Support Serial Ports on ESP32 Board

Update DMAMON

Binary/ReadMe.txt

@@ -39,8 +39,8 @@ image for the Mark IV with the standard configuration. If a custom
 configuration called "custom" is created and built, a new file called 
 MK4_custom.rom will be added to this directory.
 
-Documentation of the pre-built ROM Images is contained in the 
-RomList.txt file in this directory.
+Documentation of the pre-built ROM Images is contained in
+"RomWBW User Guide.pdf" in the Doc directory.
 
 ROM Firmware Update Images (<plt>_<cfg>.upd)
 -------------------------------------

Doc/ChangeLog.txt

@@ -14,6 +14,11 @@ Version 3.3
 - R?P: Added new disk images: Aztec C, MS BASIC Compiler, MS Fortran, Games, HiTech-C, Turbo Pascal, SLR Z80ASM
 - JBL: Added RCZ80 configuration for ColecoVision
 - WBW: Support for Z180 running interrupt mode 1
+- WBW: Preliminary support for S100 Computers Z180
+- WBW: Preliminary support for Dan Werner's ESP32 MBC Module
+- WBW: Early support for Duodyne base system (CPU/UART/ROM/RAM/RTC/SPK)
+- M?C: Fixed XM to allow specifying HBIOS port for send operations
+- WBW: Fix S100 Z180 LED operation (credit to Jay Cotton for finding this issue)
 
 Version 3.2.1
 -------------

ReadMe.md

@@ -3,7 +3,7 @@
 **RomWBW ReadMe** \
 Version 3.3 \
 Wayne Warthen  ([wwarthen@gmail.com](mailto:wwarthen@gmail.com)) \
-28 Jun 2023
+08 Aug 2023
 
 # Overview
 

ReadMe.txt

@@ -1,6 +1,6 @@
 RomWBW ReadMe
 Wayne Warthen (wwarthen@gmail.com)
-28 Jun 2023
+08 Aug 2023
 
 
 

Source/Apps/Test/DMAmon/dmamon.asm

@@ -12,12 +12,26 @@ DMAMODE_Z180	.EQU	2		; Z180 INTEGRATED DMA
 DMAMODE_Z280	.EQU	3		; Z280 INTEGRATED DMA
 DMAMODE_RC	.EQU	4		; RCBUS Z80 DMA
 DMAMODE_MBC	.EQU	5		; MBC
-DMAMODE_VDG	.EQU	6		; VELESOFT DATAGEAR
+DMAMODE_DUO	.EQU	6		; DUO
+DMAMODE_VDG	.EQU	7		; VELESOFT DATAGEAR
+;
+DMAMODE		.EQU	DMAMODE_DUO	; SELECT DMA DEVICE FOR TESTING
+;
+;==================================================================================================
+; SOME DEFAULT PLATFORM CONFIGURATIONS
+;==================================================================================================
 ;
 DMABASE		.EQU	$E0		; DMA: DMA BASE ADDRESS
-DMAMODE		.EQU	DMAMODE_MBC	; SELECT DMA DEVICE FOR TESTING
+DMALATCH	.EQU	DMABASE+1	; DMA: DMA LATCH ADDRESS
 DMAIOTST	.EQU	$68		; AN OUTPUT PORT FOR TESTING - 16C450 SERIAL OUT
 ;
+#IF (DMAMODE==DMAMODE_DUO)
+DMABASE		.SET	$40		; DMA: DMA0 BASE ADDRESS
+;DMABASE 	.SET	$41		; DMA: DMA1 BASE ADDRESS
+DMALATCH	.SET	$43		; DMA: DMA LATCH ADDRESS
+DMAIOTST	.SET	$58		; AN OUTPUT PORT FOR TESTING - 16C450 SERIAL OUT
+#ENDIF
+;
 ;==================================================================================================
 ; HELPER MACROS AND EQUATES
 ;==================================================================================================
@@ -156,17 +170,17 @@ MENULP1:
 	CP	'N'
 	JP	Z,DMATST_N		; MEMORY COPY ITER
 	CP	'0'
-	JP	Z,DMATST_01
+	JP	Z,DMATST_0		; PULSE DMA PORT
+	CP	'1'
+	JP	Z,DMATST_1		; PULSE LATCH PORT
 	CP	'O'
 	JP	Z,DMATST_O
-#IF !(DMAMODE==DMAMODE_VDG)
-	CP	'1'
-	JP	Z,DMATST_01
 	CP	'R'
 	JP	Z,DMATST_R		; TOGGLE RESET
 	CP	'Y'
-	JP	Z,DMATST_Y		; TOGGLE READY
-#ENDIF
+	JP	Z,DMATST_Y
+	cp	'L'
+	jp	z,DMACFG_L		; SET LATCH PORT
 	cp	'S'
 	jp	z,DMACFG_S		; SET PORT
 	cp	'V'
@@ -197,12 +211,17 @@ DMABYE:
 ;
 DMACFG_S:
 	call	PRTSTRD
-	.db	"\n\rSet port address\n\rPort:$"
+	.db	"\n\rSet DMA port address\n\rPort:$"
 	call	HEXIN
 	ld	hl,dmaport
 	ld	(hl),a
-	inc	hl
-	inc	a
+	jp	MENULP
+;
+DMACFG_L:
+	call	PRTSTRD
+	.db	"\n\rSet Latch port address\n\rPort:$"
+	call	HEXIN
+	ld	hl,dmalach
 	ld	(hl),a
 	jp	MENULP
 ;
@@ -234,11 +253,17 @@ DMATST_N:
 	CALL	DMAMemTestIter
 	JP	MENULP
 ;
-DMATST_01:
+DMATST_0:
 	call	PRTSTRD
-	.db	"\n\rPerforming Port Selection Test\n\r$"
-	CALL	DMA_Port01
-	JP	MENULP
+	.db	"\n\rPerforming DMA Port Selection Test\n\r$"
+	CALL	DMA_Port0
+	ret
+
+DMATST_1:
+	call	PRTSTRD
+	.db	"\n\rPerforming Latch Port Selection Test\n\r$"
+	CALL	DMA_Port1
+	ret
 ;
 DMATST_O:
 	call	PRTSTRD
@@ -255,7 +280,7 @@ DMATST_D:
 DMATST_Y:
 	call	PRTSTRD
 	.db	"\n\rPerforming Ready Bit Test\n\r$"
-	CALL	DMA_ReadyT
+	CALL	DMA_ReadyY
 	JP	MENULP
 ;
 DMATST_R:
@@ -289,6 +314,10 @@ DISPM:	call	PRTSTRD
 	.db	", Port=0x$"
 	LD	A,(dmaport)		; DISPLAY
 	CALL	PRTHEXBYTE		; DMA PORT
+	call	PRTSTRD
+	.db	", Latch Port=0x$"
+	ld	A,(dmalach)
+	CALL	PRTHEXBYTE		; DMA PORT
 ;
 #IF (INTENABLE)
 ;
@@ -351,7 +380,7 @@ DMA_INIT:
 	CALL	PRTHEXBYTE
 ;
 #IF !(DMAMODE==DMAMODE_VDG)
-	ld	a,(dmautil)
+	ld	a,(dmalach)
 	ld	c,a
 	LD	A,DMA_FORCE
 	out	(c),a			; force ready off
@@ -417,6 +446,7 @@ DMA_DEV_STR:
 	.TEXT	"Z280$"
 	.TEXT	"RCBUS$"
 	.TEXT	"MBC$"
+	.TEXT	"DUODYNE$"
 	.TEXT	"DATAGEAR$"
 ;
 DMA_SPD_STR:
@@ -483,7 +513,7 @@ DMABUF	.TEXT	"0123456789abcdef"
 DMA_ReadyO:
 	call	PRTSTRD
 	.db	"\r\nOutputing string to port 0x$"
-	ld	a,DMAIOTST
+	ld	a,(tstport)
 	call	PRTHEXBYTE
 	call	NEWLINE
 ;
@@ -491,7 +521,7 @@ DMA_ReadyO:
 IOLoop:	push	bc
 	call	NEWLINE
 	ld	hl,DMABUF
-	ld	a,DMAIOTST
+	ld	a,(tstport)
 	ld	bc,16
 ;
 	call	DMAOTIR
@@ -502,16 +532,17 @@ IOLoop:	push	bc
 	ret
 ;
 ;==================================================================================================
-; PULSE PORT (COMMON ROUTINE WHERE A CONTAINS THE ASCII PORT OFFSET)
+; PULSE PORT
 ;==================================================================================================
 ;
-DMA_Port01:
+DMA_Port0:
+	ld	a,(dmaport)
+	jr	DMA_Port
+DMA_Port1:
+	ld	a,(dmalach)
+DMA_Port:
 	call	PRTSTRD
 	.db	"\r\nPulsing port 0x$"
-	sub	'0'			; Calculate
-	ld	c,a
-	ld	a,(dmaport)		; Port to
-	add	a,c
 	call	PRTHEXBYTE
 	call	NEWLINE
 	ld	c,a			; toggle
@@ -543,12 +574,9 @@ dlylp:	dec	bc
 ; TOGGLE READY BIT
 ;==================================================================================================
 ;
-DMA_ReadyT:
+DMA_ReadyY:
 	call	NEWLINE
-#IF !(DMAMODE==DMAMODE_VDG)
-
-#ENDIF
-	ld	a,(dmautil)
+	ld	a,(dmalach)
 	ld	c,a			; toggle
 	ld	b,$20			; loop counter
 portlp2:push	bc
@@ -558,14 +586,12 @@ portlp2:push	bc
 	.db	": ON$"
 	call	delay
 	ld	a,$FF
-;	ld	c,DMABASE+1
 	out	(c),a
 	call	PRTSTRD
 	.db	" -> OFF$"
 	call	delay
 	call	PRTSTRD
 	.db	"\r               \r$"
-;	ld	c,DMABASE+1
 	ld	a,0
 	out	(c),a
 	pop	bc
@@ -1169,8 +1195,9 @@ CST:
 USEINT	.DB	FALSE		; USE INTERRUPTS FLAG
 counter	.dw	0	
 dmaport	.db	DMABASE
-dmautil	.db	DMABASE+1
+dmalach	.db	DMALATCH
 dmaxfer	.db	DMA_XMODE
+tstport	.db	DMAIOTST
 dmavbs	.db	0
 SAVSTK:	.DW	2
 	.FILL	64

Source/Apps/Test/I2C/i2cscan.asm

@@ -5,12 +5,13 @@
 ; MARCO MACCAFERRI, HTTPS://WWW.MACCASOFT.COM
 ; HBIOS VERSION BY PHIL SUMMERS (B1ACKMAILER) DIFFICULTLEVELHIGH@GMAIL.COM
 ;
-PCF	.EQU	1
-P8X180	.EQU	0
-SC126	.EQU	0
-SC137	.EQU	0
+PCFECB		.EQU	0
+PCFDUO		.EQU	1
+P8X180		.EQU	0
+SC126		.EQU	0
+SC137		.EQU	0
 ;
-#IF (PCF)
+#IF (PCFECB)
 I2C_BASE 	.EQU  	0F0H
 PCF_ID   	.EQU  	0AAH
 CPU_CLK	 	.EQU  	12
@@ -20,6 +21,16 @@ PCF_RS1  	.EQU  	PCF_RS0+1
 PCF_OWN	 	.EQU  	(PCF_ID >> 1)        	; PCF'S ADDRESS IN SLAVE MODE
 #ENDIF
 ;
+#IF (PCFDUO)
+I2C_BASE 	.EQU  	056H
+PCF_ID   	.EQU  	0AAH
+CPU_CLK	 	.EQU  	12
+;
+PCF_RS0  	.EQU  	I2C_BASE
+PCF_RS1  	.EQU  	PCF_RS0+1
+PCF_OWN	 	.EQU  	(PCF_ID >> 1)        	; PCF'S ADDRESS IN SLAVE MODE
+#ENDIF
+;
 #IF (P8X180)
 I2C_BASE	.EQU	0A0h
 _sda		.EQU	0
@@ -153,8 +164,11 @@ lp5f:	ld	a,(addr)	; next address
 	jp	0
 
 signon:	.db	"I2C Bus Scanner"
-#IF (PCF)
-	.DB	" - PCF8584"
+#IF (PCFECB)
+	.DB	" - PCF8584 (ECB)"
+#ENDIF
+#IF (PCFDUO)
+	.DB	" - PCF8584 (Duodyne)"
 #ENDIF
 #IF (SC126)
 	.DB	" - SC126"
@@ -219,7 +233,7 @@ _cout:				; character
 	ret
 
 ;-----------------------------------------------------------------------------
-#IF (PCF)
+#IF (PCFECB | PCFDUO)
 _i2c_start:
 PCF_START:
         LD     A,PCF_START_  
@@ -418,7 +432,7 @@ PCF_PINFAIL 	.DB	"PIN FAIL$"
 PCF_BBFAIL	.DB	"BUS BUSY$"
 ;
 ;-----------------------------------------------------------------------------
-#IF (PCF)
+#IF (PCFECB | PCFDUO)
 _i2c_stop:  
 PCF_STOP: 
 	LD   	A,PCF_STOP_	; issue 

Source/Apps/Tune/tune.asm

@@ -629,6 +629,9 @@ CFGTBL:	;	PLT	RSEL	RDAT	RIN	Z180	ACR
 ;
 	.DB	13,	$A0,	$A1,	$A0,	$FF,	$A2	; MBC
 	.DW	HWSTR_MBC
+;
+	.DB	17,	$A0,	$A1,	$A0,	$FF,	$A2	; DUODYNE
+	.DW	HWSTR_DUO
 ;
 	.DB	$FF					; END OF TABLE MARKER
 ;
@@ -682,6 +685,7 @@ HWSTR_RCEB6	.DB	"RCBus Sound Module (EBv6)",0
 HWSTR_RCMF	.DB	"RCBus Sound Module (MF)",0
 HWSTR_LINC	.DB	"Z50 LiNC Sound Module",0
 HWSTR_MBC	.DB	"NHYODYNE Sound Module",0
+HWSTR_DUO	.DB	"DUODYNE Sound Module",0
 
 MSGUNSUP	.db	"MYM files not supported with HBIOS yet!\r\n", 0
 

Source/Apps/XM/xmdm125.asm

@@ -720,12 +720,17 @@ NOBYE:	LXI	H,FCB+1		; Get primary option
 ; Send option processor
 ; Single option: "K"	- force 1k mode
 ;
-	INX	H		; Look for a 'K'
+	CALL	SNDOPC
+	CALL	SNDOPC
+	JMP	ALLSET
+SNDOPC:INX	H		; Look for an option
 	MOV	A,M
 	CPI	' '		; Is it a space?
-	JZ	ALLSET		; Then we're ready to send...
-	CPI	'K'
-	JNZ	OPTERR		; "K" is the only setable 2nd option
+	JNZ	CHKK
+	POP	PSW
+	JMP	ALLSET
+CHKK:	CPI	'K'
+	JNZ	CHK6TH		; If it's not K it should be a port number
 	LDA	MSPEED
 	CPI	MINKSP		; If less than MINKSP bps, ignore 1k
 	JC	ALLSET		; Request
@@ -733,7 +738,7 @@ NOBYE:	LXI	H,FCB+1		; Get primary option
 	STA	KFLAG		; First, force us to 1K mode
 	CALL	ILPRT
 	DB	'(1k protocol selected)',CR,LF,0
-	JMP	ALLSET		; That's it for send...
+	RET		; That's it for send...
 ;
 ; Receive option processor
 ; 3 or 4 options: "X"	- disable auto-protocol select
@@ -5789,4 +5794,4 @@ BDPTOS	EQU	83		; Print Time on System
 	 ENDIF			; BYEBDOS
 ;
 	END
-
+

Source/Apps/rtc.asm

@@ -31,6 +31,8 @@
 ;
 ;[2022/03/27] v1.8 Support RHYOPHYRE
 ;
+;[2023/07/07] v1.9 Support DUODYNE
+;
 ; Constants
 ;
 mask_data	.EQU	%10000000	; RTC data line
@@ -49,6 +51,7 @@ PORT_DYNO	.EQU	$0C		; RTC port for DYNO
 PORT_RCZ280	.EQU	$C0		; RTC port for RCZ280
 PORT_MBC	.EQU	$70		; RTC port for MBC
 PORT_RPH	.EQU	$84		; RTC port for RHYOPHYRE
+PORT_DUO	.EQU	$94		; RTC port for DUODYNE
 
 
 BDOS		.EQU	5		; BDOS invocation vector
@@ -1079,61 +1082,66 @@ HINIT:
 	LD	C,PORT_SBC
 	LD	DE,PLT_SBC
 	CP	$01		; SBC
-	JR	Z,RTC_INIT2
+	JP	Z,RTC_INIT2
 	CP	$02		; ZETA
-	JR	Z,RTC_INIT2
+	JP	Z,RTC_INIT2
 	CP	$03		; ZETA 2
-	JR	Z,RTC_INIT2
+	JP	Z,RTC_INIT2
 ;
 	LD	C,PORT_N8
 	LD	DE,PLT_N8
 	CP	$04		; N8
-	JR	Z,RTC_INIT2
+	JP	Z,RTC_INIT2
 ;
 	LD	C,PORT_MK4
 	LD	DE,PLT_MK4
 	CP	$05		; Mark IV
-	JR	Z,RTC_INIT2
+	JP	Z,RTC_INIT2
 ;
 	LD	C,PORT_RCZ80
 	LD	DE,PLT_RCZ80
 	CP	$07		; RCBus w/ Z80
-	JR	Z,RTC_INIT2
+	JP	Z,RTC_INIT2
 ;
 	LD	C,PORT_RCZ180
 	LD	DE,PLT_RCZ180
 	CP	$08		; RCBus w/ Z180
-	JR	Z,RTC_INIT2
+	JP	Z,RTC_INIT2
 ;
 	LD	C,PORT_EZZ80
 	LD	DE,PLT_EZZ80
 	CP	$09		; Easy Z80
-	JR	Z,RTC_INIT2
+	JP	Z,RTC_INIT2
 ;
 	LD	C,PORT_SCZ180
 	LD	DE,PLT_SCZ180
 	CP	$0A		; SCZ180
-	JR	Z,RTC_INIT2
+	JP	Z,RTC_INIT2
 ;
 	LD	C,PORT_DYNO
 	LD	DE,PLT_DYNO
 	CP	11		; DYNO
-	JR	Z,RTC_INIT2
+	JP	Z,RTC_INIT2
 ;
 	LD	C,PORT_RCZ280
 	LD	DE,PLT_RCZ280
 	CP	12		; RCZ280
-	JR	Z,RTC_INIT2
+	JP	Z,RTC_INIT2
 ;
 	LD	C,PORT_MBC
 	LD	DE,PLT_MBC
 	CP	13		; MBC
-	JR	Z,RTC_INIT2
+	JP	Z,RTC_INIT2
 ;
 	LD	C,PORT_RPH
 	LD	DE,PLT_RPH
 	CP	14		; RHYOPHYRE
-	JR	Z,RTC_INIT2
+	JP	Z,RTC_INIT2
+;
+	LD	C,PORT_DUO
+	LD	DE,PLT_DUO
+	CP	17		; DUODYNE
+	JP	Z,RTC_INIT2
 ;
 	; Unknown platform
 	LD	DE,PLTERR	; BIOS error message
@@ -1630,7 +1638,7 @@ TESTING_BIT_DELAY_OVER:
 
 RTC_HELP_MSG:
 	.DB	0Ah, 0Dh		; line feed and carriage return
-	.TEXT	"RTC: Version 1.8"
+	.TEXT	"RTC: Version 1.9"
 	.DB	0Ah, 0Dh		; line feed and carriage return
 	.TEXT	"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"
 	.DB	0Ah, 0Dh		; line feed and carriage return
@@ -1760,6 +1768,7 @@ PLT_DYNO	.TEXT	", DYNO RTC Module Latch Port 0x0C\r\n$"
 PLT_RCZ280	.TEXT	", RCBus Z280 RTC Module Latch Port 0xC0\r\n$"
 PLT_MBC		.TEXT	", MBC RTC Latch Port 0x70\r\n$"
 PLT_RPH		.TEXT	", RHYOPHYRE RTC Latch Port 0x84\r\n$"
+PLT_DUO		.TEXT	", DUODYNE RTC Latch Port 0x70\r\n$"
 
 ;
 ; Generic FOR-NEXT loop algorithm

Source/Doc/SystemGuide.md

@@ -1952,6 +1952,9 @@ The hardware Platform (L) is identified as follows:
 | PLT_RCZ280    |12      | RCBUS W/ Z280                           |
 | PLT_MBC       |13      | NHYODYNE MULTI-BOARD COMPUTER           |
 | PLT_RPH       |14      | RHYOPHYRE GRAPHICS SBC                  |
+| PLT_Z80RETRO  |15      | Z80 RETRO COMPUTER                      |
+| PLT_S100      |16      | S100 COMPUTERS Z180                     |
+| PLT_DUO       |17      | DUODYNE Z80 SYSTEM                      |
 
 ### Function 0xF2 -- System Set Bank (SYSSETBNK)
 

Source/Doc/UserGuide.md

@@ -202,6 +202,8 @@ below, **carefully** pick the appropriate ROM image for your hardware.
 | [Z280 ZZRCC CPU Module]^7^                                     | RCBus   | RCZ280_zzrc.rom    | 115200        |
 | [Z280 ZZ80MB SBC]^7^                                           | RCBus   | RCZ280_zz80mb.rom  | 115200        |
 | [Z80-Retro SBC]^8^                                             | -       | Z80RETRO_std.rom   | 38400         |
+| [S100 Computers Z180]^9^                                       | S100    | S100_std.rom       | 38400         |
+| [Duodyne Z80 System]^1^                                        | Duo     | DUO_std.rom        | 38400         |
 
 | ^1^Designed by Andrew Lynch
 | ^2^Designed by Sergey Kiselev
@@ -211,6 +213,7 @@ below, **carefully** pick the appropriate ROM image for your hardware.
 | ^6^Designed by Steve Garcia
 | ^7^Designed by Bill Shen
 | ^8^Designed by Peter Wilson
+| ^9^Designed by John Monahan
 
 RCBus refers to Spencer Owen's RC2014 bus specification and derivatives
 including RC26, RC40, RC80, and BP80.
@@ -2305,26 +2308,35 @@ This application understands both FAT filesystems as well as CP/M filesystems.
 * Long filenames are not supported.  Files with long filenames will
   show up with their names truncated into the older 8.3 convention.
 * A FAT filesystem can be located on floppy or hard disk media.  For
-  hard disk media, the FAT filesystem must be located within a valid
-  FAT partition.
+  hard disk media, a valid FAT Filesystem partition must exist.
+* Note that CP/M (and compatible) OSes do not support all of the
+  filename characters that a modern computer does.  The following
+  characters are **not permitted** in a CP/M filename:
+
+  `< > . , ; : = ? * [ ] _ % | ( ) / \`
   
+  The FAT application does not auto-rename files when it encounters
+  invalid filenames.  It will just issue an error and quit.
+  Additionally, the error message is not very clear about the problem.
+
 ## FAT Filesystem Preparation
 
 In general, you can create media formatted with a FAT filesystem on
 your RomWBW computer or on your modern computer.  We will only be
 discussing the RomWBW-based approach here.
 
-In the case of a floppy disk, you can use the `FAT` application to
-format the floppy disk.  For example, if your floppy disk is on RomWBW
-disk unit 2, you could use `FAT FORMAT 2:`.  This will overwrite the
-floppy with a FAT filesystem and all previous contents will be lost.
-Once formatted this way, the floppy disk can be used in a floppy drive
-attached to a modern computer or it can be used on RomWBW using the
+In the case of a floppy disk, you can use the `FAT` application to 
+format the floppy disk.  The floppy disk must already be physically 
+formatted using RomWBW FDU or equivalent.  If your floppy disk is on 
+RomWBW disk unit 2, you could use `FAT FORMAT 2:`.  This will overwrite 
+the floppy with a FAT filesystem and all previous contents will be lost.
+Once formatted this way, the floppy disk can be used in a floppy drive 
+attached to a modern computer or it can be used on RomWBW using the 
 other `FAT` tool commands.
 
 In the case of hard disk media, it is necessary to have a FAT
 partition.  If you prepared your RomWBW hard disk media using the
-disk image process, then this partition will already be present and
+disk image process, then this partition will already be defined and
 you do not need to recreate it.  This default FAT partition is located
 at approximately 512MB from the start of your disk and it is 384MB in
 size.  So, your hard disk media must be 1GB or greater to use this
@@ -2372,8 +2384,13 @@ If your RomWBW system has multiple disk drives/slots, you can also just
 create a disk with your modern computer that is a dedicated FAT 
 filesystem disk.  You can use your modern computer to format the disk 
 (floppy, CF Card, SD Card, etc.), then insert the disk in your RomWBW 
-computer and access if using `FAT` based on its RomWBW unit number.
+computer and access it using `FAT` based on its RomWBW unit number.
 
+**WARNING**: Microsoft Windows will sometimes suggest reformatting
+partitions that it does not recognize.  If you are prompted to format
+a partition of your SD/CF Card when inserting the card into a Windows
+computer, you probably want to select Cancel.
+  
 ## FAT Application Usage
 
 Complete instructions for the `FAT` application are found in $doc_apps$.
@@ -3927,6 +3944,41 @@ the RomWBW HBIOS configuration.
 
