34,7 @@ DEFSERCFG	.EQU	SER_115200_8N1 | SER_RTS	; DEFAULT SERIAL LINE CONFIG (SEE STD.AS
 ;
 RAMSIZE		.EQU	512		; SIZE OF RAM IN KB (MUST MATCH YOUR HARDWARE!!!)
 ROMSIZE		.EQU	512		; SIZE OF ROM IN KB (MUST MATCH YOUR HARDWARE!!!)
+APP_BNKS	.EQU	$FF		; BANKS TO RESERVE FOR APP USE ($FF FOR AUTO SIZING)
 MEMMGR		.EQU	MM_Z180		; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280|MBC|RPH|MON]
 RAMBIAS		.EQU	ROMSIZE		; OFFSET OF START OF RAM IN PHYSICAL ADDRESS SPACE
 MPGSEL_0	.EQU	$78		; Z2 MEM MGR BANK 0 PAGE SELECT REG (WRITE ONLY)
@@ -69,9 +70,11 @@ WDOGMODE	.EQU	WDOG_NONE	; WATCHDOG MODE: WDOG_[NONE|EZZ80|SKZ]
 ;
 FPLED_ENABLE	.EQU	TRUE		; FP: ENABLES FRONT PANEL LEDS
 FPLED_IO	.EQU	$00		; FP: PORT ADDRESS FOR FP LEDS
+FPLED_INV	.EQU	FALSE		; FP: LED BITS ARE INVERTED
 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
+FPSW_INV	.EQU	FALSE		; FP: SWITCH BITS ARE INVERTED
 ;
 DIAGLVL		.EQU	DL_CRITICAL	; ERROR LEVEL REPORTING
 ;

Source/HBIOS/cfg_una.asm

@@ -32,6 +32,10 @@ INTMODE		.EQU	0		; INTERRUPTS: 0=NONE, 1=MODE 1, 2=MODE 2, 3=MODE 3 (Z280)
 ;
 RAMSIZE		.EQU	512		; SIZE OF RAM IN KB (MUST MATCH YOUR HARDWARE!!!)
 ROMSIZE		.EQU	512		; SIZE OF ROM IN KB (MUST MATCH YOUR HARDWARE!!!)
+APP_BNKS	.EQU	0		; NOT SUPPORTED ON UNA
+;
+MDROM		.EQU	TRUE		; MD: ENABLE ROM DISK
+MDRAM		.EQU	TRUE		; MD: ENABLE RAM DISK
 ;
 RTCIO		.EQU	$70		; RTC LATCH REGISTER ADR
 ;

Source/HBIOS/cfg_z80retro.asm

@@ -34,6 +34,7 @@ DEFSERCFG	.EQU	SER_38400_8N1 | SER_RTS	; 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!!!)
+APP_BNKS	.EQU	$FF		; BANKS TO RESERVE FOR APP USE ($FF FOR AUTO SIZING)
 MEMMGR		.EQU	MM_Z2		; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280|MBC|RPH|MON]
 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)
@@ -67,9 +68,11 @@ 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_INV	.EQU	FALSE		; FP: LED BITS ARE INVERTED
 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
+FPSW_INV	.EQU	FALSE		; FP: SWITCH BITS ARE INVERTED
 ;
 DIAGLVL		.EQU	DL_CRITICAL	; ERROR LEVEL REPORTING
 ;

Source/HBIOS/cfg_zeta.asm

@@ -34,6 +34,7 @@ DEFSERCFG	.EQU	SER_38400_8N1 | SER_RTS	; 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!!!)
+APP_BNKS	.EQU	$FF		; BANKS TO RESERVE FOR APP USE ($FF FOR AUTO SIZING)
 MEMMGR		.EQU	MM_SBC		; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280|MBC|RPH|MON]
 MPCL_RAM	.EQU	$78		; SBC MEM MGR RAM PAGE SELECT REG (WRITE ONLY)
 MPCL_ROM	.EQU	$7C		; SBC MEM MGR ROM PAGE SELECT REG (WRITE ONLY)
@@ -56,9 +57,11 @@ 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_INV	.EQU	FALSE		; FP: LED BITS ARE INVERTED
 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
+FPSW_INV	.EQU	FALSE		; FP: SWITCH BITS ARE INVERTED
 ;
 DIAGLVL		.EQU	DL_CRITICAL	; ERROR LEVEL REPORTING
 ;

Source/HBIOS/cfg_zeta2.asm

@@ -34,6 +34,7 @@ DEFSERCFG	.EQU	SER_38400_8N1 | SER_RTS	; 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!!!)
+APP_BNKS	.EQU	$FF		; BANKS TO RESERVE FOR APP USE ($FF FOR AUTO SIZING)
 MEMMGR		.EQU	MM_Z2		; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280|MBC|RPH|MON]
 MPGSEL_0	.EQU	$78		; Z2 MEM MGR BANK 0 PAGE SELECT REG (WRITE ONLY)
 MPGSEL_1	.EQU	$79		; Z2 MEM MGR BANK 1 PAGE SELECT REG (WRITE ONLY)
@@ -67,9 +68,11 @@ 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_INV	.EQU	FALSE		; FP: LED BITS ARE INVERTED
 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
+FPSW_INV	.EQU	FALSE		; FP: SWITCH BITS ARE INVERTED
 ;
 DIAGLVL		.EQU	DL_CRITICAL	; ERROR LEVEL REPORTING
 ;

