Enable CH and LPT Drivers for Duodyne

Thanks and credit to Will Sowerbutts for contributing and maintaining this critical utility!

ReadMe.md

@@ -3,7 +3,7 @@
 **RomWBW ReadMe** \
 Version 3.4 \
 Wayne Warthen  ([wwarthen@gmail.com](mailto:wwarthen@gmail.com)) \
-09 Oct 2023
+19 Oct 2023
 
 # Overview
 

ReadMe.txt

@@ -1,6 +1,6 @@
 RomWBW ReadMe
 Wayne Warthen (wwarthen@gmail.com)
-09 Oct 2023
+19 Oct 2023
 
 
 

Source/Doc/UserGuide.md

@@ -1609,7 +1609,7 @@ filesystem partition and any CP/M filesystem slices that don't fit.  You
 will get "no disk" errors if you attempt to access a slice past the 
 end of the physical hard disk.
 
-**WARNING**:Your hard disk may be too small to contain the full 64
+**WARNING**: Your hard disk may be too small to contain the full 64
 CP/M filesystem slices.  The true number of CP/M filesystem slices that
 will fit on your specific physical hard disk can be calculated as
 described in [Hard Disk Capacity].
@@ -1625,12 +1625,20 @@ them using `CLRDIR` first.
 
 A great way to maintain your own data on a hard disk is to put this
 data in slices beyond the first 6.  By doing so, you can always
-"reimage" your drive with the combo image without overlaying the data
+"re-image" your drive with the combo image without overlaying the data
 stored in the slices beyond the first 6.  Just be very careful to use
 the same combo image layout (hd512 or hd1k) as you used originally.
 Also remember to calculate the maximum number of slices your hard disk
 will support and do not exceed this number.
 
+**WARNING**: The combo disk image includes a partition table at the 
+start of the image.  If you re-image drive with the combo image, you 
+will overwrite this partition table.  This is fine as long as you don't 
+make any changes to the partition table.  If you manually customize the 
+partition table (using `FDISK80` or other partition management 
+software), those changes will be lost if you re-image your disk with a 
+new combo disk image.
+
 #### Custom Hard Disk Image
 
 If you want to use specific slices in a specific order, you can easily
@@ -1640,8 +1648,9 @@ For hard disks, each .img file represents a single slice (CP/M
 filesystem).  Since a hard disk can contain many slices, you can just 
 concatenate the slices (.img files) together to create your desired hard
 disk image.  For example, if you want to create a hard disk image that 
-has slices for CP/M 2.2, CP/M 3, and WordStar in the hd512 format, you would use 
-the command line of your modern computer to create the final image:
+has slices for CP/M 2.2, CP/M 3, and WordStar in the hd512 format, you 
+would use the command line of your modern computer to create the final 
+image:
 
 Windows:
 
