PAGE 60
TITLE 'Cromemco 4FDC/16FDC BIOS in 8080 Code'
;
; * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
;
; modifications by Mike Goetz and Hank Kee - 9/2/81
;
; corrected PIP A:=B:filename.ext on Persci 277/299
; Persci's must be configured as A: and B:
; and/or C: and D: since they have but one
; arm to access two drives
; modified sign-on message to properly generate size
; from MEMSIZE definition during assembly
; corrected current drive assignment on warm boot
; inclusion of LIST serial driver for CCS 8250 (30 CPS)
; option to support LA34/LA36
;
; * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
;
;
; This version modified for 4 drives, A, B, C, D, 2-8" and 2-5"
; In this first version, the boot drive is "A:" only, the 1st 8"
;
; MISC EQUATES
;
PERSCI EQU 0 ;ONE IF PERSCI DRIVE
LARGESW EQU 1 OR PERSCI ;ONE IF MAXI DRIVE
NBRDRV EQU 2 ;ONE TO FOUR (MUST BE SAME TYPE)
BIGIO EQU 1 ;ZERO IF NO LIST, NO PUNCH
SERIAL EQU 1 ;SERIAL PRINTER OPTION W/8250
;
VERS EQU 22 ;VERSION 2.2
MEMSIZ EQU 48 ;48K SYSTEM
MEMT EQU MEMSIZ*1024
MEMONES:EQU MEMSIZ-(MEMSIZ/10*10)
MEMTENS:EQU MEMSIZ/10
;
; THE FOLLOWING PARAMETER VALUES FOR VERSION 2.X (INCL. 2.2)
;
BOOTSIZ EQU 1*128
CCPSIZ EQU 16*128
BDOSIZ EQU 28*128
BIOSIZ EQU 12*128 ;7 ON DISK, EXCESS UNINITIALIZED RAM
STACK EQU MEMT
;
BIOS EQU MEMT-BIOSIZ
BDOS EQU BIOS-BDOSIZ
CCP EQU BDOS-CCPSIZ
BASE EQU 0 ;BASE OF USABLE RAM
IOBYTE EQU BASE+3 ;I/O DEVICE ASSIGNMENT BYTE
LOGDSK EQU BASE+4 ;WHERE CPM STORES DEFAULT DRIVE
FCB EQU BASE+5CH ;DEFAULT FILE CONTROL BLOCK
BUFF EQU BASE+80H ;DEFAULT DISK BUFFER
TPA EQU BASE+100H ;BASE OF TRANSIENT PGM AREA
;
; LOCATIONS AT SYSGEN TIME
;
SYSGEN EQU 900H
BOOTGEN EQU SYSGEN
CCPGEN EQU BOOTGEN+BOOTSIZ
BDOSGEN EQU CCPGEN+CCPSIZ
BIOSGEN EQU BDOSGEN+BDOSIZ
BIOSEND EQU BOOTGEN+(52*128)-1
OFFSET EQU CCPGEN-CCP
;
; CROMEMCO 4FDC I/O ASSIGNMENTS
;
CSTAT EQU 00H ;3P + S, 4FDC, TU-UART, OR SCC
CONDATA EQU 01H
CIMODE EQU 02H ;(3P + S DOESNT HAVE THESE)
CIMASK EQU 03H
PARPORT EQU 04H ;NOT USED
;
FDCSTAT EQU 30H ;4FDC OR CCS 2422 BOARD
FDCTRK EQU 31H
FDCSECT EQU 32H
FDCDATA EQU 33H
FDCFLAG EQU 34H
;
MBANKPT EQU 40H ;MEMORY BANKING PORT
;
; 1771/179X EQUATES
;
HDLOAD EQU 08H
VERIFY EQU 04H
;
IF BIGIO = 1
;
; OTHER DEFINITIONS (OPTIONAL)
;
BAUDRATE EQU 01H ;110 BAUD FOR READER ?