Source/HBIOS/chsd.asm

@@ -0,0 +1,685 @@
+;
+;==================================================================================================
+; CH376 SD CARD SUB-DRIVER
+;==================================================================================================
+;
+; Thanks and credit to Alan Cox.  Much of this driver is based on
+; his code in FUZIX (https://github.com/EtchedPixels/FUZIX).
+;
+; This file contains the SD Card specific support for the CH37x
+; driver.  This file is included by the core driver file (ch.asm) as
+; needed.  Note that only the CH376 actually supports SD Card access.
+;
+; The SD Card support is implemented using the CH376 file-level
+; support.  It is *not* possible to access SD Cards using raw
+; sector I/O.
+;
+; TODO:
+;  - Implement auto-recovery on error status?
+;
+#DEFINE	CHSD_IMGFILE "DISK.IMG"
+;
+CHSD_FASTIO	.EQU	TRUE		; USE INIR/OTIR?
+;
+; CHUSB DEVICE STATUS
+;
+CHSD_STOK	.EQU	0
+CHSD_STNOMEDIA	.EQU	-1
+CHSD_STCMDERR	.EQU	-2
+CHSD_STIOERR	.EQU	-3
+CHSD_STTO	.EQU	-4
+CHSD_STNOTSUP	.EQU	-5
+CHSD_STNOFILE	.EQU	-6
+;
+; CHSD DEVICE CONFIGURATION
+;
+CHSD_CFGSIZ	.EQU	14		; SIZE OF USB CFG TBL ENTRIES
+;
+; CONFIG ENTRY DATA OFFSETS
+;
+; THE LOCATION OF CHSD_MODE IS SHARED BY ALL SUB-DRIVERS AND THE
+; CH_SETMODE FUNCTION IN THE MAIN DRIVER (CH.ASM).  IF YOU CHANGE
+; IT, YOU MUST SYNC UP THE MAIN DRIVER AND ALL SUB-DRIVERS!
+;
+; FIRST 3 BYTES SAME AS CH CONFIG
+CHSD_STAT	.EQU	3		; LAST STATUS (BYTE)
+CHSD_MEDCAP	.EQU	4		; MEDIA CAPACITY (DWORD)
+CHSD_LBA	.EQU	8		; CURRENT LBA (DWORD)
+CHSD_MODE	.EQU	12		; PTR TO MODE BYTE (WORD)
+;
+CHSD_CFGTBL:
+;
+#IF (CHCNT >= 1)
+CHSD_CFG0:
+	.DB	0			; DEV NUM, FILLED DYNAMICALLY
+	.DB	CHTYP_NONE		; DEV TYPE, FILLED DYNCAMICALLY
+	.DB	CH0BASE			; IO BASE ADDRESS
+	.DB	0			; DEVICE STATUS
+	.DW	0,0			; DEVICE CAPACITY
+	.DW	0,0			; CURRENT LBA
+	.DW	CH0_MODE		; POINTER TO MODE BYTE
+;
+  #IF (CH0SDENABLE)
+	.ECHO	"CHSD: IO="
+	.ECHO	CH0BASE
+	.ECHO	"\n"
+  #ENDIF
+#ENDIF
+;
+#IF (CHCNT >= 2)
+CHSD_CFG1:
+	.DB	0			; DEV NUM
+	.DB	CHTYP_NONE		; DEV TYPE, FILLED DYNCAMICALLY
+	.DB	CH1BASE			; IO BASE ADDRESS
+	.DB	0			; DEVICE STATUS
+	.DW	0,0			; DEVICE CAPACITY
+	.DW	0,0			; CURRENT LBA
+	.DW	CH1_MODE		; POINTER TO MODE BYTE
+;
+  #IF (CH1SDENABLE)
+	.ECHO	"CHSD: IO="
+	.ECHO	CH1BASE
+	.ECHO	"\n"
+  #ENDIF
+#ENDIF
+;
+#IF ($ - CHSD_CFGTBL) != (CHCNT * CHSD_CFGSIZ)
+	.ECHO	"*** INVALID CHSD CONFIG TABLE ***\n"
+#ENDIF
+;
+	.DB	$FF			; END OF TABLE MARKER
+;
+;
+;
+CHSD_INIT:
+	LD	A,(IY+CH_TYPE)		; GET DEVICE TYPE
+	PUSH	HL			; COPY INCOMING HL
+	POP	IY			; ... TO IY
+	LD	(IY+CH_TYPE),A		; SAVE DEVICE TYPE
+;
+	; UPDATE DRIVER RELATIVE UNIT NUMBER IN CONFIG TABLE
+	LD	A,(CHSD_DEVNUM)		; GET NEXT UNIT NUM TO ASSIGN
+	LD	(IY+CH_DEV),A		; UPDATE IT
+	INC	A			; BUMP TO NEXT UNIT NUM TO ASSIGN
+	LD	(CHSD_DEVNUM),A		; SAVE IT
+;
+	; ADD UNIT TO GLOBAL DISK UNIT TABLE
+	LD	BC,CHSD_FNTBL		; BC := FUNC TABLE ADR
+	PUSH	IY			; CFG ENTRY POINTER
+	POP	DE			; COPY TO DE
+	CALL	DIO_ADDENT		; ADD ENTRY TO GLOBAL DISK DEV TABLE
+;
+	CALL	CHSD_RESET		; RESET & DISCOVER MEDIA
+#IF (CHSDTRACE <= 1)
+	CALL	NZ,CHSD_PRTSTAT
+#ENDIF
+	RET	NZ			; ABORT ON FAILURE
+;
+	; START PRINTING DEVICE INFO
+	CALL	CHSD_PRTPREFIX		; PRINT DEVICE PREFIX
+;
+	; PRINT STORAGE CAPACITY (BLOCK COUNT)
+	PRTS(" BLOCKS=0x$")		; PRINT FIELD LABEL
+	LD	A,CHSD_MEDCAP		; OFFSET TO CAPACITY FIELD
+	CALL	LDHLIYA			; HL := IY + A, REG A TRASHED
+	CALL	LD32			; GET THE CAPACITY VALUE
+	CALL	PRTHEX32		; PRINT HEX VALUE
+;
+	; PRINT STORAGE SIZE IN MB
+	PRTS(" SIZE=$")			; PRINT FIELD LABEL
+	LD	B,11			; 11 BIT SHIFT TO CONVERT BLOCKS --> MB
+	CALL	SRL32			; RIGHT SHIFT
+	CALL	PRTDEC32		; PRINT DWORD IN DECIMAL
+	PRTS("MB$")			; PRINT SUFFIX
+;
+	XOR	A			; SIGNAL SUCCESS
+	RET
+;
+; DRIVER FUNCTION TABLE
+;
+CHSD_FNTBL:
+	.DW	CHSD_STATUS
+	.DW	CHSD_RESET
+	.DW	CHSD_SEEK
+	.DW	CHSD_READ
+	.DW	CHSD_WRITE
+	.DW	CHSD_VERIFY
+	.DW	CHSD_FORMAT
+	.DW	CHSD_DEVICE
+	.DW	CHSD_MEDIA
+	.DW	CHSD_DEFMED
+	.DW	CHSD_CAP
+	.DW	CHSD_GEOM
+#IF (($ - CHSD_FNTBL) != (DIO_FNCNT * 2))
+	.ECHO	"*** INVALID CHSD FUNCTION TABLE ***\n"
+#ENDIF
+;
+CHSD_VERIFY:
+CHSD_FORMAT:
+CHSD_DEFMED:
+	SYSCHKERR(ERR_NOTIMPL)		; NOT IMPLEMENTED
+	RET
+;
+;
+;
+CHSD_READ:
+	LD	A,CH_MODE_SD		; REQUEST SD MODE
+	CALL	CH_SETMODE		; DO IT
+	JP	NZ,CHSD_CMDERR		; HANDLE ERROR
+;
+	CALL	HB_DSKREAD		; HOOK HBIOS DISK READ SUPERVISOR
+	LD	(CHSD_DSKBUF),HL	; SAVE DISK BUFFER ADDRESS
+	CALL	CHSD_RWSTART		; SET LBA OFFSET
+	RET	NZ
+;
+	;PRTS("\n\rREAD:$")		; *DEBUG*
+	LD	A,CH_CMD_BYTERD		; BYTE READ
+	CALL	CH_CMD			; SEND COMMAND
+	CALL	CH_NAP
+	LD	A,0			; LSB
+	CALL	CH_WR			; SEND IT
+	LD	A,2			; MSB
+	CALL	CH_WR			; SEND IT
+	CALL	CH_POLL			; GET RESULT
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+	CP	$1D			; DATA READY TO READ?
+	JP	NZ,CHSD_IOERR		; HANDLE I/O ERROR
+;
+	LD	HL,(CHSD_DSKBUF)
+CHSD_READ1:
+	CALL	CH_CMD_RD		; SEND READ USB DATA CMD
+	CALL	CH_RD			; GET DATA LENGTH
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+;
+#IF (CHSD_FASTIO)
+	LD	B,A			; BYTE COUNT TO READ
+	LD	C,(IY+CH_IOBASE)	; BASE PORT
+	INIR				; DO IT FAST
+#ELSE
+	LD	B,A			; SAVE IT
+CHSD_READ2:
+	CALL	CH_RD			; GET DATA BYTE
+	LD	(HL),A			; SAVE IN BUFFER
+	INC	HL			; INC BUF PTR
+	DJNZ	CHSD_READ2		; LOOP TILL DONE W/ ALL BYTES
+#ENDIF
+;
+	LD	A,CH_CMD_BYTERDGO	; BYTE READ GO COMMAND
+	CALL	CH_CMD			; SEND IT
+	CALL	CH_NAP
+	CALL	CH_POLL			; GET RESULT
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+	CP	$1D			; MORE?
+	JR	Z,CHSD_READ1		; IF SO, GET MORE
+	CP	$14			; GOOD FINISH?
+	JP	NZ,CHSD_IOERR		; HANDLE ERROR
+;
+	; INCREMENT LBA
+	PUSH	HL			; SAVE HL
+	LD	A,CHSD_LBA		; LBA OFFSET
+	CALL	LDHLIYA			; HL := IY + A, REG A TRASHED
+	CALL	INC32HL			; INCREMENT THE VALUE
+	POP	HL			; RESTORE HL
+;
+	XOR	A			; SIGNAL SUCCESS
+	RET
+;
+;
+;
+CHSD_WRITE:
+	LD	A,CH_MODE_SD		; REQUEST SD MODE
+	CALL	CH_SETMODE		; DO IT
+	JP	NZ,CHSD_CMDERR		; HANDLE ERROR
+;
+	CALL	HB_DSKWRITE		; HOOK HBIOS DISK WRITE SUPERVISOR
+	LD	(CHSD_DSKBUF),HL	; SAVE DISK BUFFER ADDRESS
+	CALL	CHSD_RWSTART		; SET LBA OFFSET'
+	RET	NZ
+;
+	;PRTS("\n\rWRITE:$")		; *DEBUG*
+	LD	A,CH_CMD_BYTEWR		; BYTE WRITE
+	CALL	CH_CMD			; SEND COMMAND
+	LD	A,0			; LSB
+	CALL	CH_WR			; SEND IT
+	LD	A,2			; MSB
+	CALL	CH_WR			; SEND IT
+	CALL	CH_POLL			; GET RESULT
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+	CP	$1E			; DATA READY TO GO?
+	JP	NZ,CHSD_IOERR		; HANDLE I/O ERROR
+;
+	LD	HL,(CHSD_DSKBUF)
+CHSD_WRITE1:
+	LD	A,CH_CMD_WRREQDAT	; WRITE REQUESTED DATA CMD
+	CALL	CH_CMD			; SEND IT
+	CALL	CH_RD			; GET DATA LENGTH
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+;
+#IF (CHSD_FASTIO)
+	LD	B,A			; BYTE COUNT TO WRITE
+	LD	C,(IY+CH_IOBASE)	; BASE PORT
+	OTIR				; DO IT FAST
+#ELSE
+	LD	B,A			; SAVE IT
+CHSD_WRITE2:
+	CALL	CH_WR			; WRITE DATA BYTE
+	LD	(HL),A			; SAVE IN BUFFER
+	INC	HL			; INC BUF PTR
+	DJNZ	CHSD_WRITE2		; LOOP TILL DONE W/ ALL BYTES
+#ENDIF
+;
+	LD	A,CH_CMD_BYTEWRGO	; BYTE WRITE GO COMMAND
+	CALL	CH_CMD			; SEND IT
+	CALL	CH_NAP
+	CALL	CH_POLL			; GET RESULT
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+	CP	$1E			; MORE?
+	JR	Z,CHSD_WRITE1		; IF SO, SEND MORE
+	CP	$14			; GOOD FINISH?
+	JP	NZ,CHSD_IOERR		; HANDLE ERROR
+;
+	; INCREMENT LBA
+	PUSH	HL			; SAVE HL
+	LD	A,CHSD_LBA		; LBA OFFSET
+	CALL	LDHLIYA			; HL := IY + A, REG A TRASHED
+	CALL	INC32HL			; INCREMENT THE VALUE
+	POP	HL			; RESTORE HL
+;
+	XOR	A			; SIGNAL SUCCESS
+	RET
+;
+; SEEK TO CURRENT LBA
+;
+CHSD_RWSTART:
+	;PRTS("\n\rRWST:$")		; *DEBUG*
+	LD	A,CH_CMD_BYTE_LOC	; BYTE LOCATE COMMAND (SEEK)
+	CALL	CH_CMD			; SEND IT
+;
+	; GET CURRENT LBA OFFSET
+	LD	A,CHSD_LBA		; OFFSET TO CAPACITY FIELD
+	CALL	LDHLIYA			; HL := IY + A, REG A TRASHED
+	CALL	LD32			; OFFSET = DE:HL
+;
+	; CONVERT OFFSET FROM LBA TO BYTE
+	LD	B,9
+CHSD_RWSTART1:
+	SLA	L
+	RL	H
+	RL	E
+	RL	D
+	DJNZ	CHSD_RWSTART1
+	;CALL	PRTHEX32		; *DEBUG*
+;
+	; SEND THE BYTE OFFSET (LSB FIRST)
+	LD	A,L
+	CALL	CH_WR
+	LD	A,H
+	CALL	CH_WR
+	LD	A,E
+	CALL	CH_WR
+	LD	A,D
+	CALL	CH_WR
+;
+	CALL	CH_POLL			; WAIT FOR RESPONSE
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+	CP	$14			; CHECK RESULT
+	JP	NZ,CHSD_CMDERR		; HANDLE CMD ERROR
+;
+	XOR	A
+	RET
+;
+;
+;
+CHSD_STATUS:
+	; RETURN UNIT STATUS
+	LD	A,(IY+CHSD_STAT)	; GET STATUS OF SELECTED DEVICE
+	OR	A			; SET FLAGS
+	RET				; AND RETURN
+;
+; RESET THE INTERFACE AND REDISCOVER MEDIA
+;
+CHSD_RESET:
+	;PRTS("\n\rRES SD:$")		; *DEBUG*
+;
+	; ACTIVATE SD MODE
+	LD	A,CH_CMD_MODE		; SET MODE COMMAND
+	CALL	CH_CMD			; SEND IT
+	LD	A,3			; SD MODE
+	CALL	CH_WR			; SEND IT
+	CALL	CH_NAP			; SMALL WAIT
+	CALL	CH_RD			; GET RESULT
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+	CALL	CH_NAP			; SMALL WAIT
+;
+	LD	A,CH_MODE_SD		; WE ARE NOW IN SD MODE
+	LD	L,(IY+CHSD_MODE+0)	; GET MODE PTR (LSB)
+	LD	H,(IY+CHSD_MODE+1)	; GET MODE PTR (MSB)
+	LD	(HL),A			; SAVE IT
+;
+	CALL	CHSD_DSKMNT		; MOUNT DISK
+	RET	NZ
+;
+	; OPEN DISK IMAGE FILE
+	LD	DE,CHSD_FNAME
+	CALL	CHSD_FOPEN
+	RET	NZ
+;
+	; GET FILESIZE
+	CALL	CHSD_FILESIZE
+	RET	NZ
+;
+	; SET STATUS AND RETURN
+	XOR	A			; CLEAR STATUS
+	LD	(IY+CHSD_STAT),A	; RECORD STATUS
+	OR	A			; SET FLAGS
+	RET				; AND RETURN
+;
+;
+;
+CHSD_DEVICE:
+	LD	D,DIODEV_CHSD		; D := DEVICE TYPE
+	LD	E,(IY+CH_DEV)		; E := PHYSICAL DEVICE NUMBER
+	LD	C,%00110010		; SD HARD DISK ATTRIBUTES
+	LD	H,(IY+CH_TYPE)		; H := MODE
+	LD	L,(IY+CH_IOBASE)	; L := BASE I/O ADDRESS
+	XOR	A			; SIGNAL SUCCESS
+	RET
+;
+; CHSD_GETMED
+;
+CHSD_MEDIA:
+	LD	A,E			; GET FLAGS
+	OR	A			; SET FLAGS
+	JR	Z,CHSD_MEDIA1		; JUST REPORT CURRENT STATUS AND MEDIA
+	CALL	CHSD_RESET		; RESET CHSD INTERFACE
+;
+CHSD_MEDIA1:
+	LD	A,(IY+CHSD_STAT)	; GET STATUS
+	OR	A			; SET FLAGS
+	LD	D,0			; NO MEDIA CHANGE DETECTED
+	LD	E,MID_HD		; ASSUME WE ARE OK
+	RET	Z			; RETURN IF GOOD INIT
+	LD	E,MID_NONE		; SIGNAL NO MEDIA
+	LD	A,ERR_NOMEDIA		; NO MEDIA ERROR
+	OR	A			; SET FLAGS
+	RET				; AND RETURN
+;
+;
+;
+CHSD_SEEK:
+	BIT	7,D			; CHECK FOR LBA FLAG
+	CALL	Z,HB_CHS2LBA		; CLEAR MEANS CHS, CONVERT TO LBA
+	RES	7,D			; CLEAR FLAG REGARDLESS (DOES NO HARM IF ALREADY LBA)
+	LD	(IY+CHSD_LBA+0),L	; SAVE NEW LBA
+	LD	(IY+CHSD_LBA+1),H	; ...
+	LD	(IY+CHSD_LBA+2),E	; ...
+	LD	(IY+CHSD_LBA+3),D	; ...
+	XOR	A			; SIGNAL SUCCESS
+	RET				; AND RETURN
+;
+;
+;
+CHSD_CAP:
+	LD	A,(IY+CHSD_STAT)	; GET STATUS
+	PUSH	AF			; SAVE IT
+	LD	A,CHSD_MEDCAP		; OFFSET TO CAPACITY FIELD
+	CALL	LDHLIYA			; HL := IY + A, REG A TRASHED
+	CALL	LD32			; GET THE CURRENT CAPACITY INTO DE:HL
+	LD	BC,512			; 512 BYTES PER BLOCK
+	POP	AF			; RECOVER STATUS
+	OR	A			; SET FLAGS
+	RET
+;
+;
+;
+CHSD_GEOM:
+	; FOR LBA, WE SIMULATE CHS ACCESS USING 16 HEADS AND 16 SECTORS
+	; RETURN HS:CC -> DE:HL, SET HIGH BIT OF D TO INDICATE LBA CAPABLE
+	CALL	CHSD_CAP		; GET TOTAL BLOCKS IN DE:HL, BLOCK SIZE TO BC
+	LD	L,H			; DIVIDE BY 256 FOR # TRACKS
+	LD	H,E			; ... HIGH BYTE DISCARDED, RESULT IN HL
+	LD	D,16 | $80		; HEADS / CYL = 16, SET LBA CAPABILITY BIT
+	LD	E,16			; SECTORS / TRACK = 16
+	RET				; DONE, A STILL HAS CHSD_CAP STATUS
+;
+; CH37X HELPER ROUTINES
+;
+;
+; PERFORM DISK MOUNT
+;
+CHSD_DSKMNT:
+	;PRTS("\n\rMOUNT:$")		; *DEBUG*
+	LD	A,CH_CMD_DSKMNT		; DISK QUERY
+	CALL	CH_CMD			; DO IT
+	CALL	CH_POLL			; WAIT FOR RESPONSE
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+	CP	$82			; NO DISK?
+	JP	Z,CHSD_NOMEDIA		; HANDLE NO MEDIA ERROR
+	CP	$14			; SUCCESS?
+	JP	NZ,CHSD_CMDERR		; HANDLE ERROR
+;
+#IF FALSE
+	CALL	CH_CMD_RD		; SEND READ COMMAND
+	CALL	CH_RD			; GET LENGTH
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+	LD	B,A			; LOOP COUNTER
+	LD	HL,HB_WRKBUF		; USE WORK BUFFER FOR DATA
+CHSD_DSKMNT1:
+	CALL	CH_RD			; GET A BYTE
+	LD	(HL),A			; SAVE IT
+	INC	HL			; BUMP BUF PTR
+	DJNZ	CHSD_DSKMNT1		; LOOP FOR ALL DATA
+;
+	;LD	DE,HB_WRKBUF		; *DEBUG*
+	;CALL	DUMP_BUFFER		; *DEBUG*
+;
+	CALL	CHSD_PRTPREFIX		; PRINT DEVICE PREFIX
+	LD	HL,HB_WRKBUF + 8
+	LD	B,28
+CHSD_DSKMNT2:
+	LD	A,(HL)
+	INC	HL
+	CALL	COUT
+	DJNZ	CHSD_DSKMNT2
+#ENDIF
+;
+	XOR	A
+	RET
+;
+; SET FILE NAME
+;
+CHSD_SETFNAME:
+	;PRTS("\n\rSETFNAME:$")		; *DEBUG*
+	LD	A,CH_CMD_SET_FN		; SET FILE NAME COMMAND
+	CALL	CH_CMD			; SEND IT
+	CALL	CH_NAP
+	;CALL	DELAY			; MAY NOT BE NEEDED
+	;CALL	PC_SPACE		; *DEBUG*
+CHSD_SETFNAME1:
+	;CALL	DELAY
+	LD	A,(DE)			; GET NEXT BYTE
+	INC	DE			; BUMP POINTER
+	CALL	CH_WR			; SEND IT
+	;CALL	COUT			; *DEBUG*
+	OR	A			; CHECK FOR NUL (EOS)
+	RET	Z			; IF NUL, DONE
+	JR	CHSD_SETFNAME1		; SEND MORE CHARACTERS
+;
+; OPEN FILE
+;
+CHSD_FOPEN:
+	CALL	CHSD_SETFNAME
+	;PRTS("\n\rFOPEN:$")		; *DEBUG*
+	LD	A,CH_CMD_FOPEN		; FILE OPEN  COMMAND
+	CALL	CH_CMD			; SEND IT
+	CALL	CH_POLL			; WAIT FOR RESULT
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+	CP	$42			; MISSING FILE?
+	JP	Z,CHSD_NOFILE		; HANDLE ERROR
+	CP	$14			; SUCCESS?
+	JP	NZ,CHSD_IOERR		; HANDLE ERROR
+	RET				; RETURN WITH ZF SET APPROPRIATELY
+;
+; GET FILE SIZE
+;
+CHSD_FILESIZE:
+	;PRTS("\n\rFSIZE:$")
+	LD	A,CH_CMD_FILESIZE	; FILE SIZE COMMAND
+	CALL	CH_CMD			; SEND IT
+	LD	A,$68			; REQUIRED CMD PARAMETER
+	CALL	CH_WR			; SEND IT
+	CALL	CH_NAP
+	LD	A,CHSD_MEDCAP		; MEDIA CAPACITY OFFSET
+	CALL	LDHLIYA			; HL := IY + A, REG A TRASHED
+	PUSH	HL			; SAVE ADDRESS
+	CALL	CH_RD
+	LD	L,A
+	CALL	CH_RD
+	LD	H,A
+	CALL	CH_RD
+	LD	E,A
+	CALL	CH_RD
+	LD	D,A
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEX32		; *DEBUG*
+	LD	B,9			; ROTATE 9 BITS FOR DIV 512
+CHSD_FILESIZE1:
+	SRL	D
+	RR	E
+	RR	H
+	RR	L
+	DJNZ	CHSD_FILESIZE1		; LOOP TILL DONE
+	POP	BC			; RECOVER ADDRESS TO BC
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEX32		; *DEBUG*
+	CALL	ST32			; STORE IT
+	XOR	A			; SIGNAL SUCCESS
+	RET				; AND DONE
+;
+; ERROR HANDLERS
+;
+;
+CHSD_NOFILE:
+	LD	A,CHSD_STNOFILE
+	JR	CHSD_ERR
+;
+CHSD_NOMEDIA:
+	LD	A,CHSD_STNOMEDIA
+	JR	CHSD_ERR
+;
+CHSD_CMDERR:
+	LD	A,CHSD_STCMDERR
+	JR	CHSD_ERR
+;
+CHSD_IOERR:
+	LD	A,CHSD_STIOERR
+	JR	CHSD_ERR
+;
+CHSD_TO:
+	LD	A,CHSD_STTO
+	JR	CHSD_ERR
+;
+CHSD_NOTSUP:
+	LD	A,CHSD_STNOTSUP
+	JR	CHSD_ERR
+;
+CHSD_ERR:
+	LD	(IY+CHSD_STAT),A	; SAVE NEW STATUS
+;
+CHSD_ERR2:
+#IF (CHSDTRACE >= 2)
+	CALL	CHSD_PRTSTAT
+#ENDIF
+	OR	A			; SET FLAGS
+	RET
+;
+;
+;
+CHSD_PRTERR:
+	RET	Z			; DONE IF NO ERRORS
+	; FALL THRU TO CHSD_PRTSTAT
+;
+; PRINT FULL DEVICE STATUS LINE
+;
+CHSD_PRTSTAT:
+	PUSH	AF
+	PUSH	DE
+	PUSH	HL
+	LD	A,(IY+CHSD_STAT)
+	CALL	CHSD_PRTPREFIX		; PRINT UNIT PREFIX
+	CALL	PC_SPACE		; FORMATTING
+	CALL	CHSD_PRTSTATSTR
+	POP	HL
+	POP	DE
+	POP	AF
+	RET
+;
+; PRINT STATUS STRING
+;
+CHSD_PRTSTATSTR:
+	PUSH	AF
+	PUSH	DE
+	PUSH	HL
+	LD	A,(IY+CHSD_STAT)
+	NEG
+	LD	HL,CHSD_STR_ST_MAP
+	ADD	A,A
+	CALL	ADDHLA
+	LD	E,(HL)
+	INC	HL
+	LD	D,(HL)
+	CALL	WRITESTR
+	POP	HL
+	POP	DE
+	POP	AF
+	RET
+;
+; PRINT DIAGNONSTIC PREFIX
+;
+CHSD_PRTPREFIX:
+	PUSH	AF
+	CALL	NEWLINE
+	PRTS("CHSD$")
+	LD	A,(IY+CH_DEV)		; GET CURRENT DEVICE NUM
+	CALL	PRTDECB
+	CALL	PC_COLON
+	POP	AF
+	RET
+;
+; DATA STORAGE
+;
+CHSD_DEVNUM	.DB	0		; TEMP DEVICE NUM USED DURING INIT
+CHSD_DSKBUF	.DW	0
+;
+CHSD_FNAME	.DB	"/", CHSD_IMGFILE, 0
+;
+CHSD_STR_ST_MAP:
+	.DW		CHSD_STR_STOK
+	.DW		CHSD_STR_STNOMEDIA
+	.DW		CHSD_STR_STCMDERR
+	.DW		CHSD_STR_STIOERR
+	.DW		CHSD_STR_STTO
+	.DW		CHSD_STR_STNOTSUP
+	.DW		CHSD_STR_STNOFILE
+;
+CHSD_STR_STOK		.TEXT	"OK$"
+CHSD_STR_STNOMEDIA	.TEXT	"NO MEDIA$"
+CHSD_STR_STCMDERR	.TEXT	"COMMAND ERROR$"
+CHSD_STR_STIOERR	.TEXT	"IO ERROR$"
+CHSD_STR_STTO		.TEXT	"TIMEOUT$"
+CHSD_STR_STNOTSUP	.TEXT	"NOT SUPPORTED$"
+CHSD_STR_STNOFILE	.TEXT	"MISSING "
+			.TEXT	CHSD_IMGFILE
+			.TEXT	" FILE$"
+CHSD_STR_STUNK		.TEXT	"UNKNOWN ERROR$"