@@ -2651,6 +2660,166 @@ SAMPLE2.TXT ==> 4:/SAMPLE2.TXT ... [OK]
     2 File(s) Copied
 ```
 
+# Real Time Clock
+
+RomWBW supports a variety of real time clock hardware.  If your
+system has this hardware, then it will be able to maintain the
+current date and time even while your system is turned off.
+Additionally, depending on the operating system being used, you may be
+able to utilize date/time stamping of files.
+
+You can determine if your system has a real time clock present (and
+functioning) by looking at the boot messages.  Here is an example of
+a boot message reflecting the detection of a valid real time clock
+module:
+
+`DSRTC: MODE=STD IO=0x8A Thu 2023-10-19 14:07:11 CHARGE=ON`
+
+This example is from a DSRTC clock module.  You may have a different
+one, but it will always display the current date/time.
+
+In some cases, your real time clock will support charging of the
+battery or super-capacitor while the system has power.  The status of
+this charging is displayed.
+
+If the date/time of your RTC needs to be updated, you will need to do
+this with one of the utilities described below.  There is no ability to
+update the date/time of the RTC in the RomWBW Boot Loader or Monitor.
+
+## Date/Time Utilities
+
+RomwWBW includes two utilities for displaying or setting the date/time
+stored by the RTC.  They are both a bit different and are briefly
+described below.
+
+### WDATE Utility
+
+The `WDATE` utility (contributed by Kevin Boone) is an application
+that will display and/or update the current date/time.  Its operation is
+described in $doc_apps$.  This utility works with any of the supported
+RomWBW RTC hardware.  Here is an example of displaying and updating the
+date/time with this utility:
+
+```
+A>wdate
+Thursday 19 October 14:14:43 2023
+
+A>wdate 23 10 19 14 24 30
+
+A>wdate
+Thursday 19 October 14:24:34 2023
+
+```
+
+Note that `WDATE` does not have anything to do with date/time stamping
+of files.  It merely displays and sets the real time clock value.
+
+### RTC Utility
+
+Like `WDATE`, the `RTC` utility (contributed by Andrew Lynch) will let
+you display and set the current date/time.  However, this utility only
+works with the DSRTC hardware (DS1302 chip).  It is a "direct to
+hardware application".  Its operation is described in $doc_apps$.  Here
+is an example of displaying and updatting the date/time with this
+utility:
+
+```
+A>rtc
+Start RTC Program
+RomWBW HBIOS, Mark 4 RTC Latch Port 0x8A
+
+RTC: Version 1.9
+Commands: E)xit T)ime st(A)rt S)et R)aw L)oop C)harge N)ocharge D)elay I)nit G)et P)ut B)oot W)arm-start H)elp
+
+RTC>t
+Current time: 23-10-19 14:30:25-05
+
+RTC>i
+Init date/time.
+
+YEAR:23
+MONTH:10
+DATE:19
+HOURS:14
+MINUTES:31
+SECONDS:00
+DAY:05
+```
+