RFDCSTAT EQU 10H
RBAUDPORT EQU RFDCSTAT ;TU-UART BOARD FOR PAPER TAPE
RFDCDATA EQU RFDCSTAT+1
PFDCSTAT EQU 10H
PBAUDPORT EQU PFDCSTAT ;PAPER TAPE PUNCH ALSO
PFDCDATA EQU PFDCSTAT+1
LFDCSTAT EQU 54H ;PARALLEL PRINTER POARD
LFDCDATA EQU LFDCSTAT
ENDIF
TRUE EQU -1
FALSE EQU 0
NULLS EQU 6 ; NUMBER OF NULLS AFTER LF
LF EQU 0AH ; LINE FEED
SDATA EQU 20H ; DATA PORT
SINTEN EQU 21H ; INTERRUPT REGISTER
SIDENT EQU 22H ; INTERRUPT IDENTIFICATION
SLCTRL EQU 23H ; LINE CONTROL REGISTER
SMDMCT EQU 24H ; MODEM CONTROL REGISTER
SLSTAT EQU 25H ; LINE STATUS REGISTER
SMDMST EQU 26H ; MODEM STATUS REGISTER
SSTATP EQU 25H ; SERIAL PRINTER STATUS PORT (INPUT)
STBE EQU 20H ; SERIAL PRINTER TBE BIT
;
ORG BIOS
;
; CPM JUMP VECTOR ENTRY POINTS
;
JMP CBOOT
JMP WBOOT
JMP CONSTAT
JMP CONIN
JMP CONOUT
JMP LIST
JMP PUNCH
JMP READER
JMP HOME
JMP SELDSK
JMP SETTRK
JMP SETSEC
JMP SETDMA
JMP READ
JMP WRITE
JMP LISTAT
JMP SECTRAN
;
; CP/M 2.2 DISK CONTROL BLOCKS
;
DPBASE DW XLT8
DW 0000
DW 0000
DW 0000
DW DIRBUF
DW SD8PBLK
DW CSV0
DW ALV0
;
IF NBRDRV > 1
DW XLT8
DW 0000
DW 0000
DW 0000
DW DIRBUF
DW SD8PBLK
DW CSV1
DW ALV1
ENDIF
;
IF NBRDRV > 2
DW XLT8
DW 0000
DW 0000
DW 0000
DW DIRBUF
DW SD8PBLK
DW CSV2
DW ALV2
ENDIF
;
IF NBRDRV > 3
DW XLT8
DW 0000
DW 0000
DW 0000
DW DIRBUF
DW SD8PBLK
DW CSV3
DW ALV3
ENDIF
;
; disk parameter blockS, common to all disks
; this implements a "standard" CP/M directory
; with 64 entries, and 1K blocks.
;
SD8PBLK DW 26 ;sectors per track
DB 3 ;block shift factor
DB 7 ;block mask
DB 0 ;null mask
DW 242 ;disk size-1
DW 63 ;directory max
DW 00C0H ;INITIAL FREE SPACE MAP
DW 16 ;check size
DW 2 ;track offset
;
; this implements the cdos standard 5" single density
; 18 sectors (128 bytes) per track, 40 tracks, 3 reserved
; sectors, 83k of storage
;
SD5PBLK DW 18 ;sectors per track
DB 3 ;block shift factor
DB 7 ;block mask
DB 0 ;null mask
DW 82 ;disk size-1
DW 63 ;directory max
DW 00C0H ;INITIAL FREE SPACE MAP
DW 16 ;check size
DW 3 ;track offset
;
; sector translate vector
;
XLT8 DB 1,7,13,19,25,5,11,17,23,3,9,15,21
DB 2,8,14,20,26,6,12,18,24,4,10,16,22
;
XLT5 DB 1,6,11,16,3,8,13,18,5
DB 10,15,2,7,12,17,4,9,14
;
SIGNON DB 0DH,0AH,0AH
DB MEMTENS+30H
DB MEMONES+30H
DB 'k CP/M version 2.2'
DB 0DH,0AH,0
;
SELDSK: LXI H,0
MOV A,C ;C CONTAINS REQUESTED DRIVE NO.