Source/HBIOS/chusb.asm

@@ -0,0 +1,792 @@
+;
+;==================================================================================================
+; CH375/376 USB SUB-DRIVER
+;==================================================================================================
+;
+; Thanks and credit to Alan Cox.  Much of this driver is based on
+; his code in FUZIX (https://github.com/EtchedPixels/FUZIX).
+;
+; This file contains the USB Drive specific support for the CH37x
+; driver.  This file is included by the core driver file (ch.asm) as
+; needed.
+;
+; The USB support is implemented as pure raw sector I/O.  The CH376
+; file-level support is not utilized.
+;
+; NOTES:
+;  - There seem to be compatibility issues with older USB thumb drives.
+;    Such drives will complete DISK_INIT successfully, but then return
+;    an error attempting to do any I/O.  The error is $17 indicating
+;    the CH37x encountered an overflow during communication with the
+;    device.   I found that adding a DISK_MOUNT command (only possible
+;    on CH376) resolved the issue for some devices, so that has been
+;    added to the RESET routine when using CH376.
+;
+; TODO:
+;  - Implement auto-recovery on error status?
+;
+CHUSB_FASTIO	.EQU	TRUE		; USE INIR/OTIR?
+;
+; CHUSB DEVICE STATUS
+;
+CHUSB_STOK	.EQU	0
+CHUSB_STNOMEDIA	.EQU	-1
+CHUSB_STCMDERR	.EQU	-2
+CHUSB_STIOERR	.EQU	-3
+CHUSB_STTO	.EQU	-4
+CHUSB_STNOTSUP	.EQU	-5
+;
+; CHUSB DEVICE CONFIGURATION
+;
+CHUSB_CFGSIZ	.EQU	14		; SIZE OF USB CFG TBL ENTRIES
+;
+; CONFIG ENTRY DATA OFFSETS
+;
+; THE LOCATION OF CHSD_MODE IS SHARED BY ALL SUB-DRIVERS AND THE
+; CH_SETMODE FUNCTION IN THE MAIN DRIVER (CH.ASM).  IF YOU CHANGE
+; IT, YOU MUST SYNC UP THE MAIN DRIVER AND ALL SUB-DRIVERS!
+;
+; FIRST 3 BYTES SAME AS CH CONFIG
+CHUSB_STAT	.EQU	3		; LAST STATUS (BYTE)
+CHUSB_MEDCAP	.EQU	4		; MEDIA CAPACITY (DWORD)
+CHUSB_LBA	.EQU	8		; CURRENT LBA (DWORD)
+CHUSB_MODE	.EQU	12		; PTR TO MODE BYTE (WORD)
+;
+CHUSB_CFGTBL:
+;
+#IF (CHCNT >= 1)
+CHUSB_CFG0:
+	.DB	0			; DEV NUM, FILLED DYNAMICALLY
+	.DB	CHTYP_NONE		; DEV TYPE, FILLED DYNCAMICALLY
+	.DB	CH0BASE			; IO BASE ADDRESS
+	.DB	0			; DEVICE STATUS
+	.DW	0,0			; DEVICE CAPACITY
+	.DW	0,0			; CURRENT LBA
+	.DW	CH0_MODE		; POINTER TO MODE BYTE
+;
+  #IF (CH0USBENABLE)
+	.ECHO	"CHUSB: IO="
+	.ECHO	CH0BASE
+	.ECHO	"\n"
+  #ENDIF
+#ENDIF
+;
+#IF (CHCNT >= 2)
+CHUSB_CFG1:
+	.DB	0			; DEV NUM
+	.DB	CHTYP_NONE		; DEV TYPE, FILLED DYNCAMICALLY
+	.DB	CH1BASE			; IO BASE ADDRESS
+	.DB	0			; DEVICE STATUS
+	.DW	0,0			; DEVICE CAPACITY
+	.DW	0,0			; CURRENT LBA
+	.DW	CH1_MODE		; POINTER TO MODE BYTE
+;
+  #IF (CH1USBENABLE)
+	.ECHO	"CHUSB: IO="
+	.ECHO	CH1BASE
+	.ECHO	"\n"
+  #ENDIF
+#ENDIF
+;
+#IF ($ - CHUSB_CFGTBL) != (CHCNT * CHUSB_CFGSIZ)
+	.ECHO	"*** INVALID CHUSB CONFIG TABLE ***\n"
+#ENDIF
+;
+	.DB	$FF			; END OF TABLE MARKER
+;
+;
+;
+CHUSB_INIT:
+	LD	A,(IY+CH_TYPE)		; GET DEVICE TYPE
+	PUSH	HL			; COPY INCOMING HL
+	POP	IY			; ... TO IY
+	LD	(IY+CH_TYPE),A		; SAVE DEVICE TYPE
+;
+	; UPDATE DRIVER RELATIVE UNIT NUMBER IN CONFIG TABLE
+	LD	A,(CHUSB_DEVNUM)	; GET NEXT UNIT NUM TO ASSIGN
+	LD	(IY+CH_DEV),A		; UPDATE IT
+	INC	A			; BUMP TO NEXT UNIT NUM TO ASSIGN
+	LD	(CHUSB_DEVNUM),A	; SAVE IT
+;
+	; ADD UNIT TO GLOBAL DISK UNIT TABLE
+	LD	BC,CHUSB_FNTBL		; BC := FUNC TABLE ADR
+	PUSH	IY			; CFG ENTRY POINTER
+	POP	DE			; COPY TO DE
+	CALL	DIO_ADDENT		; ADD ENTRY TO GLOBAL DISK DEV TABLE
+;
+	CALL	CHUSB_RESET		; RESET & DISCOVER MEDIA
+#IF (CHUSBTRACE <= 1)
+	CALL	NZ,CHUSB_PRTSTAT
+#ENDIF
+	RET	NZ			; ABORT ON FAILURE
+;
+	; START PRINTING DEVICE INFO
+	CALL	CHUSB_PRTPREFIX		; PRINT DEVICE PREFIX
+;
+	; PRINT STORAGE CAPACITY (BLOCK COUNT)
+	PRTS(" BLOCKS=0x$")		; PRINT FIELD LABEL
+	LD	A,CHUSB_MEDCAP		; OFFSET TO CAPACITY FIELD
+	CALL	LDHLIYA			; HL := IY + A, REG A TRASHED
+	CALL	LD32			; GET THE CAPACITY VALUE
+	CALL	PRTHEX32		; PRINT HEX VALUE
+;
+	; PRINT STORAGE SIZE IN MB
+	PRTS(" SIZE=$")			; PRINT FIELD LABEL
+	LD	B,11			; 11 BIT SHIFT TO CONVERT BLOCKS --> MB
+	CALL	SRL32			; RIGHT SHIFT
+	CALL	PRTDEC32		; PRINT DWORD IN DECIMAL
+	PRTS("MB$")			; PRINT SUFFIX
+;
+	XOR	A			; SIGNAL SUCCESS
+	RET
+;
+; DRIVER FUNCTION TABLE
+;
+CHUSB_FNTBL:
+	.DW	CHUSB_STATUS
+	.DW	CHUSB_RESET
+	.DW	CHUSB_SEEK
+	.DW	CHUSB_READ
+	.DW	CHUSB_WRITE
+	.DW	CHUSB_VERIFY
+	.DW	CHUSB_FORMAT
+	.DW	CHUSB_DEVICE
+	.DW	CHUSB_MEDIA
+	.DW	CHUSB_DEFMED
+	.DW	CHUSB_CAP
+	.DW	CHUSB_GEOM
+#IF (($ - CHUSB_FNTBL) != (DIO_FNCNT * 2))
+	.ECHO	"*** INVALID CHUSB FUNCTION TABLE ***\n"
+#ENDIF
+;
+CHUSB_VERIFY:
+CHUSB_FORMAT:
+CHUSB_DEFMED:
+	SYSCHKERR(ERR_NOTIMPL)		; NOT IMPLEMENTED
+	RET
+;
+;
+;
+CHUSB_READ:
+	LD	A,CH_MODE_USB		; REQUEST USB MODE
+	CALL	CH_SETMODE		; DO IT
+	JP	NZ,CHUSB_CMDERR		; HANDLE ERROR
+;
+	CALL	HB_DSKREAD		; HOOK HBIOS DISK READ SUPERVISOR
+	LD	(CHUSB_DSKBUF),HL	; SAVE DISK BUFFER ADDRESS
+	LD	A,CH_CMD_DSKRD		; DISK READ COMMAND
+	CALL	CHUSB_RWSTART		; SEND CMD AND LBA
+;
+	; READ THE SECTOR IN 64 BYTE CHUNKS
+	LD	B,8			; 8 CHUNKS OF 64 FOR 512 BYTE SECTOR
+	LD	HL,(CHUSB_DSKBUF)	; GET DISK BUF ADR
+CHUSB_READ1:
+	CALL	CH_POLL			; WAIT FOR DATA READY
+	CP	$1D			; DATA READY TO READ?
+	;CALL	PC_LT			; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+	JP	NZ,CHUSB_IOERR		; HANDLE IO ERROR
+	CALL	CH_CMD_RD		; SEND READ USB DATA CMD
+	CALL	CH_RD			; READ DATA BLOCK LENGTH
+	CP	64			; AS EXPECTED?
+	JP	NZ,CHUSB_IOERR		; IF NOT, HANDLE ERROR
+;
+#IF (CHUSB_FASTIO)
+	; READ 64 BYTE CHUNK
+	PUSH	BC			; SAVE LOOP CONTROL
+	LD	B,64			; READ 64 BYTES
+	LD	C,(IY+CH_IOBASE)	; BASE PORT
+	INIR				; DO IT FAST
+	POP	BC			; RESTORE LOOP CONTROL
+#ELSE
+	; BYTE READ LOOP
+	PUSH	BC			; SAVE LOOP CONTROL
+	LD	B,64			; READ 64 BYTES
+CHUSB_READ2:
+	CALL	CH_RD			; GET NEXT BYTE
+	LD	(HL),A			; SAVE IT
+	INC	HL			; INC BUF PTR
+	DJNZ	CHUSB_READ2		; LOOP AS NEEDED
+	POP	BC			; RESTORE LOOP CONTROL
+#ENDIF
+;
+	; PREPARE FOR NEXT CHUNK
+	LD	A,CH_CMD_DSKRDGO	; CONTINUE DISK READ
+	CALL	CH_CMD			; SEND IT
+	DJNZ	CHUSB_READ1		; LOOP TILL DONE
+;
+	; FINAL CHECK FOR COMPLETION & SUCCESS
+	CALL	CH_POLL			; WAIT FOR COMPLETION
+	CP	$14			; SUCCESS?
+	JP	NZ,CHUSB_IOERR		; IF NOT, HANDLE ERROR
+;
+	; INCREMENT LBA
+	PUSH	HL			; SAVE HL
+	LD	A,CHUSB_LBA		; LBA OFFSET
+	CALL	LDHLIYA			; HL := IY + A, REG A TRASHED
+	CALL	INC32HL			; INCREMENT THE VALUE
+	POP	HL			; RESTORE HL
+;
+	XOR	A			; SIGNAL SUCCESS
+	RET
+;
+;
+;
+CHUSB_WRITE:
+	LD	A,CH_MODE_USB		; REQUEST USB MODE
+	CALL	CH_SETMODE		; DO IT
+	JP	NZ,CHUSB_CMDERR		; HANDLE ERROR
+;
+	CALL	HB_DSKWRITE		; HOOK HBIOS DISK WRITE SUPERVISOR
+	LD	(CHUSB_DSKBUF),HL	; SAVE DISK BUFFER ADDRESS
+	LD	A,CH_CMD_DSKWR		; DISK READ COMMAND
+	CALL	CHUSB_RWSTART		; SEND CMD AND LBA
+;
+	; WRITE THE SECTOR IN 64 BYTE CHUNKS
+	LD	B,8			; 8 CHUNKS OF 64 FOR 512 BYTE SECTOR
+	LD	HL,(CHUSB_DSKBUF)	; GET DISK BUF ADR
+CHUSB_WRITE1:
+	CALL	CH_POLL			; WAIT FOR DATA READY
+	CP	$1E			; DATA READY TO WRITE
+	;CALL	PC_GT			; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+	JP	NZ,CHUSB_IOERR		; HANDLE IO ERROR
+	CALL	CH_CMD_WR		; SEND WRITE USB DATA CMD
+	LD	A,64			; 64 BYTE CHUNK
+	CALL	CH_WR			; SEND DATA BLOCK LENGTH
+;
+#IF (CHUSB_FASTIO)
+	; WRITE 64 BYTE CHUNK
+	PUSH	BC			; SAVE LOOP CONTROL
+	LD	B,64			; WRITE 64 BYTES
+	LD	C,(IY+CH_IOBASE)	; BASE PORT
+	OTIR				; DO IT FAST
+	POP	BC			; RESTORE LOOP CONTROL
+#ELSE
+	; BYTE WRITE LOOP
+	PUSH	BC			; SAVE LOOP CONTROL
+	LD	B,64			; WRITE 64 BYTES
+CHUSB_WRITE2:
+	LD	A,(HL)			; GET NEXT BYTE
+	INC	HL			; INC BUF PTR
+	CALL	CH_WR			; WRITE NEXT BYTE
+	DJNZ	CHUSB_WRITE2		; LOOP AS NEEDED
+	POP	BC			; RESTORE LOOP CONTROL
+#ENDIF
+;
+	; PREPARE FOR NEXT CHUNK
+	LD	A,CH_CMD_DSKWRGO	; CONTINUE DISK READ
+	CALL	CH_CMD			; SEND IT
+	DJNZ	CHUSB_WRITE1		; LOOP TILL DONE
+;
+	; FINAL CHECK FOR COMPLETION & SUCCESS
+	CALL	CH_POLL			; WAIT FOR COMPLETION
+	CP	$14			; SUCCESS?
+	JP	NZ,CHUSB_IOERR		; IF NOT, HANDLE ERROR
+;
+	; INCREMENT LBA
+	PUSH	HL			; SAVE HL
+	LD	A,CHUSB_LBA		; LBA OFFSET
+	CALL	LDHLIYA			; HL := IY + A, REG A TRASHED
+	CALL	INC32HL			; INCREMENT THE VALUE
+	POP	HL			; RESTORE HL
+;
+	XOR	A			; SIGNAL SUCCESS
+	RET
+;
+; INITIATE A DISK SECTOR READ/WRITE OPERATION
+; A: READ OR WRITE OPCODE
+;
+CHUSB_RWSTART:
+	CALL	CH_CMD			; SEND R/W COMMAND
+;
+	; SEND LBA, 4 BYTES, LITTLE ENDIAN
+	LD	A,CHUSB_LBA		; OFFSET TO CAPACITY FIELD
+	CALL	LDHLIYA			; HL := IY + A, REG A TRASHED
+	LD	B,4			; SEND 4 BYTES
+CHUSB_RWSTART1:
+	LD	A,(HL)			; GET BYTE
+	INC	HL			; BUMP PTR
+	CALL	CH_WR			; SEND BYTE
+	DJNZ	CHUSB_RWSTART1		; LOOP AS NEEDED
+;
+	; REQUEST 1 SECTOR
+	LD	A,1			; 1 SECTOR
+	CALL	CH_WR			; SEND IT
+	RET
+;
+;
+;
+CHUSB_STATUS:
+	; RETURN UNIT STATUS
+	LD	A,(IY+CHUSB_STAT)	; GET STATUS OF SELECTED DEVICE
+	OR	A			; SET FLAGS
+	RET				; AND RETURN
+;
+; RESET THE INTERFACE AND REDISCOVER MEDIA
+;
+CHUSB_RESET:
+	;PRTS("\n\rRES USB:$")		; *DEBUG*
+	;CALL	CH_FLUSH		; DISCARD ANY GARBAGE
+	;CALL	CH_RESET		; FULL CH37X RESET
+;
+	; RESET THE BUS
+	LD	A,CH_CMD_MODE		; SET MODE COMMAND
+	CALL	CH_CMD			; SEND IT
+	LD	A,7			; RESET BUS
+	CALL	CH_WR			; SEND IT
+	CALL	CH_NAP			; SMALL WAIT
+	CALL	CH_RD			; GET RESULT
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+	CALL	CH_NAP			; SMALL WAIT
+;
+	; ACTIVATE USB MODE
+	LD	A,CH_CMD_MODE		; SET MODE COMMAND
+	CALL	CH_CMD			; SEND IT
+	LD	A,6			; USB ENABLED, SEND SOF
+	CALL	CH_WR			; SEND IT
+	CALL	CH_NAP			; SMALL WAIT
+	CALL	CH_RD			; GET RESULT
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+	CALL	CH_NAP			; SMALL WAIT
+;
+	LD	A,CH_MODE_USB		; WE ARE NOW IN USB MODE
+	LD	L,(IY+CHUSB_MODE+0)	; GET MODE PTR (LSB)
+	LD	H,(IY+CHUSB_MODE+1)	; GET MODE PTR (MSB)
+	LD	(HL),A			; SAVE IT
+;
+	; INITIALIZE DISK
+	LD	B,24			; TRY A FEW TIMES
+CHUSB_RESET1:
+	;PRTS("\n\rDSKINIT:$")		; *DEBUG*
+	LD	A,CH_CMD_DSKINIT	; DISK INIT COMMAND
+	CALL	CH_CMD			; SEND IT
+	LD	DE,10000		; 10000 * 16 = 160US ???
+	LD	DE,20000		; 10000 * 16 = 160US ???
+	LD	DE,12500		; 1250 * 16 = 200US ???
+	CALL	VDELAY			; DELAY
+	CALL	CH_POLL			; WAIT FOR RESULT
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+	CP	$14			; SUCCESS?
+	JR	Z,CHUSB_RESET1A		; IF SO, CHECK READY
+	CP	$16			; NO MEDIA
+	JP	Z,CHUSB_NOMEDIA		; HANDLE IT
+	CALL	CH_NAP			; SMALL DELAY
+	DJNZ	CHUSB_RESET1		; LOOP AS NEEDED
+	JP	CHUSB_TO		; HANDLE TIMEOUT
+;
+CHUSB_RESET1A:
+	;CALL	CHUSB_DSKRES		; DISK RESET
+	;CP	$14			; GOOD?
+	;JR	Z,CHUSB_RESET2
+	;CALL	CHUSB_DSKRDY		; CHECK IF DISK READY
+	;CP	$14			; GOOD?
+	;JR	Z,CHUSB_RESET2		; IF SO, MOVE ON
+	;DJNZ	CHUSB_RESET1		; KEEP TRYING
+;
+CHUSB_RESET2:
+	; USE OF CH376 DISK_MOUNT COMMAND SEEMS TO IMPROVE
+	; COMPATIBILITY WITH SOME OLDER USB THUMBDRIVES.
+	LD	A,(IY+CH_TYPE)		; CH37X TYPE?
+	CP	CHTYP_376		; IS CH376?
+	CALL	Z,CHUSB_DSKMNT		; IF SO, TRY MOUNT, IGNORE ERRS
+	;CALL	CHUSB_AUTOSET		; *DEBUG*
+	;CALL	CHUSB_TSTCON		; *DEBUG*
+	;CALL	CHUSB_MAXLUN		; *DEBUG*
+	;CALL	CHUSB_DSKRDY		; *DEBUG*
+	;CALL	CHUSB_DSKINQ		; *DEBUG*
+;;
+	CALL	CHUSB_DSKSIZ		; GET AND RECORD DISK SIZE
+	RET	NZ			; ABORT ON ERROR
+;
+	; SET STATUS AND RETURN
+	XOR	A			; CLEAR STATUS
+	LD	(IY+CHUSB_STAT),A	; RECORD STATUS
+	OR	A			; SET FLAGS
+	RET				; AND RETURN
+;
+;
+;
+CHUSB_DEVICE:
+	LD	D,DIODEV_CHUSB		; D := DEVICE TYPE
+	LD	E,(IY+CH_DEV)		; E := PHYSICAL DEVICE NUMBER
+	LD	C,%00110011		; USB HARD DISK ATTRIBUTES
+	LD	H,(IY+CH_TYPE)		; H := MODE
+	LD	L,(IY+CH_IOBASE)	; L := BASE I/O ADDRESS
+	XOR	A			; SIGNAL SUCCESS
+	RET
+;
+; CHUSB_GETMED
+;
+CHUSB_MEDIA:
+	LD	A,E			; GET FLAGS
+	OR	A			; SET FLAGS
+	JR	Z,CHUSB_MEDIA1		; JUST REPORT CURRENT STATUS AND MEDIA
+	CALL	CHUSB_RESET		; RESET CHUSB INTERFACE
+;
+CHUSB_MEDIA1:
+	LD	A,(IY+CHUSB_STAT)	; GET STATUS
+	OR	A			; SET FLAGS
+	LD	D,0			; NO MEDIA CHANGE DETECTED
+	LD	E,MID_HD		; ASSUME WE ARE OK
+	RET	Z			; RETURN IF GOOD INIT
+	LD	E,MID_NONE		; SIGNAL NO MEDIA
+	LD	A,ERR_NOMEDIA		; NO MEDIA ERROR
+	OR	A			; SET FLAGS
+	RET				; AND RETURN
+;
+;
+;
+CHUSB_SEEK:
+	BIT	7,D			; CHECK FOR LBA FLAG
+	CALL	Z,HB_CHS2LBA		; CLEAR MEANS CHS, CONVERT TO LBA
+	RES	7,D			; CLEAR FLAG REGARDLESS (DOES NO HARM IF ALREADY LBA)
+	LD	(IY+CHUSB_LBA+0),L	; SAVE NEW LBA
+	LD	(IY+CHUSB_LBA+1),H	; ...
+	LD	(IY+CHUSB_LBA+2),E	; ...
+	LD	(IY+CHUSB_LBA+3),D	; ...
+	XOR	A			; SIGNAL SUCCESS
+	RET				; AND RETURN
+;
+;
+;
+CHUSB_CAP:
+	LD	A,(IY+CHUSB_STAT)	; GET STATUS
+	PUSH	AF			; SAVE IT
+	LD	A,CHUSB_MEDCAP		; OFFSET TO CAPACITY FIELD
+	CALL	LDHLIYA			; HL := IY + A, REG A TRASHED
+	CALL	LD32			; GET THE CURRENT CAPACITY INTO DE:HL
+	LD	BC,512			; 512 BYTES PER BLOCK
+	POP	AF			; RECOVER STATUS
+	OR	A			; SET FLAGS
+	RET
+;
+;
+;
+CHUSB_GEOM:
+	; FOR LBA, WE SIMULATE CHS ACCESS USING 16 HEADS AND 16 SECTORS
+	; RETURN HS:CC -> DE:HL, SET HIGH BIT OF D TO INDICATE LBA CAPABLE
+	CALL	CHUSB_CAP		; GET TOTAL BLOCKS IN DE:HL, BLOCK SIZE TO BC
+	LD	L,H			; DIVIDE BY 256 FOR # TRACKS
+	LD	H,E			; ... HIGH BYTE DISCARDED, RESULT IN HL
+	LD	D,16 | $80		; HEADS / CYL = 16, SET LBA CAPABILITY BIT
+	LD	E,16			; SECTORS / TRACK = 16
+	RET				; DONE, A STILL HAS CHUSB_CAP STATUS
+;
+; CH37X HELPER ROUTINES
+;
+;
+; PERFORM DISK MOUNT
+;
+CHUSB_DSKMNT:
+	;PRTS("\n\rMOUNT:$")		; *DEBUG*
+	LD	A,CH_CMD_DSKMNT		; DISK QUERY
+	CALL	CH_CMD			; DO IT
+	CALL	CH_POLL			; WAIT FOR RESPONSE
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+	CP	$14			; SUCCESS?
+	RET	NZ			; ABORT IF NOT
+;
+#IF FALSE
+	CALL	CH_CMD_RD		; SEND READ COMMAND
+	CALL	CH_RD			; GET LENGTH
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+	LD	B,A			; LOOP COUNTER
+	LD	HL,HB_WRKBUF		; USE WORK BUFFER FOR DATA
+CHUSB_DSKMNT1:
+	CALL	CH_RD			; GET A BYTE
+	LD	(HL),A			; SAVE IT
+	INC	HL			; BUMP BUF PTR
+	DJNZ	CHUSB_DSKMNT1		; LOOP FOR ALL DATA
+;
+	;LD	DE,HB_WRKBUF		; *DEBUG*
+	;CALL	DUMP_BUFFER		; *DEBUG*
+;
+	CALL	CHUSB_PRTPREFIX		; PRINT DEVICE PREFIX
+	LD	HL,HB_WRKBUF + 8
+	LD	B,28
+CHUSB_DSKMNT2:
+	LD	A,(HL)
+	INC	HL
+	CALL	COUT
+	DJNZ	CHUSB_DSKMNT2
+#ENDIF
+;
+	XOR	A
+	RET
+;
+; PERFORM DISK SIZE
+;
+CHUSB_DSKSIZ:
+	;PRTS("\n\rDSKSIZ:$")		; *DEBUG*
+	LD	A,CH_CMD_DSKSIZ		; DISK SIZE COMMAND
+	CALL	CH_CMD			; SEND IT
+	CALL	CH_POLL			; WAIT FOR RESULT
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+	CP	$14			; SUCCESS?
+	JP	NZ,CHUSB_CMDERR		; HANDLE CMD ERROR
+	CALL	CH_CMD_RD		; SEND READ USB DATA CMD
+	CALL	CH_RD			; GET RD DATA LEN
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+	CP	$08			; MAKE SURE IT IS 8
+	JP	NZ,CHUSB_CMDERR		; HANDLE CMD ERROR
+	LD	A,CHUSB_MEDCAP		; MEDIA CAPACITY OFFSET
+	CALL	LDHLIYA			; HL := IY + A, REG A TRASHED
+	PUSH	HL			; SAVE ADDRESS
+	CALL	CH_RD
+	LD	D,A
+	CALL	CH_RD
+	LD	E,A
+	CALL	CH_RD
+	LD	H,A
+	CALL	CH_RD
+	LD	L,A
+	CALL	CH_RD
+	CALL	CH_RD
+	CALL	CH_RD
+	CALL	CH_RD
+	POP	BC			; RECOVER ADDRESS TO BC
+	CALL	ST32			; STORE IT
+	XOR	A			; SIGNAL SUCCESS
+	RET				; AND DONE
+;
+#IF FALSE
+;
+; PERFORM DISK INQUIRY
+; BASICALLY THE SCSI INQUIRY COMMAND
+;
+CHUSB_DSKINQ:
+	;PRTS("\n\rINQUIRY:$")		; *DEBUG*
+	LD	A,CH_CMD_DSKINQ		; DISK QUERY
+	CALL	CH_CMD			; DO IT
+	CALL	CH_POLL			; WAIT FOR RESPONSE
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+	CP	$14			; SUCCESS?
+	RET	NZ			; ABORT IF NOT
+	CALL	CH_CMD_RD		; SEND READ COMMAND
+	CALL	CH_RD			; GET LENGTH
+	LD	B,A			; LOOP COUNTER
+	LD	HL,HB_WRKBUF		; USE WORK BUFFER FOR DATA
+DSKINQ1:
+	CALL	CH_RD			; GET A BYTE
+	LD	(HL),A			; SAVE IT
+	INC	HL			; BUMP BUF PTR
+	DJNZ	DSKINQ1			; LOOP FOR ALL DATA
+;
+	;LD	DE,HB_WRKBUF		; *DEBUG*
+	;CALL	DUMP_BUFFER		; *DEBUG*
+;
+	;CALL	CHUSB_PRTPREFIX		; PRINT DEVICE PREFIX
+	;LD	HL,HB_WRKBUF + 8
+	;LD	B,28
+DSKINQ2:
+	;LD	A,(HL)
+	;INC	HL
+	;CALL	COUT
+	;DJNZ	DSKINQ2
+;
+	RET
+;
+; PERFORM SET RETRIES
+;
+CHUSB_SETRETRY:
+	;PRTS("\n\rSETRETRY:$")		; *DEBUG*
+	LD	A,CH_CMD_SETRETRY	; DISK READY
+	CALL	CH_CMD			; DO IT
+	CALL	CH_NAP
+	LD	A,$25			; CONSTANT
+	CALL	CH_WR			; SEND IT
+	CALL	CH_NAP
+	LD	A,$BF			; MAX
+	CALL	CH_WR
+	CALL	CH_NAP
+	CALL	CH_RD			; GET RESULT
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+;
+	RET
+;
+; PERFORM DISK RESET
+;
+CHUSB_DSKRES:
+	;PRTS("\n\rDSKRES:$")		; *DEBUG*
+	LD	A,CH_CMD_DSKRES		; DISK READY
+	CALL	CH_CMD			; DO IT
+	CALL	CH_POLL			; WAIT FOR RESPONSE
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+;
+	RET
+;
+; PERFORM DISK READY
+;
+CHUSB_DSKRDY:
+	;PRTS("\n\rDSKRDY:$")		; *DEBUG*
+	LD	A,CH_CMD_DSKRDY		; DISK READY
+	CALL	CH_CMD			; DO IT
+	CALL	CH_POLL			; WAIT FOR RESPONSE
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+	CP	$14			; *DEBUG*
+	JR	NZ,CHUSB_DSKRDY		; *DEBUG*
+;
+	RET
+;
+; PERFORM AUTO SETUP
+;
+CHUSB_AUTOSET:
+	;PRTS("\n\rAUTOSET:$")		; *DEBUG*
+	LD	A,CH_CMD_AUTOSET	; AUTOMATIC SETUP FOR USB
+	CALL	CH_CMD			; DO IT
+	CALL	LDELAY			; *DEBUG*
+	CALL	CH_POLL			; WAIT FOR RESPONSE
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+;
+	RET
+;
+; PERFORM TEST CONNECT
+;
+CHUSB_TSTCON:
+	;PRTS("\n\rTSTCON:$")		; *DEBUG*
+	LD	A,CH_CMD_TSTCON		; TEST USB DEVICE CONNECT
+	CALL	CH_CMD			; DO IT
+	CALL	CH_NAP			; WAIT A BIT
+	CALL	CH_RD			; GET RESPONSE
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+;
+	RET
+;
+; PERFORM GET MAX LUN
+;
+CHUSB_MAXLUN:
+	;PRTS("\n\rMAXLUN:$")		; *DEBUG*
+	LD	A,CH_CMD_MAXLUN		; TEST USB DEVICE CONNECT
+	CALL	CH_CMD			; DO IT
+	CALL	CH_NAP			; WAIT A BIT
+	LD	A,$38			; CONSTANT
+	CALL	CH_WR			; SEND IT
+	CALL	CH_NAP
+	CALL	CH_RD			; GET RESPONSE
+	;CALL	PC_SPACE		; *DEBUG*
+	;CALL	PRTHEXBYTE		; *DEBUG*
+;
+	RET
+;
+#ENDIF
+;
+; ERROR HANDLERS
+;
+;
+CHUSB_NOMEDIA:
+	LD	A,CHUSB_STNOMEDIA
+	JR	CHUSB_ERR
+;
+CHUSB_CMDERR:
+	LD	A,CHUSB_STCMDERR
+	JR	CHUSB_ERR
+;
+CHUSB_IOERR:
+	LD	A,CHUSB_STIOERR
+	JR	CHUSB_ERR
+;
+CHUSB_TO:
+	LD	A,CHUSB_STTO
+	JR	CHUSB_ERR
+;
+CHUSB_NOTSUP:
+	LD	A,CHUSB_STNOTSUP
+	JR	CHUSB_ERR
+;
+CHUSB_ERR:
+	LD	(IY+CHUSB_STAT),A	; SAVE NEW STATUS
+;
+CHUSB_ERR2:
+#IF (CHUSBTRACE >= 2)
+	CALL	CHUSB_PRTSTAT
+#ENDIF
+	OR	A			; SET FLAGS
+	RET
+;
+;
+;
+CHUSB_PRTERR:
+	RET	Z			; DONE IF NO ERRORS
+	; FALL THRU TO CHUSB_PRTSTAT
+;
+; PRINT FULL DEVICE STATUS LINE
+;
+CHUSB_PRTSTAT:
+	PUSH	AF
+	PUSH	DE
+	PUSH	HL
+	LD	A,(IY+CHUSB_STAT)
+	CALL	CHUSB_PRTPREFIX		; PRINT UNIT PREFIX
+	CALL	PC_SPACE		; FORMATTING
+	CALL	CHUSB_PRTSTATSTR
+	POP	HL
+	POP	DE
+	POP	AF
+	RET
+;
+; PRINT STATUS STRING
+;
+CHUSB_PRTSTATSTR:
+	PUSH	AF
+	PUSH	DE
+	PUSH	HL
+	LD	A,(IY+CHUSB_STAT)
+	NEG
+	LD	HL,CHUSB_STR_ST_MAP
+	ADD	A,A
+	CALL	ADDHLA
+	LD	E,(HL)
+	INC	HL
+	LD	D,(HL)
+	CALL	WRITESTR
+	POP	HL
+	POP	DE
+	POP	AF
+	RET
+;
+; PRINT DIAGNONSTIC PREFIX
+;
+CHUSB_PRTPREFIX:
+	PUSH	AF
+	CALL	NEWLINE
+	PRTS("CHUSB$")
+	LD	A,(IY+CH_DEV)		; GET CURRENT DEVICE NUM
+	CALL	PRTDECB
+	CALL	PC_COLON
+	POP	AF
+	RET
+;
+; DATA STORAGE
+;
+CHUSB_DEVNUM	.DB	0		; TEMP DEVICE NUM USED DURING INIT
+CHUSB_DSKBUF	.DW	0
+;
+CHUSB_STR_ST_MAP:
+	.DW		CHUSB_STR_STOK
+	.DW		CHUSB_STR_STNOMEDIA
+	.DW		CHUSB_STR_STCMDERR
+	.DW		CHUSB_STR_STIOERR
+	.DW		CHUSB_STR_STTO
+	.DW		CHUSB_STR_STNOTSUP
+;
+CHUSB_STR_STOK		.TEXT	"OK$"
+CHUSB_STR_STNOMEDIA	.TEXT	"NO MEDIA$"
+CHUSB_STR_STCMDERR	.TEXT	"COMMAND ERROR$"
+CHUSB_STR_STIOERR	.TEXT	"IO ERROR$"
+CHUSB_STR_STTO		.TEXT	"TIMEOUT$"
+CHUSB_STR_STNOTSUP	.TEXT	"NOT SUPPORTED$"
+CHUSB_STR_STUNK		.TEXT	"UNKNOWN ERROR$"