+The `RTC` utility is also capable of turning the charging feature of
+the DS1320 chip on or off.  Here is an example of turning if off and
+back on:
+
+```
+
+A>rtc
+Start RTC Program
+RomWBW HBIOS, Mark 4 RTC Latch Port 0x8A
+
+
+RTC: Version 1.9
+Commands: E)xit T)ime st(A)rt S)et R)aw L)oop C)harge N)ocharge D)elay I)nit G)et P)ut B)oot W)arm-start H)elp
+
+RTC>n
+Trickle charger disabled.
+
+RTC>c
+Trickle charger enabled.
+```
+
+Do **not** enable charging unless you are sure that your system
+supports this.  If your RTC is being powered by a normal battery, it
+would be dangerous to enable charging.
+
+## Date/Time File Stamping
+
+If an RTC is available in your system, then most operating systems
+can use it to date/time stamp files.  This just means recording the
+date/time of file creation, update, and or access in the directory.
+This capability is available in all of the RomWBW operating system
+except the original DRI CP/M 2.2.
+
+In some cases (such as ZSDOS), you must load an RSX (memory resident
+utility) to enable date/time stamping of files.  Additionally, you
+will need to initialize the directory.  The procedure varies in each
+operation system, so you must review the associated documentation.
+
+The date/time stamping mechanisms for each operating system are
+generally not compatible.  If you initialize a directory for a type
+of stamping, you should be careful not to manipulate that directory
+with a different operating system with a different date/time stamping
+mechanism.  Doing so may corrupt the directory.
+
+The RomWBW disk images do not have date/time stamping initialized.  This
+is to avoid any chance of directory corruption.
+
+## Timezone
+
+None of the operating systems distributed with RomWBW have any concept
+of timezone.  When files are date/time stamped, the date/time will
+simply be whatever date/time the RTC currently has.
+
+The normal practice is to set the RTC to your local time.  This implies
+that you would need to manually adjust the RTC for daylight savings time
+and/or when you travel to a different time zone.
+
+The date/time stamps of files in directories will also be stored in
+local time.  This includes files stored in a FAT filesystem.  If you
+subsequently view the directory from modern machines (Windows, Linux,
+etc.), the date/time displayed will depend on the behavior of the
+modern system.
+
+For example, Linux assumes that the date/time of files
+is UTC.  So, if you create a file on a FAT filesystem with your RomWBW
+computer and then use Linux to view the directory, the date/time stamps
+will seem "off" by a few hours.
+
+The only alternative you may consider is setting the date/time of your
+RTC to UTC.  Since UTC is consistent across all timezones and daylight
+savings time, your file date/time stamps will also be consistent.  Of