 `\clearpage`{=latex}
 
+### S100 Computers Z180
+
+|                   |               |
+|-------------------|---------------|
+| ROM Image File    | S100_std.rom  |
+| Console Baud Rate | 38400         |
+| Interrupts        | Mode 2        |
+
+ - CPU speed assumed to be 18.432 MHz
+ - System timer is generated by Z180 CPU
+ - Hardware auto-detected:
+   - Interrupt-driven RTC
+   - Z180 ASCI Serial Ports
+   - Onboard SD Card Interface
+
+`\clearpage`{=latex}
+
+### Duodyne Z80 System
+
+|                   |               |
+|-------------------|---------------|
+| ROM Image File    | DUO_std.rom   |
+| Console Baud Rate | 38400         |
+| Interrupts        | Mode 2        |
+
+ - CPU speed is detected at startup if DS1302 RTC is active
+   - Otherwise 8.000 MHz assumed
+ - System timer is generated by CTC if available
+ - Hardware auto-detected:
+   - DS1302 RTC
+   - Zilog DMA Module
+   - UART Serial Adapter
+
+`\clearpage`{=latex}
+
 ## Appendix B - Device Summary
 
 The table below briefly describes each of the possible devices that

Source/HBIOS/Build.cmd

@@ -93,7 +93,14 @@ call :asm imgpad2 || exit /b
 
 copy /b romldr.bin + dbgmon.bin + ..\zsdos\zsys_wbw.bin + ..\cpm22\cpm_wbw.bin osimg.bin || exit /b
 copy /b ..\Forth\camel80.bin + nascom.bin + ..\tastybasic\src\tastybasic.bin + game.bin + eastaegg.bin + netboot.mod + updater.bin + usrrom.bin osimg1.bin || exit /b
-copy /b imgpad2.bin osimg2.bin || exit /b
+
+if %Platform%==S100 (
+    zxcc slr180 -s100mon/fh
+    zxcc mload25 -s100mon || exit /b
+    copy /b s100mon.com osimg2.bin || exit /b
+) else (
+    copy /b imgpad2.bin osimg2.bin || exit /b
+)
 
 copy /b romldr.bin + dbgmon.bin + ..\zsdos\zsys_wbw.bin osimg_small.bin || exit /b
 
@@ -224,5 +231,7 @@ call Build DYNO std || exit /b
 call Build UNA std || exit /b
 call Build RPH std || exit /b
 call Build Z80RETRO std || exit /b
+call Build S100 std || exit /b
+call Build DUO std || exit /b
 
 goto :eof

Source/HBIOS/Build.ps1

@@ -27,8 +27,8 @@ $ErrorAction = 'Stop'
 # UNA BIOS is simply imbedded, it is not built here.
 #
 
-$PlatformListZ80 = "SBC", "MBC", "ZETA", "ZETA2", "RCZ80", "Z80RETRO", "UNA"
-$PlatformListZ180 = "N8", "MK4", "RCZ180", "SCZ180", "DYNO", "RPH"
+$PlatformListZ80 = "SBC", "MBC", "ZETA", "ZETA2", "RCZ80", "Z80RETRO", "DUO", "UNA"
+$PlatformListZ180 = "N8", "MK4", "RCZ180", "SCZ180", "DYNO", "RPH", "S100"
 $PlatformListZ280 = "RCZ280"
 
 #

Source/HBIOS/Build.sh

@@ -32,11 +32,13 @@ if [ "${ROM_PLATFORM}" == "dist" ] ; then
 	ROM_PLATFORM="SBC"; ROM_CONFIG="std"; bash Build.sh
 	ROM_PLATFORM="SBC"; ROM_CONFIG="simh"; bash Build.sh
 	ROM_PLATFORM="MBC"; ROM_CONFIG="std"; bash Build.sh
+	ROM_PLATFORM="DUO"; ROM_CONFIG="std"; bash Build.sh
 	ROM_PLATFORM="SCZ180"; ROM_CONFIG="sc126"; bash Build.sh
 	ROM_PLATFORM="SCZ180"; ROM_CONFIG="sc130"; bash Build.sh
 	ROM_PLATFORM="SCZ180"; ROM_CONFIG="sc131"; bash Build.sh
 	ROM_PLATFORM="SCZ180"; ROM_CONFIG="sc140"; bash Build.sh
 	ROM_PLATFORM="SCZ180"; ROM_CONFIG="sc503"; bash Build.sh
+	ROM_PLATFORM="S100"; ROM_CONFIG="std"; bash Build.sh
 	ROM_PLATFORM="UNA"; ROM_CONFIG="std"; bash Build.sh
 	ROM_PLATFORM="Z80RETRO"; ROM_CONFIG="std"; bash Build.sh
 	ROM_PLATFORM="ZETA"; ROM_CONFIG="std"; bash Build.sh

Source/HBIOS/Clean.cmd

@@ -11,6 +11,7 @@ if exist *.exp del *.exp
 if exist *.tmp del *.tmp
 if exist *.mrk del *.mrk
 if exist *.sys del *.sys
+if exist *.hex del *.hex
 if exist build.inc del build.inc
 if exist font*.asm del font*.asm
 if exist build_env.cmd del build_env.cmd

Source/HBIOS/Config/DUO_std.asm

@@ -0,0 +1,46 @@
+;
+;==================================================================================================
+;   DUODYNE STANDARD CONFIGURATION
+;==================================================================================================
+;
+; THE COMPLETE SET OF DEFAULT CONFIGURATION SETTINGS FOR THIS PLATFORM ARE FOUND IN THE
+; CFG_<PLT>.ASM INCLUDED FILE WHICH IS FOUND IN THE PARENT DIRECTORY.  THIS FILE CONTAINS
+; COMMON CONFIGURATION SETTINGS THAT OVERRIDE THE DEFAULTS.  IT IS INTENDED THAT YOU MAKE
+; YOUR CUSTOMIZATIONS IN THIS FILE AND JUST INHERIT ALL OTHER SETTINGS FROM THE DEFAULTS.
+; EVEN BETTER, YOU CAN MAKE A COPY OF THIS FILE WITH A NAME LIKE <PLT>_XXX.ASM AND SPECIFY
+; YOUR FILE IN THE BUILD PROCESS.
+;
+; THE SETTINGS BELOW ARE THE SETTINGS THAT ARE MOST COMMONLY MODIFIED FOR THIS PLATFORM.
+; MANY OF THEM ARE EQUAL TO THE SETTINGS IN THE INCLUDED FILE, SO THEY DON'T REALLY DO
+; ANYTHING AS IS.  THEY ARE LISTED HERE TO MAKE IT EASY FOR YOU TO ADJUST THE MOST COMMON
+; SETTINGS.
+;
+; N.B., SINCE THE SETTINGS BELOW ARE REDEFINING VALUES ALREADY SET IN THE INCLUDED FILE,
+; TASM INSISTS THAT YOU USE THE .SET OPERATOR AND NOT THE .EQU OPERATOR BELOW. ATTEMPTING
+; TO REDEFINE A VALUE WITH .EQU BELOW WILL CAUSE TASM ERRORS!
+;
+; PLEASE REFER TO THE CUSTOM BUILD INSTRUCTIONS (README.TXT) IN THE SOURCE DIRECTORY (TWO
+; DIRECTORIES ABOVE THIS ONE).
+;
+#DEFINE	BOOT_DEFAULT	"H"		; DEFAULT BOOT LOADER CMD ON <CR> OR AUTO BOOT
+;
+#include "cfg_duo.asm"
+;
+CPUOSC		.SET	8000000		; CPU OSC FREQ IN MHZ
+CRTACT		.SET	FALSE		; ACTIVATE CRT (VDU,CVDU,PROPIO,ETC) AT STARTUP
+;
+INTMODE		.SET	2		; INTERRUPTS: 0=NONE, 1=MODE 1, 2=MODE 2, 3=MODE 3 (Z280)
+;
+;;;DMAENABLE	.SET	TRUE		; DMA: ENABLE DMA DRIVER (DMA.ASM)
+;
+BATCOND		.SET	TRUE		; ENABLE LOW BATTERY WARNING MESSAGE
+;
+ROMSIZE		.SET	512		; SIZE OF ROM IN KB (MUST MATCH YOUR HARDWARE!!!)
+RAMSIZE		.SET	512		; SIZE OF RAM IN KB (MUST MATCH YOUR HARDWARE!!!)
+;
+PCFENABLE	.SET	TRUE		; ENABLE PCF8584 I2C CONTROLLER
+;
+MDFFENABLE	.SET	FALSE		; MD: ENABLE FLASH FILE SYSTEM
+;
+UARTINTS	.SET	FALSE		; UART: INCLUDE INTERRUPT SUPPORT UNDER IM1/2/3
+;UARTCFG	.SET	UARTCFG | SER_RTS

Source/HBIOS/Config/MBC_std.asm

@@ -49,6 +49,8 @@ PKDENABLE	.SET	TRUE		; ENABLES DSKY NG PKD DRIVER (8259)
 UARTINTS	.SET	FALSE		; UART: INCLUDE INTERRUPT SUPPORT UNDER IM1/2/3
 ;UARTCFG	.SET	UARTCFG | SER_RTS
 ;
+ESPENABLE	.SET	TRUE		; ESP: ENABLE ESP32 IO BOARD DRIVER (ESP.ASM)
+;
 LPTENABLE	.SET	TRUE		; LPT: ENABLE CENTRONICS PRINTER DRIVER (LPT.ASM)
 ;
 CVDUMON		.SET	CVDUMON_CGA	; CVDU: CVDU MONITOR SETUP: CVDUMON_[NONE|CGA|EGA]

Source/HBIOS/Config/RCZ280_zz80mb.asm

@@ -28,7 +28,7 @@
 ;
 #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/S100_std.asm

@@ -0,0 +1,47 @@
+;
+;==================================================================================================
+;   S100 STANDARD CONFIGURATION
+;==================================================================================================
+;
+; THE COMPLETE SET OF DEFAULT CONFIGURATION SETTINGS FOR THIS PLATFORM ARE FOUND IN THE
+; CFG_<PLT>.ASM INCLUDED FILE WHICH IS FOUND IN THE PARENT DIRECTORY.  THIS FILE CONTAINS
+; COMMON CONFIGURATION SETTINGS THAT OVERRIDE THE DEFAULTS.  IT IS INTENDED THAT YOU MAKE
+; YOUR CUSTOMIZATIONS IN THIS FILE AND JUST INHERIT ALL OTHER SETTINGS FROM THE DEFAULTS.
+; EVEN BETTER, YOU CAN MAKE A COPY OF THIS FILE WITH A NAME LIKE <PLT>_XXX.ASM AND SPECIFY
+; YOUR FILE IN THE BUILD PROCESS.
+;
+; THE SETTINGS BELOW ARE THE SETTINGS THAT ARE MOST COMMONLY MODIFIED FOR THIS PLATFORM.
+; MANY OF THEM ARE EQUAL TO THE SETTINGS IN THE INCLUDED FILE, SO THEY DON'T REALLY DO
+; ANYTHING AS IS.  THEY ARE LISTED HERE TO MAKE IT EASY FOR YOU TO ADJUST THE MOST COMMON
+; SETTINGS.
+;
+; N.B., SINCE THE SETTINGS BELOW ARE REDEFINING VALUES ALREADY SET IN THE INCLUDED FILE,
+; TASM INSISTS THAT YOU USE THE .SET OPERATOR AND NOT THE .EQU OPERATOR BELOW. ATTEMPTING
+; TO REDEFINE A VALUE WITH .EQU BELOW WILL CAUSE TASM ERRORS!
+;
+; PLEASE REFER TO THE CUSTOM BUILD INSTRUCTIONS (README.TXT) IN THE SOURCE DIRECTORY (TWO
+; DIRECTORIES ABOVE THIS ONE).
+;
+#DEFINE	BOOT_DEFAULT	"H"		; DEFAULT BOOT LOADER CMD ON <CR> OR AUTO BOOT
+;
+#include "cfg_s100.asm"
+;
+CPUOSC		.SET	18432000	; CPU OSC FREQ IN MHZ
+;
+Z180_CLKDIV	.SET	1		; Z180: CHK DIV: 0=OSC/2, 1=OSC, 2=OSC*2
+Z180_MEMWAIT	.SET	0		; Z180: MEMORY WAIT STATES (0-3)
+Z180_IOWAIT	.SET	1		; Z180: I/O WAIT STATES TO ADD ABOVE 1 W/S BUILT-IN (0-3)
+;
+DSRTCENABLE	.SET	FALSE		; DSRTC: ENABLE DS-1302 CLOCK DRIVER (DSRTC.ASM)
+INTRTCENABLE	.SET	TRUE		; ENABLE PERIODIC INTERRUPT CLOCK DRIVER (INTRTC.ASM)
+;
+UARTENABLE	.SET	FALSE		; UART: ENABLE 8250/16550-LIKE SERIAL DRIVER (UART.ASM)
+ASCIENABLE	.SET	TRUE		; ASCI: ENABLE Z180 ASCI SERIAL DRIVER (ASCI.ASM)
+ACIAENABLE	.SET	FALSE		; ACIA: ENABLE MOTOROLA 6850 ACIA DRIVER (ACIA.ASM)
+SIOENABLE	.SET	FALSE		; SIO: ENABLE ZILOG SIO SERIAL DRIVER (SIO.ASM)
+;
+IDEENABLE	.SET	FALSE		; IDE: ENABLE IDE DISK DRIVER (IDE.ASM)
+PPIDEENABLE	.SET	FALSE		; PPIDE: ENABLE PARALLEL PORT IDE DISK DRIVER (PPIDE.ASM)
+SDENABLE	.SET	TRUE		; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)
+SDMODE		.SET	SDMODE_SC	; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|USR]
+SDCNT		.SET	1		; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD & SC ONLY

Source/HBIOS/Makefile

@@ -6,7 +6,7 @@ MOREDIFF = game.bin hbios_rom.bin nascom.bin usrrom.bin \
 SUBDIRS =
 DEST = ../../Binary
 TOOLS =../../Tools
-OTHERS =  *.img *.rom *.com *.upd *.bin *.z80 cpm.sys zsys.sys Build.inc font*.asm *.dat hbios_env.sh
+OTHERS =  *.img *.rom *.com *.upd *.bin *.hex cpm.sys zsys.sys Build.inc font*.asm *.dat hbios_env.sh
 
 # DIFFMAKE = 1
 
@@ -43,6 +43,10 @@ else
 	BIOS=wbw
 endif
 
+ifeq ($(ROM_PLATFORM),S100)
+	ROMDEPS += s100mon.bin
+endif
+
 ROMNAME=${ROM_PLATFORM}_${ROM_CONFIG}
 
 # $(info DEPS=$(DEPS))
@@ -58,7 +62,11 @@ $(OBJECTS) : $(ROMDEPS)
 	cat romldr.bin dbgmon.bin ../ZSDOS/zsys_$(BIOS).bin >osimg_small.bin
 	if [ $(ROM_PLATFORM) != UNA ] ; then \
 		cat camel80.bin nascom.bin tastybasic.bin game.bin eastaegg.bin netboot.mod updater.bin usrrom.bin >osimg1.bin ; \
-		cat imgpad2.bin >osimg2.bin ; \
+		if [ $(ROM_PLATFORM) = S100 ] ; then \
+			cat s100mon.bin >osimg2.bin ; \
+		else \
+			cat imgpad2.bin >osimg2.bin ; \
+		fi ; \
 		if [ $(ROMSIZE) -gt 0 ] ; then \
 			for f in hbios_rom.bin osimg.bin osimg1.bin osimg2.bin ; do \
 				srec_cat $$f -Binary -Crop 0 0x7FFF -Checksum_Negative_Big_Endian 0x7FFF 1 1 -o $$f -Binary ; \
@@ -89,6 +97,10 @@ font%.asm:
 camel80.bin:
 	cp ../Forth/$@ .
 
+s100mon.bin:
+	$(ZXCC) $(CPM)/SLR180 -s100mon/FH
+	$(ZXCC) $(CPM)/MLOAD25 -s100mon.bin=s100mon
+
 tastybasic.bin:
 	cp ../TastyBasic/src/$@ .
 	

Source/HBIOS/ROM Layout.txt

@@ -1,4 +1,4 @@
-RomWBW ROM Layout Notes
+RomWBW ROM Layout
 
 Bank		Module		Start	Size
 ------		------		------	------		
@@ -24,4 +24,16 @@ Bank		Module		Start	Size
 3		imgpad2		0x0000	0x8000
 		<end>		0x8000
 
-4-N		ROM Disk Data
+4 - N		ROM Disk Data
+
+
+RomWBW RAM Layout
+
+Bank ID         Usage                   Physical Address
+-------         ------                  ----------------
+0x80-0x87       RAM Disk Data           0x80000-0xBFFFF
+0x88-0x8B       CP/M 3 Buffers          0xC0000-0xDFFFF
+0x8C            CP/M 3 OS               0xE0000-0xE7FFF
+0x8D            RomWBW HBIOS            0xE8000-0xEFFFF
+0x8E            User TPA                0xF0000-0xF7FFF
+0x8F            Common                  0xF8000-0xFFFFF

Source/HBIOS/cfg_duo.asm

@@ -0,0 +1,302 @@
+;
+;==================================================================================================
+;   ROMWBW 2.X CONFIGURATION DEFAULTS FOR DUODYNE
+;==================================================================================================
+;
+; THIS FILE CONTAINS THE FULL SET OF DEFAULT CONFIGURATION SETTINGS FOR THE PLATFORM
+; INDICATED ABOVE. THIS FILE SHOULD *NOT* NORMALLY BE CHANGED.	INSTEAD, YOU SHOULD
+; OVERRIDE ANY SETTINGS YOU WANT USING A CONFIGURATION FILE IN THE CONFIG DIRECTORY
+; UNDER THIS DIRECTORY.
+;
+; THIS FILE CAN BE CONSIDERED A REFERENCE THAT LISTS ALL POSSIBLE CONFIGURATION SETTINGS
+; FOR THE PLATFORM.
+;
+#DEFINE PLATFORM_NAME "Duodyne", " [", CONFIG, "]"
+;
+#INCLUDE "hbios.inc"
+;
+PLATFORM	.EQU	PLT_DUO		; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO|S100|DUO]
+CPUFAM		.EQU	CPU_Z80		; CPU FAMILY: CPU_[Z80|Z180|Z280]
+BIOS		.EQU	BIOS_WBW	; HARDWARE BIOS: BIOS_[WBW|UNA]
+BATCOND		.EQU	FALSE		; ENABLE LOW BATTERY WARNING MESSAGE
+HBIOS_MUTEX	.EQU	FALSE		; ENABLE REENTRANT CALLS TO HBIOS (ADDS OVERHEAD)
+USELZSA2	.EQU	TRUE		; ENABLE FONT COMPRESSION
+TICKFREQ	.EQU	50		; DESIRED PERIODIC TIMER INTERRUPT FREQUENCY (HZ)
+;
+BOOT_TIMEOUT	.EQU	-1		; AUTO BOOT TIMEOUT IN SECONDS, -1 TO DISABLE, 0 FOR IMMEDIATE
+BOOT_DELAY	.EQU	0		; FIXED BOOT DELAY IN SECONDS PRIOR TO CONSOLE OUTPUT
+;
+CPUSPDCAP	.EQU	SPD_FIXED	; CPU SPEED CHANGE CAPABILITY SPD_FIXED|SPD_HILO
+CPUSPDDEF	.EQU	SPD_UNSUP	; CPU SPEED DEFAULT SPD_UNSUP|SPD_HIGH|SPD_LOW
+CPUOSC		.EQU	8000000		; CPU OSC FREQ IN MHZ
+INTMODE		.EQU	2		; INTERRUPTS: 0=NONE, 1=MODE 1, 2=MODE 2, 3=MODE 3 (Z280)
+DEFSERCFG	.EQU	SER_38400_8N1	; DEFAULT SERIAL LINE CONFIG (SEE STD.ASM)
+;
+RAMSIZE		.EQU	512		; SIZE OF RAM IN KB (MUST MATCH YOUR HARDWARE!!!)
+ROMSIZE		.EQU	512		; SIZE OF ROM IN KB (MUST MATCH YOUR HARDWARE!!!)
+ROMSIZE_CHK	.EQU	0		; ROMSIZE VALUE VERIFICATION (0=DISABLED)
+MEMMGR		.EQU	MM_Z2		; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280|MBC|RPH]
+MPGSEL_0	.EQU	$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)
+MPGSEL_2	.EQU	$52		; Z2 MEM MGR BANK 2 PAGE SELECT REG (WRITE ONLY)
+MPGSEL_3	.EQU	$53		; Z2 MEM MGR BANK 3 PAGE SELECT REG (WRITE ONLY)
+MPGENA		.EQU	$54		; Z2 MEM MGR PAGING ENABLE REGISTER (BIT 0, WRITE ONLY)
+;
+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
+CTCDEBUG	.EQU	FALSE		; ENABLE CTC DRIVER DEBUG OUTPUT
+CTCBASE		.EQU	$B0		; 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
+;
+PCFENABLE	.EQU	FALSE		; ENABLE PCF8584 I2C CONTROLLER
+PCFBASE		.EQU	$56		; PCF8584 BASE I/O ADDRESS
+;
+EIPCENABLE	.EQU	FALSE		; EIPC: ENABLE Z80 EIPC (Z84C15) INITIALIZATION
+;
+SKZENABLE	.EQU	FALSE		; ENABLE SERGEY'S Z80-512K FEATURES
+;
+WDOGMODE	.EQU	WDOG_NONE	; WATCHDOG MODE: WDOG_[NONE|EZZ80|SKZ]
+;
+FPLED_ENABLE	.EQU	FALSE		; FP: ENABLES FRONT PANEL LEDS
+FPLED_IO	.EQU	$00		; FP: PORT ADDRESS FOR FP LEDS
+FPLED_DSKACT	.EQU	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
+;
+DIAGLVL		.EQU	DL_CRITICAL	; ERROR LEVEL REPORTING
+;
+LEDENABLE	.EQU	TRUE		; ENABLES STATUS LED
+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
+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
+PKDOSC		.EQU	3000000		; OSCILLATOR FREQ FOR PKD (IN HZ)
+;
+BOOTCON		.EQU	0		; BOOT CONSOLE DEVICE
+CRTACT		.EQU	FALSE		; ACTIVATE CRT (VDU,CVDU,PROPIO,ETC) AT STARTUP
+VDAEMU		.EQU	EMUTYP_ANSI	; VDA EMULATION: EMUTYP_[TTY|ANSI]
+VDAEMU_SERKBD	.EQU	$FF		; VDA EMULATION: SERIAL KBD UNIT #, OR $FF FOR HW KBD
+ANSITRACE	.EQU	1		; ANSI DRIVER TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
+PPKTRACE	.EQU	1		; PPK DRIVER TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
+KBDTRACE	.EQU	1		; KBD DRIVER TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
+PPKKBLOUT	.EQU	KBD_US		; PPK KEYBOARD LANGUAGE: KBD_[US|DE]
+KBDKBLOUT	.EQU	KBD_US		; KBD KEYBOARD LANGUAGE: KBD_[US|DE]
+MKYENABLE	.EQU	FALSE		; MSX 5255 PPI KEYBOARD COMPATIBLE DRIVER (REQUIRES TMS VDA DRIVER)
+MKYKBLOUT	.EQU	KBD_US		; KBD KEYBOARD LANGUAGE: KBD_[US|DE]
+;
+DSRTCENABLE	.EQU	TRUE		; DSRTC: ENABLE DS-1302 CLOCK DRIVER (DSRTC.ASM)
+DSRTCMODE	.EQU	DSRTCMODE_STD	; DSRTC: OPERATING MODE: DSRTC_[STD|MFPIC]
+DSRTCCHG	.EQU	FALSE		; DSRTC: FORCE BATTERY CHARGE ON (USE WITH CAUTION!!!)
+;
+DS1501RTCENABLE	.EQU	FALSE		; DS1501RTC: ENABLE DS-1501 CLOCK DRIVER (DS1501RTC.ASM)
+DS1501RTC_BASE	.EQU	$50		; DS1501RTC: I/O BASE ADDRESS
+;
+BQRTCENABLE	.EQU	FALSE		; BQRTC: ENABLE BQ4845 CLOCK DRIVER (BQRTC.ASM)
+BQRTC_BASE	.EQU	$50		; BQRTC: I/O BASE ADDRESS
+;
+INTRTCENABLE	.EQU	FALSE		; ENABLE PERIODIC INTERRUPT CLOCK DRIVER (INTRTC.ASM)
+;
+RP5RTCENABLE	.EQU	FALSE		; RP5C01 RTC BASED CLOCK (RP5RTC.ASM)
+;
+HTIMENABLE	.EQU	FALSE		; ENABLE SIMH TIMER SUPPORT
+SIMRTCENABLE	.EQU	FALSE		; ENABLE SIMH CLOCK DRIVER (SIMRTC.ASM)
+;
+DS7RTCENABLE	.EQU	FALSE		; DS7RTC: ENABLE DS-1307 I2C CLOCK DRIVER (DS7RTC.ASM)
+DS7RTCMODE	.EQU	DS7RTCMODE_PCF	; DS7RTC: OPERATING MODE: DS7RTC_[PCF]
+;
+DUARTENABLE	.EQU	FALSE		; DUART: ENABLE 2681/2692 SERIAL DRIVER (DUART.ASM)
+;
+UARTENABLE	.EQU	TRUE		; UART: ENABLE 8250/16550-LIKE SERIAL DRIVER (UART.ASM)
+UARTOSC		.EQU	1843200		; UART: OSC FREQUENCY IN MHZ
+UARTINTS	.EQU	FALSE		; UART: INCLUDE INTERRUPT SUPPORT UNDER IM1/2/3
+UARTCFG		.EQU	DEFSERCFG	; UART: LINE CONFIG FOR UART PORTS
+UARTCASSPD	.EQU	SER_300_8N1	; UART: ECB CASSETTE UART DEFAULT SPEED
+UARTSBC		.EQU	TRUE		; UART: AUTO-DETECT SBC/ZETA/DUO ONBOARD UART
+UARTSBCFORCE	.EQU	FALSE		; UART: FORCE DETECTION OF SBC UART (FOR SIMH)
+UARTCAS		.EQU	FALSE		; UART: AUTO-DETECT ECB CASSETTE UART
+UARTMFP		.EQU	FALSE		; UART: AUTO-DETECT MF/PIC UART
+UART4		.EQU	FALSE		; UART: AUTO-DETECT 4UART UART
+UARTRC		.EQU	FALSE		; UART: AUTO-DETECT RC UART
+UARTDUAL	.EQU	FALSE		; UART: AUTO-DETECT DUAL UART
+;
+ASCIENABLE	.EQU	FALSE		; ASCI: ENABLE Z180 ASCI SERIAL DRIVER (ASCI.ASM)
+;
+Z2UENABLE	.EQU	FALSE		; Z2U: ENABLE Z280 UART SERIAL DRIVER (Z2U.ASM)
+;
+ACIAENABLE	.EQU	FALSE		; ACIA: ENABLE MOTOROLA 6850 ACIA DRIVER (ACIA.ASM)
+;
+SIOENABLE	.EQU	FALSE		; SIO: ENABLE ZILOG SIO SERIAL DRIVER (SIO.ASM)
+SIODEBUG	.EQU	FALSE		; SIO: ENABLE DEBUG OUTPUT
+SIOBOOT		.EQU	0		; SIO: REBOOT ON RCV CHAR (0=DISABLED)
+SIOCNT		.EQU	1		; SIO: NUMBER OF CHIPS TO DETECT (1-2), 2 CHANNELS PER CHIP
+SIO0MODE	.EQU	SIOMODE_ZP	; SIO 0: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP|Z80R]
+SIO0BASE	.EQU	$B0		; SIO 0: REGISTERS BASE ADR
+SIO0ACLK	.EQU	(4915200/8)	; SIO 0A: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
+SIO0ACFG	.EQU	DEFSERCFG	; SIO 0A: SERIAL LINE CONFIG
+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
+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
+;
+XIOCFG		.EQU	DEFSERCFG	; XIO: SERIAL LINE CONFIG
+;
+VDUENABLE	.EQU	FALSE		; VDU: ENABLE VDU VIDEO/KBD DRIVER (VDU.ASM)
+VDUSIZ		.EQU	V80X25		; VDU: DISPLAY FORMAT [V80X24|V80X25|V80X30]
+CVDUENABLE	.EQU	FALSE		; CVDU: ENABLE CVDU VIDEO/KBD DRIVER (CVDU.ASM)
+CVDUMODE	.EQU	CVDUMODE_MBC	; CVDU: CVDU MODE: CVDUMODE_[NONE|ECB|MBC]
+CVDUMON		.EQU	CVDUMON_CGA	; CVDU: CVDU MONITOR SETUP: CVDUMON_[NONE|CGA|EGA]
+GDCENABLE	.EQU	FALSE		; GDC: ENABLE 7220 GDC VIDEO/KBD DRIVER (GDC.ASM)
+TMSENABLE	.EQU	FALSE		; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
+TMSMODE		.EQU	TMSMODE_MBC	; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
+TMSTIMENABLE	.EQU	FALSE		; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
+VGAENABLE	.EQU	FALSE		; VGA: ENABLE VGA VIDEO/KBD DRIVER (VGA.ASM)
+VGASIZ		.EQU	V80X25		; VGA: DISPLAY FORMAT [V80X25|V80X30|V80X43]
+VRCENABLE	.EQU	FALSE		; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
+;
+MDENABLE	.EQU	TRUE		; MD: ENABLE MEMORY (ROM/RAM) DISK DRIVER (MD.ASM)
+MDROM		.EQU	TRUE		; MD: ENABLE ROM DISK
+MDRAM		.EQU	TRUE		; MD: ENABLE RAM DISK
+MDTRACE		.EQU	1		; MD: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
+MDFFENABLE	.EQU	FALSE		; MD: ENABLE FLASH FILE SYSTEM
+;
+;
+FDENABLE	.EQU	FALSE		; FD: ENABLE FLOPPY DISK DRIVER (FD.ASM)
+FDMODE		.EQU	FDMODE_MBC	; FD: DRIVER MODE: FDMODE_[DIO|ZETA|ZETA2|DIDE|N8|DIO3|RCSMC|RCWDC|DYNO|EPFDC|MBC]
+FDCNT		.EQU	2		; FD: NUMBER OF FLOPPY DRIVES ON THE INTERFACE (1-2)
+FDTRACE		.EQU	1		; FD: TRACE LEVEL (0=NO,1=FATAL,2=ERRORS,3=ALL)
+FDMAUTO		.EQU	TRUE		; FD: AUTO SELECT DEFAULT/ALTERNATE MEDIA FORMATS
+FD0TYPE		.EQU	FDT_3HD		; FD 0: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
+FD1TYPE		.EQU	FDT_3HD		; FD 1: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
+;
+RFENABLE	.EQU	FALSE		; RF: ENABLE RAM FLOPPY DRIVER
+RFCNT		.EQU	1		; RF: NUMBER OF RAM FLOPPY UNITS (1-4)
+;
+IDEENABLE	.EQU	FALSE		; IDE: ENABLE IDE DISK DRIVER (IDE.ASM)
+IDETRACE	.EQU	1		; IDE: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
+IDECNT		.EQU	1		; IDE: NUMBER OF IDE INTERFACES TO DETECT (1-3), 2 DRIVES EACH
+IDE0MODE	.EQU	IDEMODE_DIO	; IDE 0: DRIVER MODE: IDEMODE_[DIO|DIDE|MK4|RC]
+IDE0BASE	.EQU	$20		; IDE 0: IO BASE ADDRESS
+IDE0DATLO	.EQU	$20		; IDE 0: DATA LO PORT FOR 16-BIT I/O
+IDE0DATHI	.EQU	$28		; IDE 0: DATA HI PORT FOR 16-BIT I/O
+IDE0A8BIT	.EQU	FALSE		; IDE 0A (MASTER): 8 BIT XFER
+IDE0B8BIT	.EQU	FALSE		; IDE 0B (MASTER): 8 BIT XFER
+IDE1MODE	.EQU	IDEMODE_NONE	; IDE 1: DRIVER MODE: IDEMODE_[DIO|DIDE|MK4|RC]
+IDE1BASE	.EQU	$00		; IDE 1: IO BASE ADDRESS
+IDE1DATLO	.EQU	$00		; IDE 1: DATA LO PORT FOR 16-BIT I/O
+IDE1DATHI	.EQU	$00		; IDE 1: DATA HI PORT FOR 16-BIT I/O
+IDE1A8BIT	.EQU	TRUE		; IDE 1A (MASTER): 8 BIT XFER
+IDE1B8BIT	.EQU	TRUE		; IDE 1B (MASTER): 8 BIT XFER
+IDE2MODE	.EQU	IDEMODE_NONE	; IDE 2: DRIVER MODE: IDEMODE_[DIO|DIDE|MK4|RC]
+IDE2BASE	.EQU	$00		; IDE 2: IO BASE ADDRESS
+IDE2DATLO	.EQU	$00		; IDE 2: DATA LO PORT FOR 16-BIT I/O
+IDE2DATHI	.EQU	$00		; IDE 2: DATA HI PORT FOR 16-BIT I/O
+IDE2A8BIT	.EQU	TRUE		; IDE 2A (MASTER): 8 BIT XFER
+IDE2B8BIT	.EQU	TRUE		; IDE 2B (MASTER): 8 BIT XFER
+;
+PPIDEENABLE	.EQU	FALSE		; PPIDE: ENABLE PARALLEL PORT IDE DISK DRIVER (PPIDE.ASM)
+PPIDETRACE	.EQU	1		; PPIDE: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
+PPIDECNT	.EQU	1		; PPIDE: NUMBER OF PPI CHIPS TO DETECT (1-3), 2 DRIVES PER CHIP
+PPIDE0BASE	.EQU	$60		; PPIDE 0: PPI REGISTERS BASE ADR
+PPIDE0A8BIT	.EQU	FALSE		; PPIDE 0A (MASTER): 8 BIT XFER
+PPIDE0B8BIT	.EQU	FALSE		; PPIDE 0B (SLAVE): 8 BIT XFER
+PPIDE1BASE	.EQU	$20		; PPIDE 1: PPI REGISTERS BASE ADR
+PPIDE1A8BIT	.EQU	FALSE		; PPIDE 1A (MASTER): 8 BIT XFER
+PPIDE1B8BIT	.EQU	FALSE		; PPIDE 0B (SLAVE): 8 BIT XFER
+PPIDE2BASE	.EQU	$14		; PPIDE 2: PPI REGISTERS BASE ADR
+PPIDE2A8BIT	.EQU	FALSE		; PPIDE 2A (MASTER): 8 BIT XFER
+PPIDE2B8BIT	.EQU	FALSE		; PPIDE 0B (SLAVE): 8 BIT XFER
+;
+SDENABLE	.EQU	FALSE		; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)
+SDMODE		.EQU	SDMODE_JUHA	; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|PIO|Z80R|USR]
+SDPPIBASE	.EQU	$60		; SD: BASE I/O ADDRESS OF PPI FOR PPI MODDE
+SDCNT		.EQU	1		; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD/SC/MT ONLY
+SDTRACE		.EQU	1		; SD: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
+SDCSIOFAST	.EQU	FALSE		; SD: ENABLE TABLE-DRIVEN BIT INVERTER IN CSIO MODE
+;
+PRPENABLE	.EQU	FALSE		; PRP: ENABLE ECB PROPELLER IO BOARD DRIVER (PRP.ASM)
+PRPSDENABLE	.EQU	TRUE		; PRP: ENABLE PROPIO DRIVER SD CARD SUPPORT
+PRPSDTRACE	.EQU	1		; PRP: SD CARD TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
+PRPCONENABLE	.EQU	TRUE		; PRP: ENABLE PROPIO DRIVER VIDEO/KBD SUPPORT
+;
+PPPENABLE	.EQU	FALSE		; PPP: ENABLE ZETA PARALLEL PORT PROPELLER BOARD DRIVER (PPP.ASM)
+;
+ESPENABLE	.EQU	FALSE		; ESP: ENABLE ESP32 IO BOARD DRIVER (ESP.ASM)
+;
+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)
+PIOCNT		.EQU	2		; PIO: NUMBER OF CHIPS TO DETECT (1-2), 2 CHANNELS PER CHIP
+PIO0BASE	.EQU	$B8		; PIO 0: REGISTERS BASE ADR
+PIO1BASE	.EQU	$BC		; PIO 1: REGISTERS BASE ADR
+;
+LPTENABLE	.EQU	FALSE		; LPT: ENABLE CENTRONICS PRINTER DRIVER (LPT.ASM)
+LPTMODE		.EQU	LPTMODE_SPP	; LPT: DRIVER MODE: LPTMODE_[NONE|SPP|MG014]
+LPTCNT		.EQU	1		; LPT: NUMBER OF CHIPS TO DETECT (1-2)
+LPTTRACE	.EQU	1		; LPT: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
+LPT0BASE	.EQU	$E8		; LPT 0: REGISTERS BASE ADR
+LPT1BASE	.EQU	$EC		; LPT 1: REGISTERS BASE ADR
+;
+PPAENABLE	.EQU	FALSE		; PPA: ENABLE PPA DISK DRIVER (PPA.ASM)
+PPACNT		.EQU	1		; PPA: NUMBER OF PPA DEVICES (1-2)
+PPATRACE	.EQU	1		; PPA: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
+PPAMODE		.EQU	PPAMODE_SPP	; PPA: DRIVER MODE: PPAMODE_[NONE|MG014]
+PPA0BASE	.EQU	LPT0BASE	; PPA 0: BASE I/O ADDRESS OF PPI FOR PPA
+PPA1BASE	.EQU	LPT1BASE	; PPA 1: BASE I/O ADDRESS OF PPI FOR PPA
+;
+IMMENABLE	.EQU	FALSE		; IMM: ENABLE IMM DISK DRIVER (IMM.ASM)
+IMMCNT		.EQU	1		; IMM: NUMBER OF IMM DEVICES (1-2)
+IMMTRACE	.EQU	1		; IMM: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
+IMMMODE		.EQU	IMMMODE_SPP	; IMM: DRIVER MODE: IMMMODE_[NONE|SPP|MG014]
+IMM0BASE	.EQU	LPT0BASE	; IMM 0: BASE I/O ADDRESS OF PPI FOR IMM
+IMM1BASE	.EQU	LPT1BASE	; IMM 1: BASE I/O ADDRESS OF PPI FOR IMM
+;
+SYQENABLE	.EQU	FALSE		; SYQ: ENABLE IMM DISK DRIVER (SYQ.ASM)
+SYQCNT		.EQU	1		; SYQ: NUMBER OF SYQ DEVICES (1-2)
+SYQTRACE	.EQU	1		; SYQ: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
+SYQMODE		.EQU	IMMMODE_SPP	; SYQ: DRIVER MODE: SYQMODE_[NONE|SPP|MG014]
+SYQ0BASE	.EQU	LPT0BASE	; SYQ 0: BASE I/O ADDRESS OF PPI FOR SYQ
+SYQ1BASE	.EQU	LPT1BASE	; SYQ 1: BASE I/O ADDRESS OF PPI FOR SYQ
+;
+PIO_4P		.EQU	FALSE		; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB 4P BOARD
+PIO4BASE	.EQU	$90		; PIO: PIO REGISTERS BASE ADR FOR ECB 4P BOARD
+PIO_ZP		.EQU	FALSE		; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB ZILOG PERIPHERALS BOARD (PIO.ASM)
+PIOZBASE	.EQU	$88		; PIO: PIO REGISTERS BASE ADR FOR ECB ZP BOARD
+PIO_SBC		.EQU	FALSE		; PIO: ENABLE PARALLEL PORT DRIVER FOR 8255 CHIP
+PIOSBASE	.EQU	$60		; PIO: PIO REGISTERS BASE ADR FOR SBC PPI
+;
+UFENABLE	.EQU	FALSE		; UF: ENABLE ECB USB FIFO DRIVER (UF.ASM)
+UFBASE		.EQU	$0C		; UF: REGISTERS BASE ADR
+;
+SN76489ENABLE	.EQU	FALSE		; SN: ENABLE SN76489 SOUND DRIVER
+AUDIOTRACE	.EQU	FALSE		; ENABLE TRACING TO CONSOLE OF SOUND DRIVER
+SN7CLK		.EQU	3579545		; SN: PSG CLOCK FREQ, ASSUME MSX STD
+SNMODE		.EQU	SNMODE_NONE	; SN: DRIVER MODE: SNMODE_[NONE|RC|VGM]
+;
+AY38910ENABLE	.EQU	FALSE		; AY: ENABLE AY-3-8910 / YM2149 SOUND DRIVER
+AY_CLK		.EQU	1789772		; AY: PSG CLOCK FREQ, ASSUME MSX STD
+AYMODE		.EQU	AYMODE_MBC	; AY: DRIVER MODE: AYMODE_[SCG|N8|RCZ80|RCZ180|MSX|LINC|MBC]
+;
+SPKENABLE	.EQU	TRUE		; SPK: ENABLE RTC LATCH IOBIT SOUND DRIVER (SPK.ASM)
+;
+DMAENABLE	.EQU	TRUE		; DMA: ENABLE DMA DRIVER (DMA.ASM)
+DMABASE		.EQU	$40		; DMA: DMA BASE ADDRESS
+DMAMODE		.EQU	DMAMODE_DUO	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC|DUO)
+;
+YM2612ENABLE	.EQU	FALSE		; YM2612: ENABLE YM2612 DRIVER (MUTE STUB)
+VGMBASE		.EQU	$C0		; YM2612: BASE ADDRESS FOR VGM BOARD (YM2612/SN76469s/CTC)