CPI NBRDRV
RNC ;IGNORE IF TOO HIGH
STA DKNUMB
MOV L,C ;L=disk number 0,1,2,3
DAD H ;*2
DAD H ;*4
DAD H
DAD H ;*16 (size of each header)
LXI D,DPBASE
DAD D ;HL=.dpbase(diskno*16)
RET
;
;TRANSLATE SECTOR IN C USING TABLE AT DE
;
SECTRAN:MVI B,0
XCHG ;TABLE ADDR TO HL
DAD B ;GET ADDRESS
MOV L,M ;GET BYTE
MVI H,0 ;ANSWER IN HL
RET
;
SETSEC: MOV A,C ;JUST SAVE SECTOR NUMBER
STA DKSECT
RET
;
SETDMA: PUSH H
MOV L,C
MOV H,B
SHLD DKDMA
POP H
RET
;
; ERROR CHECKING READ AND WRITE RTNS FOR
; CROMEMCO CBIOS
;
READ: CALL CLEAR
RTYRD: CALL RD4FDC ;READ SECTOR
RZ ;SUCCESSFUL READ. RETURN
CALL ERROR ;INCREMENT RTYCNT
JNZ RTYRD ;RETRY 20 TIMES
ORI 01H ;CP/M CONVENTION FOR PERMANENT ERROR
RET
;
CLEAR: XRA A
STA TRKERCT ;ZERO OUT TRACK ERROR COUNTER
STA RTYCNT ;ZERO OUT CRC ERROR COUNTER
RET
;
WRITE: CALL CLEAR
RTYWRT: CALL WR4FDC ;WRITE SECTOR
RZ ;SUCCESSFUL WRITE. RETURN
CALL ERROR ;INCREMENT RTYCNT
JNZ RTYWRT ;RETRY 20 TIMES
ORI 01H ;CP/M CONVENTION FOR PERMANENT ERROR
RET
;
ERROR: PUSH H
ANI 10H ;CHECK FOR NRF
JNZ TRKERR
LXI H,RTYCNT
INR M ;INCREMENT RTYCNT
MOV A,M
POP H
SUI 20 ;20 TRIES?
RET
;
TRKERR: LXI H,TRKERCT
INR M ;INCREMENT NO OF TRACK ERRORS
MOV A,M
SUI 10 ;ALLOW ONLY 10 TRACK ERRORS
POP H
RZ ;IF >10, RETURN A FAILURE
PUSH B
CALL HOME ;HOME THE HEAD
LDA DKTRACK
MOV C,A ;GET TRACK IN C
CALL SETTRK ;RESEEK TO CORRECT TRACK
POP B
ORI 0FFH ;RETRY
RET
;
; RESTORE THE DISK TO TRACK ZERO
;
HOME: SUB A ;ZERO OUT TRACK COUNTER
STA DKTRACK
CALL DSKSEL ;NOW SELECT THE DISK
OUT FDCFLAG
MVI A,02H+HDLOAD+VERIFY ;USE SLOW STEPPING SPEED FOR ALL DISKS
OUT FDCSTAT
RSTI: IN FDCFLAG ;NOW CHECK STATUS
RAR
JNC RSTI ;LOOP BACK UNTIL DONE
JMP SEEKTST
;
; HERE, ACTUALLY DO THE READ OPERATION
;
RD4FDC: PUSH B
PUSH H ;FIRST, SAVE REGS
PUSH D
MVI E,88H ;READ COMMAND (VALID FOR 1771, 179X)
CALL INIT4FDC
RDI1: IN FDCFLAG ;NOW CHECK FLAGS
RAR
JC RDI3 ;IF PREMATURELY DONE, STOP
; INI
IN FDCDATA
MOV M,A
INX H
DCR B
;
JNZ RDI1 ;READ ANOTHER BYTE INTO CORE UNTIL DONE
RDI2: IN FDCFLAG ;CHECK FLAGS
RAR
JNC RDI2 ;LOOP UNTIL READY
RDI3: IN FDCSTAT ;NOW CHECK STATUS
ANI 9CH
RDWREND:EI
POP D ;RESTORE REGS
POP H
POP B
RET
;
; ACTUALLY DO WRITE OPERATION
;
WR4FDC: PUSH B
PUSH H ;SAVE REGS
PUSH D
MVI E,0A8H ;WRITE COMMAND (VALID FOR 1771, 179X)
CALL INIT4FDC
WRI1: IN FDCFLAG ;CHECK FLAGS
RAR
JC WRI3 ;IF PREMATURELY DONE, STOP
; OUTI
MOV A,M
OUT FDCDATA
INX H
DCR B
JNZ WRI1 ;WRITE DATA FROM MEMORY TIL DONE
WRI2: IN FDCFLAG ;CHECK FLAGS
RAR