+course, this will mean that your RomWBW computer will display a
+date/time that seems wrong because it is not local time.
+
 # CP/NET Networking
 
 Digital Research created a simple network file sharing system called 
@@ -3348,8 +3517,10 @@ directed to complete a partial flash using the /P command line switch.
 # Related Projects
 
 Outside of the hardware platforms adapted to RomWBW, there are a variety 
-of software projects that either target RomWBW specifically or provide
-a RomWBW-specific variation.
+of projects that either target RomWBW specifically or provide
+a RomWBW-specific variation.  These efforts are greatly appreciated
+and are listed below.  Please contact the author if there are any other
+such projects that are not listed.
 
 ## Z88DK
 
@@ -3385,6 +3556,16 @@ the CP/M OS variants.  This tool (`WDATE`) is included on the RomWBW
 OS disk images.  The project is hosted at
 <https://github.com/kevinboone/wdate-cpm>.
 
+## Assembly Language Programming for the RC2014 Zed
+
+Bruce Hall has written a very nice document that describes how to
+develop assembly language applications on RomWBW.  It begins with the
+setup and configuration of a new RC2014 Zed system running RomWBW.
+It describes not only generic CP/M application development, but also
+RomWBW HBIOS programming and bare metal programming.  The latest copy
+of this document is hosted at
+[http://w8bh.net/Assembly for RC2014Z.pdf](http://w8bh.net/Assembly%20for%20RC2014Z.pdf).
+
 # Acknowledgments
 
 I want to acknowledge that a great deal of the code and inspiration

Source/HBIOS/cfg_duo.asm

@@ -46,15 +46,15 @@ RTCIO		.EQU	$94		; RTC LATCH REGISTER ADR
 KIOENABLE	.EQU	FALSE		; ENABLE ZILOG KIO SUPPORT
 KIOBASE		.EQU	$80		; KIO BASE I/O ADDRESS
 ;
-CTCENABLE	.EQU	FALSE		; ENABLE ZILOG CTC SUPPORT
+CTCENABLE	.EQU	TRUE		; ENABLE ZILOG CTC SUPPORT
 CTCDEBUG	.EQU	FALSE		; ENABLE CTC DRIVER DEBUG OUTPUT
-CTCBASE		.EQU	$B0		; CTC BASE I/O ADDRESS
+CTCBASE		.EQU	$60		; CTC BASE I/O ADDRESS
 CTCTIMER	.EQU	TRUE		; ENABLE CTC PERIODIC TIMER
 CTCMODE		.EQU	CTCMODE_CTR	; CTC MODE: CTCMODE_[NONE|CTR|TIM16|TIM256]
 CTCPRE		.EQU	256		; PRESCALE CONSTANT (1-256)
 CTCPRECH	.EQU	2		; PRESCALE CHANNEL (0-3)
 CTCTIMCH	.EQU	3		; TIMER CHANNEL (0-3)
-CTCOSC		.EQU	(4915200/8)	; CTC CLOCK FREQUENCY
+CTCOSC		.EQU	(7372800/8)	; CTC CLOCK FREQUENCY
 ;
 PCFENABLE	.EQU	FALSE		; ENABLE PCF8584 I2C CONTROLLER
 PCFBASE		.EQU	$56		; PCF8584 BASE I/O ADDRESS
@@ -122,7 +122,7 @@ DS7RTCMODE	.EQU	DS7RTCMODE_PCF	; DS7RTC: OPERATING MODE: DS7RTC_[PCF]
 DUARTENABLE	.EQU	FALSE		; DUART: ENABLE 2681/2692 SERIAL DRIVER (DUART.ASM)
 ;
 UARTENABLE	.EQU	TRUE		; UART: ENABLE 8250/16550-LIKE SERIAL DRIVER (UART.ASM)
-UARTOSC		.EQU	1843200		; UART: OSC FREQUENCY IN MHZ