Source/HBIOS/cfg_dyno.asm

@@ -15,7 +15,7 @@
 ;
 #INCLUDE "hbios.inc"
 ;
-PLATFORM	.EQU	PLT_DYNO	; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
+PLATFORM	.EQU	PLT_DYNO	; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO|S100|DUO]
 CPUFAM		.EQU	CPU_Z180	; CPU FAMILY: CPU_[Z80|Z180|Z280]
 BIOS		.EQU	BIOS_WBW	; HARDWARE BIOS: BIOS_[WBW|UNA]
 BATCOND		.EQU	FALSE		; ENABLE LOW BATTERY WARNING MESSAGE
@@ -60,6 +60,9 @@ CTCDEBUG	.EQU	FALSE		; ENABLE CTC DRIVER DEBUG OUTPUT
 CTCBASE		.EQU	$88		; CTC BASE I/O ADDRESS
 CTCTIMER	.EQU	FALSE		; ENABLE CTC PERIODIC TIMER
 ;
+PCFENABLE	.EQU	FALSE		; ENABLE PCF8584 I2C CONTROLLER
+PCFBASE		.EQU	$F0		; PCF8584 BASE I/O ADDRESS
+;
 EIPCENABLE	.EQU	FALSE		; EIPC: ENABLE Z80 EIPC (Z84C15) INITIALIZATION
 ;
 SKZENABLE	.EQU	FALSE		; ENABLE SERGEY'S Z80-512K FEATURES
@@ -126,7 +129,7 @@ UARTENABLE	.EQU	FALSE		; UART: ENABLE 8250/16550-LIKE SERIAL DRIVER (UART.ASM)
 UARTOSC		.EQU	1843200		; UART: OSC FREQUENCY IN MHZ
 UARTINTS	.EQU	FALSE		; UART: INCLUDE INTERRUPT SUPPORT UNDER IM1/2/3
 UARTCFG		.EQU	DEFSERCFG | SER_RTS	; UART: LINE CONFIG FOR UART PORTS
-UARTSBC		.EQU	FALSE		; UART: AUTO-DETECT SBC/ZETA ONBOARD UART
+UARTSBC		.EQU	FALSE		; UART: AUTO-DETECT SBC/ZETA/DUO ONBOARD UART
 UARTSBCFORCE	.EQU	FALSE		; UART: FORCE DETECTION OF SBC UART (FOR SIMH)
 UARTCAS		.EQU	FALSE		; UART: AUTO-DETECT ECB CASSETTE UART
 UARTMFP		.EQU	FALSE		; UART: AUTO-DETECT MF/PIC UART
@@ -243,6 +246,8 @@ PRPCONENABLE	.EQU	TRUE		; PRP: ENABLE PROPIO DRIVER VIDEO/KBD SUPPORT
 ;
 PPPENABLE	.EQU	FALSE		; PPP: ENABLE ZETA PARALLEL PORT PROPELLER BOARD DRIVER (PPP.ASM)
 ;
+ESPENABLE	.EQU	FALSE		; ESP: ENABLE ESP32 IO BOARD DRIVER (ESP.ASM)
+;
 HDSKENABLE	.EQU	FALSE		; HDSK: ENABLE SIMH HDSK DISK DRIVER (HDSK.ASM)
 ;
 PIOENABLE	.EQU	FALSE		; PIO: ENABLE ZILOG PIO DRIVER (PIO.ASM)
@@ -277,7 +282,7 @@ SPKENABLE	.EQU	FALSE		; SPK: ENABLE RTC LATCH IOBIT SOUND DRIVER (SPK.ASM)
 ;
 DMAENABLE	.EQU	FALSE		; DMA: ENABLE DMA DRIVER (DMA.ASM)
 DMABASE		.EQU	$E0		; DMA: DMA BASE ADDRESS
-DMAMODE		.EQU	DMAMODE_Z180	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC)
+DMAMODE		.EQU	DMAMODE_Z180	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC|DUO)
 ;
 YM2612ENABLE	.EQU	FALSE		; YM2612: ENABLE YM2612 DRIVER (MUTE STUB)
 VGMBASE		.EQU	$C0		; YM2612: BASE ADDRESS FOR VGM BOARD (YM2612/SN76469s/CTC)

Source/HBIOS/cfg_master.asm

@@ -12,7 +12,7 @@
 ;
 #INCLUDE "hbios.inc"
 ;
-PLATFORM	.EQU	PLT_SBC		; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
+PLATFORM	.EQU	PLT_SBC		; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO|S100|DUO]
 CPUFAM		.EQU	CPU_Z80		; CPU FAMILY: CPU_[Z80|Z180|Z280]
 BIOS		.EQU	BIOS_WBW	; HARDWARE BIOS: BIOS_[WBW|UNA]
 BATCOND		.EQU	FALSE		; ENABLE LOW BATTERY WARNING MESSAGE
@@ -87,6 +87,9 @@ CTCPRECH	.EQU	2		; PRESCALE CHANNEL (0-3)
 CTCTIMCH	.EQU	3		; TIMER CHANNEL (0-3)
 CTCOSC		.EQU	614400		; CTC CLOCK FREQUENCY
 ;
+PCFENABLE	.EQU	FALSE		; ENABLE PCF8584 I2C CONTROLLER
+PCFBASE		.EQU	$F0		; PCF8584 BASE I/O ADDRESS
+;
 EIPCENABLE	.EQU	FALSE		; EIPC: ENABLE Z80 EIPC (Z84C15) INITIALIZATION
 ;
 SKZENABLE	.EQU	FALSE		; ENABLE SERGEY'S Z80-512K FEATURES
@@ -162,7 +165,7 @@ UARTOSC		.EQU	1843200		; UART: OSC FREQUENCY IN MHZ
 UARTINTS	.EQU	FALSE		; UART: INCLUDE INTERRUPT SUPPORT UNDER IM1/2/3
 UARTCFG		.EQU	DEFSERCFG	; UART: LINE CONFIG FOR UART PORTS
 UARTCASSPD	.EQU	SER_300_8N1	; UART: ECB CASSETTE UART DEFAULT SPEED
-UARTSBC		.EQU	FALSE		; UART: AUTO-DETECT SBC/ZETA ONBOARD UART
+UARTSBC		.EQU	FALSE		; UART: AUTO-DETECT SBC/ZETA/DUO ONBOARD UART
 UARTSBCFORCE	.EQU	FALSE		; UART: FORCE DETECTION OF SBC UART (FOR SIMH)
 UARTCAS		.EQU	FALSE		; UART: AUTO-DETECT ECB CASSETTE UART
 UARTMFP		.EQU	FALSE		; UART: AUTO-DETECT MF/PIC UART
@@ -305,6 +308,9 @@ PPPSDENABLE	.EQU	TRUE		; PPP: ENABLE PPP DRIVER SD CARD SUPPORT
 PPPSDTRACE	.EQU	1		; PPP: SD CARD TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
 PPPCONENABLE	.EQU	TRUE		; PPP: ENABLE PPP DRIVER VIDEO/KBD SUPPORT
 ;
+ESPENABLE	.EQU	FALSE		; ESP: ENABLE ESP32 IO BOARD DRIVER (ESP.ASM)
+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)
 ;
@@ -364,7 +370,7 @@ SPKENABLE	.EQU	FALSE		; SPK: ENABLE RTC LATCH IOBIT SOUND DRIVER (SPK.ASM)
 ;
 DMAENABLE	.EQU	FALSE		; DMA: ENABLE DMA DRIVER (DMA.ASM)
 DMABASE		.EQU	$E0		; DMA: DMA BASE ADDRESS
-DMAMODE		.EQU	DMAMODE_NONE	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC)
+DMAMODE		.EQU	DMAMODE_NONE	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC|DUO)
 ;
 YM2612ENABLE	.EQU	FALSE		; YM2612: ENABLE YM2612 DRIVER (MUTE STUB)
 VGMBASE		.EQU	$C0		; YM2612: BASE ADDRESS FOR VGM BOARD (YM2612/SN76469s/CTC)

Source/HBIOS/cfg_mbc.asm

@@ -15,7 +15,7 @@
 ;
 #INCLUDE "hbios.inc"
 ;
-PLATFORM	.EQU	PLT_MBC		; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
+PLATFORM	.EQU	PLT_MBC		; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO|S100|DUO]
 CPUFAM		.EQU	CPU_Z80		; CPU FAMILY: CPU_[Z80|Z180|Z280]
 BIOS		.EQU	BIOS_WBW	; HARDWARE BIOS: BIOS_[WBW|UNA]
 BATCOND		.EQU	FALSE		; ENABLE LOW BATTERY WARNING MESSAGE
@@ -54,6 +54,9 @@ CTCPRECH	.EQU	2		; PRESCALE CHANNEL (0-3)
 CTCTIMCH	.EQU	3		; TIMER CHANNEL (0-3)
 CTCOSC		.EQU	(4915200/8)	; CTC CLOCK FREQUENCY
 ;
+PCFENABLE	.EQU	FALSE		; ENABLE PCF8584 I2C CONTROLLER
+PCFBASE		.EQU	$F0		; PCF8584 BASE I/O ADDRESS
+;
 EIPCENABLE	.EQU	FALSE		; EIPC: ENABLE Z80 EIPC (Z84C15) INITIALIZATION
 ;
 SKZENABLE	.EQU	FALSE		; ENABLE SERGEY'S Z80-512K FEATURES
@@ -120,7 +123,7 @@ UARTOSC		.EQU	1843200		; UART: OSC FREQUENCY IN MHZ
 UARTINTS	.EQU	FALSE		; UART: INCLUDE INTERRUPT SUPPORT UNDER IM1/2/3
 UARTCFG		.EQU	DEFSERCFG	; UART: LINE CONFIG FOR UART PORTS
 UARTCASSPD	.EQU	SER_300_8N1	; UART: ECB CASSETTE UART DEFAULT SPEED
-UARTSBC		.EQU	TRUE		; UART: AUTO-DETECT SBC/ZETA ONBOARD UART
+UARTSBC		.EQU	TRUE		; UART: AUTO-DETECT SBC/ZETA/DUO ONBOARD UART
 UARTSBCFORCE	.EQU	FALSE		; UART: FORCE DETECTION OF SBC UART (FOR SIMH)
 UARTCAS		.EQU	FALSE		; UART: AUTO-DETECT ECB CASSETTE UART
 UARTMFP		.EQU	FALSE		; UART: AUTO-DETECT MF/PIC UART
@@ -229,6 +232,9 @@ PRPCONENABLE	.EQU	TRUE		; PRP: ENABLE PROPIO DRIVER VIDEO/KBD SUPPORT
 ;
 PPPENABLE	.EQU	FALSE		; PPP: ENABLE ZETA PARALLEL PORT PROPELLER BOARD DRIVER (PPP.ASM)
 ;
+ESPENABLE	.EQU	FALSE		; ESP: ENABLE ESP32 IO BOARD DRIVER (ESP.ASM)
+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)
 ;
@@ -288,7 +294,7 @@ SPKENABLE	.EQU	TRUE		; SPK: ENABLE RTC LATCH IOBIT SOUND DRIVER (SPK.ASM)
 ;
 DMAENABLE	.EQU	FALSE		; DMA: ENABLE DMA DRIVER (DMA.ASM)
 DMABASE		.EQU	$E0		; DMA: DMA BASE ADDRESS
-DMAMODE		.EQU	DMAMODE_MBC	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC)
+DMAMODE		.EQU	DMAMODE_MBC	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC|DUO)
 ;
 YM2612ENABLE	.EQU	FALSE		; YM2612: ENABLE YM2612 DRIVER (MUTE STUB)
 VGMBASE		.EQU	$C0		; YM2612: BASE ADDRESS FOR VGM BOARD (YM2612/SN76469s/CTC)

Source/HBIOS/cfg_mk4.asm

@@ -15,7 +15,7 @@
 ;
 #INCLUDE "hbios.inc"
 ;
-PLATFORM	.EQU	PLT_MK4		; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
+PLATFORM	.EQU	PLT_MK4		; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO|S100|DUO]
 CPUFAM		.EQU	CPU_Z180	; CPU FAMILY: CPU_[Z80|Z180|Z280]
 BIOS		.EQU	BIOS_WBW	; HARDWARE BIOS: BIOS_[WBW|UNA]
 BATCOND		.EQU	FALSE		; ENABLE LOW BATTERY WARNING MESSAGE
@@ -60,6 +60,9 @@ CTCDEBUG	.EQU	FALSE		; ENABLE CTC DRIVER DEBUG OUTPUT
 CTCBASE		.EQU	$B0		; CTC BASE I/O ADDRESS
 CTCTIMER	.EQU	FALSE		; ENABLE CTC PERIODIC TIMER
 ;
+PCFENABLE	.EQU	FALSE		; ENABLE PCF8584 I2C CONTROLLER
+PCFBASE		.EQU	$F0		; PCF8584 BASE I/O ADDRESS
+;
 EIPCENABLE	.EQU	FALSE		; EIPC: ENABLE Z80 EIPC (Z84C15) INITIALIZATION
 ;
 SKZENABLE	.EQU	FALSE		; ENABLE SERGEY'S Z80-512K FEATURES
@@ -126,7 +129,7 @@ UARTOSC		.EQU	1843200		; UART: OSC FREQUENCY IN MHZ
 UARTINTS	.EQU	FALSE		; UART: INCLUDE INTERRUPT SUPPORT UNDER IM1/2/3
 UARTCFG		.EQU	DEFSERCFG	; UART: LINE CONFIG FOR UART PORTS
 UARTCASSPD	.EQU	SER_300_8N1	; UART: ECB CASSETTE UART DEFAULT SPEED
-UARTSBC		.EQU	FALSE		; UART: AUTO-DETECT SBC/ZETA ONBOARD UART
+UARTSBC		.EQU	FALSE		; UART: AUTO-DETECT SBC/ZETA/DUO ONBOARD UART
 UARTSBCFORCE	.EQU	FALSE		; UART: FORCE DETECTION OF SBC UART (FOR SIMH)
 UARTCAS		.EQU	TRUE		; UART: AUTO-DETECT ECB CASSETTE UART
 UARTMFP		.EQU	FALSE		; UART: AUTO-DETECT MF/PIC UART
@@ -243,6 +246,8 @@ PPPSDENABLE	.EQU	TRUE		; PPP: ENABLE PPP DRIVER SD CARD SUPPORT
 PPPSDTRACE	.EQU	1		; PPP: SD CARD TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
 PPPCONENABLE	.EQU	TRUE		; PPP: ENABLE PPP DRIVER VIDEO/KBD SUPPORT
 ;
+ESPENABLE	.EQU	FALSE		; ESP: ENABLE ESP32 IO BOARD DRIVER (ESP.ASM)
+;
 HDSKENABLE	.EQU	FALSE		; HDSK: ENABLE SIMH HDSK DISK DRIVER (HDSK.ASM)
 ;
 PIOENABLE	.EQU	FALSE		; PIO: ENABLE ZILOG PIO DRIVER (PIO.ASM)
@@ -286,7 +291,7 @@ SPKENABLE	.EQU	FALSE		; SPK: ENABLE RTC LATCH IOBIT SOUND DRIVER (SPK.ASM)
 ;
 DMAENABLE	.EQU	FALSE		; DMA: ENABLE DMA DRIVER (DMA.ASM)
 DMABASE		.EQU	$E0		; DMA: DMA BASE ADDRESS
-DMAMODE		.EQU	DMAMODE_ECB	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC)
+DMAMODE		.EQU	DMAMODE_ECB	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC|DUO)
 ;
 YM2612ENABLE	.EQU	FALSE		; YM2612: ENABLE YM2612 DRIVER (MUTE STUB)
 VGMBASE		.EQU	$C0		; YM2612: BASE ADDRESS FOR VGM BOARD (YM2612/SN76469s/CTC)

Source/HBIOS/cfg_n8.asm

@@ -15,7 +15,7 @@
 ;
 #INCLUDE "hbios.inc"
 ;
-PLATFORM	.EQU	PLT_N8		; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
+PLATFORM	.EQU	PLT_N8		; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO|S100|DUO]
 CPUFAM		.EQU	CPU_Z180	; CPU FAMILY: CPU_[Z80|Z180|Z280]
 BIOS		.EQU	BIOS_WBW	; HARDWARE BIOS: BIOS_[WBW|UNA]
 BATCOND		.EQU	FALSE		; ENABLE LOW BATTERY WARNING MESSAGE
@@ -62,6 +62,9 @@ CTCDEBUG	.EQU	FALSE		; ENABLE CTC DRIVER DEBUG OUTPUT
 CTCBASE		.EQU	$B0		; CTC BASE I/O ADDRESS
 CTCTIMER	.EQU	FALSE		; ENABLE CTC PERIODIC TIMER
 ;
+PCFENABLE	.EQU	FALSE		; ENABLE PCF8584 I2C CONTROLLER
+PCFBASE		.EQU	$F0		; PCF8584 BASE I/O ADDRESS
+;
 EIPCENABLE	.EQU	FALSE		; EIPC: ENABLE Z80 EIPC (Z84C15) INITIALIZATION
 ;
 SKZENABLE	.EQU	FALSE		; ENABLE SERGEY'S Z80-512K FEATURES
@@ -128,7 +131,7 @@ UARTOSC		.EQU	1843200		; UART: OSC FREQUENCY IN MHZ
 UARTINTS	.EQU	FALSE		; UART: INCLUDE INTERRUPT SUPPORT UNDER IM1/2/3
 UARTCFG		.EQU	DEFSERCFG	; UART: LINE CONFIG FOR UART PORTS
 UARTCASSPD	.EQU	SER_300_8N1	; UART: ECB CASSETTE UART DEFAULT SPEED
-UARTSBC		.EQU	FALSE		; UART: AUTO-DETECT SBC/ZETA ONBOARD UART
+UARTSBC		.EQU	FALSE		; UART: AUTO-DETECT SBC/ZETA/DUO ONBOARD UART
 UARTSBCFORCE	.EQU	FALSE		; UART: FORCE DETECTION OF SBC UART (FOR SIMH)
 UARTCAS		.EQU	TRUE		; UART: AUTO-DETECT ECB CASSETTE UART
 UARTMFP		.EQU	FALSE		; UART: AUTO-DETECT MF/PIC UART
@@ -241,6 +244,8 @@ PRPCONENABLE	.EQU	TRUE		; PRP: ENABLE PROPIO DRIVER VIDEO/KBD SUPPORT
 ;
 PPPENABLE	.EQU	FALSE		; PPP: ENABLE ZETA PARALLEL PORT PROPELLER BOARD DRIVER (PPP.ASM)
 ;
+ESPENABLE	.EQU	FALSE		; ESP: ENABLE ESP32 IO BOARD DRIVER (ESP.ASM)
+;
 HDSKENABLE	.EQU	FALSE		; HDSK: ENABLE SIMH HDSK DISK DRIVER (HDSK.ASM)
 ;
 PIOENABLE	.EQU	FALSE		; PIO: ENABLE ZILOG PIO DRIVER (PIO.ASM)
@@ -279,7 +284,7 @@ SPKENABLE	.EQU	FALSE		; SPK: ENABLE RTC LATCH IOBIT SOUND DRIVER (SPK.ASM)
 ;
 DMAENABLE	.EQU	FALSE		; DMA: ENABLE DMA DRIVER (DMA.ASM)
 DMABASE		.EQU	$E0		; DMA: DMA BASE ADDRESS
-DMAMODE		.EQU	DMAMODE_Z180	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC)
+DMAMODE		.EQU	DMAMODE_Z180	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC|DUO)
 ;
 YM2612ENABLE	.EQU	FALSE		; YM2612: ENABLE YM2612 DRIVER (MUTE STUB)
 VGMBASE		.EQU	$C0		; YM2612: BASE ADDRESS FOR VGM BOARD (YM2612/SN76469s/CTC)