JNC WRI2 ;LOOP TIL DONE WITH WHOLE OPERATION
WRI3: IN FDCSTAT ;NOW CHECK ERROR STATUS
ANI 0FCH
JMP RDWREND
;
; SET THE TRACK, AND MOVE DISK ARM THERE
;
SETTRK: MOV A,C
STA DKTRACK ;STORE THE TRACK NUMBER
SUB A
CALL DSKSEL ;NOW SELECT THE DISK
OUT FDCFLAG
MOV A,C
OUT FDCDATA ;TELL 1771 ABOUT TRACK WANTED
LDA DKSECT
OUT FDCSECT ;TELL IT ABOUT SECTOR WANTED
PUSH H
PUSH D
LXI H,DRVTBL ;NOW, SEE WHERE DISK ARM IS NOW
LDA DKNUMB
MOV E,A ;LOOK UP IN TABLE
MVI D,0
DAD D ;GET BYTE
MOV A,M
OUT FDCTRK ;TELL 1771 WHERE ARM IS NOW
MOV A,M
SUB C
POP D ;NOW CAN RESTORE THE REGS
POP H
RZ ;IF ALREADY AT THAT TRACK, QUIT
MVI A,12H-LARGESW*2+HDLOAD+VERIFY
OUT FDCSTAT ;PERFORM THE SEEK THAT IS NEEDED
SKI: IN FDCFLAG ;CHECK FLAGS
RAR
JNC SKI ;LOOP UNITL OPERATION DONE
SEEKTST:IN FDCSTAT ;NOW CHECK ERROR STATUS
ANI 98H
RNZ ;ZERO IS ALL OK
PUSH D
MVI D,0 ;UPDATE TRACK TABLE
LDA DKNUMB
MOV E,A ;WITH NEW POSITION
;
IF PERSCI = 1
CALL ADDSHFT ;PERSCI DRIVES HAVE ONLY ONE ARM
MOV A,E
XRI 01H
MOV E,A
CALL ADDSHFT
POP D
RET
ENDIF
;
ADDSHFT: ;IF NOT PERSCI, FALL THRU HERE
PUSH H
LXI H,DRVTBL ;GET CORRECT ADDRESS OF DISK
DAD D
LDA DKTRACK ;AND GET CURRENT TRACK NUMBER
MOV M,A
SUB A ;PUT IT IN
POP H
;
IF PERSCI = 0
POP D ;AND MISC CLEANUP
ENDIF
;
RET
;
; INITIALIZE THE 4FDC, BY SELECTING THE DISK AND
; TURNING ON THE DISK MOTORS, AND INITIALIZE THE
; REGISTERS FOR THE I/O OPERATION
;
INIT4FDC:
MVI A,80H ;FIRST, SELECT THE DISK
CALL DSKSEL
LHLD DKDMA ;INITIALIZE HL AND BC REGS FOR I/O
LXI B,8000H+FDCDATA ;80H IS 128 BYTE SECTORS
MOV D,A ;SAVE THE A REG
DI ;DISABLE INTERRUPTS
LDA DKSECT
OUT FDCSECT ;SET THE SECTOR WANTED
IN FDCFLAG
CMA ;SEE IF HEAD IS LOADED
ANI 20H
JZ IN0
MVI A,04H ;THIS IS THE HEAD LOAD BIT
IN0: ADD E ;ADD HEAD LOAD BIT TO COMMAND
MOV E,A
MOV A,D ;RESTORE THE A REG
OUT FDCFLAG
MOV A,E
OUT FDCSTAT ;OUTPUT THE COMMAND
RET
;
; FIGURE OUT WHICH DISK TO SELECT AND PUT BIT THERE
;
DSKSEL: PUSH B ;FIRST, SAVE THIS, ITS NEEDED
MOV C,A
LDA DKNUMB ;GET DISK NUMBER 0-3
MOV B,A
INR B ;ADD ONE
SUB A
STC ;SET A BIT IN TO BE SHIFTED
SHFTBIT:RAL ;NOW, ROTATE BITS OVER
; DJNZ SHFTBIT
DCR B
JNZ SHFTBIT
;
MOV B,A ;SAVE THE NEW VALUE
XRA A
ORI 20H+LARGESW*10H ;CONDITION 4FDC FOR MOTOR ON AND MAXI
ORA B
ORA C ;OR IN DRIVE SELECT AND COMMAND WANTED
POP B
RET
;
; GETS CONTROL ON A WARM START
;
WBOOT:
MVI A,01H ;FIRST, RESTORE DEFAULT BANKING
OUT MBANKPT
;
LXI SP,80H
LDA DKNUMB
STA CURDRV ;STORE SELECTED DRIVE
;
STARTBOOT:
MVI C,0
CALL SELDSK ;SELECT DRIVE A TO REBOOT