+UARTOSC		.EQU	7372800		; UART: OSC FREQUENCY IN MHZ
 UARTINTS	.EQU	FALSE		; UART: INCLUDE INTERRUPT SUPPORT UNDER IM1/2/3
 UARTCFG		.EQU	DEFSERCFG	; UART: LINE CONFIG FOR UART PORTS
 UARTCASSPD	.EQU	SER_300_8N1	; UART: ECB CASSETTE UART DEFAULT SPEED
@@ -132,7 +132,7 @@ UARTCAS		.EQU	FALSE		; UART: AUTO-DETECT ECB CASSETTE UART
 UARTMFP		.EQU	FALSE		; UART: AUTO-DETECT MF/PIC UART
 UART4		.EQU	FALSE		; UART: AUTO-DETECT 4UART UART
 UARTRC		.EQU	FALSE		; UART: AUTO-DETECT RC UART
-UARTDUAL	.EQU	FALSE		; UART: AUTO-DETECT DUAL UART
+UARTDUAL	.EQU	TRUE		; UART: AUTO-DETECT DUAL UART
 ;
 ASCIENABLE	.EQU	FALSE		; ASCI: ENABLE Z180 ASCI SERIAL DRIVER (ASCI.ASM)
 ;
@@ -140,18 +140,18 @@ Z2UENABLE	.EQU	FALSE		; Z2U: ENABLE Z280 UART SERIAL DRIVER (Z2U.ASM)
 ;
 ACIAENABLE	.EQU	FALSE		; ACIA: ENABLE MOTOROLA 6850 ACIA DRIVER (ACIA.ASM)
 ;
-SIOENABLE	.EQU	FALSE		; SIO: ENABLE ZILOG SIO SERIAL DRIVER (SIO.ASM)
+SIOENABLE	.EQU	TRUE		; SIO: ENABLE ZILOG SIO SERIAL DRIVER (SIO.ASM)
 SIODEBUG	.EQU	FALSE		; SIO: ENABLE DEBUG OUTPUT
 SIOBOOT		.EQU	0		; SIO: REBOOT ON RCV CHAR (0=DISABLED)
 SIOCNT		.EQU	1		; SIO: NUMBER OF CHIPS TO DETECT (1-2), 2 CHANNELS PER CHIP
 SIO0MODE	.EQU	SIOMODE_ZP	; SIO 0: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP|Z80R]
-SIO0BASE	.EQU	$B0		; SIO 0: REGISTERS BASE ADR
-SIO0ACLK	.EQU	(4915200/8)	; SIO 0A: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
+SIO0BASE	.EQU	$60		; SIO 0: REGISTERS BASE ADR
+SIO0ACLK	.EQU	(7372800/4)	; SIO 0A: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
 SIO0ACFG	.EQU	DEFSERCFG	; SIO 0A: SERIAL LINE CONFIG
-SIO0ACTCC	.EQU	-1		; SIO 0A: CTC CHANNEL 0=A, 1=B, 2=C, 3=D, -1 FOR NONE
-SIO0BCLK	.EQU	(4915200/8)	; SIO 0B: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
+SIO0ACTCC	.EQU	0		; SIO 0A: CTC CHANNEL 0=A, 1=B, 2=C, 3=D, -1 FOR NONE
+SIO0BCLK	.EQU	(7372800/4)	; SIO 0B: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
 SIO0BCFG	.EQU	DEFSERCFG	; SIO 0B: SERIAL LINE CONFIG
-SIO0BCTCC	.EQU	-1		; SIO 0B: CTC CHANNEL 0=A, 1=B, 2=C, 3=D, -1 FOR NONE
+SIO0BCTCC	.EQU	1		; SIO 0B: CTC CHANNEL 0=A, 1=B, 2=C, 3=D, -1 FOR NONE
 ;
 XIOCFG		.EQU	DEFSERCFG	; XIO: SERIAL LINE CONFIG
 ;
@@ -229,12 +229,12 @@ SDCNT		.EQU	1		; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD/SC/MT ONLY
 SDTRACE		.EQU	1		; SD: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
 SDCSIOFAST	.EQU	FALSE		; SD: ENABLE TABLE-DRIVEN BIT INVERTER IN CSIO MODE
 ;
-CHENABLE	.EQU	FALSE		; CH: ENABLE CH375/376 USB SUPPORT
+CHENABLE	.EQU	TRUE		; CH: ENABLE CH375/376 USB SUPPORT
 CHTRACE		.EQU	1		; CH: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
 CHUSBTRACE	.EQU	1		; CHUSB: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
 CHSDTRACE	.EQU	1		; CHSD: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