Source/HBIOS/cfg_rcz180.asm

@@ -15,7 +15,7 @@
 ;
 #INCLUDE "hbios.inc"
 ;
-PLATFORM	.EQU	PLT_RCZ180	; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
+PLATFORM	.EQU	PLT_RCZ180	; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO|S100|DUO]
 CPUFAM		.EQU	CPU_Z180	; CPU FAMILY: CPU_[Z80|Z180|Z280]
 BIOS		.EQU	BIOS_WBW	; HARDWARE BIOS: BIOS_[WBW|UNA]
 BATCOND		.EQU	FALSE		; ENABLE LOW BATTERY WARNING MESSAGE
@@ -60,6 +60,9 @@ CTCDEBUG	.EQU	FALSE		; ENABLE CTC DRIVER DEBUG OUTPUT
 CTCBASE		.EQU	$88		; CTC BASE I/O ADDRESS
 CTCTIMER	.EQU	FALSE		; ENABLE CTC PERIODIC TIMER
 ;
+PCFENABLE	.EQU	FALSE		; ENABLE PCF8584 I2C CONTROLLER
+PCFBASE		.EQU	$F0		; PCF8584 BASE I/O ADDRESS
+;
 EIPCENABLE	.EQU	FALSE		; EIPC: ENABLE Z80 EIPC (Z84C15) INITIALIZATION
 ;
 SKZENABLE	.EQU	FALSE		; ENABLE SERGEY'S Z80-512K FEATURES
@@ -132,7 +135,7 @@ UARTENABLE	.EQU	TRUE		; UART: ENABLE 8250/16550-LIKE SERIAL DRIVER (UART.ASM)
 UARTOSC		.EQU	1843200		; UART: OSC FREQUENCY IN MHZ
 UARTINTS	.EQU	FALSE		; UART: INCLUDE INTERRUPT SUPPORT UNDER IM1/2/3
 UARTCFG		.EQU	DEFSERCFG | SER_RTS	; UART: LINE CONFIG FOR UART PORTS
-UARTSBC		.EQU	FALSE		; UART: AUTO-DETECT SBC/ZETA ONBOARD UART
+UARTSBC		.EQU	FALSE		; UART: AUTO-DETECT SBC/ZETA/DUO ONBOARD UART
 UARTSBCFORCE	.EQU	FALSE		; UART: FORCE DETECTION OF SBC UART (FOR SIMH)
 UARTCAS		.EQU	FALSE		; UART: AUTO-DETECT ECB CASSETTE UART
 UARTMFP		.EQU	FALSE		; UART: AUTO-DETECT MF/PIC UART
@@ -249,6 +252,8 @@ PRPCONENABLE	.EQU	TRUE		; PRP: ENABLE PROPIO DRIVER VIDEO/KBD SUPPORT
 ;
 PPPENABLE	.EQU	FALSE		; PPP: ENABLE ZETA PARALLEL PORT PROPELLER BOARD DRIVER (PPP.ASM)
 ;
+ESPENABLE	.EQU	FALSE		; ESP: ENABLE ESP32 IO BOARD DRIVER (ESP.ASM)
+;
 HDSKENABLE	.EQU	FALSE		; HDSK: ENABLE SIMH HDSK DISK DRIVER (HDSK.ASM)
 ;
 PIOENABLE	.EQU	FALSE		; PIO: ENABLE ZILOG PIO DRIVER (PIO.ASM)
@@ -303,7 +308,7 @@ SPKENABLE	.EQU	FALSE		; SPK: ENABLE RTC LATCH IOBIT SOUND DRIVER (SPK.ASM)
 ;
 DMAENABLE	.EQU	FALSE		; DMA: ENABLE DMA DRIVER (DMA.ASM)
 DMABASE		.EQU	$E0		; DMA: DMA BASE ADDRESS
-DMAMODE		.EQU	DMAMODE_Z180	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC)
+DMAMODE		.EQU	DMAMODE_Z180	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC|DUO)
 ;
 YM2612ENABLE	.EQU	FALSE		; YM2612: ENABLE YM2612 DRIVER (MUTE STUB)
 VGMBASE		.EQU	$C0		; YM2612: BASE ADDRESS FOR VGM BOARD (YM2612/SN76469s/CTC)

Source/HBIOS/cfg_rcz280.asm

@@ -15,7 +15,7 @@
 ;
 #INCLUDE "hbios.inc"
 ;
-PLATFORM	.EQU	PLT_RCZ280	; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
+PLATFORM	.EQU	PLT_RCZ280	; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO|S100|DUO]
 CPUFAM		.EQU	CPU_Z280	; CPU FAMILY: CPU_[Z80|Z180|Z280]
 BIOS		.EQU	BIOS_WBW	; HARDWARE BIOS: BIOS_[WBW|UNA]
 BATCOND		.EQU	FALSE		; ENABLE LOW BATTERY WARNING MESSAGE
@@ -60,6 +60,9 @@ CTCDEBUG	.EQU	FALSE		; ENABLE CTC DRIVER DEBUG OUTPUT
 CTCBASE		.EQU	$88		; CTC BASE I/O ADDRESS
 CTCTIMER	.EQU	FALSE		; ENABLE CTC PERIODIC TIMER
 ;
+PCFENABLE	.EQU	FALSE		; ENABLE PCF8584 I2C CONTROLLER
+PCFBASE		.EQU	$F0		; PCF8584 BASE I/O ADDRESS
+;
 EIPCENABLE	.EQU	FALSE		; EIPC: ENABLE Z80 EIPC (Z84C15) INITIALIZATION
 ;
 SKZENABLE	.EQU	FALSE		; ENABLE SERGEY'S Z80-512K FEATURES
@@ -126,7 +129,7 @@ UARTENABLE	.EQU	TRUE		; UART: ENABLE 8250/16550-LIKE SERIAL DRIVER (UART.ASM)
 UARTOSC		.EQU	1843200		; UART: OSC FREQUENCY IN MHZ
 UARTINTS	.EQU	FALSE		; UART: INCLUDE INTERRUPT SUPPORT UNDER IM1/2/3
 UARTCFG		.EQU	DEFSERCFG | SER_RTS	; UART: LINE CONFIG FOR UART PORTS
-UARTSBC		.EQU	FALSE		; UART: AUTO-DETECT SBC/ZETA ONBOARD UART
+UARTSBC		.EQU	FALSE		; UART: AUTO-DETECT SBC/ZETA/DUO ONBOARD UART
 UARTSBCFORCE	.EQU	FALSE		; UART: FORCE DETECTION OF SBC UART (FOR SIMH)
 UARTCAS		.EQU	FALSE		; UART: AUTO-DETECT ECB CASSETTE UART
 UARTMFP		.EQU	FALSE		; UART: AUTO-DETECT MF/PIC UART
@@ -253,6 +256,8 @@ PRPCONENABLE	.EQU	TRUE		; PRP: ENABLE PROPIO DRIVER VIDEO/KBD SUPPORT
 ;
 PPPENABLE	.EQU	FALSE		; PPP: ENABLE ZETA PARALLEL PORT PROPELLER BOARD DRIVER (PPP.ASM)
 ;
+ESPENABLE	.EQU	FALSE		; ESP: ENABLE ESP32 IO BOARD DRIVER (ESP.ASM)
+;
 HDSKENABLE	.EQU	FALSE		; HDSK: ENABLE SIMH HDSK DISK DRIVER (HDSK.ASM)
 ;
 PIOENABLE	.EQU	FALSE		; PIO: ENABLE ZILOG PIO DRIVER (PIO.ASM)
@@ -307,7 +312,7 @@ SPKENABLE	.EQU	FALSE		; SPK: ENABLE RTC LATCH IOBIT SOUND DRIVER (SPK.ASM)
 ;
 DMAENABLE	.EQU	FALSE		; DMA: ENABLE DMA DRIVER (DMA.ASM)
 DMABASE		.EQU	$E0		; DMA: DMA BASE ADDRESS
-DMAMODE		.EQU	DMAMODE_Z280	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC)
+DMAMODE		.EQU	DMAMODE_Z280	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC|DUO)
 ;
 YM2612ENABLE	.EQU	FALSE		; YM2612: ENABLE YM2612 DRIVER (MUTE STUB)
 VGMBASE		.EQU	$C0		; YM2612: BASE ADDRESS FOR VGM BOARD (YM2612/SN76469s/CTC)

Source/HBIOS/cfg_rcz80.asm

@@ -15,7 +15,7 @@
 ;
 #INCLUDE "hbios.inc"
 ;
-PLATFORM	.EQU	PLT_RCZ80	; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
+PLATFORM	.EQU	PLT_RCZ80	; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO|S100|DUO]
 CPUFAM		.EQU	CPU_Z80		; CPU FAMILY: CPU_[Z80|Z180|Z280]
 BIOS		.EQU	BIOS_WBW	; HARDWARE BIOS: BIOS_[WBW|UNA]
 BATCOND		.EQU	FALSE		; ENABLE LOW BATTERY WARNING MESSAGE
@@ -57,6 +57,9 @@ CTCPRECH	.EQU	2		; PRESCALE CHANNEL (0-3)
 CTCTIMCH	.EQU	3		; TIMER CHANNEL (0-3)
 CTCOSC		.EQU	CPUOSC		; CTC CLOCK FREQUENCY
 ;
+PCFENABLE	.EQU	FALSE		; ENABLE PCF8584 I2C CONTROLLER
+PCFBASE		.EQU	$F0		; PCF8584 BASE I/O ADDRESS
+;
 EIPCENABLE	.EQU	FALSE		; EIPC: ENABLE Z80 EIPC (Z84C15) INITIALIZATION
 ;
 SKZENABLE	.EQU	FALSE		; ENABLE SERGEY'S Z80-512K FEATURES
@@ -125,7 +128,7 @@ UARTENABLE	.EQU	TRUE		; UART: ENABLE 8250/16550-LIKE SERIAL DRIVER (UART.ASM)
 UARTOSC		.EQU	1843200		; UART: OSC FREQUENCY IN MHZ
 UARTINTS	.EQU	FALSE		; UART: INCLUDE INTERRUPT SUPPORT UNDER IM1/2/3
 UARTCFG		.EQU	DEFSERCFG | SER_RTS	; UART: LINE CONFIG FOR UART PORTS
-UARTSBC		.EQU	FALSE		; UART: AUTO-DETECT SBC/ZETA ONBOARD UART
+UARTSBC		.EQU	FALSE		; UART: AUTO-DETECT SBC/ZETA/DUO ONBOARD UART
 UARTSBCFORCE	.EQU	FALSE		; UART: FORCE DETECTION OF SBC UART (FOR SIMH)
 UARTCAS		.EQU	FALSE		; UART: AUTO-DETECT ECB CASSETTE UART
 UARTMFP		.EQU	FALSE		; UART: AUTO-DETECT MF/PIC UART
@@ -247,6 +250,8 @@ PRPCONENABLE	.EQU	TRUE		; PRP: ENABLE PROPIO DRIVER VIDEO/KBD SUPPORT
 ;
 PPPENABLE	.EQU	FALSE		; PPP: ENABLE ZETA PARALLEL PORT PROPELLER BOARD DRIVER (PPP.ASM)
 ;
+ESPENABLE	.EQU	FALSE		; ESP: ENABLE ESP32 IO BOARD DRIVER (ESP.ASM)
+;
 HDSKENABLE	.EQU	FALSE		; HDSK: ENABLE SIMH HDSK DISK DRIVER (HDSK.ASM)
 ;
 PIOENABLE	.EQU	FALSE		; PIO: ENABLE ZILOG PIO DRIVER (PIO.ASM)
@@ -301,7 +306,7 @@ SPKENABLE	.EQU	FALSE		; SPK: ENABLE RTC LATCH IOBIT SOUND DRIVER (SPK.ASM)
 ;
 DMAENABLE	.EQU	FALSE		; DMA: ENABLE DMA DRIVER (DMA.ASM)
 DMABASE		.EQU	$E0		; DMA: DMA BASE ADDRESS
-DMAMODE		.EQU	DMAMODE_RC	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC)
+DMAMODE		.EQU	DMAMODE_RC	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC|DUO)
 ;
 YM2612ENABLE	.EQU	FALSE		; YM2612: ENABLE YM2612 DRIVER (MUTE STUB)
 VGMBASE		.EQU	$C0		; YM2612: BASE ADDRESS FOR VGM BOARD (YM2612/SN76469s/CTC)

Source/HBIOS/cfg_rph.asm

@@ -15,7 +15,7 @@
 ;
 #INCLUDE "hbios.inc"
 ;
-PLATFORM	.EQU	PLT_RPH		; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
+PLATFORM	.EQU	PLT_RPH		; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO|S100|DUO]
 CPUFAM		.EQU	CPU_Z180	; CPU FAMILY: CPU_[Z80|Z180|Z280]
 BIOS		.EQU	BIOS_WBW	; HARDWARE BIOS: BIOS_[WBW|UNA]
 BATCOND		.EQU	TRUE		; ENABLE LOW BATTERY WARNING MESSAGE
@@ -60,6 +60,9 @@ CTCDEBUG	.EQU	FALSE		; ENABLE CTC DRIVER DEBUG OUTPUT
 CTCBASE		.EQU	$B0		; CTC BASE I/O ADDRESS
 CTCTIMER	.EQU	FALSE		; ENABLE CTC PERIODIC TIMER
 ;
+PCFENABLE	.EQU	FALSE		; ENABLE PCF8584 I2C CONTROLLER
+PCFBASE		.EQU	$F0		; PCF8584 BASE I/O ADDRESS
+;
 EIPCENABLE	.EQU	FALSE		; EIPC: ENABLE Z80 EIPC (Z84C15) INITIALIZATION
 ;
 SKZENABLE	.EQU	FALSE		; ENABLE SERGEY'S Z80-512K FEATURES
@@ -126,7 +129,7 @@ UARTOSC		.EQU	1843200		; UART: OSC FREQUENCY IN MHZ
 UARTINTS	.EQU	FALSE		; UART: INCLUDE INTERRUPT SUPPORT UNDER IM1/2/3
 UARTCFG		.EQU	DEFSERCFG	; UART: LINE CONFIG FOR UART PORTS
 UARTCASSPD	.EQU	SER_300_8N1	; UART: ECB CASSETTE UART DEFAULT SPEED
-UARTSBC		.EQU	FALSE		; UART: AUTO-DETECT SBC/ZETA ONBOARD UART
+UARTSBC		.EQU	FALSE		; UART: AUTO-DETECT SBC/ZETA/DUO ONBOARD UART
 UARTSBCFORCE	.EQU	FALSE		; UART: FORCE DETECTION OF SBC UART (FOR SIMH)
 UARTCAS		.EQU	FALSE		; UART: AUTO-DETECT ECB CASSETTE UART
 UARTMFP		.EQU	FALSE		; UART: AUTO-DETECT MF/PIC UART
@@ -230,6 +233,8 @@ PRPCONENABLE	.EQU	FALSE		; PRP: ENABLE PROPIO DRIVER VIDEO/KBD SUPPORT
 ;
 PPPENABLE	.EQU	FALSE		; PPP: ENABLE ZETA PARALLEL PORT PROPELLER BOARD DRIVER (PPP.ASM)
 ;
+ESPENABLE	.EQU	FALSE		; ESP: ENABLE ESP32 IO BOARD DRIVER (ESP.ASM)
+;
 HDSKENABLE	.EQU	FALSE		; HDSK: ENABLE SIMH HDSK DISK DRIVER (HDSK.ASM)
 ;
 PIOENABLE	.EQU	FALSE		; PIO: ENABLE ZILOG PIO DRIVER (PIO.ASM)
@@ -268,7 +273,7 @@ SPKENABLE	.EQU	FALSE		; SPK: ENABLE RTC LATCH IOBIT SOUND DRIVER (SPK.ASM)
 ;
 DMAENABLE	.EQU	FALSE		; DMA: ENABLE DMA DRIVER (DMA.ASM)
 DMABASE		.EQU	$E0		; DMA: DMA BASE ADDRESS
-DMAMODE		.EQU	DMAMODE_Z180	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC)
+DMAMODE		.EQU	DMAMODE_Z180	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC|DUO)
 ;
 YM2612ENABLE	.EQU	FALSE		; YM2612: ENABLE YM2612 DRIVER (MUTE STUB)
 VGMBASE		.EQU	$C0		; YM2612: BASE ADDRESS FOR VGM BOARD (YM2612/SN76469s/CTC)