Source/HBIOS/ctc.asm

@@ -162,7 +162,9 @@ CTCTIVT		.EQU	INT_CTC0A + CTCTIMCH
 ;==================================================================================================
 ;
 CTC_PREINIT:
-	; BLINDLY RESET THE CTC ASSUMING IT IS THERE
+	; BLINDLY RESET THE CTC ASSUMING IT IS THERE.  PER ALAN COX
+	; THE CTC CONFIGURATION IS UNDEFINED AT STARTUP.  THIS SHOULD
+	; PRECLUDE POSSIBLE EXTRANEOUS INTERRUPTS.
 	LD	A,CTC_DEFCFG
 	OUT	(CTCBASE),A
 	OUT	(CTCBASE+1),A

Source/HBIOS/cvdu.asm

@@ -208,6 +208,11 @@ CVDU_VDASAT:
 	RET
 
 CVDU_VDASCO:
+	; WE HANDLE ONLY PER-CHARACTER COLORS (D=0)
+	LD	A,D			; GET CHAR/SCREEN SCOPE
+	OR	A			; CHARACTER?
+	JR	NZ,CVDU_VDASCO_Z	; IF NOT, JUST RETURN
+
 	; INCOMING IS:  IBGRIBGR (I=INTENSITY, B=BLUE, G=GREEN, R=RED)
 	; TRANSFORM TO: ----RGBI (DISCARD BACKGROUND COLOR IN HIGH NIBBLE)
 	XOR	A		; CLEAR A
@@ -221,6 +226,7 @@ CVDU_VDASCO1:
 	AND	%11110000	; CLEAR OUT OLD COLOR BITS
 	OR	E		; STUFF IN THE NEW ONES
 	LD	(CVDU_ATTR),A	; AND SAVE THE RESULT
+CVDU_VDASCO_Z:
 	XOR	A		; SIGNAL SUCCESS
 	RET
 

Source/HBIOS/dbgmon.asm

@@ -1729,20 +1729,27 @@ DSKY_PUTLED:
 	RET
 ;
 DSKY_HIGHLIGHTFWDKEYS:
-	LD	HL,DSKY_HIGHLIGHTFWDKEYLEDS
-	JR 	DSKY_PUTLED
+	LD	DE,DSKY_HIGHLIGHTFWDKEYLEDS
+	JR 	DSKY_HIGHLIGHT
 ;
 DSKY_HIGHLIGHTCMDKEYS:
-	LD	HL,DSKY_HIGHLIGHTCMDKEYLEDS
-	JR 	DSKY_PUTLED
+	LD	DE,DSKY_HIGHLIGHTCMDKEYLEDS
+	JR 	DSKY_HIGHLIGHT
 ;
 DSKY_HIGHLIGHTNUMKEYS:
-	LD	HL,DSKY_HIGHLIGHTNUMKEYLEDS
-	JR 	DSKY_PUTLED
+	LD	DE,DSKY_HIGHLIGHTNUMKEYLEDS
+	JR 	DSKY_HIGHLIGHT
 ;
 DSKY_HIGHLIGHTKEYSOFF:
-	LD	HL,DSKY_HIGHLIGHTKEYLEDSOFF
-	JR 	DSKY_PUTLED
+	LD	DE,DSKY_HIGHLIGHTKEYLEDSOFF
+	JR 	DSKY_HIGHLIGHT
+;
+DSKY_HIGHLIGHT:
+	PUSH	HL
+	EX	DE,HL
+	CALL	DSKY_PUTLED
+	POP	HL
+	RET
 ;
 DSKY_HIGHLIGHTFWDKEYLEDS	.DB 	$00,$00,$00,$30,$00,$00,$00,$00
 DSKY_HIGHLIGHTCMDKEYLEDS	.DB 	$20,$00,$20,$3F,$00,$00,$00,$00

Source/HBIOS/ds1501rtc.asm

@@ -279,8 +279,7 @@ DS1501RTC_GETBYT:
 	LD	E,A
 ;
 	; Return success
-	XOR	
-;
+	XOR	A
 	RET
 ;
 ; RTC Set Byte

Source/HBIOS/gdc.asm

@@ -189,8 +189,13 @@ GDC_VDASAT:	; SET ATTRIBUTES
 	RET
 
 GDC_VDASCO:	; SET COLOR
+	; WE HANDLE ONLY PER-CHARACTER COLORS (D=0)
+	LD	A,D		; GET CHAR/SCREEN SCOPE
+	OR	A		; CHARACTER?
+	JR	NZ,GDC_VDASCO_Z	; IF NOT, JUST RETURN
 	LD	A,E		; GET THE INCOMING COLOR
 	LD	(GDC_COLOR),A	; AND SAVE FOR LATER
+GDC_VDASCO_Z:
 	XOR	A		; SIGNAL SUCCESS
 	RET
 

Source/HBIOS/hbios.asm

@@ -92,12 +92,13 @@ MODCNT	.SET	MODCNT + 1
 ;
 ;
 ;
+#DEFINE ALIGN(N) .FILL	((($+(N-1)) & ~(N-1)) - $)
+;
 #IF (FPLED_ENABLE)
-  #DEFINE DIAG(N)	PUSH AF
-  #DEFCONT \		LD A,N
-;  #DEFCONT \		OUT (DIAGPORT),A
+  #DEFINE DIAG(N)	PUSH	AF
+  #DEFCONT \		LD	A,N
   #DEFCONT \		CALL	FP_SETLEDS
-  #DEFCONT \		POP AF
+  #DEFCONT \		POP	AF
 #ELSE
   #DEFINE		DIAG(N)	\;
 #ENDIF
@@ -130,30 +131,30 @@ MODCNT	.SET	MODCNT + 1
 #ENDIF
 ;
 #DEFINE SYSCHKERR(HB_ERR) \
-#DEFCONT \	CALL	SYSCHKA
-#DEFCONT \	LD	A,HB_ERR
-#DEFCONT \	OR	A
+  #DEFCONT \	CALL	SYSCHKA
+  #DEFCONT \	LD	A,HB_ERR
+  #DEFCONT \	OR	A
 ;
 ;
 ;
 #IF (INTMODE == 0)
-; NO INTERRUPT HANDLING
-#DEFINE	HB_DI		;
-#DEFINE	HB_EI		;
+  ; NO INTERRUPT HANDLING
+  #DEFINE	HB_DI	;
+  #DEFINE	HB_EI	;
 #ELSE
   #IF (CPUFAM == CPU_Z280)
     #IF (INTMODE == 3)
-; Z280 MODE 3 INTERRUPT HANDLING (INTA, C/T 0, & UART RCVR ENABLED)
-#DEFINE	HB_DI		DI
-#DEFINE	HB_EI		EI	$0B
+      ; Z280 MODE 3 INTERRUPT HANDLING (INTA, C/T 0, & UART RCVR ENABLED)
+      #DEFINE	HB_DI	DI
+      #DEFINE	HB_EI	EI	$0B
     #ELSE
-; Z280 MODE 1/2 INTERRUPT HANDLING
-#DEFINE	HB_DI		DI
-#DEFINE	HB_EI		EI
+      ; Z280 MODE 1/2 INTERRUPT HANDLING
+      #DEFINE	HB_DI	DI
+      #DEFINE	HB_EI	EI
     #ENDIF
   #ELSE
-#DEFINE	HB_DI		DI
-#DEFINE	HB_EI		EI
+    #DEFINE	HB_DI	DI
+    #DEFINE	HB_EI	EI
   #ENDIF
 #ENDIF
 ;
@@ -333,6 +334,8 @@ CB_BIDRAMD0	.DB	BID_RAMD0
 CB_RAMD_BNKS	.DB	RAMD_BNKS
 CB_BIDROMD0	.DB	BID_ROMD0
 CB_ROMD_BNKS	.DB	ROMD_BNKS
+CB_BIDAPP0	.DB	BID_APP0
+CB_APP_BNKS	.DB	APP_BNKS
 ;
 	.FILL	(HCB + HCB_SIZ - $),0	; PAD REMAINDER OF HCB
 ;
@@ -1179,6 +1182,9 @@ BOOTWAIT:
 #IF (FPLED_ENABLE)
 	; NO STACK YET, SO CAN'T USE DIAG() MACRO
 	LD	A,DIAG_01
+  #IF (FPLED_INV)
+	XOR	$FF			; INVERT BITS IF NEEDED
+  #ENDIF
 	OUT	(FPLED_IO),A
 #ENDIF
 #IF (LEDENABLE)
@@ -1245,10 +1251,8 @@ BOOTWAIT:
 ;
 	JR	Z280_INITZ		; JUMP TO CODE CONTINUATION
 ;
-    #IF (($ % 2) == 1)
-	; WORD ALIGN THE TABLE
-	.DB	0
-    #ENDIF
+	; WORD ALIGN THE PDR TABLE
+	ALIGN(2)
 ;
 Z280_BOOTPDRTBL:
 	; LOWER 32 K (BANKED)
@@ -1391,6 +1395,9 @@ Z280_INITZ:
 #IF (FPLED_ENABLE)
 	; NO STACK YET, SO CAN'T USE DIAG() MACRO
 	LD	A,DIAG_02
+  #IF (FPLED_INV)
+	XOR	$FF			; INVERT BITS IF NEEDED
+  #ENDIF
 	OUT	(FPLED_IO),A
 #ENDIF
 