 CHCNT		.EQU	1		; CH: NUMBER OF BOARDS TO DETECT (1-2)
-CH0BASE		.EQU	$BE		; CH 0: BASE I/O ADDRESS
+CH0BASE		.EQU	$4E		; CH 0: BASE I/O ADDRESS
 CH0USBENABLE	.EQU	TRUE		; CH 0: ENABLE USB DISK
 CH0SDENABLE	.EQU	FALSE		; CH 0: ENABLE SD DISK
 CH1BASE		.EQU	$FF		; CH 1: BASE I/O ADDRESS
@@ -254,16 +254,16 @@ ESPCONENABLE	.EQU	TRUE		; ESP: ENABLE ESP32 CONSOLE IO DRIVER VIDEO/KBD SUPPORT
 HDSKENABLE	.EQU	FALSE		; HDSK: ENABLE SIMH HDSK DISK DRIVER (HDSK.ASM)
 HDSKTRACE	.EQU	1		; HDSK: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
 ;
-PIOENABLE	.EQU	FALSE		; PIO: ENABLE ZILOG PIO DRIVER (PIO.ASM)
+PIOENABLE	.EQU	TRUE		; PIO: ENABLE ZILOG PIO DRIVER (PIO.ASM)
 PIOCNT		.EQU	2		; PIO: NUMBER OF CHIPS TO DETECT (1-2), 2 CHANNELS PER CHIP
-PIO0BASE	.EQU	$B8		; PIO 0: REGISTERS BASE ADR
-PIO1BASE	.EQU	$BC		; PIO 1: REGISTERS BASE ADR
+PIO0BASE	.EQU	$68		; PIO 0: REGISTERS BASE ADR
+PIO1BASE	.EQU	$6C		; PIO 1: REGISTERS BASE ADR
 ;
-LPTENABLE	.EQU	FALSE		; LPT: ENABLE CENTRONICS PRINTER DRIVER (LPT.ASM)
+LPTENABLE	.EQU	TRUE		; LPT: ENABLE CENTRONICS PRINTER DRIVER (LPT.ASM)
 LPTMODE		.EQU	LPTMODE_SPP	; LPT: DRIVER MODE: LPTMODE_[NONE|SPP|MG014]
 LPTCNT		.EQU	1		; LPT: NUMBER OF CHIPS TO DETECT (1-2)
 LPTTRACE	.EQU	1		; LPT: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
-LPT0BASE	.EQU	$E8		; LPT 0: REGISTERS BASE ADR
+LPT0BASE	.EQU	$48		; LPT 0: REGISTERS BASE ADR
 LPT1BASE	.EQU	$EC		; LPT 1: REGISTERS BASE ADR
 ;
 PPAENABLE	.EQU	FALSE		; PPA: ENABLE PPA DISK DRIVER (PPA.ASM)

Source/HBIOS/hbios.asm

@@ -71,6 +71,8 @@
 ;
 #DEFINE	HBIOS
 ;
+SUPCTS	.EQU	FALSE		; SUPPRESS CTS DURING HBIOS BOOT
+;
 ; MAKE SURE EXACTLY ONE OF ROMBOOT, APPBOOT, IMGBOOT IS DEFINED.
 ;
 MODCNT	.EQU	0
@@ -2300,8 +2302,36 @@ HB_BOOTDLY:
 	JR	C,HB_CONRDY		; IF TOO HIGH, JUST USE FAILSAFE
 	LD	A,BOOTCON		; GET REQUESTED CONSOLE DEV
 	LD	(CB_CONDEV),A		; SAVE IT
+;
 HB_CONRDY:
 ;
+#IF (SUPCTS)
+;
+; MOST SERIAL PORTS ARE CONFIGURED WITH HARDWARE FLOW CONTROL ENABLED.
+; IF THERE IS A PROBLEM WITH THE CTS SIGNAL, THEN OUTPUT TO THE CONSOLE
+; WILL BE STALLED WHICH CAN LEAD A USER TO THINK THE SYSTEM IS TOTALLY
+; DEAD WHEN, IN FACT, IT IS JUST WAITING FOR CTS TO BE ASSERTED.  ALSO,
+; IF THE USER IS BOOTING TO A CRT DEVICE AND DISCONNECTS THE CONSOLE
+; SERIAL PORT, THE SYSTEM WILL WAIT FOR RTS AND NEVER BOOT.  SO, HERE
+; WE SAVE THE ACTIVE CONSOLE CONFIGURATION, THEN TURN OFF HARDWARE
+; FLOW CONTROL.  THE ORIGINAL CONFIGURATION WILL BE RESTORED BELOW
+; PRIOR TO LAUNCING THE ROM LOADER.
+;
+	; RETRIEVE THE CONFIG FROM THE CONSOLE PORT
+	LD	B,BF_CIOQUERY		; HBIOS QUERY CIO CONFIG
+	LD	A,(CB_CONDEV)		; GET CONSOLE DEVICE
+	LD	(HB_BOOTCONSAV),A	; SAVE IT FOR LATER
+	LD	C,A			; BOOT CONSOLE TO C
+	CALL	HB_DISPATCH		; INTERNAL HBIOS CALL
+	LD	(HB_CONCFGSAV),DE	; SAVE CONFIG