Source/HBIOS/cfg_s100.asm

@@ -0,0 +1,308 @@
+;
+;==================================================================================================
+;   ROMWBW 2.X CONFIGURATION DEFAULTS FOR S100 Z180
+;==================================================================================================
+;
+; THIS FILE CONTAINS THE FULL SET OF DEFAULT CONFIGURATION SETTINGS FOR THE PLATFORM
+; INDICATED ABOVE. THIS FILE SHOULD *NOT* NORMALLY BE CHANGED.	INSTEAD, YOU SHOULD
+; OVERRIDE ANY SETTINGS YOU WANT USING A CONFIGURATION FILE IN THE CONFIG DIRECTORY
+; UNDER THIS DIRECTORY.
+;
+; THIS FILE CAN BE CONSIDERED A REFERENCE THAT LISTS ALL POSSIBLE CONFIGURATION SETTINGS
+; FOR THE PLATFORM.
+;
+#DEFINE PLATFORM_NAME "S100", " [", CONFIG, "]"
+;
+#INCLUDE "hbios.inc"
+;
+PLATFORM	.EQU	PLT_S100	; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO|S100|DUO]
+CPUFAM		.EQU	CPU_Z180	; CPU FAMILY: CPU_[Z80|Z180|Z280]
+BIOS		.EQU	BIOS_WBW	; HARDWARE BIOS: BIOS_[WBW|UNA]
+BATCOND		.EQU	FALSE		; ENABLE LOW BATTERY WARNING MESSAGE
+HBIOS_MUTEX	.EQU	FALSE		; ENABLE REENTRANT CALLS TO HBIOS (ADDS OVERHEAD)
+USELZSA2	.EQU	TRUE		; ENABLE FONT COMPRESSION
+TICKFREQ	.EQU	50		; DESIRED PERIODIC TIMER INTERRUPT FREQUENCY (HZ)
+;
+BOOT_TIMEOUT	.EQU	-1		; AUTO BOOT TIMEOUT IN SECONDS, -1 TO DISABLE, 0 FOR IMMEDIATE
+BOOT_DELAY	.EQU	0		; FIXED BOOT DELAY IN SECONDS PRIOR TO CONSOLE OUTPUT
+;
+CPUSPDCAP	.EQU	SPD_FIXED	; CPU SPEED CHANGE CAPABILITY SPD_FIXED|SPD_HILO
+CPUSPDDEF	.EQU	SPD_HIGH	; CPU SPEED DEFAULT SPD_UNSUP|SPD_HIGH|SPD_LOW
+CPUOSC		.EQU	18432000	; CPU OSC FREQ IN MHZ
+INTMODE		.EQU	2		; INTERRUPTS: 0=NONE, 1=MODE 1, 2=MODE 2, 3=MODE 3 (Z280)
+DEFSERCFG	.EQU	SER_57600_8N1	; DEFAULT SERIAL LINE CONFIG (SEE STD.ASM)
+;
+RAMSIZE		.EQU	512		; SIZE OF RAM IN KB (MUST MATCH YOUR HARDWARE!!!)
+ROMSIZE		.EQU	512		; SIZE OF ROM IN KB (MUST MATCH YOUR HARDWARE!!!)
+ROMSIZE_CHK	.EQU	0		; ROMSIZE VALUE VERIFICATION (0=DISABLED)
+MEMMGR		.EQU	MM_Z180		; MEMORY MANAGER: MM_[SBC|Z2|N8|Z180|Z280|MBC|RPH]
+RAMLOC		.EQU	19		; START OF RAM AS POWER OF 2 (2^N) IN PHYSICAL ADDRESS SPACE
+RAMBIAS		.EQU	(1 << (RAMLOC - 10))	; OFFSET OF START OF RAM IN PHYSICAL ADDRESS SPACE
+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)
+MPGSEL_2	.EQU	$7A		; Z2 MEM MGR BANK 2 PAGE SELECT REG (WRITE ONLY)
+MPGSEL_3	.EQU	$7B		; Z2 MEM MGR BANK 3 PAGE SELECT REG (WRITE ONLY)
+MPGENA		.EQU	$7C		; Z2 MEM MGR PAGING ENABLE REGISTER (BIT 0, WRITE ONLY)
+;
+Z180_BASE	.EQU	$C0		; Z180: I/O BASE ADDRESS FOR INTERNAL REGISTERS
+Z180_CLKDIV	.EQU	1		; Z180: CHK DIV: 0=OSC/2, 1=OSC, 2=OSC*2
+Z180_MEMWAIT	.EQU	0		; Z180: MEMORY WAIT STATES (0-3)
+Z180_IOWAIT	.EQU	1		; Z180: I/O WAIT STATES TO ADD ABOVE 1 W/S BUILT-IN (0-3)
+Z180_TIMER	.EQU	TRUE		; Z180: ENABLE Z180 SYSTEM PERIODIC TIMER
+;
+RTCIO		.EQU	$0C		; 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
+CTCDEBUG	.EQU	FALSE		; ENABLE CTC DRIVER DEBUG OUTPUT
+CTCBASE		.EQU	$88		; CTC BASE I/O ADDRESS
+CTCTIMER	.EQU	FALSE		; ENABLE CTC PERIODIC TIMER
+;
+PCFENABLE	.EQU	FALSE		; ENABLE PCF8584 I2C CONTROLLER
+PCFBASE		.EQU	$F0		; PCF8584 BASE I/O ADDRESS
+;
+EIPCENABLE	.EQU	FALSE		; EIPC: ENABLE Z80 EIPC (Z84C15) INITIALIZATION
+;
+SKZENABLE	.EQU	FALSE		; ENABLE SERGEY'S Z80-512K FEATURES
+;
+WDOGMODE	.EQU	WDOG_NONE	; WATCHDOG MODE: WDOG_[NONE|EZZ80|SKZ]
+;
+FPLED_ENABLE	.EQU	TRUE		; FP: ENABLES FRONT PANEL LEDS
+FPLED_IO	.EQU	$00		; FP: PORT ADDRESS FOR FP LEDS
+FPLED_DSKACT	.EQU	TRUE		; FP: ENABLES DISK I/O ACTIVITY ON FP LEDS
+FPSW_ENABLE	.EQU	FALSE		; FP: ENABLES FRONT PANEL SWITCHES
+FPSW_IO		.EQU	$00		; FP: PORT ADDRESS FOR FP SWITCHES
+;
+DIAGLVL		.EQU	DL_CRITICAL	; ERROR LEVEL REPORTING
+;
+LEDENABLE	.EQU	TRUE		; ENABLES STATUS LED (SINGLE LED)
+LEDMODE		.EQU	LEDMODE_STD	; LEDMODE_[STD|RTC]
+LEDPORT		.EQU	$0E		; STATUS LED PORT ADDRESS
+LEDDISKIO	.EQU	TRUE		; ENABLES DISK I/O ACTIVITY ON STATUS LED
+;
+DSKYENABLE	.EQU	FALSE		; ENABLES DSKY (DO NOT COMBINE WITH PPIDE)
+;
+BOOTCON		.EQU	0		; BOOT CONSOLE DEVICE
+CRTACT		.EQU	FALSE		; ACTIVATE CRT (VDU,CVDU,PROPIO,ETC) AT STARTUP
+VDAEMU		.EQU	EMUTYP_ANSI	; VDA EMULATION: EMUTYP_[TTY|ANSI]
+VDAEMU_SERKBD	.EQU	$FF		; VDA EMULATION: SERIAL KBD UNIT #, OR $FF FOR HW KBD
+ANSITRACE	.EQU	1		; ANSI DRIVER TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
+PPKTRACE	.EQU	1		; PPK DRIVER TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
+KBDTRACE	.EQU	1		; KBD DRIVER TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
+PPKKBLOUT	.EQU	KBD_US		; PPK KEYBOARD LANGUAGE: KBD_[US|DE]
+KBDKBLOUT	.EQU	KBD_US		; KBD KEYBOARD LANGUAGE: KBD_[US|DE]
+MKYENABLE	.EQU	FALSE		; MSX 5255 PPI KEYBOARD COMPATIBLE DRIVER (REQUIRES TMS VDA DRIVER)
+MKYKBLOUT	.EQU	KBD_US		; KBD KEYBOARD LANGUAGE: KBD_[US|DE]
+;
+DSRTCENABLE	.EQU	TRUE		; DSRTC: ENABLE DS-1302 CLOCK DRIVER (DSRTC.ASM)
+DSRTCMODE	.EQU	DSRTCMODE_STD	; DSRTC: OPERATING MODE: DSRTC_[STD|MFPIC]
+DSRTCCHG	.EQU	FALSE		; DSRTC: FORCE BATTERY CHARGE ON (USE WITH CAUTION!!!)
+;
+DS1501RTCENABLE	.EQU	FALSE		; DS1501RTC: ENABLE DS-1501 CLOCK DRIVER (DS1501RTC.ASM)
+DS1501RTC_BASE	.EQU	$50		; DS1501RTC: I/O BASE ADDRESS
+;
+BQRTCENABLE	.EQU	FALSE		; BQRTC: ENABLE BQ4845 CLOCK DRIVER (BQRTC.ASM)
+BQRTC_BASE	.EQU	$50		; BQRTC: I/O BASE ADDRESS
+;
+INTRTCENABLE	.EQU	FALSE		; ENABLE PERIODIC INTERRUPT CLOCK DRIVER (INTRTC.ASM)
+;
+RP5RTCENABLE	.EQU	FALSE		; RP5C01 RTC BASED CLOCK (RP5RTC.ASM)
+;
+HTIMENABLE	.EQU	FALSE		; ENABLE SIMH TIMER SUPPORT
+SIMRTCENABLE	.EQU	FALSE		; ENABLE SIMH CLOCK DRIVER (SIMRTC.ASM)
+;
+DS7RTCENABLE	.EQU	FALSE		; DS7RTC: ENABLE DS-1307 I2C CLOCK DRIVER (DS7RTC.ASM)
+DS7RTCMODE	.EQU	DS7RTCMODE_PCF	; DS7RTC: OPERATING MODE: DS7RTC_[PCF]
+;
+DUARTENABLE	.EQU	FALSE		; DUART: ENABLE 2681/2692 SERIAL DRIVER (DUART.ASM)
+DUARTCNT	.EQU	1		; DUART: NUMBER OF CHIPS TO DETECT (1-2)
+DUART0BASE	.EQU	$A0		; DUART 0: BASE ADDRESS OF CHIP
+DUART0ACFG	.EQU	DEFSERCFG	; DUART 0A: SERIAL LINE CONFIG
+DUART0BCFG	.EQU	DEFSERCFG	; DUART 0B: SERIAL LINE CONFIG
+DUART1BASE	.EQU	$40		; DUART 1: BASE ADDRESS OF CHIP
+DUART1ACFG	.EQU	DEFSERCFG	; DUART 1A: SERIAL LINE CONFIG
+DUART1BCFG	.EQU	DEFSERCFG	; DUART 1B: SERIAL LINE CONFIG
+;
+UARTENABLE	.EQU	TRUE		; UART: ENABLE 8250/16550-LIKE SERIAL DRIVER (UART.ASM)
+UARTOSC		.EQU	1843200		; UART: OSC FREQUENCY IN MHZ
+UARTINTS	.EQU	FALSE		; UART: INCLUDE INTERRUPT SUPPORT UNDER IM1/2/3
+UARTCFG		.EQU	DEFSERCFG | SER_RTS	; UART: LINE CONFIG FOR UART PORTS
+UARTSBC		.EQU	FALSE		; UART: AUTO-DETECT SBC/ZETA/DUO ONBOARD UART
+UARTSBCFORCE	.EQU	FALSE		; UART: FORCE DETECTION OF SBC UART (FOR SIMH)
+UARTCAS		.EQU	FALSE		; UART: AUTO-DETECT ECB CASSETTE UART
+UARTMFP		.EQU	FALSE		; UART: AUTO-DETECT MF/PIC UART
+UART4		.EQU	FALSE		; UART: AUTO-DETECT 4UART UART
+UARTRC		.EQU	TRUE		; UART: AUTO-DETECT RC UART
+UARTDUAL	.EQU	FALSE		; UART: AUTO-DETECT DUAL UART
+;
+ASCIENABLE	.EQU	TRUE		; ASCI: ENABLE Z180 ASCI SERIAL DRIVER (ASCI.ASM)
+ASCIINTS	.EQU	TRUE		; ASCI: INCLUDE INTERRUPT SUPPORT UNDER IM1/2/3
+ASCISWAP	.EQU	FALSE		; ASCI: SWAP CHANNELS
+ASCIBOOT	.EQU	0		; ASCI: REBOOT ON RCV CHAR (0=DISABLED)
+ASCI0CFG	.EQU	DEFSERCFG	; ASCI 0: SERIAL LINE CONFIG
+ASCI1CFG	.EQU	DEFSERCFG	; ASCI 1: SERIAL LINE CONFIG
+;
+Z2UENABLE	.EQU	FALSE		; Z2U: ENABLE Z280 UART SERIAL DRIVER (Z2U.ASM)
+;
+ACIAENABLE	.EQU	FALSE		; ACIA: ENABLE MOTOROLA 6850 ACIA DRIVER (ACIA.ASM)
+;
+SIOENABLE	.EQU	TRUE		; SIO: ENABLE ZILOG SIO SERIAL DRIVER (SIO.ASM)
+SIODEBUG	.EQU	FALSE		; SIO: ENABLE DEBUG OUTPUT
+SIOBOOT		.EQU	0		; SIO: REBOOT ON RCV CHAR (0=DISABLED)
+SIOCNT		.EQU	2		; SIO: NUMBER OF CHIPS TO DETECT (1-2), 2 CHANNELS PER CHIP
+SIO0MODE	.EQU	SIOMODE_RC	; SIO 0: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP|Z80R]
+SIO0BASE	.EQU	$80		; SIO 0: REGISTERS BASE ADR
+SIO0ACLK	.EQU	7372800		; SIO 0A: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
+SIO0ACFG	.EQU	SER_115200_8N1	; SIO 0A: SERIAL LINE CONFIG
+SIO0ACTCC	.EQU	-1		; SIO 0A: CTC CHANNEL 0=A, 1=B, 2=C, 3=D, -1 FOR NONE
+SIO0BCLK	.EQU	7372800		; SIO 0B: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
+SIO0BCFG	.EQU	SER_115200_8N1	; SIO 0B: SERIAL LINE CONFIG
+SIO0BCTCC	.EQU	-1		; SIO 0B: CTC CHANNEL 0=A, 1=B, 2=C, 3=D, -1 FOR NONE
+SIO1MODE	.EQU	SIOMODE_RC	; SIO 1: CHIP TYPE: SIOMODE_[STD|RC|SMB|ZP|Z80R]
+SIO1BASE	.EQU	$84		; SIO 1: REGISTERS BASE ADR
+SIO1ACLK	.EQU	7372800		; SIO 1A: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
+SIO1ACFG	.EQU	SER_115200_8N1	; SIO 1A: SERIAL LINE CONFIG
+SIO1ACTCC	.EQU	-1		; SIO 1A: CTC CHANNEL 0=A, 1=B, 2=C, 3=D, -1 FOR NONE
+SIO1BCLK	.EQU	7372800		; SIO 1B: OSC FREQ IN HZ, ZP=2457600/4915200, RC/SMB=7372800
+SIO1BCFG	.EQU	SER_115200_8N1	; SIO 1B: SERIAL LINE CONFIG
+SIO1BCTCC	.EQU	-1		; SIO 1B: CTC CHANNEL 0=A, 1=B, 2=C, 3=D, -1 FOR NONE
+;
+XIOCFG		.EQU	DEFSERCFG	; XIO: SERIAL LINE CONFIG
+;
+VDUENABLE	.EQU	FALSE		; VDU: ENABLE VDU VIDEO/KBD DRIVER (VDU.ASM)
+CVDUENABLE	.EQU	FALSE		; CVDU: ENABLE CVDU VIDEO/KBD DRIVER (CVDU.ASM)
+GDCENABLE	.EQU	FALSE		; GDC: ENABLE 7220 GDC VIDEO/KBD DRIVER (GDC.ASM)
+TMSENABLE	.EQU	FALSE		; TMS: ENABLE TMS9918 VIDEO/KBD DRIVER (TMS.ASM)
+TMSMODE		.EQU	TMSMODE_MSX	; TMS: DRIVER MODE: TMSMODE_[SCG|N8|MBC|MSX|MSX9958|MSXKBD|COLECO]
+TMSTIMENABLE	.EQU	FALSE		; TMS: ENABLE TIMER INTERRUPTS (REQUIRES IM1)
+VGAENABLE	.EQU	FALSE		; VGA: ENABLE VGA VIDEO/KBD DRIVER (VGA.ASM)
+VRCENABLE	.EQU	FALSE		; VRC: ENABLE VGARC VIDEO/KBD DRIVER (VRC.ASM)
+;
+MDENABLE	.EQU	TRUE		; MD: ENABLE MEMORY (ROM/RAM) DISK DRIVER (MD.ASM)
+MDROM		.EQU	TRUE		; MD: ENABLE ROM DISK
+MDRAM		.EQU	TRUE		; MD: ENABLE RAM DISK
+MDTRACE		.EQU	1		; MD: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
+MDFFENABLE	.EQU	FALSE		; MD: ENABLE FLASH FILE SYSTEM
+;
+FDENABLE	.EQU	FALSE		; FD: ENABLE FLOPPY DISK DRIVER (FD.ASM)
+FDMODE		.EQU	FDMODE_RCWDC	; FD: DRIVER MODE: FDMODE_[DIO|ZETA|ZETA2|DIDE|N8|DIO3|RCSMC|RCWDC|DYNO|EPFDC|MBC]
+FDCNT		.EQU	2		; FD: NUMBER OF FLOPPY DRIVES ON THE INTERFACE (1-2)
+FDTRACE		.EQU	1		; FD: TRACE LEVEL (0=NO,1=FATAL,2=ERRORS,3=ALL)
+FDMAUTO		.EQU	TRUE		; FD: AUTO SELECT DEFAULT/ALTERNATE MEDIA FORMATS
+FD0TYPE		.EQU	FDT_3HD		; FD 0: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
+FD1TYPE		.EQU	FDT_3HD		; FD 1: DRIVE TYPE: FDT_[3DD|3HD|5DD|5HD|8]
+;
+RFENABLE	.EQU	FALSE		; RF: ENABLE RAM FLOPPY DRIVER
+;
+IDEENABLE	.EQU	FALSE		; IDE: ENABLE IDE DISK DRIVER (IDE.ASM)
+IDETRACE	.EQU	1		; IDE: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
+IDECNT		.EQU	1		; IDE: NUMBER OF IDE INTERFACES TO DETECT (1-3), 2 DRIVES EACH
+IDE0MODE	.EQU	IDEMODE_RC	; IDE 0: DRIVER MODE: IDEMODE_[DIO|DIDE|MK4|RC]
+IDE0BASE	.EQU	$10		; IDE 0: IO BASE ADDRESS
+IDE0DATLO	.EQU	$00		; IDE 0: DATA LO PORT FOR 16-BIT I/O
+IDE0DATHI	.EQU	$00		; IDE 0: DATA HI PORT FOR 16-BIT I/O
+IDE0A8BIT	.EQU	TRUE		; IDE 0A (MASTER): 8 BIT XFER
+IDE0B8BIT	.EQU	TRUE		; IDE 0B (MASTER): 8 BIT XFER
+IDE1MODE	.EQU	IDEMODE_NONE	; IDE 1: DRIVER MODE: IDEMODE_[DIO|DIDE|MK4|RC]
+IDE1BASE	.EQU	$00		; IDE 1: IO BASE ADDRESS
+IDE1DATLO	.EQU	$00		; IDE 1: DATA LO PORT FOR 16-BIT I/O
+IDE1DATHI	.EQU	$00		; IDE 1: DATA HI PORT FOR 16-BIT I/O
+IDE1A8BIT	.EQU	TRUE		; IDE 1A (MASTER): 8 BIT XFER
+IDE1B8BIT	.EQU	TRUE		; IDE 1B (MASTER): 8 BIT XFER
+IDE2MODE	.EQU	IDEMODE_NONE	; IDE 2: DRIVER MODE: IDEMODE_[DIO|DIDE|MK4|RC]
+IDE2BASE	.EQU	$00		; IDE 2: IO BASE ADDRESS
+IDE2DATLO	.EQU	$00		; IDE 2: DATA LO PORT FOR 16-BIT I/O
+IDE2DATHI	.EQU	$00		; IDE 2: DATA HI PORT FOR 16-BIT I/O
+IDE2A8BIT	.EQU	TRUE		; IDE 2A (MASTER): 8 BIT XFER
+IDE2B8BIT	.EQU	TRUE		; IDE 2B (MASTER): 8 BIT XFER
+;
+PPIDEENABLE	.EQU	FALSE		; PPIDE: ENABLE PARALLEL PORT IDE DISK DRIVER (PPIDE.ASM)
+PPIDETRACE	.EQU	1		; PPIDE: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
+PPIDECNT	.EQU	1		; PPIDE: NUMBER OF PPI CHIPS TO DETECT (1-3), 2 DRIVES PER CHIP
+PPIDE0BASE	.EQU	$20		; PPIDE 0: PPI REGISTERS BASE ADR
+PPIDE0A8BIT	.EQU	FALSE		; PPIDE 0A (MASTER): 8 BIT XFER
+PPIDE0B8BIT	.EQU	FALSE		; PPIDE 0B (SLAVE): 8 BIT XFER
+PPIDE1BASE	.EQU	$00		; PPIDE 1: PPI REGISTERS BASE ADR
+PPIDE1A8BIT	.EQU	FALSE		; PPIDE 1A (MASTER): 8 BIT XFER
+PPIDE1B8BIT	.EQU	FALSE		; PPIDE 0B (SLAVE): 8 BIT XFER
+PPIDE2BASE	.EQU	$00		; PPIDE 2: PPI REGISTERS BASE ADR
+PPIDE2A8BIT	.EQU	FALSE		; PPIDE 2A (MASTER): 8 BIT XFER
+PPIDE2B8BIT	.EQU	FALSE		; PPIDE 0B (SLAVE): 8 BIT XFER
+;
+SDENABLE	.EQU	TRUE		; SD: ENABLE SD CARD DISK DRIVER (SD.ASM)
+SDMODE		.EQU	SDMODE_SC	; SD: DRIVER MODE: SDMODE_[JUHA|N8|CSIO|PPI|UART|DSD|MK4|SC|MT|PIO|Z80R|USR]
+SDPPIBASE	.EQU	$60		; SD: BASE I/O ADDRESS OF PPI FOR PPI MODDE
+SDCNT		.EQU	1		; SD: NUMBER OF SD CARD DEVICES (1-2), FOR DSD/SC/MT ONLY
+SDTRACE		.EQU	1		; SD: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
+SDCSIOFAST	.EQU	FALSE		; SD: ENABLE TABLE-DRIVEN BIT INVERTER IN CSIO MODE
+SDMTSWAP	.EQU	FALSE		; SD: SWAP THE LOGICAL ORDER OF THE SPI PORTS OF THE MT011
+;
+PRPENABLE	.EQU	FALSE		; PRP: ENABLE ECB PROPELLER IO BOARD DRIVER (PRP.ASM)
+PRPSDENABLE	.EQU	TRUE		; PRP: ENABLE PROPIO DRIVER SD CARD SUPPORT
+PRPSDTRACE	.EQU	1		; PRP: SD CARD TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
+PRPCONENABLE	.EQU	TRUE		; PRP: ENABLE PROPIO DRIVER VIDEO/KBD SUPPORT
+;
+PPPENABLE	.EQU	FALSE		; PPP: ENABLE ZETA PARALLEL PORT PROPELLER BOARD DRIVER (PPP.ASM)
+;
+ESPENABLE	.EQU	FALSE		; ESP: ENABLE ESP32 IO BOARD DRIVER (ESP.ASM)
+;
+HDSKENABLE	.EQU	FALSE		; HDSK: ENABLE SIMH HDSK DISK DRIVER (HDSK.ASM)
+;
+PIOENABLE	.EQU	FALSE		; 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
+;
+LPTENABLE	.EQU	FALSE		; LPT: ENABLE CENTRONICS PRINTER DRIVER (LPT.ASM)
+LPTMODE		.EQU	LPTMODE_MG014	; LPT: DRIVER MODE: LPTMODE_[NONE|SPP|MG014]
+LPTCNT		.EQU	1		; LPT: NUMBER OF CHIPS TO DETECT (1-2)
+LPTTRACE	.EQU	1		; LPT: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
+LPT0BASE	.EQU	$18		; LPT 0: REGISTERS BASE ADR
+LPT1BASE	.EQU	$00		; LPT 1: REGISTERS BASE ADR
+;
+PPAENABLE	.EQU	FALSE		; PPA: ENABLE PPA DISK DRIVER (PPA.ASM)
+PPACNT		.EQU	1		; PPA: NUMBER OF PPA DEVICES (1-2)
+PPATRACE	.EQU	1		; PPA: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
+PPAMODE		.EQU	PPAMODE_MG014	; PPA: DRIVER MODE: PPAMODE_[NONE|SPP|MG014]
+PPA0BASE	.EQU	LPT0BASE	; PPA 0: BASE I/O ADDRESS OF PPI FOR PPA
+PPA1BASE	.EQU	LPT1BASE	; PPA 1: BASE I/O ADDRESS OF PPI FOR PPA
+;
+IMMENABLE	.EQU	FALSE		; IMM: ENABLE IMM DISK DRIVER (IMM.ASM)
+IMMCNT		.EQU	1		; IMM: NUMBER OF IMM DEVICES (1-2)
+IMMTRACE	.EQU	1		; IMM: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
+IMMMODE		.EQU	IMMMODE_MG014	; IMM: DRIVER MODE: IMMMODE_[NONE|SPP|MG014]
+IMM0BASE	.EQU	LPT0BASE	; IMM 0: BASE I/O ADDRESS OF PPI FOR IMM
+IMM1BASE	.EQU	LPT1BASE	; IMM 1: BASE I/O ADDRESS OF PPI FOR IMM
+;
+SYQENABLE	.EQU	FALSE		; SYQ: ENABLE IMM DISK DRIVER (SYQ.ASM)
+SYQCNT		.EQU	1		; SYQ: NUMBER OF SYQ DEVICES (1-2)
+SYQTRACE	.EQU	1		; SYQ: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
+SYQMODE		.EQU	IMMMODE_MG014	; SYQ: DRIVER MODE: SYQMODE_[NONE|SPP|MG014]
+SYQ0BASE	.EQU	LPT0BASE	; SYQ 0: BASE I/O ADDRESS OF PPI FOR SYQ
+SYQ1BASE	.EQU	LPT1BASE	; SYQ 1: BASE I/O ADDRESS OF PPI FOR SYQ
+;
+PIO_4P		.EQU	FALSE		; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB 4P BOARD
+PIO_ZP		.EQU	FALSE		; PIO: ENABLE PARALLEL PORT DRIVER FOR ECB ZILOG PERIPHERALS BOARD (PIO.ASM)
+PIO_SBC		.EQU	FALSE		; PIO: ENABLE PARALLEL PORT DRIVER FOR 8255 CHIP
+;
+UFENABLE	.EQU	FALSE		; UF: ENABLE ECB USB FIFO DRIVER (UF.ASM)
+;
+SN76489ENABLE	.EQU	FALSE		; SN: ENABLE SN76489 SOUND DRIVER
+AUDIOTRACE	.EQU	FALSE		; ENABLE TRACING TO CONSOLE OF SOUND DRIVER
+SN7CLK		.EQU	3579545		; SN: PSG CLOCK FREQ, ASSUME MSX STD
+SNMODE		.EQU	SNMODE_RC	; SN: DRIVER MODE: SNMODE_[NONE|RC|VGM]
+;
+AY38910ENABLE	.EQU	FALSE		; AY: ENABLE AY-3-8910 / YM2149 SOUND DRIVER
+AY_CLK		.EQU	1789772		; AY: PSG CLOCK FREQ, ASSUME MSX STD
+AYMODE		.EQU	AYMODE_RCZ180	; AY: DRIVER MODE: AYMODE_[SCG|N8|RCZ80|RCZ180|MSX|LINC|MBC]
+;
+SPKENABLE	.EQU	FALSE		; SPK: ENABLE RTC LATCH IOBIT SOUND DRIVER (SPK.ASM)
+;
+DMAENABLE	.EQU	FALSE		; DMA: ENABLE DMA DRIVER (DMA.ASM)
+DMABASE		.EQU	$E0		; DMA: DMA BASE ADDRESS
+DMAMODE		.EQU	DMAMODE_Z180	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC|DUO)
+;
+YM2612ENABLE	.EQU	FALSE		; YM2612: ENABLE YM2612 DRIVER (MUTE STUB)
+VGMBASE		.EQU	$C0		; YM2612: BASE ADDRESS FOR VGM BOARD (YM2612/SN76469s/CTC)

Source/HBIOS/cfg_sbc.asm

@@ -15,7 +15,7 @@
 ;
 #INCLUDE "hbios.inc"
 ;
-PLATFORM	.EQU	PLT_SBC		; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
+PLATFORM	.EQU	PLT_SBC		; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO|S100|DUO]
 CPUFAM		.EQU	CPU_Z80		; CPU FAMILY: CPU_[Z80|Z180|Z280]
 BIOS		.EQU	BIOS_WBW	; HARDWARE BIOS: BIOS_[WBW|UNA]
 BATCOND		.EQU	FALSE		; ENABLE LOW BATTERY WARNING MESSAGE
@@ -54,6 +54,9 @@ CTCPRECH	.EQU	2		; PRESCALE CHANNEL (0-3)
 CTCTIMCH	.EQU	3		; TIMER CHANNEL (0-3)
 CTCOSC		.EQU	614400		; CTC CLOCK FREQUENCY
 ;
+PCFENABLE	.EQU	FALSE		; ENABLE PCF8584 I2C CONTROLLER
+PCFBASE		.EQU	$F0		; PCF8584 BASE I/O ADDRESS
+;
 EIPCENABLE	.EQU	FALSE		; EIPC: ENABLE Z80 EIPC (Z84C15) INITIALIZATION
 ;
 SKZENABLE	.EQU	FALSE		; ENABLE SERGEY'S Z80-512K FEATURES
@@ -120,7 +123,7 @@ UARTOSC		.EQU	1843200		; UART: OSC FREQUENCY IN MHZ
 UARTINTS	.EQU	FALSE		; UART: INCLUDE INTERRUPT SUPPORT UNDER IM1/2/3
 UARTCFG		.EQU	DEFSERCFG	; UART: LINE CONFIG FOR UART PORTS
 UARTCASSPD	.EQU	SER_300_8N1	; UART: ECB CASSETTE UART DEFAULT SPEED
-UARTSBC		.EQU	TRUE		; UART: AUTO-DETECT SBC/ZETA ONBOARD UART
+UARTSBC		.EQU	TRUE		; UART: AUTO-DETECT SBC/ZETA/DUO ONBOARD UART
 UARTSBCFORCE	.EQU	FALSE		; UART: FORCE DETECTION OF SBC UART (FOR SIMH)
 UARTCAS		.EQU	TRUE		; UART: AUTO-DETECT ECB CASSETTE UART
 UARTMFP		.EQU	TRUE		; UART: AUTO-DETECT MF/PIC UART
@@ -228,6 +231,8 @@ PRPCONENABLE	.EQU	TRUE		; PRP: ENABLE PROPIO DRIVER VIDEO/KBD SUPPORT
 ;
 PPPENABLE	.EQU	FALSE		; PPP: ENABLE ZETA PARALLEL PORT PROPELLER BOARD DRIVER (PPP.ASM)
 ;
+ESPENABLE	.EQU	FALSE		; ESP: ENABLE ESP32 IO BOARD DRIVER (ESP.ASM)
+;
 HDSKENABLE	.EQU	FALSE		; HDSK: ENABLE SIMH HDSK DISK DRIVER (HDSK.ASM)
 HDSKTRACE	.EQU	1		; HDSK: TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
 ;
@@ -267,7 +272,7 @@ SPKENABLE	.EQU	FALSE		; SPK: ENABLE RTC LATCH IOBIT SOUND DRIVER (SPK.ASM)
 ;
 DMAENABLE	.EQU	FALSE		; DMA: ENABLE DMA DRIVER (DMA.ASM)
 DMABASE		.EQU	$E0		; DMA: DMA BASE ADDRESS
-DMAMODE		.EQU	DMAMODE_ECB	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC)
+DMAMODE		.EQU	DMAMODE_ECB	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC|DUO)
 ;
 YM2612ENABLE	.EQU	FALSE		; YM2612: ENABLE YM2612 DRIVER (MUTE STUB)
 VGMBASE		.EQU	$C0		; YM2612: BASE ADDRESS FOR VGM BOARD (YM2612/SN76469s/CTC)

Source/HBIOS/cfg_scz180.asm

@@ -15,7 +15,7 @@
 ;
 #INCLUDE "hbios.inc"
 ;
-PLATFORM	.EQU	PLT_SCZ180	; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
+PLATFORM	.EQU	PLT_SCZ180	; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO|S100|DUO]
 CPUFAM		.EQU	CPU_Z180	; CPU FAMILY: CPU_[Z80|Z180|Z280]
 BIOS		.EQU	BIOS_WBW	; HARDWARE BIOS: BIOS_[WBW|UNA]
 BATCOND		.EQU	FALSE		; ENABLE LOW BATTERY WARNING MESSAGE
@@ -60,6 +60,9 @@ CTCDEBUG	.EQU	FALSE		; ENABLE CTC DRIVER DEBUG OUTPUT
 CTCBASE		.EQU	$88		; CTC BASE I/O ADDRESS
 CTCTIMER	.EQU	FALSE		; ENABLE CTC PERIODIC TIMER
 ;
+PCFENABLE	.EQU	FALSE		; ENABLE PCF8584 I2C CONTROLLER
+PCFBASE		.EQU	$F0		; PCF8584 BASE I/O ADDRESS
+;
 EIPCENABLE	.EQU	FALSE		; EIPC: ENABLE Z80 EIPC (Z84C15) INITIALIZATION
 ;
 SKZENABLE	.EQU	FALSE		; ENABLE SERGEY'S Z80-512K FEATURES
@@ -126,7 +129,7 @@ UARTENABLE	.EQU	TRUE		; UART: ENABLE 8250/16550-LIKE SERIAL DRIVER (UART.ASM)
 UARTOSC		.EQU	1843200		; UART: OSC FREQUENCY IN MHZ
 UARTINTS	.EQU	FALSE		; UART: INCLUDE INTERRUPT SUPPORT UNDER IM1/2/3
 UARTCFG		.EQU	DEFSERCFG | SER_RTS	; UART: LINE CONFIG FOR UART PORTS
-UARTSBC		.EQU	FALSE		; UART: AUTO-DETECT SBC/ZETA ONBOARD UART
+UARTSBC		.EQU	FALSE		; UART: AUTO-DETECT SBC/ZETA/DUO ONBOARD UART
 UARTSBCFORCE	.EQU	FALSE		; UART: FORCE DETECTION OF SBC UART (FOR SIMH)
 UARTCAS		.EQU	FALSE		; UART: AUTO-DETECT ECB CASSETTE UART
 UARTMFP		.EQU	FALSE		; UART: AUTO-DETECT MF/PIC UART
@@ -243,6 +246,8 @@ PRPCONENABLE	.EQU	TRUE		; PRP: ENABLE PROPIO DRIVER VIDEO/KBD SUPPORT
 ;
 PPPENABLE	.EQU	FALSE		; PPP: ENABLE ZETA PARALLEL PORT PROPELLER BOARD DRIVER (PPP.ASM)
 ;
+ESPENABLE	.EQU	FALSE		; ESP: ENABLE ESP32 IO BOARD DRIVER (ESP.ASM)
+;
 HDSKENABLE	.EQU	FALSE		; HDSK: ENABLE SIMH HDSK DISK DRIVER (HDSK.ASM)
 ;
 PIOENABLE	.EQU	FALSE		; PIO: ENABLE ZILOG PIO DRIVER (PIO.ASM)
@@ -297,7 +302,7 @@ SPKENABLE	.EQU	FALSE		; SPK: ENABLE RTC LATCH IOBIT SOUND DRIVER (SPK.ASM)
 ;
 DMAENABLE	.EQU	FALSE		; DMA: ENABLE DMA DRIVER (DMA.ASM)
 DMABASE		.EQU	$E0		; DMA: DMA BASE ADDRESS
-DMAMODE		.EQU	DMAMODE_Z180	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC)
+DMAMODE		.EQU	DMAMODE_Z180	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC|DUO)
 ;
 YM2612ENABLE	.EQU	FALSE		; YM2612: ENABLE YM2612 DRIVER (MUTE STUB)
 VGMBASE		.EQU	$C0		; YM2612: BASE ADDRESS FOR VGM BOARD (YM2612/SN76469s/CTC)

Source/HBIOS/cfg_una.asm

@@ -15,7 +15,7 @@
 ;
 #INCLUDE "../UBIOS/ubios.inc"
 ;
-;PLATFORM	.EQU	PLT_UNA		; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
+;PLATFORM	.EQU	PLT_UNA		; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO|S100|DUO]
 CPUFAM		.EQU	CPU_Z80		; CPU FAMILY: CPU_[Z80|Z180|Z280]
 BIOS		.EQU	BIOS_UNA	; HARDWARE BIOS: BIOS_[WBW|UNA]
 ;

Source/HBIOS/cfg_z80retro.asm

@@ -15,7 +15,7 @@
 ;
 #INCLUDE "hbios.inc"
 ;
-PLATFORM	.EQU	PLT_Z80RETRO	; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
+PLATFORM	.EQU	PLT_Z80RETRO	; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO|S100|DUO]
 CPUFAM		.EQU	CPU_Z80		; CPU FAMILY: CPU_[Z80|Z180|Z280]
 BIOS		.EQU	BIOS_WBW	; HARDWARE BIOS: BIOS_[WBW|UNA]
 BATCOND		.EQU	FALSE		; ENABLE LOW BATTERY WARNING MESSAGE
@@ -57,6 +57,9 @@ CTCPRECH	.EQU	0		; PRESCALE CHANNEL (0-3)
 CTCTIMCH	.EQU	1		; TIMER CHANNEL (0-3)
 CTCOSC		.EQU	7372800		; CTC CLOCK FREQUENCY
 ;
+PCFENABLE	.EQU	FALSE		; ENABLE PCF8584 I2C CONTROLLER
+PCFBASE		.EQU	$F0		; PCF8584 BASE I/O ADDRESS
+;
 EIPCENABLE	.EQU	FALSE		; EIPC: ENABLE Z80 EIPC (Z84C15) INITIALIZATION
 ;
 SKZENABLE	.EQU	FALSE		; ENABLE SERGEY'S Z80-512K FEATURES
@@ -118,7 +121,7 @@ UARTOSC		.EQU	1843200		; UART: OSC FREQUENCY IN MHZ
 UARTINTS	.EQU	FALSE		; UART: INCLUDE INTERRUPT SUPPORT UNDER IM1/2/3
 UARTCFG		.EQU	DEFSERCFG	; UART: LINE CONFIG FOR UART PORTS
 UARTCASSPD	.EQU	SER_300_8N1	; UART: ECB CASSETTE UART DEFAULT SPEED
-UARTSBC		.EQU	TRUE		; UART: AUTO-DETECT SBC/ZETA ONBOARD UART
+UARTSBC		.EQU	TRUE		; UART: AUTO-DETECT SBC/ZETA/DUO ONBOARD UART
 UARTSBCFORCE	.EQU	FALSE		; UART: FORCE DETECTION OF SBC UART (FOR SIMH)
 UARTCAS		.EQU	FALSE		; UART: AUTO-DETECT ECB CASSETTE UART
 UARTMFP		.EQU	FALSE		; UART: AUTO-DETECT MF/PIC UART
@@ -203,6 +206,8 @@ PPPSDENABLE	.EQU	TRUE		; PPP: ENABLE PPP DRIVER SD CARD SUPPORT
 PPPSDTRACE	.EQU	1		; PPP: SD CARD TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
 PPPCONENABLE	.EQU	TRUE		; PPP: ENABLE PPP DRIVER VIDEO/KBD SUPPORT
 ;
+ESPENABLE	.EQU	FALSE		; ESP: ENABLE ESP32 IO BOARD DRIVER (ESP.ASM)
+;
 HDSKENABLE	.EQU	FALSE		; HDSK: ENABLE SIMH HDSK DISK DRIVER (HDSK.ASM)
 ;
 PIOENABLE	.EQU	FALSE		; PIO: ENABLE ZILOG PIO DRIVER (PIO.ASM)
@@ -228,7 +233,7 @@ SPKENABLE	.EQU	FALSE		; SPK: ENABLE RTC LATCH IOBIT SOUND DRIVER (SPK.ASM)
 ;
 DMAENABLE	.EQU	FALSE		; DMA: ENABLE DMA DRIVER (DMA.ASM)
 DMABASE		.EQU	$E0		; DMA: DMA BASE ADDRESS
-DMAMODE		.EQU	DMAMODE_NONE	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC)
+DMAMODE		.EQU	DMAMODE_NONE	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC|DUO)
 ;
 YM2612ENABLE	.EQU	FALSE		; YM2612: ENABLE YM2612 DRIVER (MUTE STUB)
 VGMBASE		.EQU	$C0		; YM2612: BASE ADDRESS FOR VGM BOARD (YM2612/SN76469s/CTC)

Source/HBIOS/cfg_zeta.asm

@@ -15,7 +15,7 @@
 ;
 #INCLUDE "hbios.inc"
 ;
-PLATFORM	.EQU	PLT_ZETA	; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
+PLATFORM	.EQU	PLT_ZETA	; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO|S100|DUO]
 CPUFAM		.EQU	CPU_Z80		; CPU FAMILY: CPU_[Z80|Z180|Z280]
 BIOS		.EQU	BIOS_WBW	; BIOS_[WBW|UNA]: HARDWARE BIOS
 BATCOND		.EQU	FALSE		; ENABLE LOW BATTERY WARNING MESSAGE
@@ -46,6 +46,9 @@ KIOBASE		.EQU	$80		; KIO BASE I/O ADDRESS
 ;
 CTCENABLE	.EQU	FALSE		; ENABLE ZILOG CTC SUPPORT
 ;
+PCFENABLE	.EQU	FALSE		; ENABLE PCF8584 I2C CONTROLLER
+PCFBASE		.EQU	$F0		; PCF8584 BASE I/O ADDRESS
+;
 EIPCENABLE	.EQU	FALSE		; EIPC: ENABLE Z80 EIPC (Z84C15) INITIALIZATION
 ;
 SKZENABLE	.EQU	FALSE		; ENABLE SERGEY'S Z80-512K FEATURES
@@ -174,6 +177,8 @@ PPPSDENABLE	.EQU	TRUE		; PPP: ENABLE PPP DRIVER SD CARD SUPPORT
 PPPSDTRACE	.EQU	1		; PPP: SD CARD TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
 PPPCONENABLE	.EQU	TRUE		; PPP: ENABLE PPP DRIVER VIDEO/KBD SUPPORT
 ;
+ESPENABLE	.EQU	FALSE		; ESP: ENABLE ESP32 IO BOARD DRIVER (ESP.ASM)
+;
 HDSKENABLE	.EQU	FALSE		; HDSK: ENABLE SIMH HDSK DISK DRIVER (HDSK.ASM)
 ;
 PIOENABLE	.EQU	FALSE		; PIO: ENABLE ZILOG PIO DRIVER (PIO.ASM)
@@ -199,7 +204,7 @@ SPKENABLE	.EQU	FALSE		; SPK: ENABLE RTC LATCH IOBIT SOUND DRIVER (SPK.ASM)
 ;
 DMAENABLE	.EQU	FALSE		; DMA: ENABLE DMA DRIVER (DMA.ASM)
 DMABASE		.EQU	$E0		; DMA: DMA BASE ADDRESS
-DMAMODE		.EQU	DMAMODE_NONE	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC)
+DMAMODE		.EQU	DMAMODE_NONE	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC|DUO)
 ;
 YM2612ENABLE	.EQU	FALSE		; YM2612: ENABLE YM2612 DRIVER (MUTE STUB)
 VGMBASE		.EQU	$C0		; YM2612: BASE ADDRESS FOR VGM BOARD (YM2612/SN76469s/CTC)