@@ -2094,6 +2101,15 @@ HB_CPU2:
 HB_CPU3:
 #ENDIF
 ;
+#IF (CPUFAM == CPU_Z280)
+;
+	; Z280 ALWAYS HALVES THE INPUT OSCILLATOR TO DERIVE
+	; ACTUAL CPU SPEED.
+	; ADJUST HL TO REFLECT HALF SPEED OPERATION
+	SRL	H		; ADJUST HL ASSUMING
+	RR	L		; HALF SPEED OPERATION
+#ENDIF
+;
 ; HL SHOULD NOW HAVE FINAL CPU RUNNING SPEED IN KHZ.
 ; UPDATE CB_CPUMHZ/CB_CPUKHZ WITH THIS VALUE.
 ;
@@ -4408,6 +4424,8 @@ SYS_GET:
 	JP	Z,SYS_GETCPUSPD
 	CP	BF_SYSGET_PANEL
 	JP	Z,SYS_GETPANEL
+	CP	BF_SYSGET_APPBNKS
+	JP	Z,SYS_GETAPPBNKS
 	SYSCHKERR(ERR_NOFUNC)		; SIGNAL ERROR
 	RET
 ;
@@ -4617,6 +4635,8 @@ SYS_GETMEMINFO:
 ;   RETURNS:
 ;     D: HBIOS BANK ID
 ;     E: USER BANK ID
+;     H: FIRST APP BANK ID
+;     L: APP BANK COUNT
 ;
 SYS_GETBNKINFO:
 	LD	A,(CB_BIDBIOS)
@@ -4721,6 +4741,22 @@ SYS_GETPANEL1:	; HANDLE NON-EXISTENT FRONT PANEL
 	OR	A			; SET FLAGS
 	RET				; DONE
 ;
+; GET APPLICATION BANK INFORMATION
+;   RETURNS:
+;     H: FIRST APP BANK ID
+;     L: APP BANK COUNT
+;     E: BANK SIZE (IN 256-BYTE PAGES)
+;
+SYS_GETAPPBNKS:
+	LD	A,(CB_BIDAPP0)		; FIRST BANK ID
+	LD	H,A
+	LD	A,(CB_APP_BNKS)		; NUMBER OF BANKS
+	LD	L,A
+	LD	E,$80			; (256 * $80) = 32KB
+;
+	XOR	A
+	RET
+;
 ; SET SYSTEM PARAMETERS
 ; PARAMETER(S) TO SET INDICATED IN C
 ;
@@ -5223,12 +5259,12 @@ SYS_INTSET1:
 	; HERE IN AN EFFORT TO MINIMIZE WASTED SPACE.  THERE SHOULD BE
 	; A LITTLE LESS THAN 4K OF CODE ABOVE.
 ;
-Z280_IVT_SLACK	.EQU	$1000 - ($ & $FFF)
-		.ECHO	"Z280 IVT SLACK occupies "
-		.ECHO	Z280_IVT_SLACK
-		.ECHO	" bytes.\n"
-		;.FILL	$1000 - ($ & $FFF)	; MUST BE 4K ALIGNED!
-		.FILL	Z280_IVT_SLACK		; MUST BE 4K ALIGNED!
+Z280_IVT_SLACK_ORG	.EQU	$
+	ALIGN($1000)
+Z280_IVT_SLACK		.EQU	$ - Z280_IVT_SLACK_ORG
+	.ECHO	"Z280 IVT SLACK occupies "
+	.ECHO	Z280_IVT_SLACK
+	.ECHO	" bytes.\n"
 ;
 Z280_IVT:
 	.DW	0, 0			; RESERVED
@@ -6817,6 +6853,9 @@ FP_SETLEDS:
 	OR	A			; SET FLAGS
 	LD	A,L			; RESTORE REG A
 	JR	Z,FP_SETLEDS1		; BAIL OUT IF NOT ACTIVE
+  #IF (FPLED_INV)
+	XOR	$FF			; INVERT BITS IF NEEDED
+  #ENDIF
 	OUT	(FPLED_IO),A		; WRITE 
 FP_SETLEDS1:
 	POP	HL			; RESTORE HL
@@ -6834,6 +6873,9 @@ FP_GETSWITCHES:
 	OR	A			; SET FLAGS
 	RET	Z			; BAIL OUT IF NOT ACTIVE
 	IN	A,(FPSW_IO)		; READ SWITCHES
+  #IF (FPSW_INV)
+	XOR	$FF			; INVERT BITS IF NEEDED
+  #ENDIF
 	RET				; DONE
 ;
 ;
@@ -7865,8 +7907,9 @@ HB_WRKBUF	.FILL	512,0		; INTERNAL DISK BUFFER
 ;
 #IFDEF MG014_MAP
 ;
-	.FILL	32 - ($ & (32 - 1))	; ALIGN TO 32 BYTE BOUNDARY
-
+	; ALIGN TO 32 BYTE BOUNDARY
+	ALIGN($20)
+;
 MG014_STATMAPLO:
 	; LOWER NIBBLE
 	.DB	$08	; 00

Source/HBIOS/hbios.inc

@@ -120,6 +120,7 @@ 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_SYSGET_APPBNKS	.EQU	$F5	; GET APP BANK INFORMATION
 ;
 BF_SYSSET_TIMER		.EQU	$D0	; SET TIMER VALUE
 BF_SYSSET_SECS		.EQU	$D1	; SET SECONDS VALUE
@@ -440,6 +441,8 @@ HCB_BIDRAMD0	.EQU	$DC		; FIRST BANK OF RAM DRIVE
 HCB_RAMD_BNKS	.EQU	$DD		; RAM DRIVE BANK COUNT
 HCB_BIDROMD0	.EQU	$DE		; FIRST BANK OF ROM DRIVE
 HCB_ROMD_BNKS	.EQU	$DF		; ROM DRIVE BANK COUNT
+HCB_BIDAPP0	.EQU	$E0		; FIRST BANK OF APP RAM BANKS
+HCB_APP_BNKS	.EQU	$E1		; APP BANK COUNT
 ;
 ; HBIOS PROXY COMMON DATA BLOCK
 ; EXACTLY 32 BYTES AT $FFE0-$FFFF

Source/HBIOS/hbios_env.asm

@@ -24,12 +24,11 @@
 ;
 ; Print all desired config values...
 ;
-#if (ROMSIZE > 0)
-	prtval("ROMSIZE$", ROMSIZE)
-#else
-	prtval("ROMSIZE$", RAMSIZE)
-#endif
 	prtval("CPUFAM$", CPUFAM)
+	prtval("ROMSIZE$", ROMSIZE)
+	prtval("RAMSIZE$", RAMSIZE)
+	prtval("ROMDISKSIZE$", ROMD_BNKS * 32)
+	prtval("RAMDISKSIZE$", RAMD_BNKS * 32)
 ;
 	ret
 ;

Source/HBIOS/pkd.asm

@@ -140,7 +140,7 @@ PKD_INIT:
 	LD	A,PKDPPIBASE		; GET BASE PORT
 	CALL	PRTHEXBYTE		; PRINT BASE PORT
 ;
-	LD	A,(PKD_PRESENT)	; PRESENT?
+	LD	A,(PKD_PRESENT)		; PRESENT?
 	OR	A			; SET FLAGS
 	RET	NZ			; YES, ALL DONE
 	PRTS(" NOT PRESENT$")		; NOT PRESENT

Source/HBIOS/ppp.asm

@@ -250,7 +250,7 @@ PPP_FWVER		.DB	$00, $00, $00, $00	; MMNNBBB (M=MAJOR, N=MINOR, B=BUILD)
 ; PARPORTPROP CONSOLE DRIVER
 ;==================================================================================================
 ;
-PPPCON_ROWS	.EQU	37		; PROPELLER VGA DISPLAY ROWS (40 - 3 STATUS LINES)
+PPPCON_ROWS	.EQU	29		; PROPELLER VGA DISPLAY ROWS (30 - 1 STATUS LINES)
 PPPCON_COLS	.EQU	80		; PROPELLER VGA DISPLAY COLS
 ;
 		.ECHO	"PPPCON: ENABLED\n"

Source/HBIOS/prp.asm

@@ -121,7 +121,7 @@ PRPCON_ERR	.EQU	$40		; BIT SET WHEN PROPIO CONSOLE ERROR HAS OCCURRED
 PRPCON_KBDRDY	.EQU	$20		; BIT SET WHEN KEYBOARD BUF HAS A BYTE READY (BUF FULL)
 PRPCON_DSPRDY	.EQU	$10		; BIT SET WHEN DISPLAY BUF IS READY FOR A BYTE (BUF EMPTY)
 ;
-PRPCON_ROWS	.EQU	37		; PROPELLER VGA DISPLAY ROWS (40 - 3 STATUS LINES)
+PRPCON_ROWS	.EQU	29		; PROPELLER VGA DISPLAY ROWS (30 - 1 STATUS LINES)
 PRPCON_COLS	.EQU	80		; PROPELLER VGA DISPLAY COLS
 ;
 		.ECHO	"PRPCON: ENABLED\n"

Source/HBIOS/romldr.asm

@@ -1383,8 +1383,6 @@ str_s100con	.db	"\r\n\r\nConsole on S100 Bus",0
 clrled:
 #if (BIOS == BIOS_WBW)
   #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

Source/HBIOS/std.asm

@@ -422,6 +422,39 @@ SER_1843200_8N1	.EQU	SER_BAUD1843200 | SER_DATA8 | SER_PARNONE | SER_STOP1
 SER_3686400_8N1	.EQU	SER_BAUD3686400 | SER_DATA8 | SER_PARNONE | SER_STOP1
 SER_7372800_8N1	.EQU	SER_BAUD7372800 | SER_DATA8 | SER_PARNONE | SER_STOP1
 ;
+SER_75_8N2	.EQU	SER_BAUD75 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_150_8N2	.EQU	SER_BAUD150 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_300_8N2	.EQU	SER_BAUD300 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_600_8N2	.EQU	SER_BAUD600 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_1200_8N2	.EQU	SER_BAUD1200 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_2400_8N2	.EQU	SER_BAUD2400 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_4800_8N2	.EQU	SER_BAUD4800 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_9600_8N2	.EQU	SER_BAUD9600 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_19200_8N2	.EQU	SER_BAUD19200 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_38400_8N2	.EQU	SER_BAUD38400 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_76800_8N2	.EQU	SER_BAUD76800 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_153600_8N2	.EQU	SER_BAUD153600 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_307200_8N2	.EQU	SER_BAUD307200 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_614400_8N2	.EQU	SER_BAUD614400 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_1228800_8N2	.EQU	SER_BAUD1228800 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_2457600_8N2	.EQU	SER_BAUD2457600 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_225_8N2	.EQU	SER_BAUD225 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_450_8N2	.EQU	SER_BAUD450 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_900_8N2	.EQU	SER_BAUD900 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_1800_8N2	.EQU	SER_BAUD1800 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_3600_8N2	.EQU	SER_BAUD3600 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_7200_8N2	.EQU	SER_BAUD7200 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_14400_8N2	.EQU	SER_BAUD14400 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_28800_8N2	.EQU	SER_BAUD28800 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_57600_8N2	.EQU	SER_BAUD57600 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_115200_8N2	.EQU	SER_BAUD115200 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_230400_8N2	.EQU	SER_BAUD230400 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_460800_8N2	.EQU	SER_BAUD460800 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_921600_8N2	.EQU	SER_BAUD921600 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_1843200_8N2	.EQU	SER_BAUD1843200 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_3686400_8N2	.EQU	SER_BAUD3686400 | SER_DATA8 | SER_PARNONE | SER_STOP2
+SER_7372800_8N2	.EQU	SER_BAUD7372800 | SER_DATA8 | SER_PARNONE | SER_STOP2
+;
 ; TERMENABLE CONTROLS INCLUSION OF TERMINAL PSEUDO-DEVICE DRIVER
 ; IT IS SET TO TRUE BY THE INCLUSION OF ANY VDA DRIVER.
 ;
@@ -666,6 +699,83 @@ BID_RAM0	.EQU	$80
 BID_ROMN	.EQU	(BID_ROM0 + ROMBANKS - 1)
 BID_RAMN	.EQU	(BID_RAM0 + RAMBANKS - 1)
 ;
+#IF (BIOS == BIOS_WBW)
+;
+  #IF (ROMSIZE > 0)
+ROM_BNKS_RSVD	.EQU	4
+RAM_BNKS_RSVD	.EQU	5
+  #ELSE
+ROM_BNKS_RSVD	.EQU	0
+RAM_BNKS_RSVD	.EQU	8
+  #ENDIF
+#ENDIF
+;
+#IF (BIOS == BIOS_UNA)
+ROM_BNKS_RSVD	.EQU	4
+RAM_BNKS_RSVD	.EQU	4		; NEED TO CONFIRM THIS!!!
+#ENDIF
+;
+; APPLICATION MEMORY BANKS
+;
+#IF (APP_BNKS == $FF)
+APP_BNKS	.SET	0		; 0K
+  #IF ((RAMBANKS - RAM_BNKS_RSVD) > $08)
+APP_BNKS	.SET	3		; 96K
+  #ENDIF
+  #IF ((RAMBANKS - RAM_BNKS_RSVD) > $18)
+APP_BNKS	.SET	11		; 353KB
+  #ENDIF
+#ENDIF
+;
+; ROM/RAM MEMORY BANKS
+;
+#IF (BIOS == BIOS_WBW)
+;
+ROMD_BNKS	.EQU	ROMBANKS - ROM_BNKS_RSVD
+RAMD_BNKS	.EQU    RAMBANKS - APP_BNKS - RAM_BNKS_RSVD
+;
+#ENDIF
+;
+#IF (BIOS == BIOS_UNA)
+;
+ROMD_BNKS	.EQU	ROMBANKS - 4
+RAMD_BNKS	.EQU    RAMBANKS - 4
+;
+#ENDIF
+;
+; ADJUSTMENTS FOR ROMLESS SYSTEMS
+;
+#IF (ROMSIZE == 0)
+;
+; WE NEED TO NORMALIZE THE SIZE OF THE RAM DISK TO FIT
+; ONE OF THE STANDARD ROM DISK IMAGES
+;
+  #IF (RAMD_BNKS < 4)
+RAMD_BNKS	.SET	0		; 0KB RAM DISK
+  #ENDIF
+  #IF ((RAMD_BNKS >= 4) & (RAMD_BNKS < 8))
+RAMD_BNKS	.SET	4		; 128KB RAM DISK
+  #ENDIF
+  #IF ((RAMD_BNKS >= 8) & (RAMD_BNKS < 12))
+RAMD_BNKS	.SET	8		; 256KB RAM DISK
+  #ENDIF
+  #IF ((RAMD_BNKS >= 12) & (RAMD_BNKS < 28))
+RAMD_BNKS	.SET	12		; 384KB RAM DISK
+  #ENDIF
+  #IF (RAMD_BNKS >= 28)
+RAMD_BNKS	.SET	28		; 896KB RAM DISK
+  #ENDIF
+;
+#ENDIF
+;
+#IF ((!MDRAM) | (RAMD_BNKS <= 0))
+RAMD_BNKS	.SET	0
+#ENDIF
+;
+#IF ((!MDROM) | (ROMD_BNKS <= 0))
+ROMD_BNKS	.SET	0
+#ENDIF
+;
 #IF (ROMSIZE > 0)
 ;
 ; NORMAL SYSTEM WITH ROM & RAM
@@ -675,11 +785,9 @@ BID_IMG0	.EQU	BID_ROM0 + 1	; ROM LOADER AND FIRST IMAGES BANK	0x01
 BID_IMG1	.EQU	BID_ROM0 + 2	; SECOND IMAGES BANK		 	0x02
 BID_IMG2	.EQU	BID_ROM0 + 3	; RESERVED				0x03
 BID_ROMD0	.EQU	BID_ROM0 + 4	; FIRST ROM DRIVE BANK			0x04
-BID_ROMDN	.EQU	BID_ROMN	; LAST ROM DRIVE BANK			0x0F
-;
-BID_BIOS	.EQU	BID_RAM0	; HBIOS BANK				0x80
+BID_BIOS	.EQU	BID_RAM0 + 0	; HBIOS BANK				0x80
 BID_RAMD0	.EQU	BID_RAM0 + 1	; FIRST RAM DRIVE BANK			0x81
-BID_RAMDN	.EQU	BID_RAMN - 4	; LAST RAM DRIVE BANK			0x8B
+BID_APP0	.EQU	BID_RAMD0 + RAMD_BNKS	; FIRST APP BANK		0x89
 BID_BUF		.EQU	BID_RAMN - 3	; OS BUFFERS (CP/M3)			0x8C
 BID_AUX		.EQU	BID_RAMN - 2	; AUX BANK (CP/M 3, BPBIOS, ETC.)	0x8D
 BID_USR		.EQU	BID_RAMN - 1	; USER BANK (CP/M TPA, ETC.)		0x8E
@@ -695,7 +803,7 @@ BID_IMG0	.EQU	BID_RAM0 + 1	; ROM LOADER AND FIRST IMAGES BANK	0x81
 BID_IMG1	.EQU	BID_RAM0 + 2	; SECOND IMAGES BANK		 	0x82
 BID_IMG2	.EQU	BID_RAM0 + 3	; RESERVED				0x83
 BID_RAMD0	.EQU	BID_RAM0 + 4	; FIRST RAM DRIVE BANK			0x84
-BID_RAMDN	.EQU	BID_RAMN - 4	; LAST RAM DRIVE BANK			0x8B
+BID_APP0	.EQU	BID_RAMD0 + RAMD_BNKS	; FIRST APP BANK		0x89
 BID_BUF		.EQU	BID_RAMN - 3	; OS BUFFERS (CP/M3)			0x8C
 BID_AUX		.EQU	BID_RAMN - 2	; AUX BANK (CP/M 3, BPBIOS, ETC.)	0x8D
 BID_USR		.EQU	BID_RAMN - 1	; USER BANK (CP/M TPA, ETC.)		0x8E
@@ -703,47 +811,44 @@ BID_COM		.EQU	BID_RAMN - 0	; COMMON BANK, UPPER 32K		0x8F
 ;
 BID_BIOS	.EQU	BID_BOOT	; HBIOS BANK				0x80
 BID_ROMD0	.EQU	0		; NO ROM DRIVE
-BID_ROMDN	.EQU	$FF		; NO ROM DRIVE
 ;
 #ENDIF
 ;
-#IF (BIOS == BIOS_WBW)
+APP_BNKS	.SET	BID_BUF - BID_APP0
 ;
-  #IF (!MDRAM)
-BID_RAMD0	.SET	$FF		; RAM DRIVE DISABLED
-BID_RAMDN	.SET	0		; RAM DRIVE DISABLED
-  #ENDIF
+BID_RAMDN	.EQU	BID_RAMD0 + RAMD_BNKS - 1	; LAST RAM DRIVE BANK
+BID_ROMDN	.EQU	BID_ROMD0 + ROMD_BNKS - 1	; LAST ROM DRIVE BANK
+BID_APPN	.EQU	BID_APP0 + APP_BNKS - 1		; LAST APP BANK
 ;
-  #IF (!MDROM)
-BID_ROMD0	.SET	$FF		; ROM DRIVE DISABLED
-BID_ROMDN	.SET	0		; ROM DRIVE DISABLED
-  #ENDIF
-;
-ROMD_BNKS	.EQU	(BID_ROMDN - BID_ROMD0 + 1)
-RAMD_BNKS	.EQU	(BID_RAMDN - BID_RAMD0 + 1)
-;
-#ENDIF
-;
-#IF FALSE
-	.ECHO "--- RAM/ROM CAPACITY ---\n"
-	.ECHO "BID_ROM0: " \ .ECHO BID_ROM0 \ .ECHO "\n"
-	.ECHO "BID_ROMN: " \ .ECHO BID_ROMN \ .ECHO "\n"
-	.ECHO "BID_RAM0: " \ .ECHO BID_RAM0 \ .ECHO "\n"
-	.ECHO "BID_RAMN: " \ .ECHO BID_RAMN \ .ECHO "\n"
-	.ECHO "--- BANK LAYOUT ---\n"
-	.ECHO "BID_BOOT: " \ .ECHO BID_BOOT \ .ECHO "\n"
-	.ECHO "BID_IMG0: " \ .ECHO BID_IMG0 \ .ECHO "\n"
-	.ECHO "BID_IMG1: " \ .ECHO BID_IMG1 \ .ECHO "\n"
-	.ECHO "BID_IMG2: " \ .ECHO BID_IMG2 \ .ECHO "\n"
+#IF TRUE
+	.ECHO "------------- CAPACITY -----------------\n"
+	.ECHO "ROMBANKS:  " \ .ECHO ROMBANKS  \ .ECHO "\n"
+	.ECHO "RAMBANKS:  " \ .ECHO RAMBANKS  \ .ECHO "\n"
+	.ECHO "ROMD_BNKS: " \ .ECHO ROMD_BNKS \ .ECHO "\n"
+	.ECHO "RAMD_BNKS: " \ .ECHO RAMD_BNKS \ .ECHO "\n"
+	.ECHO "APP_BNKS:  " \ .ECHO APP_BNKS  \ .ECHO "\n"
+	.ECHO "----------- MEMORY LAYOUT --------------\n"
+	.ECHO "BID_ROM0:  " \ .ECHO BID_ROM0  \ .ECHO "\n"
+	.ECHO "BID_ROMN:  " \ .ECHO BID_ROMN  \ .ECHO "\n"
+	.ECHO "BID_RAM0:  " \ .ECHO BID_RAM0  \ .ECHO "\n"
+	.ECHO "BID_RAMN:  " \ .ECHO BID_RAMN  \ .ECHO "\n"
+	.ECHO "------------- BANK LAYOUT --------------\n"
+	.ECHO "BID_BOOT:  " \ .ECHO BID_BOOT  \ .ECHO "\n"
+	.ECHO "BID_IMG0:  " \ .ECHO BID_IMG0  \ .ECHO "\n"
+	.ECHO "BID_IMG1:  " \ .ECHO BID_IMG1  \ .ECHO "\n"
+	.ECHO "BID_IMG2:  " \ .ECHO BID_IMG2  \ .ECHO "\n"
 	.ECHO "BID_ROMD0: " \ .ECHO BID_ROMD0 \ .ECHO "\n"
 	.ECHO "BID_ROMDN: " \ .ECHO BID_ROMDN \ .ECHO "\n"
-	.ECHO "BID_BIOS: " \ .ECHO BID_BIOS \ .ECHO "\n"
+	.ECHO "BID_BIOS:  " \ .ECHO BID_BIOS  \ .ECHO "\n"
 	.ECHO "BID_RAMD0: " \ .ECHO BID_RAMD0 \ .ECHO "\n"
 	.ECHO "BID_RAMDN: " \ .ECHO BID_RAMDN \ .ECHO "\n"
-	.ECHO "BID_BUF: " \ .ECHO BID_BUF \ .ECHO "\n"
-	.ECHO "BID_AUX: " \ .ECHO BID_AUX \ .ECHO "\n"
-	.ECHO "BID_USR: " \ .ECHO BID_USR \ .ECHO "\n"
-	.ECHO "BID_COM: " \ .ECHO BID_COM \ .ECHO "\n"
+	.ECHO "BID_APP0:  " \ .ECHO BID_APP0  \ .ECHO "\n"
+	.ECHO "BID_APPN:  " \ .ECHO BID_APPN  \ .ECHO "\n"
+	.ECHO "BID_BUF:   " \ .ECHO BID_BUF   \ .ECHO "\n"
+	.ECHO "BID_AUX:   " \ .ECHO BID_AUX   \ .ECHO "\n"
+	.ECHO "BID_USR:   " \ .ECHO BID_USR   \ .ECHO "\n"
+	.ECHO "BID_COM:   " \ .ECHO BID_COM   \ .ECHO "\n"
+	.ECHO "----------------------------------------\n"
 #ENDIF
 ;
 ; MEMORY LAYOUT