+	RES	5,D			; CLEAR RTS BIT
+	LD	B,BF_CIOINIT		; HBIOS CIO INIT
+	LD	A,(CB_CONDEV)		; GET CONSOLE DEVICE
+	LD	C,A			; BOOT CONSOLE TO C
+	CALL	HB_DISPATCH		; INTERNAL HBIOS CALL
+;
+#ENDIF
+;
 #IF (WBWDEBUG == USEMIO)		; OUTPUT ANY CACHED DEBUG TEXT
 	LD	HL,MIOOUTPTR
 	LD	E,(HL)
@@ -2848,6 +2878,19 @@ HB_FPZ:
 ;
 INITSYS3:
 ;
+#IF (SUPCTS)
+;
+; RESTORE BOOT CONSOLE CONFIGURATION
+;
+	CALL	LDELAY			; ALLOW SERIAL PORT TO FLUSH
+	LD	B,BF_CIOINIT		; HBIOS CIO INIT
+	LD	A,(HB_BOOTCONSAV)	; ORIGINAL BOOT CONSOLE DEVICE
+	LD	C,A			; BOOT CONSOLE TO C
+	LD	DE,(HB_CONCFGSAV)	; SAVED ORIGINAL CONSOLE CFG
+	CALL	HB_DISPATCH		; INTERNAL HBIOS CALL
+;
+#ENDIF
+;
 ; IF WE ARE GOING TO SWITCH CONSOLES, IT IS IMPLEMENTED HERE.  A
 ; MESSAGE IS PRINTED ON THE OLD CONSOLE INDICATING WHERE THE NEW
 ; CONSOLE IS AND THE NEW CONSOLE RECEIVES AN HBIOS BANNER.
@@ -7721,6 +7764,11 @@ HB_BOOTCON	.DB	0		; INITIAL BOOT CONSOLE SAVE AREA
 HB_BOOTCFG	.DW	0		; CONSOLE CONFIG SAVE AREA
 HB_NEWCON	.DB	0		; NEW CONSOLE TO SWITCH TO
 ;
+#IF (SUPCTS)
+HB_BOOTCONSAV	.DB	0		; INITIAL BOOT CONSOLE SAVE AREA
+HB_CONCFGSAV	.DW	0		; CONSOLE CONFIG SAVE AREA
+#ENDIF
+;
 HB_HASFP	.DB	0		; NON-ZERO MEANS FP EXISTS
 ;
 HB_WRKBUF	.FILL	512,0		; INTERNAL DISK BUFFER

Source/HBIOS/std.asm

@@ -837,7 +837,7 @@ INT_CTC0A	.EQU	0	; ZILOG CTC 0, CHANNEL A
 INT_CTC0B	.EQU	1	; ZILOG CTC 0, CHANNEL B
 INT_CTC0C	.EQU	2	; ZILOG CTC 0, CHANNEL C
 INT_CTC0D	.EQU	3	; ZILOG CTC 0, CHANNEL D
-;INT_SIO0	.EQU	7	; ZILOG SIO 0, CHANNEL A & B
+INT_SIO0	.EQU	6	; ZILOG SIO 0, CHANNEL A & B
 INT_SIO1	.EQU	8	; ZILOG SIO 1, CHANNEL A & B
 INT_PIO0A	.EQU	9	; ZILOG PIO 0, CHANNEL A
 INT_PIO0B	.EQU	10	; ZILOG PIO 0, CHANNEL B

Source/HBIOS/uart.asm

@@ -63,7 +63,11 @@ UARTCBASE		.EQU	$80
 UARTMBASE		.EQU	$18
 UART4BASE		.EQU	$C0
 UARTRBASE		.EQU	$A0
+#IF (PLATFORM == PLT_DUO)
+UARTDBASE		.EQU	$70
+#ELSE
 UARTDBASE		.EQU	$80
+#ENDIF
 ;
 #IF (UARTINTS)
 ;

Source/Images/Common/All/FLASH.DOC

@@ -17,6 +17,11 @@ FLASH4 has been tested and confirmed working on:
 It should work on many other machines that run RomWBW or UNA BIOS.  If you test
 it on another machine please let me know the outcome.
 
+FLASH030 (also included) is a Linux version of the same software. It is
+targetted at my 68030 machine but should be very easy to port to other
+machines. It expects a machine with a larger address space, and thus omits much
+of the bank switching and other tricks required on Z80 platforms.
+
 
 = Introduction =
 

Source/ver.inc

@@ -2,7 +2,7 @@
 #DEFINE	RMN	4
 #DEFINE	RUP	0
 #DEFINE	RTP	0
-#DEFINE BIOSVER	"3.4.0-dev.9"
+#DEFINE BIOSVER	"3.4.0-dev.12"
 #define rmj	RMJ
 #define rmn	RMN
 #define rup	RUP

Source/ver.lib

@@ -3,5 +3,5 @@ rmn	equ	4
 rup	equ	0
 rtp	equ	0
 biosver	macro
-	db	"3.4.0-dev.9"
+	db	"3.4.0-dev.12"
 	endm