Source/HBIOS/cfg_zeta2.asm

@@ -15,7 +15,7 @@
 ;
 #INCLUDE "hbios.inc"
 ;
-PLATFORM	.EQU	PLT_ZETA2	; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO]
+PLATFORM	.EQU	PLT_ZETA2	; PLT_[SBC|ZETA|ZETA2|N8|MK4|UNA|RCZ80|RCZ180|EZZ80|SCZ180|DYNO|RCZ280|MBC|RPH|Z80RETRO|S100|DUO]
 CPUFAM		.EQU	CPU_Z80		; CPU FAMILY: CPU_[Z80|Z180|Z280]
 BIOS		.EQU	BIOS_WBW	; HARDWARE BIOS: BIOS_[WBW|UNA]
 BATCOND		.EQU	FALSE		; ENABLE LOW BATTERY WARNING MESSAGE
@@ -57,6 +57,9 @@ CTCPRECH	.EQU	0		; PRESCALE CHANNEL (0-3)
 CTCTIMCH	.EQU	1		; TIMER CHANNEL (0-3)
 CTCOSC		.EQU	921600		; CTC CLOCK FREQUENCY
 ;
+PCFENABLE	.EQU	FALSE		; ENABLE PCF8584 I2C CONTROLLER
+PCFBASE		.EQU	$F0		; PCF8584 BASE I/O ADDRESS
+;
 EIPCENABLE	.EQU	FALSE		; EIPC: ENABLE Z80 EIPC (Z84C15) INITIALIZATION
 ;
 SKZENABLE	.EQU	FALSE		; ENABLE SERGEY'S Z80-512K FEATURES
@@ -118,7 +121,7 @@ UARTOSC		.EQU	1843200		; UART: OSC FREQUENCY IN MHZ
 UARTINTS	.EQU	FALSE		; UART: INCLUDE INTERRUPT SUPPORT UNDER IM1/2/3
 UARTCFG		.EQU	DEFSERCFG	; UART: LINE CONFIG FOR UART PORTS
 UARTCASSPD	.EQU	SER_300_8N1	; UART: ECB CASSETTE UART DEFAULT SPEED
-UARTSBC		.EQU	TRUE		; UART: AUTO-DETECT SBC/ZETA ONBOARD UART
+UARTSBC		.EQU	TRUE		; UART: AUTO-DETECT SBC/ZETA/DUO ONBOARD UART
 UARTSBCFORCE	.EQU	FALSE		; UART: FORCE DETECTION OF SBC UART (FOR SIMH)
 UARTCAS		.EQU	FALSE		; UART: AUTO-DETECT ECB CASSETTE UART
 UARTMFP		.EQU	FALSE		; UART: AUTO-DETECT MF/PIC UART
@@ -185,6 +188,8 @@ PPPSDENABLE	.EQU	TRUE		; PPP: ENABLE PPP DRIVER SD CARD SUPPORT
 PPPSDTRACE	.EQU	1		; PPP: SD CARD TRACE LEVEL (0=NO,1=ERRORS,2=ALL)
 PPPCONENABLE	.EQU	TRUE		; PPP: ENABLE PPP DRIVER VIDEO/KBD SUPPORT
 ;
+ESPENABLE	.EQU	FALSE		; ESP: ENABLE ESP32 IO BOARD DRIVER (ESP.ASM)
+;
 HDSKENABLE	.EQU	FALSE		; HDSK: ENABLE SIMH HDSK DISK DRIVER (HDSK.ASM)
 ;
 PIOENABLE	.EQU	FALSE		; PIO: ENABLE ZILOG PIO DRIVER (PIO.ASM)
@@ -210,7 +215,7 @@ SPKENABLE	.EQU	FALSE		; SPK: ENABLE RTC LATCH IOBIT SOUND DRIVER (SPK.ASM)
 ;
 DMAENABLE	.EQU	FALSE		; DMA: ENABLE DMA DRIVER (DMA.ASM)
 DMABASE		.EQU	$E0		; DMA: DMA BASE ADDRESS
-DMAMODE		.EQU	DMAMODE_NONE	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC)
+DMAMODE		.EQU	DMAMODE_NONE	; DMA: DMA MODE (NONE|ECB|Z180|Z280|RC|MBC|DUO)
 ;
 YM2612ENABLE	.EQU	FALSE		; YM2612: ENABLE YM2612 DRIVER (MUTE STUB)
 VGMBASE		.EQU	$C0		; YM2612: BASE ADDRESS FOR VGM BOARD (YM2612/SN76469s/CTC)

Source/HBIOS/dma.asm

@@ -2,6 +2,18 @@
 ; Z80 DMA DRIVER
 ;==================================================================================================
 ;
+#IF ((DMAMODE == DMAMODE_ECB) | (DMAMODE == DMAMODE_MBC))
+DMA_IO		.EQU	DMABASE
+DMA_CTL		.EQU	DMABASE + 1
+DMA_USEHALF	.EQU	TRUE
+#ENDIF
+;
+#IF (DMAMODE == DMAMODE_DUO)
+DMA_IO		.EQU	DMABASE
+DMA_CTL		.EQU	DMABASE + 3
+DMA_USEHALF	.EQU	FALSE
+#ENDIF
+;
 DMA_CONTINUOUS			.equ 	%10111101	; + Pulse
 DMA_BYTE			.equ 	%10011101	; + Pulse
 DMA_BURST 			.equ	%11011101	; + Pulse
@@ -30,21 +42,18 @@ DMA_FORCE			.EQU	0
 ; DMA CLOCK SPEED CONTROL - OPTION TO SWITCH TO HALF CLOCK SPEED. MOST SYSTEMS NEED THIS.
 ;==================================================================================================
 ;
-DMA_USEHALF			.equ	TRUE	; USE CLOCK DIVIDER
-;
-#IF (DMA_USEHALF & (DMAMODE=DMAMODE_MBC))
-#DEFINE DMAIOHALF LD A,(HB_RTCVAL) \ AND ~%00001000 \ OUT (RTCIO),A
-#DEFINE DMAIOFULL PUSH AF \ LD A,(HB_RTCVAL) \ OUT (RTCIO),A \ POP AF
-#ENDIF
-;
-#IF (DMA_USEHALF & (DMAMODE=DMAMODE_ECB))
-#DEFINE DMAIOHALF LD A,(HB_RTCVAL) \ OR %00001000 \ OUT (RTCIO),A 
-#DEFINE DMAIOFULL PUSH AF \ LD A,(HB_RTCVAL) \ OUT (RTCIO),A \ POP AF
-#ENDIF
-;
-#IF (!DMA_USEHALF)
-#DEFINE DMAIOHALF \;
-#DEFINE DMAIOFULL \;
+#IF (DMA_USEHALF)
+  #IF (DMAMODE=DMAMODE_MBC)
+    #DEFINE DMAIOHALF LD A,(HB_RTCVAL) \ AND ~%00001000 \ OUT (RTCIO),A
+    #DEFINE DMAIOFULL PUSH AF \ LD A,(HB_RTCVAL) \ OUT (RTCIO),A \ POP AF
+  #ENDIF
+  #IF (DMAMODE=DMAMODE_ECB)
+    #DEFINE DMAIOHALF LD A,(HB_RTCVAL) \ OR %00001000 \ OUT (RTCIO),A 
+    #DEFINE DMAIOFULL PUSH AF \ LD A,(HB_RTCVAL) \ OUT (RTCIO),A \ POP AF
+  #ENDIF
+#ELSE
+  #DEFINE DMAIOHALF \;
+  #DEFINE DMAIOFULL \;
 #ENDIF
 ;
 ;==================================================================================================
@@ -54,11 +63,11 @@ DMA_USEHALF			.equ	TRUE	; USE CLOCK DIVIDER
 DMA_INIT:
 	CALL	NEWLINE
 	PRTS("DMA: IO=0x$")		; announce
-	LD	A, DMABASE
+	LD	A, DMA_IO
 	CALL	PRTHEXBYTE
 ;
 	LD	A,DMA_FORCE
-	out	(DMABASE+1),a		; force ready off
+	out	(DMA_CTL),a		; force ready off
 ;
 	DMAIOHALF
 ;
@@ -67,7 +76,7 @@ DMA_INIT:
 ;
 	ld	hl,DMACode		; program the
 	ld	b,DMACode_Len		; dma command
-	ld	c,DMABASE		; block
+	ld	c,DMA_IO		; block
 ;
 	di
 	otir				; load dma
@@ -103,31 +112,31 @@ DMA_FAIL_FLAG:
 ;==================================================================================================
 ;
 DMAProbe:
-	ld	a,DMA_RESET	
-	out	(DMABASE),a
-	ld	a,%01111101 		; R0-Transfer mode, A -> B, start address follows
-	out	(DMABASE),a
+	ld	a,DMA_RESET		; $C3
+	out	(DMA_IO),a
+	ld	a,%01111101 		; R0-Transfer mode, A -> B, start address follows $7D
+	out	(DMA_IO),a
 	ld	a,$cc
-	out	(DMABASE),a
+	out	(DMA_IO),a
 	ld	a,$dd
-	out	(DMABASE),a
+	out	(DMA_IO),a
 	ld	a,$e5
-	out	(DMABASE),a
+	out	(DMA_IO),a
 	ld	a,$1a
-	out	(DMABASE),a
-	ld	a,DMA_LOAD
-	out	(DMABASE),a
+	out	(DMA_IO),a
+	ld	a,DMA_LOAD		; $CF
+	out	(DMA_IO),a
 ;
-	ld	a,DMA_READ_MASK_FOLLOWS	; set up
-	out	(DMABASE),a		; for 
-	ld	a,%00011000		; register
-	out	(DMABASE),a		; read
-	ld	a,DMA_START_READ_SEQUENCE
-	out	(DMABASE),a
+	ld	a,DMA_READ_MASK_FOLLOWS	; set up ; $BB
+	out	(DMA_IO),a		; for 
+	ld	a,%00011000		; register $18
+	out	(DMA_IO),a		; read
+	ld	a,DMA_START_READ_SEQUENCE	; $A7
+	out	(DMA_IO),a
 ;
-	in	a,(DMABASE)		; read in 
+	in	a,(DMA_IO)		; read in 
 	ld	c,a			; address
-	in	a,(DMABASE)
+	in	a,(DMA_IO)
 	ld	b,a
 ;
 	xor	a			; is it
@@ -165,7 +174,7 @@ DMALDIR:
 ;
 	ld	hl,DMACopy		; program the
 	ld	b,DMACopy_Len		; dma command
-	ld	c,DMABASE		; block
+	ld	c,DMA_IO		; block
 ;
 	DMAIOHALF
 ;
@@ -174,8 +183,8 @@ DMALDIR:
 	ei
 ;
 	ld	a,DMA_READ_STATUS_BYTE	; check status
-	out	(DMABASE),a		; of transfer
-	in	a,(DMABASE)		; set non-zero
+	out	(DMA_IO),a		; of transfer
+	in	a,(DMA_IO)		; set non-zero
 	and	%00111011		; if failed
 	sub	%00011011
 
@@ -211,7 +220,7 @@ DMAOTIR:
 ;
 	ld	hl,DMAOutCode		; program the
 	ld	b,DMAOut_Len		; dma command
-	ld	c,DMABASE		; block
+	ld	c,DMA_IO		; block
 ;
 	DMAIOHALF
 
@@ -220,8 +229,8 @@ DMAOTIR:
 	ei
 ;
 	ld	a,DMA_READ_STATUS_BYTE	; check status
-	out	(DMABASE),a		; of transfer
-	in	a,(DMABASE)		; set non-zero
+	out	(DMA_IO),a		; of transfer
+	in	a,(DMA_IO)		; set non-zero
 	and	%00111011		; if failed
 	sub	%00011011
 ;
@@ -262,7 +271,7 @@ DMAINIR:
 ;
 	ld	hl,DMAInCode		; program the
 	ld	b,DMAIn_Len		; dma command
-	ld	c,DMABASE		; block
+	ld	c,DMA_IO		; block
 ;
 	DMAIOHALF
 ;
@@ -271,8 +280,8 @@ DMAINIR:
 	ei
 ;
 	ld	a,DMA_READ_STATUS_BYTE	; check status
-	out	(DMABASE),a		; of transfer
-	in	a,(DMABASE)		; set non-zero
+	out	(DMA_IO),a		; of transfer
+	in	a,(DMA_IO)		; set non-zero
 	and	%00111011		; if failed
 	sub	%00011011
 ;
@@ -306,31 +315,31 @@ DMAIn_Len 	.equ	$-DMAInCode
 ;
 DMARegDump:
 	ld	a,DMA_READ_MASK_FOLLOWS
-	out	(DMABASE),a
+	out	(DMA_IO),a
 	ld	a,%01111110
-	out	(DMABASE),a
+	out	(DMA_IO),a
 	ld	a,DMA_START_READ_SEQUENCE
-	out	(DMABASE),a
+	out	(DMA_IO),a
 ;
-	in	a,(DMABASE)
+	in	a,(DMA_IO)
 	ld	c,a
-	in	a,(DMABASE)
+	in	a,(DMA_IO)
 	ld	b,a
 	call	PRTHEXWORD
 	ld	a,':'
 	call	COUT
 ;
-	in	a,(DMABASE)
+	in	a,(DMA_IO)
 	ld	c,a
-	in	a,(DMABASE)
+	in	a,(DMA_IO)
 	ld	b,a
 	call	PRTHEXWORD
 	ld	a,':'
 	call	COUT
 ;
-	in	a,(DMABASE)
+	in	a,(DMA_IO)
 	ld	c,a
-	in	a,(DMABASE)
+	in	a,(DMA_IO)
 	ld	b,a
 	call	PRTHEXWORD
 ;

Source/HBIOS/ds7rtc.asm

@@ -5,6 +5,11 @@
 ;
 ;==================================================================================================
 ;
+#IF (!PCFENABLE)
+	.ECHO	"*** DS7 DRIVER REQUIRES PCF DRIVER.  SET PCFENABLE!!!\n"
+	!!!	; FORCE AN ASSEMBLY ERROR
+#ENDIF
+;
 DS7_OUT		.EQU	10000000B		; SELECT SQUARE WAVE FUNCTION
 DS7_SQWE	.EQU	00010000B		; ENABLE SQUARE WAVE OUTPUT
 DS7_RATE	.EQU	00000000B		; SET 1HZ OUPUT
@@ -31,6 +36,7 @@ DS7_CTL		.EQU	(DS7_OUT | DS7_SQWE | DS7_RATE)
 ; 12HR MODE IS CURRENTLY ASSUMED
 ;
 DS7RTC_INIT:
+	CALL	NEWLINE			; Formatting
 	PRTS("DS1307: $")		; ANNOUNCE DRIVER
 ;
 	LD	A,(PCF_FAIL_FLAG)	; CHECK IF THE

Source/HBIOS/esp.asm

@@ -0,0 +1,608 @@
+;
+;==================================================================================================
+; ESP32 DRIVER
+;
+; SUPPORTS DAN WERNER'S NHYODYNE (MBC) ESP32 MODULE
+; https://github.com/danwerner21/nhyodyne/tree/main/Z80ESP
+;==================================================================================================
+;
+; TODO:
+;
+ESP_IOBASE	.EQU	$9C
+ESP_0_IO	.EQU	ESP_IOBASE + 0
+ESP_1_IO	.EQU	ESP_IOBASE + 1
+ESP_STAT	.EQU	ESP_IOBASE + 2
+;
+; ESP  STATUS PORT
+; MSB XX S S S S S S
+;        | | | | | +- ESP0 READY OUTPUT
+;        | | | | +--- ESP0 BUSY
+;        | | | +----- ESP0 SPARE
+;        | | +------- ESP1 READY OUTPUT
+;        | +--------- ESP1 BUSY
+;        +----------- ESP1 SPARE
+;
+ESP_0_RDY	.EQU	%00000001
+ESP_0_BUSY	.EQU	%00000010
+ESP_0_SPARE	.EQU	%00000100
+ESP_1_RDY	.EQU	%00001000
+ESP_1_BUSY	.EQU	%00010000
+ESP_1_SPARE	.EQU	%00100000
+;
+; COMMAND OPCODES
+;
+ESP_CMD_NOP	.EQU	0		; NO OP
+ESP_0_CMD_COUT	.EQU	1		; CHAR OUT
+ESP_0_CMD_SOUT	.EQU	2		; STRING OUT
+ESP_0_CMD_KIN	.EQU	3		; KEY IN
+ESP_0_CMD_KST	.EQU	4		; KBD BUF STATUS
+ESP_CMD_SBAUD	.EQU	6		; SET SERIAL BAUD RATE
+ESP_CMD_SMODE	.EQU	7		; SET SERIAL LINE MODE
+ESP_CMD_SOUT	.EQU	8		; SERIAL BYTE OUT
+ESP_CMD_SIN	.EQU	10		; SERIAL BYTE IN
+ESP_CMD_SST	.EQU	11		; SERIAL INPUT STATUS
+ESP_CMD_DISC	.EQU	$FF		; DISCOVER
+;
+; ESP CONFIG TABLE ENTRY OFFSETS
+;
+ESP_CFG_DEV	.EQU	0		; DEVICE NUMBER
+ESP_CFG_IO	.EQU	1		; ESP I/O PORT
+ESP_CFG_ST	.EQU	2		; ESP STATUS PORT
+ESP_CFG_RDYMSK	.EQU	3		; ESP READY MASK
+ESP_CFG_BSYMSK	.EQU	4		; ESP BUSY MASK
+;
+; GLOBAL ESP INITIALIZATION
+;
+ESP_INIT:
+;
+	CALL	NEWLINE			; FORMATTING
+	PRTS("ESP: IO=0x$")
+	LD	A,ESP_IOBASE
+	CALL	PRTHEXBYTE
+;
+	XOR	A			; ZERO ACCUM
+	LD	(ESP_PRES),A		; CLEAR MODULE PRESENCE BITS
+;
+	; DETECT FIRST ESP32 MODULE
+	PRTS(" A=$")
+	LD	IY,ESPSER0_CFG
+	CALL	ESP_DETECT
+	JR	Z,ESP_INIT1		; FOUND
+	LD	DE,ESP_STR_NOHW
+	CALL	WRITESTR
+	JR	ESP_INIT2
+;
+ESP_INIT1:
+	CALL	ESP_PRTVER
+	
+	LD	A,(ESP_PRES)
+	SET	0,A
+	LD	(ESP_PRES),A
+	
+;
+ESP_INIT2:
+	; DETECT SECOND ESP32 MODULE
+	PRTS(" B=$")
+	LD	IY,ESPSER1_CFG
+	CALL	ESP_DETECT
+	JR	Z,ESP_INIT3		; FOUND
+	LD	DE,ESP_STR_NOHW
+	CALL	WRITESTR
+	JR	ESP_INIT4
+;
+ESP_INIT3:
+	CALL	ESP_PRTVER
+
+	LD	A,(ESP_PRES)
+	SET	1,A
+	LD	(ESP_PRES),A
+
+;
+ESP_INIT4:
+	; INITIALIZE FIRST MODULE CHILD DRIVERS
+	LD	A,(ESP_PRES)
+	BIT	0,A
+	JR	Z,ESP_INIT5
+	LD	IY,ESPSER0_CFG
+	CALL	ESPSER_INIT		; SERIAL INITIALIZATION
+	LD	IY,ESPCON0_CFG
+	CALL	ESPCON_INIT		; CONSOLE INITIALIZATION
+;
+ESP_INIT5:
+	; INITIALIZE SECOND MODULE CHILD DRIVERS
+	LD	A,(ESP_PRES)
+	BIT	1,A
+	JR	Z,ESP_INIT6
+	LD	IY,ESPSER1_CFG
+	CALL	ESPSER_INIT		; SERIAL INITIALIZATION
+;
+ESP_INIT6:
+	RET
+;
+;==================================================================================================
+; ESP32 INTERFACE FUNCTIONS
+;==================================================================================================
+;
+ESP_DETECT:
+	CALL	ESP_CLR			; CLEAR ANY PENDING DATA
+	RET	NZ			; IF FAILS, ASSUME NOT PRESENT
+	LD	A,ESP_CMD_DISC		; DISCOVER COMMAND
+	CALL	ESP_OUT			; SEND IT
+;
+	; LOOK FOR SIGNATURE STARTING WITH "ESP"
+	CALL	ESP_INWAIT		; ATTEMPT TO GET CHAR
+	CP	'E'
+	RET	NZ
+	CALL	ESP_INWAIT		; ATTEMPT TO GET CHAR
+	CP	'S'
+	RET	NZ
+	CALL	ESP_INWAIT		; ATTEMPT TO GET CHAR
+	CP	'P'
+	RET
+;
+; CLEAR ESP INPUT QUEUE
+;
+ESP_CLR:
+	LD	B,0			; MAX CHARS TO READ
+ESP_CLR0:
+	CALL	ESP_WTNBSY		; WAIT TILL NOT BUSY
+	RET	NZ			; BAIL OUT IF TIMEOUT
+	IN	A,(ESP_STAT)		; GET STATUS
+	AND	(IY+ESP_CFG_RDYMSK)	; IS THERE MORE DATA?
+	RET	Z			; IF NOT, DONE
+	LD	C,(IY+ESP_CFG_IO)	; ESP I/O PORT
+	IN	A,(C)			; GET BYTE
+	DJNZ	ESP_CLR0		; LOOP TILL DONE
+	OR	$FF			; SIGNAL FAILURE
+	RET
+;
+; PRINT ESP VERSION STRING TO CONSOLE
+;
+ESP_PRTVER:
+	CALL	ESP_CLR			; CLEAR ANY PENDING DATA
+	LD	A,ESP_CMD_DISC		; DISCOVER COMMAND
+	CALL	ESP_OUT			; SEND IT
+	CALL	ESP_WTRDY		; WAIT FOR READY TO OUTPUT
+ESP_PRTVER1:
+	CALL	ESP_WTNBSY		; WAIT TILL NOT BUSY
+	IN	A,(ESP_STAT)		; GET STATUS
+	;AND	ESP_0_RDY		; ISOLATE OUTPUT READY BIT
+	AND	(IY+ESP_CFG_RDYMSK)	; ISOLATE OUTPUT READY BIT
+	RET	Z			; DONE IF NOTHING READY
+	CALL	ESP_IN			; GET NEXT CHAR
+	CALL	COUT			; PRINT CHAR
+	JR	ESP_PRTVER1		; LOOP
+;
+; SEND BYTE TO ESP
+;
+ESP_OUT:
+	PUSH	AF			; SAVE VALUE
+	CALL	ESP_WTNBSY		; WAIT TILL NOT BUSY
+	POP	AF			; POP VALUE
+	LD	C,(IY+ESP_CFG_IO)	; ESP I/O PORT
+	OUT	(C),A			; SEND BYTE
+	JR	ESP_WTBSY		; RETURN VIA WTBSY
+;
+; GET BYTE FROM ESP (BLOCKING)
+;
+ESP_INWAIT:
+	CALL	ESP_WTNBSY		; WAIT TILL NOT BUSY
+	CALL	ESP_WTRDY		; WAIT FOR READY TO OUTPUT
+	; FALL THRU (GET CHAR VIA ESP_IN)
+;
+; GET BYTE FROM ESP (NON BLOCKING)
+;
+ESP_IN:
+	CALL	ESP_WTNBSY		; WAIT TILL NOT BUSY
+ESP_IN1:	
+	LD	C,(IY+ESP_CFG_IO)	; ESP I/O PORT
+	IN	A,(C)			; GET BYTE
+	PUSH	AF			; SAVE VALUE
+	CALL	ESP_WTBSY		; WAIT TILL BUSY
+	POP	AF			; RESTORE VALUE
+	RET				; AND RETURN
+;
+; WAIT FOR ESP TO BE NOT BUSY
+;
+ESP_WTNBSY:
+	LD	B,0			; MAX TRIES
+ESP_WTNBSY1:	
+	LD	C,(IY+ESP_CFG_ST)	; ESP STATUS PORT
+	IN	A,(C)			; GET STATUS
+	AND	(IY+ESP_CFG_BSYMSK)	; IS ESP BUSY?
+	RET	Z			; RETURN IF NOT BUSY
+	DJNZ	ESP_WTNBSY1		; ELSE LOOP
+	OR	$FF			; SIGNAL TIMEOUT
+	RET				; AND RETURN
+;
+; WAIT FOR ESP TO BE BUSY
+;
+ESP_WTBSY:
+	LD	B,20			; MAX TRIES
+ESP_WTBSY1:	
+	LD	C,(IY+ESP_CFG_ST)	; ESP STATUS PORT
+	IN	A,(C)			; GET STATUS
+	XOR	$FF			; INVERT SO 0=BUSY
+	AND	(IY+ESP_CFG_BSYMSK)	; IS ESP BUSY?
+	RET	Z			; RETURN IF BUSY
+	DJNZ	ESP_WTBSY1		; ELSE LOOP
+	OR	$FF			; SIGNAL TIMEOUT
+	RET				; AND RETURN
+;
+; WAIT FOR ESP TO BE READY TO OUTPUT
+;
+ESP_WTRDY:
+	LD	B,0			; MAX TRIES
+ESP_WTRDY1:
+	LD	C,(IY+ESP_CFG_ST)	; ESP STATUS PORT
+	IN	A,(C)			; GET STATUS
+	XOR	$FF			; INVERT SO 0=READY
+	AND	(IY+ESP_CFG_RDYMSK)	; IS ESP READY TO OUTPUT
+	RET	Z			; RETURN IF READY
+	DJNZ	ESP_WTRDY1		; ELSE LOOP
+	OR	$FF			; SIGNAL TIMEOUT
+	RET				; AND RETURN
+;
+;
+;
+ESP_PRES		.DB	0	; MODULE PRESENCE BITS
+;
+ESP_STR_NOHW		.TEXT	"NOT PRESENT$"
+ESP_STR_UPGRADE		.TEXT	"!!!UPGRADE REQUIRED!!!$"
+;
+;==================================================================================================
+; ESP32 CONSOLE DRIVER
+;==================================================================================================
+;
+;
+ESPCON_ROWS	.EQU	25		; VGA DISPLAY ROWS
+ESPCON_COLS	.EQU	80		; VGA DISPLAY COLS
+;
+;
+;
+ESPCON_INIT:
+	LD	A,(ESPCON_DEVCNT)	; GET ESPCON PHYSICAL DEVICE COUNT
+	LD	(IY+ESP_CFG_DEV),A	; SAVE PHYSICAL UNIT NUMBER
+	INC	A			; UPDATE COUNT
+	LD	(ESPCON_DEVCNT),A	; SAVE COUNT
+;
+; ADD OURSELVES TO CIO DISPATCH TABLE
+;
+	LD	BC,ESPCON_FNTBL		; BC := FUNCTION TABLE ADDRESS
+	PUSH	IY			; COPY CONFIG ENTRY PTR
+	POP	DE			; ... TO DE
+	CALL	CIO_ADDENT		; ADD ENTRY, A := UNIT ASSIGNED
+	LD	(HCB + HCB_CRTDEV),A	; SET OURSELVES AS THE CRT DEVICE
+;
+; ANNOUNCE OURSLEVES
+;
+	CALL	NEWLINE			; FORMATTING
+	PRTS("ESPCON$")			; NAME
+	LD	A,(IY+ESP_CFG_DEV)	; GET PHYSICAL UNIT NUMBER
+	CALL	PRTDECB			; UNIT STILL IN A FROM ABOVE
+	CALL	PC_COLON		; FORMATTING
+;
+	; DISPLAY CONSOLE DIMENSIONS
+	CALL	PC_SPACE
+	LD	A,ESPCON_COLS
+	CALL	PRTDECB
+	LD	A,'X'
+	CALL	COUT
+	LD	A,ESPCON_ROWS
+	CALL	PRTDECB
+	CALL	PRTSTRD
+	.TEXT	" TEXT (ANSI)$"
+;
+	XOR	A			; SIGNAL SUCCESS
+	RET
+;
+; DRIVER FUNCTION TABLE
+;
+ESPCON_FNTBL:
+	.DW	ESPCON_IN
+	.DW	ESPCON_OUT
+	.DW	ESPCON_IST
+	.DW	ESPCON_OST
+	.DW	ESPCON_INITDEV
+	.DW	ESPCON_QUERY
+	.DW	ESPCON_DEVICE
+#IF (($ - ESPCON_FNTBL) != (CIO_FNCNT * 2))
+	.ECHO	"*** INVALID ESPCON FUNCTION TABLE ***\n"
+#ENDIF
+;
+;
+;
+ESPCON_IN:
+	CALL	ESPCON_IST
+	JR	Z,ESPCON_IN
+	LD	A,ESP_0_CMD_KIN		; KBD INPUT
+	CALL	ESP_OUT			; SEND CMD OPCODE
+	CALL	ESP_INWAIT		; GET KEY
+	LD	E,A			; PUT IN E
+	XOR	A			; SIGNAL SUCCES
+	RET				; AND DONE
+;
+;
+;
+ESPCON_IST:
+	LD	A,ESP_0_CMD_KST		; KBD BUF STATUS
+	CALL	ESP_OUT			; SEND CMD OPCODE
+	CALL	ESP_INWAIT		; GET BUF SIZE
+	OR	A			; SET FLAGS
+	RET	Z			; AND DONE
+	OR	A
+	RET
+;
+;
+;
+ESPCON_OUT:
+	PUSH	DE
+	LD	A,ESP_0_CMD_COUT	; CHAR OUT OPCODE
+	CALL	ESP_OUT
+	POP	DE
+	LD	A,E
+	CALL	ESP_OUT			; SEND CHAR VALUE
+	XOR	A			; SIGNAL SUCCESS
+	RET
+;
+;
+;
+ESPCON_OST:
+	XOR	A			; ZERO ACCUM
+	INC	A			; ACCUM := 1 TO SIGNAL 1 BUFFER POSITION
+	RET				; RETURN
+;
+;
+;
+ESPCON_INITDEV:
+	SYSCHKERR(ERR_NOTIMPL)
+	RET
+;
+;
+;
+ESPCON_QUERY:
+	LD	DE,0
+	LD	HL,0
+	XOR	A
+	RET
+;
+;
+;
+ESPCON_DEVICE:
+	LD	D,CIODEV_ESPCON		; D := DEVICE TYPE
+	LD	E,(IY+ESP_CFG_DEV)	; E := DEVICE NUM
+	LD	C,$BF			; C := DEVICE TYPE, 0xBF IS PROP TERM
+	LD	H,0			; H := 0, DRIVER HAS NO MODES
+	LD	L,(IY+ESP_CFG_IO)	; L := BASE I/O ADDRESS
+	XOR	A			; SIGNAL SUCCESS
+	RET
+;
+; ESPCON CONFIGURATION
+;
+ESPCON_CFG:
+ESPCON0_CFG:
+	.DB	0				; DEVICE NUMBER (UPDATED DURING INIT)
+	.DB	ESP_0_IO			; ESP DATA PORT
+	.DB	ESP_STAT			; ESP STATUS PORT
+	.DB	ESP_0_RDY			; ESP READY BIT MASK
+	.DB	ESP_0_BUSY			; ESP BUSY BIT MASK
+;
+;
+;
+ESPCON_DEVCNT	.DB	0			; ESPCON DEVICES COUNT
+;
+;==================================================================================================
+; ESP32 SERIAL DRIVER
+;==================================================================================================
+;
+ESPSER_LINECFG		.EQU	SER_115200_8N1
+;
+ESPSER_CFG_LINE		.EQU	5
+;
+;
+;
+ESPSER_INIT:
+	LD	A,(ESPSER_DEVCNT)	; GET ESPSER PHYSICAL DEVICE COUNT
+	LD	(IY+ESP_CFG_DEV),A	; SAVE PHYSICAL UNIT NUMBER
+	INC	A			; UPDATE COUNT
+	LD	(ESPSER_DEVCNT),A	; SAVE COUNT
+;
+; ADD OURSELVES TO CIO DISPATCH TABLE
+;
+	LD	BC,ESPSER_FNTBL		; BC := FUNCTION TABLE ADDRESS
+	PUSH	IY			; COPY CONFIG ENTRY PTR
+	POP	DE			; ... TO DE
+	CALL	CIO_ADDENT		; ADD ENTRY, A := UNIT ASSIGNED
+;
+; ANNOUNCE OURSLEVES
+;
+	CALL	NEWLINE			; FORMATTING
+	PRTS("ESPSER$")			; NAME
+	LD	A,(IY+ESP_CFG_DEV)	; GET PHYSICAL UNIT NUMBER
+	CALL	PRTDECB			; UNIT STILL IN A FROM ABOVE
+	CALL	PC_COLON		; FORMATTING
+;
+	PRTS(" MODE=$")				; FORMATTING
+	LD	E,(IY+ESPSER_CFG_LINE+0)	; FIRST CONFIG BYTE TO E
+	LD	D,(IY+ESPSER_CFG_LINE+1)	; SECOND CONFIG BYTE TO D
+	CALL	PS_PRTSC0			; PRINT CONFIG
+;
+; TODO: PRINT SERIAL CONFIG
+;
+	XOR	A			; SIGNAL SUCCESS
+	RET
+;
+; DRIVER FUNCTION TABLE
+;
+ESPSER_FNTBL:
+	.DW	ESPSER_IN
+	.DW	ESPSER_OUT
+	.DW	ESPSER_IST
+	.DW	ESPSER_OST
+	.DW	ESPSER_INITDEV
+	.DW	ESPSER_QUERY
+	.DW	ESPSER_DEVICE
+#IF (($ - ESPSER_FNTBL) != (CIO_FNCNT * 2))
+	.ECHO	"*** INVALID ESPSER FUNCTION TABLE ***\n"
+#ENDIF
+;
+;
+;
+ESPSER_IN:
+	CALL	ESPSER_IST
+	JR	Z,ESPSER_IN
+	LD	A,ESP_CMD_SIN		; SERIAL INPUT
+	CALL	ESP_OUT			; SEND CMD OPCODE
+	CALL	ESP_INWAIT		; GET KEY
+	LD	E,A			; PUT IN E
+	XOR	A			; SIGNAL SUCCES
+	RET				; AND DONE
+;
+;
+;
+ESPSER_IST:
+	LD	A,ESP_CMD_SST		; SERIAL STATUS
+	CALL	ESP_OUT			; SEND CMD OPCODE
+	CALL	ESP_INWAIT		; GET BUF SIZE
+	OR	A			; SET FLAGS
+	RET	Z			; AND DONE
+	OR	A
+	RET
+;
+;
+;
+ESPSER_OUT:
+	PUSH	DE
+	LD	A,ESP_CMD_SOUT		; CHAR OUT OPCODE
+	CALL	ESP_OUT
+	POP	DE
+	LD	A,E
+	CALL	ESP_OUT			; SEND CHAR VALUE
+	XOR	A			; SIGNAL SUCCESS
+	RET
+;
+;
+;
+ESPSER_OST:
+	XOR	A			; ZERO ACCUM
+	INC	A			; ACCUM := 1 TO SIGNAL 1 BUFFER POSITION
+	RET				; RETURN
+;
+;
+;
+ESPSER_INITDEV:
+	PUSH	DE			; SAVE INCOMING CONFIG WORD
+;
+	; XLATE NEW LINE MODE INTO C
+	LD	A,E
+	AND	%00111111		; ISOLATE MODE BITS
+	LD	C,0			; 8N1 = 0
+	CP	SER_DATA8 | SER_PARNONE | SER_STOP1
+	JR	Z,ESPSER_INITDEV1	; IF MATCH, DO IT
+	INC	C			; 8E1 = 1
+	CP	SER_DATA8 | SER_PAREVEN | SER_STOP1
+	JR	Z,ESPSER_INITDEV1	; IF MATCH, DO IT
+	INC	C			; 8O1 = 2
+	CP	SER_DATA8 | SER_PARODD | SER_STOP1
+	JR	Z,ESPSER_INITDEV1	; IF MATCH, DO IT
+	INC	C			; 7N1 = 3
+	CP	SER_DATA7 | SER_PARNONE | SER_STOP1
+	JR	Z,ESPSER_INITDEV1	; IF MATCH, DO IT
+	INC	C			; 7E1 = 4
+	CP	SER_DATA7 | SER_PAREVEN | SER_STOP1
+	JR	Z,ESPSER_INITDEV1	; IF MATCH, DO IT
+	INC	C			; 7O1 = 5
+	CP	SER_DATA7 | SER_PARODD | SER_STOP1
+	JR	Z,ESPSER_INITDEV1	; IF MATCH, DO IT
+	JR	NZ,ESPSER_INITDEV_ERR	; ELSE FAIL
+;
+ESPSER_INITDEV1:
+	; DECODE NEW BAUD RATE INTO DE:HL
+	LD	H,0
+	LD	A,D
+	AND	%00011111
+	LD	L,A
+	LD	DE,75
+	PUSH	BC			; SAVE NEW LINE MODE
+	CALL	DECODE			; DE:HL IS DECODED BAUD RATE
+	POP	BC			; RESTORE NEW LINE MODE
+	JR	NZ,ESPSER_INITDEV_ERR	; IF ERROR, FAIL
+;
+	; PROGRAM NEW LINE MODE
+	PUSH	BC
+	LD	A,ESP_CMD_SMODE
+	CALL	ESP_OUT
+	POP	BC
+	LD	A,C
+	;CALL	PRTHEXBYTE
+	;CALL	LDELAY
+	CALL	ESP_OUT
+;
+	; PROGRAM NEW BAUD RATE
+	LD	A,ESP_CMD_SBAUD
+	CALL	ESP_OUT
+	LD	A,L
+	CALL	ESP_OUT
+	LD	A,H
+	CALL	ESP_OUT
+	LD	A,E
+	CALL	ESP_OUT
+	LD	A,D
+	CALL	ESP_OUT
+;
+	; SAVE NEW LINE CONFIG WORD
+	POP	DE				; RESTORE CONFIG WORD
+	LD	(IY+ESPSER_CFG_LINE+0),E	; FIRST CONFIG BYTE
+	LD	(IY+ESPSER_CFG_LINE+1),D	; SECOND CONFIG BYTE
+;
+	XOR	A
+	RET
+;
+ESPSER_INITDEV_ERR:
+	POP	DE			; THROW AWAY CONFIG WORD ON STACK
+	OR	$FF
+	RET
+;
+;
+;
+ESPSER_QUERY:
+	LD	E,(IY+ESPSER_CFG_LINE+0)	; FIRST CONFIG BYTE TO E
+	LD	D,(IY+ESPSER_CFG_LINE+1)	; SECOND CONFIG BYTE TO D
+	LD	HL,0
+	XOR	A
+	RET
+;
+;
+;
+ESPSER_DEVICE:
+	LD	D,CIODEV_ESPSER		; D := DEVICE TYPE
+	LD	E,(IY+ESP_CFG_DEV)	; E := DEVICE NUM
+	LD	C,$00			; C := DEVICE TYPE, 0x00 IS RS-232
+	LD	H,0			; H := 0, DRIVER HAS NO MODES
+	LD	L,(IY+ESP_CFG_IO)	; L := BASE I/O ADDRESS
+	XOR	A			; SIGNAL SUCCESS
+	RET
+;
+; ESPSER CONFIGURATION
+;
+ESPSER_CFG:
+ESPSER0_CFG:
+	.DB	0				; DEVICE NUMBER (UPDATED DURING INIT)
+	.DB	ESP_0_IO			; ESP DATA PORT
+	.DB	ESP_STAT			; ESP STATUS PORT
+	.DB	ESP_0_RDY			; ESP READY BIT MASK
+	.DB	ESP_0_BUSY			; ESP BUSY BIT MASK
+	.DW	ESPSER_LINECFG			; LINE CONFIGURATION
+
+;
+ESPSER1_CFG:
+	.DB	0				; DEVICE NUMBER (UPDATED DURING INIT)
+	.DB	ESP_1_IO			; ESP DATA PORT
+	.DB	ESP_STAT			; ESP STATUS PORT
+	.DB	ESP_1_RDY			; ESP READY BIT MASK
+	.DB	ESP_1_BUSY			; ESP BUSY BIT MASK
+	.DW	ESPSER_LINECFG			; LINE CONFIGURATION
+;
+;
+;
+ESPSER_DEVCNT	.DB	0			; ESPSER DEVICES COUNT