Source/HBIOS/tms.asm

@@ -201,7 +201,7 @@ TMS_INIT:
 #IF (TMSMODE == TMSMODE_MSX)
 	PRTS("MSX$")
 #ENDIF
-#IF (TMSMODE == TMSMODE_COLECO)		; ### JLC Mod for completeness ###
+#IF (TMSMODE == TMSMODE_COLECO)
 	PRTS("COLECO$")
 #ENDIF
 #IF (TMSMODE == TMSMODE_MSXKBD)
@@ -215,7 +215,6 @@ TMS_INIT:
 	LD	A,TMS_DATREG
 	CALL	PRTHEXBYTE
 	CALL	TMS_PROBE		; CHECK FOR HW EXISTENCE
-	;JP	TMS_INIT1		; ### JLC DEBUG: ALLWAYS CONTINUE ###
 	JR	Z,TMS_INIT1		; CONTINUE IF PRESENT
 ;
 	; *** HARDWARE NOT PRESENT ***
@@ -370,7 +369,40 @@ TMS_VDASAT:
 	RET
 
 TMS_VDASCO:
-	XOR	A			; NOT POSSIBLE, JUST SIGNAL SUCCESS
+	; ### JLC Mod - Implement Default Text Mode Colors via ANSI_VDASCO or direct HBIOS Call
+	;
+	; Color setting is in reg D in ANSI Format as described in RomWBW System Guide
+	; Convert Color Format from ANSI to TMS shuffling bits arround and using
+	; Color Conversion Table at TMS_COLOR_TBL (approximated equivalences)
+	; Save converted value to (TMS_TMSCOLOR)
+	;
+	; TMS hardware only allows setting a global (screen) foreground/background color.  So, we
+	; only process this command if E is 1.
+	;
+	LD	A,D			; GET CHAR/SCREEN SCOPE
+	CP	1			; SCREEN?
+	JR	NZ,TMS_VDASCO_Z		; IF NOT, JUST RETURN
+;
+	LD	A,E			; GET COLOR BYTE
+	AND	$F0			; ISOLATE BACKGROUND
+	RRCA \ RRCA \ RRCA \ RRCA	; MOVE TO LOWER NIBBLE
+	LD	HL,TMS_COLOR_TBL	; POINT TO COLOR CONVERSION TABLE
+	CALL	ADDHLA			; OFFSET TO DESIRED COLOR
+	LD	B,(HL)			; PUT NEW BG IN B
+;
+	LD	A,E			; GET COLOR BYTE
+	AND	$0F			; ISOLATE FOREGROUND
+	LD	HL,TMS_COLOR_TBL	; POINT TO COLOR CONVERSION TABLE
+	CALL	ADDHLA			; OFFSET TO DESIRED COLOR
+	LD	A,(HL)			; PUT NEW FG IN A
+	RLCA \ RLCA \ RLCA \ RLCA	; MOVE TO UPPER NIBBLE
+;
+	OR	B			; COMBINE WITH FG
+	LD	C, 7			; C = Color Register, A = Desired new Color in TMS Format
+	CALL	TMS_SET			; Write to specific TMS Register, Change Default Text Color
+;
+TMS_VDASCO_Z:
+	XOR	A			; SIGNAL SUCCESS
 	RET
 
 TMS_VDAWRC:
@@ -558,7 +590,7 @@ TMS_CRTINIT:
 	LD	HL,0
 	CALL	TMS_WR
 ;
-	; FILL ENTIRE 16KB VRAM CONTENTS with $00 ### JLC Comment fix ###
+	; FILL ENTIRE 16KB VRAM CONTENTS with $00
 	LD	DE,$4000		; 16KB
 TMS_CRTINIT1:
 	XOR	A
@@ -614,7 +646,7 @@ TMS_LOADFONT:
 #ENDIF
 ;
 	; FILL TMS_FNTVADDR BYTES FROM FONTDATA
-	LD	DE,TMS_FNTSIZE		; ### JLC Mod for JBL compatibility ###
+	LD	DE,TMS_FNTSIZE
 TMS_LOADFONT1:
 	LD	A,(HL)
 	OUT	(TMS_DATREG),A
@@ -738,7 +770,6 @@ TMS_XY2IDX:
 	CALL	MULT8			; MULTIPLY TO GET ROW OFFSET
 	LD	E,A			; GET COLUMN BACK
 	ADD	HL,DE			; ADD IT IN
-	; ### JLC Fix to allow Name Table Addresses other than $0000 and JBL Compatibility ###
 	LD	DE,TMS_CHRVADDR		; Add offset Address to start of Name Table (Char)
 	ADD	HL,DE
 	RET				; RETURN
@@ -787,7 +818,6 @@ TMS_FILL1:
 ;----------------------------------------------------------------------
 ;
 TMS_SCROLL:
-	; ### JLC Fix to allow Name Table Addresses other than $0000 and JBL Compatibility ###
 	LD	HL,TMS_CHRVADDR		; SOURCE ADDRESS OF CHARACTER BUFFER
 	LD	C,TMS_ROWS - 1		; SET UP LOOP COUNTER FOR ROWS - 1
 ;
@@ -839,7 +869,6 @@ TMS_SCROLL3:
 ;----------------------------------------------------------------------
 ;
 TMS_RSCROLL:
-	; ### JLC Fix to allow Name Table Addresses other than $0000 and JBL Compatibility ###
 	LD	HL,TMS_COLS * (TMS_ROWS - 1)
 	LD	DE,TMS_CHRVADDR		; Add offset Address to start of Name Table (Char)
 	ADD	HL,DE
@@ -980,10 +1009,13 @@ TMS_INTHNDL:
 ;   TMS DRIVER - DATA
 ;==================================================================================================
 ;
-TMS_POS		.DW 	0		; CURRENT DISPLAY POSITION
+TMS_POS		.DW	0		; CURRENT DISPLAY POSITION
 TMS_CURSAV	.DB	0		; SAVES ORIGINAL CHARACTER UNDER CURSOR
 TMS_BUF		.FILL	256,0		; COPY BUFFER
-
+;
+; ### JLC Mod
+; ANSI-->TMS Color Conversion Table
+TMS_COLOR_TBL	.DB	$01,$08,$02,$0A,$04,$06,$0C,$0F,$0E,$09,$03,$0B,$05,$0D,$07,$0F
 ;
 ;==================================================================================================
 ;   TMS DRIVER - INSTANCE DATA
@@ -1055,6 +1087,10 @@ TMS_IDAT:
 ; https://www.msx.org/wiki/Screen_Modes_Description#SCREEN_0_in_80-column_.28Text_mode_2.29
 ; BITS 1-0 SHOULD BE 1.  BITS 8-2 SHOULD BE (ADR >> 8).
 ;
+; ### JLC Mod
+; TEXT MODE DEFAULT COLOR (REG 7) CAN BE CHANGED INVOKING VDASCO
+; OR VIA ANSI PRIVATE ESC SEQ. (SEE ANSI.ASM FOR DETAILS)
+;
 TMS_INITVDU:	; V9958 REGISTER SET
 	.DB	$04		; REG 0 - NO EXTERNAL VID, SET M4 = 1 FOR 80 COLS
 TMS_INITVDU_REG_1:
@@ -1069,7 +1105,7 @@ TMS_INITVDU_REG_1:
 	.DB	$00		; REG 9
 	.DB	$00		; REG 10 - COLOUR TABLE A14-A16 (TMS_FNTVADDR - $1000)
 ;
-#ELSE 		; _______TMS9918 REGISTER SET ### JLC Mod for JBL compatibility & MODE II Readiness ###_______
+#ELSE 		; _______TMS9918 REGISTER SET_______
 ;
 TMS_INITVDU:	; V9918 REGISTER SET
 	.DB	$00		; REG 0 - SET TEXT MODE, NO EXTERNAL VID
@@ -1080,18 +1116,7 @@ TMS_INITVDU_REG_1:
 	.DB	$00		; REG 4 - SET PATTERN GENERATOR TABLE TO (TMS_FNTVADDR -> $0000)
 	.DB	$76		; REG 5 - SPRITE ATTRIBUTE IRRELEVANT, SET TO MODE II DEFAULT VALUE
 	.DB	$03		; REG 6 - NO SPRITE GENERATOR TABLE, SET TO MODE II DEFAULT VALUE
-	.DB	$E1		; REG 7 - GREY ON BLACK ### JLC Mod Change default text color for better readability YMMV ###
-;
-;TMS_INITVDU:
-;	.DB	$00		; REG 0 - NO EXTERNAL VID
-;TMS_INITVDU_REG_1:
-;	.DB	$50		; REG 1 - ENABLE SCREEN, SET TEXT MODE & BLANK SCREEN ### JLC comment fix (NOT MODE 1) ###
-;	.DB	$00		; REG 2 - PATTERN NAME TABLE := 0
-;	.DB	$00		; REG 3 - NO COLOR TABLE
-;	.DB	$01		; REG 4 - SET PATTERN GENERATOR TABLE TO (TMS_FNTVADDR -> $0800)
-;	.DB	$00		; REG 5 - SPRITE ATTRIBUTE IRRELEVANT
-;	.DB	$00		; REG 6 - NO SPRITE GENERATOR TABLE
-;	.DB	$F0		; REG 7 - WHITE ON TRANSPARENT
+	.DB	$E1		; REG 7 - TEXT COLOR
 ;
 #ENDIF
 ;
@@ -1101,3 +1126,29 @@ TMS_INITVDULEN	.EQU	$ - TMS_INITVDU
 #IF (CPUFAM == CPU_Z180)
 TMS_DCNTL	.DB	$00	; SAVE Z180 DCNTL AS NEEDED
 #ENDIF
+;
+; ### JLC Mod
+;===============================================================================
+; BASIC ANSI to TMS COLOR CONVERSION TABLE (NIBBLES FOR FOREGROUND & BACKGROUND)
+;          Follows RomWBW System Guide Chapter 8, HBIOS Reference
+;-------------------------------------------------------------------------------
+;					 ANSI Color 		TMS Equivalent
+;-------------------------------------------------------------------------------
+;					 0 Black		1
+;					 1 Red			8
+;					 2 Green		2
+;					 3 Brown		A
+;					 4 Blue			4
+;					 5 Magenta		6
+;					 6 Cyan			C
+;					 7 White		F
+;					 8 Gray			E
+;					 9 Light Red		9
+;					 A Light Green		3
+;					 B Yellow		B
+;	 				 C Light Blue		5
+;	 				 D Light Magenta	D
+;	 				 E Light Cyan		7
+;	 				 F Bright White		F
+;===============================================================================
+;

Source/HBIOS/uart.asm

@@ -216,19 +216,8 @@ UART_INIT1:
 	LD	A,(IY+1)		; GET UART TYPE
 	OR	A			; SET FLAGS
 	JR	Z,UART_INIT2		; SKIP IF ZERO (NOT DETECTED)
-	PUSH	AF			; SAVE TYPE VALUE
 	CALL	UART_PRTCFG		; PRINT IF NOT ZERO
-	POP	AF			; RESTORE TYPE VALUE
-	BIT	UART_CTSBAD,A		; CTS STALL?
-	JR	Z,UART_INIT2		; IF NOT, SKIP AHEAD
-	CALL	NEWLINE			; FORMATTING
-	PRTS("UART$")			; FORMATTING
-	LD	A,(IY)			; DEVICE NUM
-	CALL	PRTDECB			; PRINT DEVICE NUM
-	PRTS(": $")			; FORMATTING
-	LD	DE,UART_STR_BADCTS	; LOAD WARNING MESSAGE
-	CALL	WRITESTR		; ... AND PRINT IT
-;	
+;
 UART_INIT2:
 	POP	BC			; RESTORE LOOP CONTROL
 	INC	C			; NEXT UNIT
@@ -963,6 +952,11 @@ UART_PRTCFG2:
 	PRTS(" AFC$")
 ;
 UART_PRTCFG3:
+	BIT	UART_CTSBAD,(IY+1)	; GET BADCTS BIT
+	JR	Z,UART_PRTCFG4
+	PRTS(" NO_CTS!$")
+;
+UART_PRTCFG4:
 ;
 	XOR	A
 	RET
@@ -1023,8 +1017,6 @@ UART_STR_16850		.DB	"16850$"
 ;
 UART_PAR_MAP		.DB	"NONENMNS"
 ;
-UART_STR_BADCTS		.DB	"CTS STALL, HARDWARE FLOW CONTROL SUSPENDED$"
-;
 ; WORKING VARIABLES
 ;
 UART_DEV		.DB	0		; DEVICE NUM USED DURING INIT