CALL HOME
LXI H,CCP-128 ;WILL INCREMENT BY 128 LATER
SHLD DKDMA
LXI B,44*256+1 ;SECTOR COUNT, FIRST SECTOR-1
RDSEC: MOV A,C ;C IS SECTOR NUMBER
CPI 18+LARGESW*8
JZ NXTTRK
LXI D,128 ;INCREMENT DMA ADDRESS
LHLD DKDMA
DAD D
SHLD DKDMA ;STORE DMA ADDRESS
INR C ;INCREMENT SECTOR NUMBER
CALL SETSEC
CALL READ ;READ THE DATA
JNZ WBOOT ;ON READ FAILURE TRY AGAIN
; DJNZ RDSEC
DCR B
JNZ RDSEC
JMP BOOT ;READ CCP AND BDOS;
NXTTRK: LDA DKTRACK
CPI 2-LARGESW
JZ BOOT ;STOP AT TRACK 2
MOV C,A
INR C ;SEEK NEXT TRACK IF NOT
CALL SETTRK
MVI C,0
JMP RDSEC
;
; GET HERE AFTER A COLD BOOT
;
CBOOT: LXI SP,80H ;INITIALIZE STACK FOR ROUTINE
LXI H,SIGNON
CALL PRMSG ;PRINT MESSAGE
BOOT: DI
MVI A,0C3H ;SET UP PARAMETERS ON PAGE 0
STA 0
LXI H,BIOS+3
SHLD 1
SHLD 7*8+1
STA 5
LXI H,BDOS+6
SHLD 6
;
; CROMEMCO INITIALIZATION HERE (READER, LIST NOT NEEDED)
; NOTE .. THE CONSOLE TUART IS INITIALIZED BY RDOS
;
IF BIGIO = 1
MVI A,BAUDRATE
OUT PBAUDPORT
ENDIF
;
IF SERIAL = 1
CALL L2INIT
ENDIF
;
LXI B,80H ;SET DEFAULT DMA ADDR
CALL SETDMA
;
LDA CURDRV ;RESELECT THE DRIVE THAT WAS ACTIVE
MOV C,A ; BEFORE THE WARM START
EI
JMP CCP
;
;
ERRMSG:
DB 13,10,'?? ERROR ??',13,10,0
;
;PRINT MESSAGE AT H,L UNTIL 0
;
PRMSG: MOV A,M
ORA A ;ZERO?
RZ
MOV C,A ;GO PRINT CHAR
CALL CONOUT
INX H ;GET NEXT CHAR
JMP PRMSG
;
;
;HARDWARE UART CONSOLE ROUTINES
;
CONSTAT:
IN CSTAT ;CHECK CONSOLE STATUS
ANI 40H
RZ ;ZERO MEANS NO INPUT BYTE READY
MVI A,0FFH
RET ;FF MEANS INPUT
;
CONIN:
CALL CONSTAT ;CHECK STATUS TIL GOT A BYTE
JZ CONIN
IN CONDATA ;READ THE BYTE AND KILL OFF 80H
ANI 7FH
;
; THE FOLLOWING CODE REPLACES THE DEL KEY WITH A CTRL-U,
; SO THAT DEL MEANS LINE DELETE. USE BACKSPACE TO DELETE
; A SINGLE CHARACTER.
;
; CPI 127 ; DEL
; RNZ
; SUI 127-21 ; CTRL-U
RET
;
; CONSOLE OUTPUT ROUTINE
;
CONOUT:
IN CSTAT ;FIRST, LOOP UNITL TRANSMITTER BUFFER
ANI 80H ;IS EMPTY
JZ CONOUT
MOV A,C ;NOW, OUTPUT CHARACTER TO CONSOLE
OUT CONDATA
RET
;
; LIST STATUS CHECK FOR CP/M 2.2
;
LISTAT:
IF BIGIO = 1
IN LFDCSTAT ;IF LIST TRANSMITTER IS BUSY,
CMA ;THEN RETURN WITH ZERO
ANI 20H
RZ
ORI 0FFH ;LIST TRANSMITTER BUFFER IS EMPTY
RET
ENDIF
;
LIST:
IF BIGIO = 1 AND SERIAL = 0
CALL LISTAT ;CHECK IF PRINTER BUSY
JZ LIST
MOV A,C ;NOW OUTPUT CHARACTER
; SET 7,A
ORI 80H
OUT LFDCDATA,A ;WITH HIGH STROBE
; RES 7,A
ANI 7FH
OUT LFDCDATA,A ;NOW LOW STROBE
; SET 7,A
ORI 80H
OUT LFDCDATA,A ;NOW HIGH STROBE AGAIN
RET
ENDIF
;
IF SERIAL = 1
MOV A,C
JMP L2OUT
ENDIF
;
PUNCH:
IF BIGIO = 1