Source/HBIOS/hbios.asm

@@ -105,44 +105,46 @@ MODCNT	.SET	MODCNT + 1
 ;
 ;
 #IF (FPLED_ENABLE)
-#DEFINE	DIAG(N)	PUSH AF
-  #DEFCONT \	LD A,N
-;  #DEFCONT \	OUT (DIAGPORT),A
-  #DEFCONT \	CALL	FP_SETLEDS
-  #DEFCONT \	POP AF
+  #DEFINE DIAG(N)	PUSH AF
+  #DEFCONT \		LD A,N
+;  #DEFCONT \		OUT (DIAGPORT),A
+  #DEFCONT \		CALL	FP_SETLEDS
+  #DEFCONT \		POP AF
 #ELSE
-#DEFINE	DIAG(N)	\;
+  #DEFINE		DIAG(N)	\;
 #ENDIF
 ;
 ; SCxxx: LED Port=0x0E, bit 2, inverted, dedicated port
 ; TinyZ80: LED Port=0x6E, bit 0, inverted, dedicated port
 ; Z80-512K: LED Port=0x6E, bit 0, inverted, dedicated port
 ; MBC: LED Port=0x70, bits 1-0, normal, shared w/ RTC port
+; DUO: LED Port=0x94, bits 1-0, normal, shared w/ RTC port
+; S100: LED Port = $0E, bit 2, inverted, dedicated port
 ; 
 #IF (LEDENABLE)
   #IF (LEDMODE == LEDMODE_STD)
-#DEFINE	LED(N)	PUSH	AF
-  #DEFCONT \	LD	A,~N
-  #DEFCONT \	OUT	(LEDPORT),A
-  #DEFCONT \	POP	AF
+    #DEFINE LED(N)	PUSH	AF
+    #DEFCONT \		LD	A,~N
+    #DEFCONT \		OUT	(LEDPORT),A
+    #DEFCONT \		POP	AF
   #ENDIF
   #IF (LEDMODE == LEDMODE_RTC)
-#DEFINE LED(N)	PUSH	AF
-  #DEFCONT \	LD	A,(HB_RTCVAL)
-  #DEFCONT \	AND	%11111100
-  #DEFCONT \	OR	(N & %00000011)
-  #DEFCONT \	LD	(HB_RTCVAL),A
-  #DEFCONT \	OUT	(LEDPORT),A
-  #DEFCONT \	POP	AF
+    #DEFINE LED(N)	PUSH	AF
+    #DEFCONT \		LD	A,(HB_RTCVAL)
+    #DEFCONT \		AND	%11111100
+    #DEFCONT \		OR	(N & %00000011)
+    #DEFCONT \		LD	(HB_RTCVAL),A
+    #DEFCONT \		OUT	(LEDPORT),A
+    #DEFCONT \		POP	AF
   #ENDIF
 #ELSE
-#DEFINE	LED(N)	\;
+  #DEFINE LED(N)	\;
 #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
 ;
 ;
 ;
@@ -465,7 +467,11 @@ HBX_ROM:
 	BIT	7,A			; BIT 7 SET REQUESTS RAM PAGE
 	JR	Z,HBX_ROM		; NOT SET, SELECT ROM PAGE
 	RES	7,A			; RAM PAGE REQUESTED: CLEAR ROM BIT
+  #IF (PLATFORM == PLT_DUO)
+	ADD	A,64			; ADD 64 x 32K - RAM STARTS FROM 2048K
+  #ELSE
 	ADD	A,16			; ADD 16 x 32K - RAM STARTS FROM 512K
+  #ENDIF
 ;
 HBX_ROM:
 	RLCA				; TIMES 2 - GET 16K PAGE INSTEAD OF 32K
@@ -1105,7 +1111,23 @@ Z280_BOOTERR	.TEXT	"\r\n\r\n*** Application mode boot not supported under Z280 n
 ;
 	DI				; NO INTERRUPTS
 	IM	1			; INTERRUPT MODE 1
-
+;
+#IF ((PLATFORM == PLT_DUO) & FALSE)
+	; WAIT A WHILE
+	LD	B,0
+	DJNZ	$
+#ENDIF
+;
+#IF ((PLATFORM == PLT_DUO) & TRUE)
+	; WAIT A WHILE
+	LD	HL,0
+BOOTWAIT:
+	DEC	HL
+	LD	A,H
+	OR	L
+	JR	NZ,BOOTWAIT
+#ENDIF
+;
 ;#IF ((PLATFORM == PLT_MBC) | (PLATFORM == PLT_SBC))
 	; INITIALIZE RTC LATCH BYTE
 	; FOR SOME PLATFORMS THIS CONTROLS HI/LO SPEED CIRCUIT
@@ -1310,7 +1332,13 @@ Z280_INITZ:
 	INC	A
 	OUT	(MPGSEL_1),A
   #ENDIF
-	LD	A,62
+;
+  #IF (PLATFORM == PLT_DUO)
+	LD	A,128 + (RAMSIZE / 16) - 2
+  #ELSE
+	LD	A,64 - 2
+  #ENDIF
+;
 	OUT	(MPGSEL_2),A
 	INC	A
 	OUT	(MPGSEL_3),A
@@ -1373,6 +1401,36 @@ Z280_INITZ:
 	LD	(HB_CURBNK),A		; RESTORE HB_CURBNK
 #ENDIF
 ;
+; S100 ROM CONTAINS A HARDWARE LEVEL MONITOR IN BANK ID 3 OF ROM.
+; IF PORT $75 BIT 1 IS SET (SET IS ZERO), THEN WE IMMEDIATELY
+; TRANSITION TO THIS MONITOR.  PRIOR TO THE TRANSITION, WE ALSO
+; CHECK THE VALUE IN THE Z180 RELOAD REGISTER LOW.  IF IT IS ASCII 'W',
+; THEN IT MEANS THE S100 MONITOR IS ATTEMPTING TO REBOOT INTO ROMWBW
+; HBIOS.
+;
+#IF ((PLATFORM == PLT_S100) & TRUE)
+	; CHECK S100 BOARD DIP SWITCH, BIT 1
+	IN	A,($75)			; READ SWITCHES
+	BIT	1,A			; CHECK BIT 1
+	JR	NZ,S100MON_SKIP		; IF NOT SET, CONT ROMWBW BOOT
+;
+	; CHECK RELOAD REGISTER LOW FOR SPECIAL VALUE
+	IN0	A,(Z180_RLDR1L)		; GET RELOAD REG 1 LOW
+	CP	'W'			; CHECK FOR SPECIAL VALUE
+	JR	Z,S100MON_SKIP		; IF SO, DO ROMWBW BOOT
+;
+	; LAUNCH S100 MONITOR FROM ROM BANK 3
+	LD	A,BID_IMG2		; S100 MONITOR BANK
+	LD	IX,0			; EXECUTION RESUMES HERE
+	CALL	HBX_BNKCALL		; CONTINUE IN RAM BANK, DO NOT RETURN
+	HALT				; WE SHOULD NOT COME BACK HERE!
+;
+S100MON_SKIP:
+	; RESTORE DEFAULT RELOAD REGISTER VALUE (PROBABLY NOT NEEDED)
+	XOR	A
+	OUT0	(Z180_RLDR1L),A
+#ENDIF
+;
 ; SAVE CURRENT BANKID
 ;
 ; THIS IS NOT GOING TO WORK IF THE APP BOOT IMAGE IS LOADED
@@ -2742,6 +2800,7 @@ HB_WDZ:
 ;
 	LD	A,(CB_CONDEV)		; GET CURRENT CONSOLE
 	LD	(HB_NEWCON),A		; AND INIT NEW CONSOLE VAR
+;
 #IF CRTACT
 ;
 ; BIOS IS CONFIGURED TO AUTO ACTIVATE CRT DEVICE.  FIRST,
@@ -2765,11 +2824,6 @@ HB_WDZ:
 ;
 #ENDIF
 ;
-; THIS IS A GOOD PLACE TO DETERMINE IF FRONT PANEL HARDWARE REALLY
-; EXISTS.
-;
-	CALL	FP_DETECT
-;
 #IF (FPSW_ENABLE)
 ;
 ; IF WE HAVE FRONT PANEL SWITCHES, THIS IS THE RIGHT PLACE TO HANDLE
@@ -2783,8 +2837,9 @@ HB_WDZ:
 	LD	A,FPSW_IO
 	CALL	PRTHEXBYTE
 ;
-	; THE EXISTENCE OF THE FP WAS TESTED EARLIER.  IF IT DOESN'T
-	; EXIST, BAIL OUT.
+	CALL	FP_DETECT
+;
+	; IF FP DOESN'T EXIST, BAIL OUT.
 	LD	A,(FPSW_ACTIVE)		; GET FP EXISTENCE FLAG
 	OR	A			; SET FLAGS
 	JR	NZ,HB_FP1		; IF WE HAVE ONE, CONTINUE
@@ -3125,6 +3180,9 @@ HB_INITTBL:
 #IF (CTCENABLE)
 	.DW	CTC_INIT
 #ENDIF
+#IF (PCFENABLE)
+	.DW	PCF_INIT
+#ENDIF
 #IF (DSKYENABLE)
   #IF (ICMENABLE)
 	.DW	ICM_INIT
@@ -3193,7 +3251,6 @@ HB_INITTBL:
 	.DW	INTRTC_INIT
 #ENDIF
 #IF (DS7RTCENABLE)
-	.DW	PCF8584_INIT
 	.DW	DS7RTC_INIT
 #ENDIF
 #IF (RP5RTCENABLE)
@@ -3256,6 +3313,9 @@ HB_INITTBL:
 #IF (PPPENABLE)
 	.DW	PPP_INIT
 #ENDIF
+#IF (ESPENABLE)
+	.DW	ESP_INIT
+#ENDIF
 ;
 HB_INITTBLLEN	.EQU	(($ - HB_INITTBL) / 2)
 ;
@@ -5081,6 +5141,99 @@ SYS_INTSET1:
 	RET				; DONE
 ;
 ;==================================================================================================
+;   Z280 INTERRUPT VECTOR TABLE
+;==================================================================================================
+;
+#IF (MEMMGR == MM_Z280)
+;
+	; THE Z280 IVT MUST BE ON A 4K BOUNDARY.  IT HAS BEEN LOCATED
+	; 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:
+	.DW	0, 0			; RESERVED
+	.DW	0			; NMI MSR
+	.DW	0			; NMI VECTOR
+	.DW	$0000			; INT A MSR
+	.DW	Z280_BADINT		; INT A VECTOR
+	.DW	$0000			; INT B MSR
+	.DW	Z280_BADINT		; INT B VECTOR
+	.DW	$0000			; INT C MSR
+	.DW	Z280_BADINT		; INT C VECTOR
+	.DW	$0000			; COUNTER/TIMER 0 MSR
+	.DW	Z280_BADINT		; COUNTER/TIMER 0 VECTOR
+	.DW	$0000			; COUNTER/TIMER 1 MSR
+	.DW	Z280_BADINT		; COUNTER/TIMER 1 VECTOR
+	.DW	0, 0			; RESERVED
+	.DW	$0000			; COUNTER/TIMER 2 MSR
+	.DW	Z280_BADINT		; COUNTER/TIMER 2 VECTOR
+	.DW	$0000			; DMA CHANNEL 0 MSR
+	.DW	Z280_BADINT		; DMA CHANNEL 0 VECTOR
+	.DW	$0000			; DMA CHANNEL 1 MSR
+	.DW	Z280_BADINT		; DMA CHANNEL 1 VECTOR
+	.DW	$0000			; DMA CHANNEL 2 MSR
+	.DW	Z280_BADINT		; DMA CHANNEL 2 VECTOR
+	.DW	$0000			; DMA CHANNEL 3 MSR
+	.DW	Z280_BADINT		; DMA CHANNEL 3 VECTOR
+	.DW	$0000			; UART RECEIVER MSR
+	.DW	Z280_BADINT		; UART RECEIVER VECTOR
+	.DW	$0000			; UART TRANSMITTER MSR
+	.DW	Z280_BADINT		; UART TRANSMITTER VECTOR
+	.DW	$0000			; SINGLE STEP TRAP MSR
+	.DW	Z280_SSTEP		; SINGLE STEP TRAP VECTOR
+	.DW	$0000			; BREAK ON HALT TRAP MSR
+	.DW	Z280_BRKHLT		; BREAK ON HALT TRAP VECTOR
+	.DW	$0000			; DIVISION EXCEPTION TRAP MSR
+	.DW	Z280_DIVEXC		; DIVISION EXCEPTION TRAP VECTOR
+	.DW	$0000			; STACK OVERFLOW WARNING TRAP MSR
+	.DW	Z280_STKOVR		; STACK OVERFLOW WARNING TRAP VECTOR
+	.DW	$0000			; ACCESS VIOLATION TRAP MSR
+	.DW	Z280_ACCVIO		; ACCESS VIOLATION TRAP VECTOR
+	.DW	$0000			; SYSTEM CALL TRAP MSR
+	.DW	Z280_SYSCALL		; SYSTEM CALL TRAP VECTOR
+	.DW	$0000			; PRIVILEGED INSTRUCTION TRAP MSR
+	.DW	Z280_PRIVINST		; PRIVILEGED INSTRUCTION TRAP VECTOR
+	.DW	$0000			; EPU <- MEMORY EXTENDED INSTRUCTION TRAP MSR
+	.DW	$0000			; EPU <- MEMORY EXTENDED INSTRUCTION TRAP VECTOR
+	.DW	$0000			; MEMORY <- EPU EXTENDED INSTRUCTION TRAP MSR
+	.DW	$0000			; MEMORY <- EPU EXTENDED INSTRUCTION TRAP VECTOR
+	.DW	$0000			; A <- EPU EXTENDED INSTRUCTION TRAP MSR
+	.DW	$0000			; A <- EPU EXTENDED INSTRUCTION TRAP VECTOR
+	.DW	$0000			; EPU INTERNAL OPERATION EXTENDED INSTRUCTION TRAP MSR
+	.DW	$0000			; EPU INTERNAL OPERATION EXTENDED INSTRUCTION TRAP VECTOR
+	.DW	0, 0			; RESERVED
+	.DW	0, 0			; RESERVED
+	; PROGRAM COUNTER VALUES FOR NMI/INTA (16)
+	.DW	HBX_IV00
+	.DW	HBX_IV01
+	.DW	HBX_IV02
+	.DW	HBX_IV03
+	.DW	HBX_IV04
+	.DW	HBX_IV05
+	.DW	HBX_IV06
+	.DW	HBX_IV07
+	.DW	HBX_IV08
+	.DW	HBX_IV09
+	.DW	HBX_IV0A
+	.DW	HBX_IV0B
+	.DW	HBX_IV0C
+	.DW	HBX_IV0D
+	.DW	HBX_IV0E
+	.DW	HBX_IV0F
+	; THE REMAINDER OF THE Z280 IVT IS TRUNCATED HERE BECAUSE IT
+	; TAKES A BUNCH OF SPACE AND IS NOT USED.  WE SUPPORT ONLY
+	; 16 VECTORED INTERRUPTS AND THEY MUST BE CONNECTED TO INTA.
+;
+#ENDIF
+;
+;==================================================================================================
 ;   GLOBAL HBIOS FUNCTIONS
 ;==================================================================================================
 ;
@@ -5640,94 +5793,6 @@ HB_ALLOC1:
 HB_TMPSZ	.DW	0
 HB_TMPREF	.DW	0
 ;
-;==================================================================================================
-;   Z280 INTERRUPT VECTOR TABLE
-;==================================================================================================
-;
-#IF (MEMMGR == MM_Z280)
-;
-	; THE Z280 IVT MUST BE ON A 4K BOUNDARY.  IT HAS BEEN LOCATED
-	; HERE IN AN EFFORT TO MINIMIZE WASTED SPACE.  THERE SHOULD BE
-	; A LITTLE LESS THAN 4K OF CODE ABOVE.
-;
-	.FILL	$1000 - ($ & $FFF)	; MUST BE 4K ALIGNED!
-;
-Z280_IVT:
-	.DW	0, 0			; RESERVED
-	.DW	0			; NMI MSR
-	.DW	0			; NMI VECTOR
-	.DW	$0000			; INT A MSR
-	.DW	Z280_BADINT		; INT A VECTOR
-	.DW	$0000			; INT B MSR
-	.DW	Z280_BADINT		; INT B VECTOR
-	.DW	$0000			; INT C MSR
-	.DW	Z280_BADINT		; INT C VECTOR
-	.DW	$0000			; COUNTER/TIMER 0 MSR
-	.DW	Z280_BADINT		; COUNTER/TIMER 0 VECTOR
-	.DW	$0000			; COUNTER/TIMER 1 MSR
-	.DW	Z280_BADINT		; COUNTER/TIMER 1 VECTOR
-	.DW	0, 0			; RESERVED
-	.DW	$0000			; COUNTER/TIMER 2 MSR
-	.DW	Z280_BADINT		; COUNTER/TIMER 2 VECTOR
-	.DW	$0000			; DMA CHANNEL 0 MSR
-	.DW	Z280_BADINT		; DMA CHANNEL 0 VECTOR
-	.DW	$0000			; DMA CHANNEL 1 MSR
-	.DW	Z280_BADINT		; DMA CHANNEL 1 VECTOR
-	.DW	$0000			; DMA CHANNEL 2 MSR
-	.DW	Z280_BADINT		; DMA CHANNEL 2 VECTOR
-	.DW	$0000			; DMA CHANNEL 3 MSR
-	.DW	Z280_BADINT		; DMA CHANNEL 3 VECTOR
-	.DW	$0000			; UART RECEIVER MSR
-	.DW	Z280_BADINT		; UART RECEIVER VECTOR
-	.DW	$0000			; UART TRANSMITTER MSR
-	.DW	Z280_BADINT		; UART TRANSMITTER VECTOR
-	.DW	$0000			; SINGLE STEP TRAP MSR
-	.DW	Z280_SSTEP		; SINGLE STEP TRAP VECTOR
-	.DW	$0000			; BREAK ON HALT TRAP MSR
-	.DW	Z280_BRKHLT		; BREAK ON HALT TRAP VECTOR
-	.DW	$0000			; DIVISION EXCEPTION TRAP MSR
-	.DW	Z280_DIVEXC		; DIVISION EXCEPTION TRAP VECTOR
-	.DW	$0000			; STACK OVERFLOW WARNING TRAP MSR
-	.DW	Z280_STKOVR		; STACK OVERFLOW WARNING TRAP VECTOR
-	.DW	$0000			; ACCESS VIOLATION TRAP MSR
-	.DW	Z280_ACCVIO		; ACCESS VIOLATION TRAP VECTOR
-	.DW	$0000			; SYSTEM CALL TRAP MSR
-	.DW	Z280_SYSCALL		; SYSTEM CALL TRAP VECTOR
-	.DW	$0000			; PRIVILEGED INSTRUCTION TRAP MSR
-	.DW	Z280_PRIVINST		; PRIVILEGED INSTRUCTION TRAP VECTOR
-	.DW	$0000			; EPU <- MEMORY EXTENDED INSTRUCTION TRAP MSR
-	.DW	$0000			; EPU <- MEMORY EXTENDED INSTRUCTION TRAP VECTOR
-	.DW	$0000			; MEMORY <- EPU EXTENDED INSTRUCTION TRAP MSR
-	.DW	$0000			; MEMORY <- EPU EXTENDED INSTRUCTION TRAP VECTOR
-	.DW	$0000			; A <- EPU EXTENDED INSTRUCTION TRAP MSR
-	.DW	$0000			; A <- EPU EXTENDED INSTRUCTION TRAP VECTOR
-	.DW	$0000			; EPU INTERNAL OPERATION EXTENDED INSTRUCTION TRAP MSR
-	.DW	$0000			; EPU INTERNAL OPERATION EXTENDED INSTRUCTION TRAP VECTOR
-	.DW	0, 0			; RESERVED
-	.DW	0, 0			; RESERVED
-	; PROGRAM COUNTER VALUES FOR NMI/INTA (16)
-	.DW	HBX_IV00
-	.DW	HBX_IV01
-	.DW	HBX_IV02
-	.DW	HBX_IV03
-	.DW	HBX_IV04
-	.DW	HBX_IV05
-	.DW	HBX_IV06
-	.DW	HBX_IV07
-	.DW	HBX_IV08
-	.DW	HBX_IV09
-	.DW	HBX_IV0A
-	.DW	HBX_IV0B
-	.DW	HBX_IV0C
-	.DW	HBX_IV0D
-	.DW	HBX_IV0E
-	.DW	HBX_IV0F
-	; THE REMAINDER OF THE Z280 IVT IS TRUNCATED HERE BECAUSE IT
-	; TAKES A BUNCH OF SPACE AND IS NOT USED.  WE SUPPORT ONLY
-	; 16 VECTORED INTERRUPTS AND THEY MUST BE CONNECTED TO INTA.
-;
-#ENDIF
-;
 ; Z280 BANK SELECTION (CALLED FROM PROXY)
 ;
 #IF (MEMMGR == MM_Z280)
@@ -6102,6 +6167,7 @@ SIZ_BQRTC	.EQU	$ - ORG_BQRTC
 		.ECHO	SIZ_BQRTC
 		.ECHO	" bytes.\n"
 #ENDIF
+;
 #IF (SIMRTCENABLE)
 ORG_SIMRTC	.EQU	$
   #INCLUDE "simrtc.asm"
@@ -6110,15 +6176,16 @@ SIZ_SIMRTC	.EQU	$ - ORG_SIMRTC
 		.ECHO	SIZ_SIMRTC
 		.ECHO	" bytes.\n"
 #ENDIF
-#IF (DS7RTCENABLE & (DS7RTCMODE=DS7RTCMODE_PCF))
-ORG_PCF8584	.EQU	$
-  #INCLUDE "pcf8584.asm"
-SIZ_PCF8584	.EQU	$ - ORG_PCF8584
-		.ECHO	"PCF8584 occupies "
-		.ECHO	SIZ_PCF8584
+;
+#IF (PCFENABLE)
+ORG_PCF		.EQU	$
+  #INCLUDE "pcf.asm"
+SIZ_PCF		.EQU	$ - ORG_PCF
+		.ECHO	"PCF occupies "
+		.ECHO	SIZ_PCF
 		.ECHO	" bytes.\n"
 #ENDIF
-
+;
 #IF (DS7RTCENABLE)
 ORG_DS7RTC	.EQU	$
   #INCLUDE "ds7rtc.asm"
@@ -6404,6 +6471,15 @@ SIZ_PPP		.EQU	$ - ORG_PPP
 		.ECHO	" bytes.\n"
 #ENDIF
 ;
+#IF (ESPENABLE)
+ORG_ESP		.EQU	$
+  #INCLUDE "esp.asm"
+SIZ_ESP		.EQU	$ - ORG_ESP
+		.ECHO	"ESP occupies "
+		.ECHO	SIZ_ESP
+		.ECHO	" bytes.\n"
+#ENDIF
+;
 #IF (MDENABLE)
 ORG_MD		.EQU	$
   #INCLUDE "md.asm"
@@ -7074,7 +7150,7 @@ PS_PRTSC1:
 	RET
 ;
 PS_PRTSC2:
-	PRTS("PropTerm$")		; ASSUME PROPELLER
+	PRTS("Term Module$")
 	CALL	PC_COMMA
 	PRTS("ANSI$")
 	RET
@@ -7313,6 +7389,8 @@ PS_SDUF		.TEXT	"UF$"
 PS_SDDUART	.TEXT	"DUART$"
 PS_SDZ2U	.TEXT	"Z2U$"
 PS_SDLPT	.TEXT	"LPT$"
+PS_SDESPCON	.TEXT	"ESPCON$"
+PS_SDESPSER	.TEXT	"ESPSER$"
 ;
 ; CHARACTER SUB TYPE STRINGS
 ;