Source/HBIOS/vga.asm

@@ -237,6 +237,10 @@ VGA_VDASAT:
 	JR	VGA_VDASCO2	; IMPLEMENT SETTING
 
 VGA_VDASCO:
+	; WE HANDLE ONLY PER-CHARACTER COLORS (D=0)
+	LD	A,D		; GET CHAR/SCREEN SCOPE
+	OR	A		; CHARACTER?
+	JR	NZ,VGA_VDASCO3	; IF NOT, JUST RETURN
 	; INCOMING IS:  IBGRIBGR (I=INTENSITY, B=BLUE, G=GREEN, R=RED)
 	; TRANSFORM TO: -RGBIRGB (DISCARD INTENSITY BIT IN HIGH NIBBLE)
 	;

Source/Images/Build.cmd

@@ -66,7 +66,7 @@ call BuildDisk.cmd bascomp hd wbw_hd1k || exit /b
 call BuildDisk.cmd fortran hd wbw_hd1k || exit /b
 call BuildDisk.cmd games hd wbw_hd1k || exit /b
 
-if exist ..\BPBIOS\bp*.rel call BuildDisk.cmd bp hd wbw_hd1k || exit /b
+if exist ..\BPBIOS\bp*.rel call BuildDisk.cmd bp hd wbw_hd1k ..\zsdos\zsys_wbw.sys || exit /b
 
 copy hd1k_prefix.dat ..\..\Binary\ || exit /b
 

Source/Images/Makefile

@@ -81,7 +81,7 @@ blankhd1k:
 	case $@ in \
 		(*cpm22*) sys=../CPM22/cpm_wbw.sys;; \
 		(*qpm*) sys=../QPM/qpm_wbw.sys;; \
-		(*zsdos* | *nzcom* | *dos65*) sys=../ZSDOS/zsys_wbw.sys;; \
+		(*zsdos* | *nzcom* | *dos65* | *bp*) sys=../ZSDOS/zsys_wbw.sys;; \
 		(*cpm3*) sys=../CPM3/cpmldr.sys;; \
 		(*zpm3*) sys=../ZPM3/zpmldr.sys;; \
 	esac ; \

Source/Images/d_nzcom/ReadMe.txt

@@ -51,8 +51,10 @@ done to create a minimal ready-to-run setup for RomWBW:
   - Extract VT100 TCAP from Z3TCAP.LBR and saved it as TCAP.Z3T.
   - Created PROFILE.SUB to launch NZCOM at startup.
   - Created empty STARTZCM.COM.
-  - TCSELECT.COM was removed because a later version is provided
+  - Original TCSELECT.COM was removed and replaced with a newer version
     from the Z3 files.
+  - TCAP.LBR and Z3TCAP.TCP were removed and replaced with
+    Z3TCAP.LBR from new TCSELECT distribution.
   - Z3LOC.COM and LBREXT.COM were removed because more recent
     versions are provided from Common files.
   - Replaced ZRDOS with ZSDOS in NZCOM.LBR.  The standalone
@@ -318,4 +320,4 @@ in this user area for more information.
 N.B., at a minimum, some of the files in this user area must be copied
 to user area 0 for CP/NET to work properly.
 
--- WBW 3:20 PM 8/27/2021
+-- WBW 11:19 AM 1/22/2024

Source/Images/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/Prop/Spin/AnsiTerm.spin

@@ -15,11 +15,11 @@ CON
   cols          = 80                  	' screen columns
   rows          = 30                  	' screen rows
   chars         = rows * cols         	' screen characters
-  termRows      = 25                  	' rows in terminal area
+  termRows      = rows - 1             	' rows in terminal area
   termChars     = termRows * cols      	' characters in terminal area
   termLastRow	= termChars - cols	' buffer pos of first char in last term row
   statArea	= termChars		' starting position of status area
-  statRows	= rows - TermRows	' status area rows
+  statRows	= 1			' status area rows
   blank         = $20
   
   spkVol	= 75
@@ -46,6 +46,7 @@ VAR
   long  vgaBasePin
   word	curAttr				' active attribute value
   word	bold, underscore, blink, reverse, fg, bg
+  word	alt				' alt char set active
 
   
 DAT
@@ -81,6 +82,7 @@ PUB start(BasePin) | i, char
   reverse := 0
   fg := 0
   bg := 0
+  alt := 0
   setMode(0)				' reset attributes
 
 PUB vidOn
@@ -174,6 +176,10 @@ PRI clsTerm
 
 PRI outc(c)
 
+  if (alt == 1)
+    if ((c => $5F) and (c < $7F))
+      c := c - $5F
+
   screen[pos++] := (curAttr | c)
   lastc := c
 
@@ -400,11 +406,11 @@ PRI ansi(c) | x, defVal
         x += cols
 
     "K":
-      if arg0 == -1
+      if ((arg0 == -1) or (arg0 == 0))
           clEOL(pos)
-      elseif arg0 == 1
+      elseif (arg0 == 1)
           clBOL(pos)
-      else
+      elseif (arg0 == 2)
           clEOL(pos - (pos // cols))
 
     "L":
@@ -563,6 +569,11 @@ PUB processChar(c)
       return
 
    5:					' Set character set (not implemented)
+    if (c == "0")
+      alt := 1
+    if (c == "B")
+      alt := 0
+
     state := 0
     return
 

Source/Prop/Spin/ParPortProp.spin

@@ -3,8 +3,8 @@
   ************************************
   *  ParPortProp for RomWBW          *
   *  Interface to RBC ParPortProp    *
-  *  Version 0.97                    *
-  *  May 9, 2020                     *
+  *  Version 0.98                    *
+  *  January 20, 2024                *
   ************************************
 
   Wayne Warthen
@@ -30,24 +30,24 @@
 
     2018-03-11 WBW: Implement character attributes
     2020-05-09 WBW: Switch monitor refresh to 60Hz
+    2024-01-20 WBW: Add graphics char selection to AnsiTerm
 
 }}
 
 CON
-  VERSION = (((0 << 8) + 97) << 16) + 0
+  VERSION = (((0 << 8) + 98) << 16) + 0
 
   _CLKMODE = XTAL1 + PLL16X
   _XINFREQ = 5_000_000
-
+  
   'SLEEP = 60 * 5                ' Screen saver timeout in seconds
   SLEEP = 0			' Zero for no screen saver
   
   VGA_BASE = 16                 ' VGA Video pins 16-23 (??)
   KBD_BASE = 14                 ' PS/2 Keyboard pins 14-15 (DATA, CLK)
   SD_BASE = 24                  ' SD Card pins 24-27 (DO, CLK, DI, CS)
-
-  STAT_ATTR1 = %00110000_00000000	' Status area screen attribute (first line)
-  STAT_ATTR = %01110000_00000000	' Status area screen attribute
+  
+  STAT_ATTR = %00110000_00000000	' Status area screen attribute (first line)
 
   PPI_CMD = $0100               ' pin 8, PC0, active ???
   PPI_STB = $0200               ' pin 9, PC4, active low
@@ -143,19 +143,16 @@ PUB main | tmp
     dsp.cls
   MsgNewLine
 
-  dsp.VidOn
+  dsp.vidOn
 
   statRows := (dsp.statInfo >> 8)  & $FF
   statCols := dsp.statInfo & $FF
     
   dsp.statFill(0, 0, STAT_ATTR, $20, statRows * statCols)
-  dsp.statFill(0, 0, STAT_ATTR1, $20, statCols)
 
-  dsp.statStr(0, 1, STAT_ATTR1, @strROM)
-  dsp.statStr(0, (statCols - strsize(@strHW)) / 2, STAT_ATTR1, @strHW)
-  dsp.statStr(0, (statCols - strsize(@strVer) - 1), STAT_ATTR1, @strVer)
-  
-  'dsp.statStr(2, (statCols - 20) / 2, STAT_ATTR, string("<<< Message Area >>>"))
+  dsp.statStr(0, 1, STAT_ATTR, @strROM)
+  dsp.statStr(0, (statCols - strsize(@strHW)) / 2, STAT_ATTR, @strHW)
+  dsp.statStr(0, (statCols - strsize(@strVer) - 1), STAT_ATTR, @strVer)
 
   MsgStr(string("Initializing ParPortProp..."))
 
@@ -221,7 +218,7 @@ PUB main | tmp
   else
     MsgStr(string(" OK"))
   MsgNewLine
-
+  
   dsp.beep
 
   MsgStr(string("ParPortProp Ready!"))
@@ -610,7 +607,7 @@ PRI Activity
 
 DAT
 
-strVer	byte	"F/W v0.97",0
+strVer	byte	"F/W v0.98",0
 strHW	byte	"ParPortProp",0
 strROM	byte	"RomWBW",0
 

Source/Prop/Spin/PropIO.spin

@@ -3,9 +3,9 @@
   *******************************
   *  PropIO for RomWBW          *
   *  Interface to RBC PropIO    *
-  *  Version 0.97               *
-  *  May 9, 2020                *
-  *******************************
+  *  Version 0.98                 *
+  *  January 20, 2024             *
+  *********************************
 
   Wayne Warthen
   wwarthen@gmail.com
@@ -35,11 +35,12 @@
     2015-11-15 WBW: Added SD card capacity reporting
     2018-03-11 WBW: Implement character attributes
     2020-05-09 WBW: Switch monitor refresh to 60Hz
+    2024-01-20 WBW: Add graphics char selection to AnsiTerm
 
 }}
 
 CON
-  VERSION = (((0 << 8) + 97) << 16) + 0
+  VERSION = (((0 << 8) + 98) << 16) + 0
 
   _CLKMODE = XTAL1 + PLL16X
   _XINFREQ = 5_000_000
@@ -50,9 +51,8 @@ CON
   VGA_BASE = 16                 ' VGA Video pins 16-23 (??)
   KBD_BASE = 14                 ' PS/2 Keyboard pins 14-15 (DATA, CLK)
   SD_BASE = 24                  ' SD Card pins 24-27 (DO, CLK, DI, CS)
-
-  STAT_ATTR1 = %00110000_00000000	' Status area screen attribute (first line)
-  STAT_ATTR = %01110000_00000000	' Status area screen attribute
+  
+  STAT_ATTR = %00110000_00000000	' Status area screen attribute (first line)
 
   DSKCMD_NOP = $00
   DSKCMD_STATUS = $01
@@ -78,10 +78,7 @@ CON
 
   TRMST_ACTMASK = (TRMST_KBDACT | TRMST_DSPACT)         ' bit mask for kbd or dsp active
 
-
-
 OBJ
-  'dsp : "VGA_1024"                                      ' VGA Terminal Driver
   dsp : "AnsiTerm"                                      ' VGA Terminal Driver
   kbd : "Keyboard"                                      ' PS/2 Keyboard Driver
   sdc : "safe_spi"                                      ' SD Card Driver
@@ -101,7 +98,7 @@ VAR
   long  TimerCount
   long  DiskResult
   long  CardType
-   
+  
   byte	statRows
   byte	statCols
   
@@ -122,20 +119,17 @@ PUB main
     dsp.cls
   MsgNewLine
 
-  dsp.VidOn
+  dsp.vidOn
 
   statRows := (dsp.statInfo >> 8)  & $FF
   statCols := dsp.statInfo & $FF
     
   dsp.statFill(0, 0, STAT_ATTR, $20, statRows * statCols)
-  dsp.statFill(0, 0, STAT_ATTR1, $20, statCols)
 
-  dsp.statStr(0, 1, STAT_ATTR1, @strROM)
-  dsp.statStr(0, (statCols - strsize(@strHW)) / 2, STAT_ATTR1, @strHW)
-  dsp.statStr(0, (statCols - strsize(@strVer) - 1), STAT_ATTR1, @strVer)
+  dsp.statStr(0, 1, STAT_ATTR, @strROM)
+  dsp.statStr(0, (statCols - strsize(@strHW)) / 2, STAT_ATTR, @strHW)
+  dsp.statStr(0, (statCols - strsize(@strVer) - 1), STAT_ATTR, @strVer)
   
-  'dsp.statStr(2, (statCols - 20) / 2, STAT_ATTR, string("<<< Message Area >>>"))
-
   MsgStr(string("Initializing PropIO..."))
 
   TermStatKbdAdr := @TermStatKbd
@@ -185,10 +179,12 @@ PUB main
   else
     MsgStr(string(" OK"))
   MsgNewLine
+  
+  dsp.beep
 
   MsgStr(string("PropIO Ready!"))
   MsgNewLine
-
+  
   repeat
     if (DiskStat & DSKST_ACT)
       ProcessDiskCmd
@@ -315,13 +311,13 @@ PRI Timer
     waitcnt(clkfreq * 1 + cnt)
     if (TimerCount > 0)
       if (TimerCount == 1)
-        dsp.VidOff
+        dsp.vidOff
       TimerCount--
 
 PRI Activity
   if (SLEEP > 0)
     if (TimerCount == 0)
-      dsp.VidOn
+      dsp.vidOn
     TimerCount := SLEEP
 
 {
@@ -338,18 +334,18 @@ PRI DumpBuffer(Buffer) | i, j
 
 DAT
 
-strVer	byte	"F/W v0.97",0
+strVer	byte	"F/W v0.98",0
 strHW	byte	"PropIO",0
 strROM	byte	"RomWBW",0
 
 {{                        Ports
 
 
-                    +------/WAIT
-                    |+-----/RD
+                    +------ CLR
+                    |+----- /RD
                     ||+---- A1
                     |||+--- A0
-                    ||||+--/CS
+                    ||||+-- /CS
                     |||||
                     |||||
    P15..P0  -->  xxxxxxxx_xxxxxxxx

Source/Prop/Spin/PropIO2.spin

@@ -3,8 +3,8 @@
   *********************************
   *  PropIO 2 for RomWBW          *
   *  Interface to RBC PropIO 2    *
-  *  Version 0.97                 *
-  *  May 9, 2020                  *
+  *  Version 0.98                 *
+  *  January 20, 2024             *
   *********************************
 
   Wayne Warthen
@@ -35,11 +35,12 @@
     2015-11-15 WBW: Added SD card capacity reporting
     2018-03-11 WBW: Implement character attributes
     2020-05-09 WBW: Switch monitor refresh to 60Hz
+    2024-01-20 WBW: Add graphics char selection to AnsiTerm
 
 }}
 
 CON
-  VERSION = (((0 << 8) + 97) << 16) + 0
+  VERSION = (((0 << 8) + 98) << 16) + 0
 
   _CLKMODE = XTAL1 + PLL16X
   _XINFREQ = 5_000_000
@@ -51,8 +52,7 @@ CON
   KBD_BASE = 14                 ' PS/2 Keyboard pins 14-15 (DATA, CLK)
   SD_BASE = 24                  ' SD Card pins 24-27 (DO, CLK, DI, CS)
   
-  STAT_ATTR1 = %00110000_00000000	' Status area screen attribute (first line)
-  STAT_ATTR = %01110000_00000000	' Status area screen attribute
+  STAT_ATTR = %00110000_00000000	' Status area screen attribute (first line)
 
   DSKCMD_NOP = $00
   DSKCMD_STATUS = $01
@@ -79,7 +79,6 @@ CON
   TRMST_ACTMASK = (TRMST_KBDACT | TRMST_DSPACT)         ' bit mask for kbd or dsp active
 
 OBJ
-  'dsp : "VGA_1024"                                      ' VGA Terminal Driver
   dsp : "AnsiTerm"                                      ' VGA Terminal Driver
   kbd : "Keyboard"                                      ' PS/2 Keyboard Driver
   sdc : "safe_spi"                                      ' SD Card Driver
@@ -126,14 +125,11 @@ PUB main
   statCols := dsp.statInfo & $FF
     
   dsp.statFill(0, 0, STAT_ATTR, $20, statRows * statCols)
-  dsp.statFill(0, 0, STAT_ATTR1, $20, statCols)
 
-  dsp.statStr(0, 1, STAT_ATTR1, @strROM)
-  dsp.statStr(0, (statCols - strsize(@strHW)) / 2, STAT_ATTR1, @strHW)
-  dsp.statStr(0, (statCols - strsize(@strVer) - 1), STAT_ATTR1, @strVer)
+  dsp.statStr(0, 1, STAT_ATTR, @strROM)
+  dsp.statStr(0, (statCols - strsize(@strHW)) / 2, STAT_ATTR, @strHW)
+  dsp.statStr(0, (statCols - strsize(@strVer) - 1), STAT_ATTR, @strVer)
   
-  'dsp.statStr(2, (statCols - 20) / 2, STAT_ATTR, string("<<< Message Area >>>"))
-
   MsgStr(string("Initializing PropIO..."))
 