IN PFDCSTAT ;CHECK IF PUNCH BUFFER EMPTY
ANI 80H
JZ PUNCH ;LOOP UNTIL READY
MOV A,C
OUT PFDCDATA ;OUTPUT CHARACTER
RET
ENDIF
;
READER:
IF BIGIO = 1
IN RFDCSTAT ;SEE IF READER BUFFER FULL
ANI 40H
JZ READER ;LOOP UNTIL FULL
IN RFDCDATA ;AND READ IT
RET
ENDIF
;
IF BIGIO NE 1
XRA A,A ;DUMMY ROUTINE FOR LIST,PUNCH,READER
RET
ENDIF
;
; Serial Printer Initialization Routine
;
L2INIT: MVI A,0FH ; SETUP THE 8250
OUT SMDMCT
MVI A,83H ; SET DIVISOR REGISTER ACCESS
OUT SLCTRL
MVI A,80H ; SET THE DIVISOR TO 384=300 BAUD
OUT SDATA
MVI A,01H ;
OUT SINTEN
MVI A,03H ; SET DATA REGISTER ACCESS
OUT SLCTRL
MVI A,0H ; DISABLE INTERRUPT
OUT SINTEN
OUT SLSTAT ; RESET ERROR FLAGS
RET
;
; Get Serial Printer Output Status
; Upon Exit: A = -1 (FFH) and Z-flag is reset if ready for char.
; A = 0 and Z-flag is set if not ready for character
;
L2RDY: IN SSTATP ; GET LIST-OUT STATUS
ANI STBE ; CHECK PRINTER TBE FLAG
RZ ; PRINTER NOT READY FOR CHARACTER
MVI A,-1 ; PRINTER READY FOR CHARACTER
RET
;
; Serial Printer Output Routine
; Upon Entry: A contains the character to be output
;
L2OUT: PUSH PSW ; SAVE CHARACTER FOR A MOMENT
L2OT30: CALL L2RDY ; GET LIST-OUT STATUS
JZ L2OT30 ; ZERO MEANS PRINTER BUSY
POP PSW ; RESTORE CHARACTER
OUT SDATA ; OUTPUT THE CHARACTER
CPI LF ; CHECK FOR END OF LINE
RNZ ; RETURN IF NOT LINE FEED CHARACTER
MVI A,NULLS+1 ; IF LF, GET NUMBER OF NULLS
L2RTN: DCR A ; CHECK FOR 0 NULLS AT TOP OF LOOP
RZ ; RETURN IF ALL NULLS OUTPUT
PUSH PSW ; SAVE NULLS COUNTER
SUB A ; PRINT A SINGLE NULL
CALL L2OUT ; CHARACTER (RECURSIVE)
POP PSW ; RESTORE NULLS COUNTER
JMP L2RTN ; LOOP TO PRINT NEXT NULL
;
DKNUMB EQU 4 ;THIS IS WHERE THE DISK NUMBER IS
;KEPT IN NORMAL CP/M
CURDRV DB 0 ;THE SAVE AREA FOR THE DEFAULT DRIVE
DRVTBL DB 2-LARGESW,0,0,0 ;FOUR DRIVES MAX
DKSECT DB 0 ;SECTOR NUMBER
DKTRACK DB 0 ;TRACK NUMBER
DKDMA DW 0 ;DMA ADDRESS
TRKERCT DB 0 ;NUMBER OF TRACK ERRORS
RTYCNT DB 0 ;NUMBER OF READ ERRORS
;
; FROM HERE ON, THE AREAS ARE INITIALIZED BY CP/M AS NEEDED
;
DIRBUF DS 128 ;SAVE AREA FOR DISK DIRECTORY OPERATIONS
ALV0 DS 32
;
IF NBRDRV > 1
ALV1 DS 32
ENDIF
;
IF NBRDRV > 2
ALV2 DS 32
ENDIF
;
IF NBRDRV > 3
ALV3 DS 32
ENDIF
;
CSV0 DS 16
;
IF NBRDRV > 1
CSV1 DS 16
ENDIF
;
IF NBRDRV > 2
CSV2 DS 16
ENDIF
;
IF NBRDRV > 3
CSV3 DS 16
ENDIF
;
; Note: The last assembled byte of this module MUST NOT be a Define
; Storage (DS or DEFS) pseudo-op to assure proper operation with CDOSGEN
END
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