Source/HBIOS/hbios.inc

@@ -150,6 +150,8 @@ PLT_RCZ280	.EQU	12		; RCBUS W/ Z280
 PLT_MBC		.EQU	13		; MULTI BOARD COMPUTER
 PLT_RPH		.EQU	14		; RHYOPHYRE GRAPHICS COMPUTER
 PLT_Z80RETRO	.EQU	15		; Z80 RETRO COMPUTER
+PLT_S100	.EQU	16		; S100 COMPUTERS Z180 SYSTEM
+PLT_DUO		.EQU	17		; DUODYNE Z80 SYSTEM
 ;
 ; HBIOS GLOBAL ERROR RETURN VALUES
 ;
@@ -311,6 +313,8 @@ CIODEV_UF	.EQU	$80
 CIODEV_DUART	.EQU	$90
 CIODEV_Z2U	.EQU	$A0
 CIODEV_LPT	.EQU	$B0
+CIODEV_ESPCON	.EQU	$C0
+CIODEV_ESPSER	.EQU	$D0
 ;
 ; SUB TYPES OF CHAR DEVICES
 ;

Source/HBIOS/pcf.asm

@@ -2,12 +2,11 @@
 ; PCF8584 I2C CLOCK DRIVER
 ;==================================================================================================
 ;
-PCF_BASE  	.EQU  0F0H
+PCF_BASE  	.EQU  PCFBASE
 PCF_ID   	.EQU  0AAH
-CPU_CLK	  	.EQU  12
-
+;
 PCF_RS0		.EQU  PCF_BASE
-PCF_RS1		.EQU  PCF_RS0+1
+PCF_RS1		.EQU  PCF_BASE+1
 PCF_OWN	 	.EQU  (PCF_ID >> 1)	 	; PCF'S ADDRESS IN SLAVE MODE
 ;
 ;T4LC512D	.EQU	10100000B		; DEVICE IDENTIFIER
@@ -37,10 +36,10 @@ PCF_STA  	.EQU  00000100B
 PCF_STO  	.EQU  00000010B
 PCF_ACK  	.EQU  00000001B
 ;
-PCF_START_		.EQU  (PCF_PIN | PCF_ES0 | PCF_STA | PCF_ACK)
-PCF_STOP_		.EQU  (PCF_PIN | PCF_ES0 | PCF_STO | PCF_ACK)
-PCF_REPSTART_ 	.EQU  (	   PCF_ES0 | PCF_STA | PCF_ACK)
-PCF_IDLE_		.EQU  (PCF_PIN | PCF_ES0		| PCF_ACK)
+PCF_START_	.EQU  (PCF_PIN | PCF_ES0 | PCF_STA | PCF_ACK)
+PCF_STOP_	.EQU  (PCF_PIN | PCF_ES0 | PCF_STO | PCF_ACK)
+PCF_REPSTART_ 	.EQU  (PCF_ES0 | PCF_STA | PCF_ACK)
+PCF_IDLE_	.EQU  (PCF_PIN | PCF_ES0 | PCF_ACK)
 ;
 ; STATUS REGISTER BITS
 ;
@@ -54,43 +53,6 @@ PCF_AAS   	.EQU  00000100B
 PCF_LAB   	.EQU  00000010B
 PCF_BB		.EQU  00000001B
 ;
-; CLOCK CHIP FREQUENCIES
-;
-PCF_CLK3   	.EQU	000H
-PCF_CLK443 	.EQU	010H
-PCF_CLK6   	.EQU	014H
-PCF_CLK8   	.EQU	018H
-PCF_CLK12  	.EQU	01cH
-;
-; TRANSMISSION FREQUENCIES
-;
-PCF_TRNS90 	.EQU	000H	;  90 kHz */
-PCF_TRNS45 	.EQU	001H	;  45 kHz */
-PCF_TRNS11 	.EQU	002H	;  11 kHz */
-PCF_TRNS15 	.EQU	003H	; 1.5 kHz */
-;
-; TIMEOUT AND DELAY VALUES (ARBITRARY)
-;
-PCF_PINTO	.EQU	65000
-PCF_ACKTO	.EQU	65000
-PCF_BBTO	.EQU	65000
-PCF_LABDLY	.EQU	65000
-;
-; DATA PORT REGISTERS
-;
-#IF (CPU_CLK = 443)
-PCF_CLK .EQU PCF_CLK4433
-#ELSE 
- #IF (CPU_CLK = 8)
-PCF_CLK .EQU PCF_CLK8
- #ELSE 
-  #IF (CPU_CLK = 12)
-PCF_CLK .EQU PCF_CLK12
-  #ELSE ***ERROR
-  #ENDIF
- #ENDIF	
-#ENDIF
-;
 ; THE PCF8584 TARGETS A TOP I2C CLOCK SPEED OF 90KHZ AND SUPPORTS DIVIDERS FOR 
 ; 3, 4.43, 6, 8 AND 12MHZ TO ACHEIVE THIS.
 ;
@@ -104,14 +66,44 @@ PCF_CLK .EQU PCF_CLK12
 ; |  12MHz  |       |        |       |         |        | 90Khz | 120Khz |   138Khz  |  150Khz |
 ; +----------------------------------------------------------------------------------+---------+
 ;
-PCF8584_INIT:
+; CLOCK CHIP FREQUENCIES
+;
+PCF_CLK3   	.EQU	000H
+PCF_CLK443 	.EQU	010H
+PCF_CLK6   	.EQU	014H
+PCF_CLK8   	.EQU	018H
+PCF_CLK12  	.EQU	01CH
+;
+; TRANSMISSION FREQUENCIES
+;
+PCF_TRNS90 	.EQU	000H	;  90 kHz */
+PCF_TRNS45 	.EQU	001H	;  45 kHz */
+PCF_TRNS11 	.EQU	002H	;  11 kHz */
+PCF_TRNS15 	.EQU	003H	; 1.5 kHz */
+;
+; BELOW VARIABLES CONTROL PCF CLOCK DIVISOR PROGRAMMING
+; HARD-CODED FOR NOW
+;
+PCF_CLK	  	.EQU	PCF_CLK12
+PCF_TRNS	.EQU	PCF_TRNS90
+;
+; TIMEOUT AND DELAY VALUES (ARBITRARY)
+;
+PCF_PINTO	.EQU	65000
+PCF_ACKTO	.EQU	65000
+PCF_BBTO	.EQU	65000
+PCF_LABDLY	.EQU	65000
+;
+; DATA PORT REGISTERS
+;
+PCF_INIT:
 	CALL	NEWLINE				; Formatting
-	PRTS("I2C: IO=0x$")
+	PRTS("PCF: IO=0x$")
 	LD	A, PCF_BASE
 	CALL	PRTHEXBYTE
 	CALL	PC_SPACE
-	CALL	PCF_INIT
-	CALL	NEWLINE
+	CALL	PCF_INITDEV
+	;CALL	NEWLINE
 	RET
 ;
 ; LINUX DRIVER BASED CODE
@@ -141,11 +133,13 @@ PCF_STOP:
 ;
 ;-----------------------------------------------------------------------------
 ;
-PCF_INIT:
+PCF_INITDEV:
 	LD	A,PCF_PIN   	; S1=80H: S0 SELECTED, SERIAL 
 	OUT	(PCF_RS1),A	; INTERFACE OFF
 	NOP
 	IN	A,(PCF_RS1)	; CHECK TO SEE S1 NOW USED AS R/W
+	;CALL	PC_SPACE
+	;CALL	PRTHEXBYTE
 	AND	07FH	  	; CTRL. PCF8584 DOES THAT WHEN ESO
 	JR	NZ,PCF_FAIL	; IS ZERO
 ;
@@ -153,6 +147,8 @@ PCF_INIT:
 	OUT	(PCF_RS0),A	; EFFECTIVE ADDRESS IS (OWN <<1)
 	NOP
 	IN	A,(PCF_RS0)	; CHECK IT IS REALLY WRITTEN
+	;CALL	PC_SPACE
+	;CALL	PRTHEXBYTE
 	CP	PCF_OWN
 	JP	NZ,PCF_SETERR
 ;
@@ -160,14 +156,18 @@ PCF_INIT:
 	OUT	(PCF_RS1),A		; NEXT BYTE IN S2
 	NOP
 	IN	A,(PCF_RS1)
+	;CALL	PC_SPACE
+	;CALL	PRTHEXBYTE
 	AND	07FH
 	CP	PCF_ES1
 	JP	NZ,PCF_REGERR
 ;
-	LD	A,PCF_CLK	; LOAD CLOCK REGISTER S2
+	LD	A,PCF_CLK | PCF_TRNS	; LOAD CLOCK REGISTER S2
 	OUT	(PCF_RS0),A
 	NOP
 	IN	A,(PCF_RS0)	; CHECK IT'S REALLY WRITTEN, ONLY
+	;CALL	PC_SPACE
+	;CALL	PRTHEXBYTE
 	AND	1FH	   	; THE LOWER 5 BITS MATTER
 	CP	PCF_CLK
 	JP	NZ,PCF_CLKERR
@@ -176,6 +176,8 @@ PCF_INIT:
 	OUT	(PCF_RS1),A  
 	NOP
 	IN	A,(PCF_RS1)  
+	;CALL	PC_SPACE
+	;CALL	PRTHEXBYTE
 	CP	+(PCF_PIN | PCF_BB)
 	JP	NZ,PCF_IDLERR
 ;
@@ -381,12 +383,12 @@ PCF_READI2C:
 ;
 ; POLL THE BUS BUSY BIT TO DETERMINE IF BUS IS FREE.
 ; RETURN WITH A=00H/Z STATUS IF BUS IS FREE
-; RETURN WITH A=FFH/NZ STATUS IF BUS
+; RETURN WITH A=FFH/NZ STATUS IF BUS IS BUSY
 ;
 ; AFTER RESET THE BUS BUSY BIT WILL BE SET TO 1 I.E. NOT BUSY
 ;
 PCF_WAIT_FOR_BB:
-	 LD	HL,PCF_BBTO
+	LD	HL,PCF_BBTO
 PCF_WFBB0:
 	IN	A,(PCF_RS1)
 	AND	PCF_BB

Source/HBIOS/ppp.asm

@@ -4,7 +4,6 @@
 ;==================================================================================================
 ;
 ; TODO:
-;   1) ADD SUPPORT FOR DSKY
 ;
 PPP_IO		.EQU	PPPBASE + 0	; PPP DATA I/O (PPI PORT A)
 PPP_CTL		.EQU	PPPBASE + 2	; PPP CTL LINES (PPI PORT C)

Source/HBIOS/prp.asm

@@ -4,7 +4,6 @@
 ;==================================================================================================
 ;
 ; TODO:
-;   1) ADD SUPPORT FOR DSKY
 ;
 PRP_IOBASE	.EQU	$A8
 ;

Source/HBIOS/romldr.asm

@@ -1343,6 +1343,36 @@ diskread:
 ;
 #endif
 ;
+; Built-in mini-loader for S100 Monitor.  The S100 platform build
+; imbeds the S100 Monitor in the ROM at the start of bank 3 (BID_IMG2).
+; This bit of code just launches the monitor directly from that bank.
+;
+#if (BIOS == BIOS_WBW)
+  #if (PLATFORM == PLT_S100)
+;
+s100mon:
+	; Warn user that console is being directed to the S100 bus
+	; if the IOBYTE bit 0 is 0 (%xxxxxxx0).
+	in	a,($75)			; get IO byte
+	and	%00000001		; isolate console bit
+	jr	nz,s100mon1		; if 0, bypass msg
+	ld	hl,str_s100con		; console msg string
+	call	pstr			; display it
+;
+s100mon1:
+	; Launch S100 Monitor from ROM Bank 3
+	call	ldelay			; wait for UART buf to empty
+	di				; suspend interrupts
+	ld	a,BID_IMG2		; S100 monitor bank
+	ld	ix,0			; execution resumes here
+	jp	HB_BNKCALL		; do it
+;
+str_smon	.db	"S100 Z180 Monitor",0
+str_s100con	.db	"\r\n\r\nConsole on S100 Bus",0
+;
+  #endif
+#endif
+;
 ;=======================================================================
 ; Utility functions
 ;=======================================================================
@@ -2311,6 +2341,11 @@ ra_tbl:
 ;      ---------  -------  -----  --------  -----        -------  -------  ----------
 ra_ent(str_mon,	  'M',	   KY_CL, BID_IMG0, MON_IMGLOC,  MON_LOC, MON_SIZ, MON_SERIAL)
 ra_entsiz	.equ	$ - ra_tbl
+#if (BIOS == BIOS_WBW)
+  #if (PLATFORM == PLT_S100)
+ra_ent(str_smon,  'S',	   $FF,	  bid_cur , $8000,       $8000,   $0001,   s100mon)
+  #endif
+#endif
 ra_ent(str_zsys,  'Z',	   KY_FW, BID_IMG0, ZSYS_IMGLOC, CPM_LOC, CPM_SIZ, CPM_ENT)
 ra_ent(str_cpm22, 'C',	   KY_BK, BID_IMG0, CPM_IMGLOC,  CPM_LOC, CPM_SIZ, CPM_ENT)
 #if (BIOS == BIOS_WBW)
@@ -2333,7 +2368,7 @@ ra_tbl_app:
 ;      Name	  Key	   Dsky	  Bank	    Src	         Dest	    Size     Entry
 ;      ---------  -------  -----  --------  -----       -------  -------  ----------
 ra_ent(str_mon,	  'M',	   KY_CL, bid_cur,  MON_IMGLOC,  MON_LOC, MON_SIZ, MON_SERIAL)
-ra_ent(str_zsys,  'Z',	   KY_FW, bid_cur,  ZSYS_IMGLOC,  CPM_LOC, CPM_SIZ, CPM_ENT)
+ra_ent(str_zsys,  'Z',	   KY_FW, bid_cur,  ZSYS_IMGLOC, CPM_LOC, CPM_SIZ, CPM_ENT)
 #if (DSKYENABLE)
 ra_ent(str_dsky,  'Y'+$80, KY_GO, bid_cur,  MON_IMGLOC,  MON_LOC, MON_SIZ, MON_DSKY)
 #endif

Source/HBIOS/sd.asm

@@ -9,14 +9,14 @@
 ;	- TEST XC CARD TYPE DETECTION
 ;	- TRY TO GET INIT TO FAIL, REMOVE DELAYS AT START OF GOIDLE?
 ;
-;----------------------------------------------------------------------------------------------
-; SD Signal	Active	JUHA	N8	CSIO	PPI	UART	DSD	MK4	SC	MT
-; ------------	------- ------- ------- ------- ------- ------- ------- -------	-------	-------
-; CS (DAT3)	LO ->	RTC:2	RTC:2	RTC:2	~PC:4	~MCR:3	OPR:2	SD:2	~RTC:2/3OPR:4/5
-; CLK		HI ->	RTC:1	RTC:1	CSIO	PC:1	~MCR:2	OPR:1	CSIO	CSIO	SPI
-; DI (CMD)	HI ->	RTC:0	RTC:0	CSIO	PC:0	~MCR:0	OPR:0	CSIO	CSIO	SPI
-; DO (DAT0)	HI ->	RTC:7	RTC:6	CSIO	PB:7	~MSR:5	OPR:0	CSIO	CSIO	SPI
-;----------------------------------------------------------------------------------------------
+;-----------------------------------------------------------------------------------------------------
+; SD Signal	Active	JUHA	N8	CSIO	PPI	UART	DSD	MK4	SC	MT     PIO
+; ------------	------- ------- ------- ------- ------- ------- ------- -------	-------	--------------
+; CS (DAT3)	LO ->	RTC:2	RTC:2	RTC:2	~PC:4	~MCR:3	OPR:2	SD:2	~RTC:2/3OPR:4/5~OPR:3
+; CLK		HI ->	RTC:1	RTC:1	CSIO	PC:1	~MCR:2	OPR:1	CSIO	CSIO	SPI    OPR:4
+; DI (CMD)	HI ->	RTC:0	RTC:0	CSIO	PC:0	~MCR:0	OPR:0	CSIO	CSIO	SPI    OPR:0
+; DO (DAT0)	HI ->	RTC:7	RTC:6	CSIO	PB:7	~MSR:5	OPR:0	CSIO	CSIO	SPI    OPR:7
+;-----------------------------------------------------------------------------------------------------
 ;
 ; CS = CHIP SELECT (AKA DAT3 FOR NON-SPI MODE)
 ; CLK = CLOCK
@@ -167,6 +167,7 @@ RTCDEF		.SET	RTCDEF | SD_OPRDEF	; SET DEFAULT IN HBIOS MAINLINE
 SD_DEVMAX	.EQU	1		; NUMBER OF PHYSICAL UNITS (SOCKETS)
 SD_PPIBASE	.EQU	SDPPIBASE	; BASE IO PORT FOR PPI
 SD_PPIB		.EQU	SDPPIBASE + 1	; PPI PORT B (INPUT: DOUT)
+SD_PPIB		.EQU	SDPPIBASE + 1	; PPI PORT B (INPUT: DOUT)
 SD_PPIC		.EQU	SDPPIBASE + 2	; PPI PORT C (OUTPUT: CS, CLK, DIN)
 SD_PPIX		.EQU	SDPPIBASE + 3	; PPI CONTROL PORT
 SD_OPRREG	.EQU	SD_PPIC		; PPI PORT C IS OPR REG
@@ -298,7 +299,10 @@ SD_INVCS	.EQU	FALSE		; INVERT CS
 SD_DEVMAX	.EQU	1		; NUMBER OF PHYSICAL UNITS (SOCKETS)
 SD_IOBASE	.EQU	$69		; IO BASE ADDRESS FOR SD INTERFACE
 SD_OPRREG	.EQU	SD_IOBASE	; OUTPUT PORT (OUTPUT: CS, CLK, DIN)
-SD_OPRDEF	.EQU	%11111111	; OUTPUT PORT DEFAULT STATE
+;--- WBW
+;SD_OPRDEF	.EQU	%11111111	; OUTPUT PORT DEFAULT STATE
+SD_OPRDEF	.EQU	%11101111	; OUTPUT PORT DEFAULT STATE
+;---
 SD_INPREG	.EQU	SD_IOBASE	; INPUT REGISTER
 SD_CS0		.EQU	%00001000	; SELECT
 SD_CLK		.EQU	%00010000	; CLOCK
@@ -1801,6 +1805,7 @@ SD_SETUP:
 ;
 #IF (SDMODE == SDMODE_PIO)
 	LD	A,SD_OPRDEF		; All output bits high
+	LD	(SD_OPRVAL),A		; WBW
 	OUT	(SD_OPRREG),A
 	LD	A,$CF			; Port B mode 3
 	OUT	(SD_DDR),A

Source/HBIOS/std.asm

@@ -17,6 +17,8 @@
 ; 13. MBC	Andrew Lynch's Multi Board Computer
 ; 14. RPH	Andrew Lynch's RHYOPHYRE Graphics Computer
 ; 15. Z80RETRO	Peter Wilson's Z80-Retro Computer
+; 16. S100	S100 Computers Z180-based System
+; 17. DUO	Andrew Lynch's Duodyne Computer
 
 ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
 ;
@@ -280,6 +282,8 @@ DMAMODE_Z180	.EQU	2		; Z180 INTEGRATED DMA
 DMAMODE_Z280	.EQU	3		; Z280 INTEGRATED DMA
 DMAMODE_RC	.EQU	4		; RCBUS Z80 DMA
 DMAMODE_MBC	.EQU	5		; MBC
+DMAMODE_DUO	.EQU	6		; DUO
+DMAMODE_VDG	.EQU	7		; VELESOFT DATAGEAR
 ;
 ; KEYBOARD MODE SELECTIONS
 ;
@@ -776,6 +780,13 @@ INT_CTC0D	.EQU	15	; ZILOG CTC 0, CHANNEL D
 
   #ELSE
 
+    #IF (PLATFORM == PLT_DUO)
+
+INT_UART0	.EQU	7	; UART 0
+INT_UART1	.EQU	6	; UART 1 ?????
+
+    #ELSE
+
 ; GENERIC Z80
 INT_CTC0A	.EQU	0	; ZILOG CTC 0, CHANNEL A
 INT_CTC0B	.EQU	1	; ZILOG CTC 0, CHANNEL B
@@ -790,6 +801,7 @@ INT_PIO0B	.EQU	10	; ZILOG PIO 0, CHANNEL B
 INT_PIO1A	.EQU	11	; ZILOG PIO 1, CHANNEL A
 INT_PIO1B	.EQU	12	; ZILOG PIO 1, CHANNEL B
 
+      #ENDIF
     #ENDIF
 #ENDIF
 

Source/HBIOS/uart.asm

@@ -53,7 +53,11 @@ UART_INTACT		.EQU	7	; INT RCV ACTIVE BIT
 UART_FIFOACT		.EQU	6	; FIFO ACTIVE BIT
 UART_AFCACT		.EQU	5	; AUTO FLOW CONTROL ACTIVE BIT
 ;
+#IF (PLATFORM == PLT_DUO)
+UARTSBASE		.EQU	$58
+#ELSE
 UARTSBASE		.EQU	$68
+#ENDIF
 UARTCBASE		.EQU	$80
 UARTMBASE		.EQU	$18
 UART4BASE		.EQU	$C0

Source/ReadMe.txt

@@ -142,6 +142,9 @@ to determine the <plt> component of the configuration filename:
 	DYNO		Dyno Z180 Single Board Computer
 	MBC		Andrew Lynch's Nhyodyne Z80 MBC
 	RPH		Andrew Lynch's Rhyophyre Z180 SBC
+	Z80RETRO	Peter Wilson's Z80-Retro Computer
+	S100		S100 Computers Z180-based System
+	DUO		Andrew Lynch's Duodyne Computer
 	UNA		John Coffman's UNA System
 
 Configuration files are found in the Source\HBIOS\Config 

Source/ver.inc

@@ -2,7 +2,7 @@
 #DEFINE	RMN	3
 #DEFINE	RUP	0
 #DEFINE	RTP	0
-#DEFINE BIOSVER	"3.3.0-dev.29"
+#DEFINE BIOSVER	"3.3.0-dev.44"
 #define rmj	RMJ
 #define rmn	RMN
 #define rup	RUP

Source/ver.lib

@@ -3,5 +3,5 @@ rmn	equ	3
 rup	equ	0
 rtp	equ	0
 biosver	macro
-	db	"3.3.0-dev.29"
+	db	"3.3.0-dev.44"
 	endm