   TermStatKbdAdr := @TermStatKbd
@@ -188,7 +184,7 @@ PUB main
 
   MsgStr(string("PropIO Ready!"))
   MsgNewLine
-
+  
   repeat
     if (DiskStat & DSKST_ACT)
       ProcessDiskCmd
@@ -338,7 +334,7 @@ PRI DumpBuffer(Buffer) | i, j
 
 DAT
 
-strVer	byte	"F/W v0.97",0
+strVer	byte	"F/W v0.98",0
 strHW	byte	"PropIO v2",0
 strROM	byte	"RomWBW",0
 

Source/Prop/Spin/VGA_1024.spin

@@ -1,702 +0,0 @@
-'' VGA_1024.spin
-''
-'' MODIFIED BY VINCE BRIEL FOR POCKETERM FEATURES
-'' MODIIFED BY JEFF LEDGER / AKA OLDBITCOLLECTOR
-''
-
-CON
-  cols          = 80 '128                               ' number of screen columns
-  lcols         = cols / 4                              ' number of long in columns
-  rows          = 40 '64                                ' number of screen rows
-  chars         = rows*cols                             ' number of screen characters
-  esc           = $CB                                   ' keyboard esc char
-  rowsnow       = 36                                    ' adjusted for split screen effect
-  maxChars      = rowsnow*cols                          ' adjusted value for split screen effect
-  lastChar      = maxChars / 4                          ' last screen position in longs adjusted for split
-  lastLine      = (rowsnow - 1) * cols                  ' character position of last row
-  cols1         = 81                                    ' adjusted value for 80th character
-  TURQUOISE     = $29
-
-OBJ
-  vga : "vga_Hires_Text"
-
-VAR
-  byte  screen[chars]           ' screen character buffer
-  byte  tmpl[cols]              ' temporary line buffer
-  word  colors[rows]            ' color specs for each screen row (see ColorPtr description above)
-  byte  cursor[6]               ' cursor info array (see CursorPtr description above)
-  long  sync, loc, xloc, yloc   ' sync used by VGA routine, others are local screen pointers
-  long  kbdreq                  ' global val of kbdflag
-  long  BR[8]
-  long  Brate
-  byte  inverse
-  byte  invs
-  byte  state                   ' Current state of state machine
-  word  pos                     ' Current Position on the screen
-  word  oldpos                  ' Previous location of cursor before update
-  word  regionTop, regionBot    ' Scroll region top/bottom
-  long  arg0                    ' First argument of escape sequence
-  long  arg1                    ' Second argument of escape sequence
-  byte  lastc                   ' Last displayed char
-  word  statpos
-  long  vgabasepin
-  
-PUB start(BasePin) | i, char
-  vgabasepin := BasePin
-
-''init screen colors to gold on blue
-  repeat i from 0 to rows - 1
-    colors[i] := $08F0          '$2804 (if you want cyan on blue)
-
-''init cursor attributes
-  cursor[2] := %110             ' init cursor to underscore with slow blink
-  BR[0]:=300 
-  BR[1]:=1200
-  BR[2]:=2400
-  BR[3]:=4800
-  BR[4]:=9600
-  BR[5]:=19200
-  BR[6]:=38400
-  BR[7]:=57600
-  BR[8]:=115200
-  xloc := cursor[0] := 0
-  yloc := cursor[1] := 0
-  loc  := xloc + yloc*cols
-  
-  pos := 0
-  regionTop := 0
-  regionBot := 35 * cols
-  state := 0
-  statpos := 37 * cols
-
-PUB vidon
-  if (!vga.start(vgabasepin, @screen, @colors, @cursor, @sync))
-    return false
-  
-  'waitcnt(clkfreq * 1 + cnt)    'wait 1 second for cogs to start
-
-
-PUB vidoff
-  vga.stop
-
-PUB inv(c)
-  inverse:=c
-
-PUB color(colorVal) | i
-  repeat i from 0 to rows - 1
-    colors[i] := $0000 | colorVal
-
-PUB cursorset(c) | i
-  i:=%000
-  if c == 1
-    i:= %001
-  if c == 2
-    i:= %010
-  if c == 3
-    i:= %011
-  if c == 4
-    i:= %101
-  if c == 5
-    i:= %110
-  if c == 6
-    i:= %111
-  if c == 7
-    i:= %000  
-  cursor[2] := i
-  
-PUB bin(value, digits)
-
-'' Print a binary number, specify number of digits
-
-  repeat while digits > 32
-    outc("0")
-    digits--
-
-  value <<= 32 - digits
-
-  repeat digits
-    outc((value <-= 1) & 1 + "0")
-
-
-PUB clrbtm(ColorVal) | i
-   repeat i from 36 to rows - 1                         'was 35
-    colors[i] := $0000 + ColorVal
-
-PUB cls1(VerStr) | i
-
-  longfill(@screen[0], $20202020, chars / 4)
-
-  clrbtm(TURQUOISE)
-  
-  inverse := 1
-  statprint(36, 0, VerStr)
-  inverse := 0
-
-  repeat i from 37 to (rows - 1)    
-    statprint(i,0, string("                                                                                "))
-
- 
-{{
-  x :=xloc
-  y := yloc
-  invs := inverse
-  ''clrbtm(TURQUOISE)
-  longfill(@screen, $20202020, chars/4)
-  xloc := 0
-  yloc :=0
-  loc  := xloc + yloc*cols
-  repeat 80
-     outc(32)
-  xloc := 0
-  yloc :=36
-  loc  := xloc + yloc*cols
-  inverse := 1
-  str(string("                                                                                "))
-  inverse := 0
-  str(string("Baud Rate: "))
-  i:= BR[6]
-  dec(i)
-  str(string("   "))
-  xloc := 18
-  loc := xloc + yloc*cols
-  str(string("Color  "))
-  str(string("PC Port: "))
-  if pcport == 1
-     str(string("OFF "))
-  if pcport == 0
-     str(string("ON  "))   
-  str(string(" Force 7 bit: "))
-  if ascii == 0
-     str(string("NO  "))
-  if ascii == 1
-     str(string("YES "))
-  str(string(" Cursor   CR W/LF: "))
-  if CR == 1
-     str(string("YES"))
-  if CR == 0
-     str(string("NO "))  
-  outc(13)
-  outc(10)
-  
-  inverse:=1
-  xloc := 6
-  loc  := xloc + yloc*cols
-  str(string("F1"))
-  xloc := 19
-  loc  := xloc + yloc*cols
-  str(string("F2"))
-  xloc := 30
-  loc  := xloc + yloc*cols
-  str(string("F3"))
-  xloc := 46
-  loc  := xloc + yloc*cols
-  str(string("F4"))
-  xloc := 58
-  loc  := xloc + yloc*cols
-  str(string("F5"))
-  xloc := 70
-  loc  := xloc + yloc*cols
-  str(string("F6")) 
-  inverse := invs
-  xloc := cursor[0] := x 'right & left       was 0
-  yloc := cursor[1] := y 'from top           was 1
-  loc  := xloc + yloc*cols
-}}
-
-PUB clsupdate(c,screencolor,PCPORT,ascii,CR) | i,x,y,locold
-        
-  invs := inverse
-  locold := loc
-  x := xloc
-  y := yloc
-  ''(TURQUOISE)
-  xloc := 0
-  yloc :=36
-  loc  := xloc + yloc*cols
-  inverse := 1
-  str(string("                                                                                "))
-  inverse := 0
-  xloc := 0
-  yloc :=37
-  loc  := xloc + yloc*cols
-  str(string("Baud Rate: "))
-  i:= BR[6]
-  dec(i)
-  str(string("   "))
-  xloc := 18
-  loc := xloc + yloc*cols
-  
-  str(string("Color  "))
-  str(string("PC Port: "))
-  if pcport == 1
-     str(string("OFF "))
-  if pcport == 0
-     str(string("ON  "))   
-  str(string(" Force 7 bit: "))
-  if ascii == 0
-     str(string("NO  "))
-  if ascii == 1
-     str(string("YES "))
-  str(string(" Cursor   CR W/LF: "))
-  if CR == 1
-     str(string("YES"))
-  if CR == 0
-     str(string("NO "))  
-  xloc := 0
-  yloc :=38
-  loc  := xloc + yloc*cols
-  inverse:=1
-  xloc := 6
-  loc  := xloc + yloc*cols
-  str(string("F1"))
-  xloc := 19
-  loc  := xloc + yloc*cols
-  str(string("F2"))
-  xloc := 30
-  loc  := xloc + yloc*cols
-  str(string("F3"))
-  xloc := 46
-  loc  := xloc + yloc*cols
-  str(string("F4"))
-  xloc := 58
-  loc  := xloc + yloc*cols
-  str(string("F5"))
-  xloc := 70
-  loc  := xloc + yloc*cols
-  str(string("F6")) 
-  inverse := invs
-  xloc := cursor[0] := x
-  yloc := cursor[1] := y
-'  loc  := xloc + yloc*cols
-  loc := locold
-
-PUB dec(value) | i
-
-'' Print a decimal number
-
-  if value < 0
-    -value
-    outc("-")
-
-  i := 1_000_000_000
-
-  repeat 10
-    if value => i
-      outc(value/i + "0")
-      value //= i
-      result~~
-    elseif result or i == 1
-      outc("0")
-    i /= 10     
-
-PUB hex(value, digits)
-
-'' Print a hexadecimal number, specify number of digits
-
-  repeat while digits > 8
-    outc("0")
-    digits--
-
-  value <<= (8 - digits) << 2
-
-  repeat digits
-    outc(lookupz((value <-= 4) & $f : "0".."9", "A".."F"))
-
-
-PUB str(string_ptr)
-
-'' Print a zero terminated string
-
-  repeat strsize(string_ptr)
-    process_char(byte[string_ptr++])
-
-PUB statprint(r, c, str1) | x, ptr
- 
-  ptr := r * cols + c
-  repeat x from 0 to STRSIZE(str1) - 1
-    putc(ptr++, BYTE[str1 + x])
-
-PUB statnum(r, c, num1)  | i, ptr
-
-  ptr := r * cols + c
-
-  if num1 < 0
-    -num1
-    putc(ptr++,"-")
-
-  i := 1_000_000_000
-
-  repeat 10
-    if num1 => i
-      putc(ptr++, (num1/i +"0"))
-      num1 //= i
-      result~~
-    elseif result or i == 1
-      putc(ptr++, "0")
-    i /= 10
-
-PUB putc(position, c)
-  if inverse
-    c |= $80
-  screen[position] := c
-  
-PUB cls
-  longfill (@screen, $20202020, lastChar)
-
-PUB fullcls
-  longfill(@screen, $20202020, 800)
-
-PUB setInverse(val)
-  inverse := val
-
-PUB setInv(c)
-  if c == 7
-    setInverse(1)
-  else
-    setInverse(0)
-  
-PUB clEOL(position) | count
-  count := cols - (position // cols)
-  bytefill(@screen + position, $20, count)
-
-PUB clBOL(position) | count
-  count := position // cols
-  bytefill(@screen + position - count, $20, count)
-
-PUB delLine(position) | src, count
-  position -= position // cols
-
-  src := position + cols
-
-  count := (maxChars - src) / 4
-
-  if count > 0
-    longmove(@screen + position, @screen + src, count)
-
-  longfill(@screen + lastLine, $20202020, lcols)
-
-PUB clEOS(position)
-  cleol(position)
-  position += cols - (position // cols)
-  repeat while position < maxChars
-    longfill(@screen + position, $20202020, lcols)
-    pos += cols
-
-PUB setCursorPos(position)
-  cursor[0] := position // cols
-  cursor[1] := position / cols
-
-PUB insLine(position) | base, nxt
-  base := position - (position // cols)
-  position := lastLine
-  repeat while position > base
-    nxt := position - cols
-    longmove(@screen + position, @screen + nxt, lcols)
-    position := nxt
-  clEOL(base)
-
-PUB insChar(position) | count
-  count := (cols - (position // cols)) - 1
-  bytemove(@tmpl, @screen + position, count)
-  screen[position] := " "
-  bytemove(@screen + position + 1, @tmpl, count)
-
-PUB delChar(position) | count
-  count := (cols - (position // cols)) - 1
-  bytemove(@screen + position, @screen + position + 1, count)
-  screen[position + count] := " "
-
-PRI inRegion : answer
-  answer := (pos => regionTop) AND (pos < regionBot)
-
-PRI scrollUp
-  delLine(regionTop)
-  if regionBot < maxChars
-    insLine(regionBot)
-
-PRI scrollDown
-  if regionBot < maxChars
-    delLine(regionBot)
-  insLine(regionTop)
-
-PRI ansi(c) | x, defVal
-
-  state := 0
-
-  if (c <> "r") AND (c <> "J") AND (c <> "m") AND (c <> "K")
-      if arg0 == -1
-          arg0 := 1
-      if arg1 == -1
-          arg1 := 1
-
-  case c
-    "@":
-      repeat while arg0-- > 0
-        insChar(pos)
-
-    "b":
-      repeat while arg0-- > 0
-        outc(lastc)
-
-    "d":
-      if (arg0 < 1) OR (arg0 > rows)
-        arg0 := rows
-      pos := ((arg0 - 1) * cols) + (pos // cols)
-
-    "m":
-      setInv(arg0)
-      if arg1 <> -1
-        setInv(arg1)
-
-    "r":
-      if arg0 < 1
-        arg0 := 1
-      elseif arg0 > cols
-        arg0 := cols
-      if arg1 < 1
-        arg1 := 1
-      elseif arg1 > cols
-        arg1 := cols
-      if arg1 < arg0
-        arg1 := arg0
-
-      regionTop := (arg0 - 1) * cols
-      regionBot := arg1 * cols
-      pos := 0
-
-    "A":
-      repeat while arg0-- > 0
-        pos -= cols
-        if pos < 0
-          pos += cols
-          return
-
-    "B":
-      repeat while arg0-- > 0
-        pos += cols
-        if pos => maxChars
-          pos -= cols
-          return
-
-    "C":
-      repeat while arg0-- > 0
-        pos += 1
-        if pos => maxChars
-          pos -= 1
-          return
-
-    "D":
-      repeat while arg0-- > 0
-        pos -= 1
-        if pos < 0
-          pos := 0
-          return
-
-    "G":
-      if (arg0 < 1) OR (arg0 > cols)
-        arg0 := cols
-     pos := (pos - (pos // cols)) + (arg0 - 1)
-
-    "H", "f":
-      if arg0 =< 0
-        arg0 := 1
-      if arg1 =< 0
-        arg1 := 1
-      pos := (cols * (arg0 - 1)) + (arg1 - 1)
-      if pos < 0
-        pos := 0
-      if pos => maxChars
-        pos := maxChars - 1
-
-    "J":
-      if arg0 == 1
-        clBOL(pos)
-        x := pos - cols
-        x -= x // cols
-        repeat while x => 0
-          clEOL(x)
-          x -= cols
-        return
-
-      if arg0 == 2
-        pos := 0
-
-      clEOL(pos)
-      x := pos + cols
-      x -= (x // cols)
-      repeat while x < maxChars
-        clEOL(x)
-        x += cols
-
-    "K":
-      if arg0 == -1
-          clEOL(pos)
-      elseif arg0 == 1
-          clBOL(pos)
-      else
-          clEOL(pos - (pos // cols))
-
-    "L":
-      if inRegion
-        repeat while arg0-- > 0
-          if regionBot < maxChars
-            delLine(regionBot)
-          insLine(pos)
-
-    "M":
-      if inRegion
-        repeat while arg0-- > 0
-          delLine(pos)
-          if regionBot < maxChars
-            insLine(regionBot)            
-
-    "P":
-      repeat while arg0--
-        delChar(pos)
-
-PRI outc(c)
-
-  putc(pos++, lastc := c)  
-  if pos == regionBot
-    scrollUp
-    pos -= cols
-  elseif pos == maxChars
-    pos := lastLine
-    
-PUB process_char(c)
-  
-  case state
-
-    0:
-      if c > 127
-        c := $20
-
-      if c => $20
-        outc(c)
-        setCursorPos(pos)
-        return
-
-      if c == $1B
-        state := 1
-        return
-
-      if c == $0D
-        pos := pos - (pos // cols)
-        setCursorPos(pos)
-        return
-
-      if c == $0A
-        if inRegion
-            pos += cols
-            if pos => regionBot
-               scrollUp
-               pos -= cols
-        else
-          pos += cols
-          if pos => maxChars
-            pos -= cols
-        setCursorPos(pos)
-        return
-
-      if c == 9
-        pos += (8 - (pos // 8))
-
-        if pos => maxChars
-         pos := lastLine
-         delLine(0)
-
-        setCursorPos(pos)
-       return
-
-     if c == 8
-       if pos > 0
-         pos -= 1
-       setCursorPos(pos)
-      return
-
-    1:
-      case c
-          "[":
-              arg0 := arg1 := -1
-              state := 2
-              return
-
-          "P":
-              pos += cols
-              if pos => maxChars
-                  pos -= cols
-
-          "K":
-              if pos > 0
-                  pos -= 1
-
-          "H":
-              pos -= cols
-              if pos < 0
-                  pos += cols
-
-          "D":
-              if inRegion
-                  scrollUp
-
-          "M":
-              if inRegion
-                  scrollDown
-
-          "G":
-              pos := 0
-
-          "(":
-              state := 5
-              return
-
-      state := 0
-      return
-
-   2:
-      if (c => "0") AND (c =< "9")
-          if arg0 == -1
-              arg0 := c - "0"
-          else
-              arg0 := (arg0 * 10) + (c - "0")
-          return
-
-      if c == ";"
-          state := 3
-          return
-
-      ansi(c)
-      setCursorPos(pos)
-      return
-
-   3:
-      if (c => "0") AND (c =< "9")
-          if arg1 == -1
-              arg1 := c - "0"
-          else
-              arg1 := (arg1 * 10) + (c - "0")
-          return
-
-      if c == ";"
-          state := 4
-          return
-
-      ansi(c)
-      setCursorPos(pos)
-      return
-
-   4:
-      if (c => "0") AND (c =< "9")
-          return
-
-      if c == ";"
-          return
-      ansi(c)
-      setCursorPos(pos)
-      return
-
-   5:
-    state := 0
-    return
-
-  return

Source/ReadMe.txt

@@ -304,7 +304,7 @@ associated config file.
 
 At this point, the build should continue and you will see output 
 related to the assembler runs and some utility invocations.  Just 
-review the output for any obvioius errors.  Normally, all errors 
+review the output for any obvious errors.  Normally, all errors 
 will cause the build to stop immediately and display an error 
 message in red.
 
@@ -3781,4 +3781,4 @@ osimg_small.bin
         1 file(s) copied.
         1 file(s) copied.
 
-C:\Users\Wayne\Projects\RomWBW>
+C:\Users\Wayne\Projects\RomWBW>

Source/RomDsk/Build.cmd

@@ -24,27 +24,26 @@ set RomApps2=fdu format survey sysgen talk timer cpuspd
 
 set RomApps=
 
-copy NUL rom128_wbw.dat
-copy NUL rom128_una.dat
+copy NUL rom0_wbw.dat  || exit /b
+copy NUL rom0_una.dat || exit /b
 
 :: MakeDisk <OutputFile> <ImageSize> <Format> <Directory> <Bios>
 
 set RomApps=%RomApps1%
 
-call :MakeDisk rom256_wbw wbw_rom256 ROM_256KB 0x20000 wbw
-call :MakeDisk rom256_una wbw_rom256 ROM_256KB 0x20000 una
+call :MakeDisk rom128_wbw wbw_rom128 ROM_128KB 0x20000 wbw || exit /b
+call :MakeDisk rom128_una wbw_rom128 ROM_128KB 0x20000 una || exit /b
 
 set RomApps=%RomApps1% %RomApps2%
 
-call :MakeDisk rom512_wbw wbw_rom512 ROM_512KB 0x60000 wbw
-call :MakeDisk rom512_una wbw_rom512 ROM_512KB 0x60000 una
+call :MakeDisk rom256_wbw wbw_rom256 ROM_256KB 0x40000 wbw || exit /b
+call :MakeDisk rom256_una wbw_rom256 ROM_256KB 0x40000 una || exit /b
 
-call :MakeDisk rom1024_wbw wbw_rom1024 ROM_1024KB 0xE0000 wbw
-call :MakeDisk rom1024_una wbw_rom1024 ROM_1024KB 0xE0000 una
+call :MakeDisk rom384_wbw wbw_rom384 ROM_384KB 0x60000 wbw || exit /b
+call :MakeDisk rom384_una wbw_rom384 ROM_384KB 0x60000 una || exit /b
 
-call :MakeDisk ram512_wbw wbw_ram512 RAM_512KB 0x40000 wbw
-
-call :MakeDisk ram1024_wbw wbw_ram1024 RAM_1024KB 0xC0000 wbw
+call :MakeDisk rom896_wbw wbw_rom896 ROM_896KB 0xE0000 wbw || exit /b
+call :MakeDisk rom896_una wbw_rom896 ROM_896KB 0xE0000 una || exit /b
 
 goto :eof