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|
;* BUFFALO
;* "Bit User's Fast Friendly Aid to Logical Operation"
;*
;* Rev 2.0 - 4/23/85 - added disassembler.
;* - variables now PTRn and TMPn.
;* Rev 2.1 - 4/29/85 - added byte erase to chgbyt routine.
;* Rev 2.2 - 5/16/85 - added hooks for evb board - acia
;* drivers, init and host routines.
;* 7/8/85 - fixed dump wraparound problem.
;* 7/10/85 - added evm board commands.
;* - added fill instruction.
;* 7/18/85 - added jump to EEPROM.
;* Rev 2.3 - 8/22/85 - call targco to disconnect sci from host
;* in reset routine for evb board.
;* 10/3/85 - modified load for download through terminal.
;* Rev 2.4 - 7/1/86 - Changed DFLOP address to fix conflicts with
;* EEPROM. (was at A000)
;* Rev 2.5 - 9/8/86 - Modified to provide additional protection from
;* program run-away on power down. Also fixed bugs
;* in MM and MOVE. Changed to 1 stop bit from 2.
;* Rev 2.6 - 9/25/86 - Modified boot routine for variable length download
;* for use with 'HC11E8.
;* Rev 3.0 1/15/87 - EEPROM programming routines consolidated into WRITE.
;* Fill, Assem, and breakpoints will now do EEPROM.
;* - Added compare a to $0D to WSKIP routine.
;* 2/11/87 - Set up load to detect receiver error.
;* Rev 3.2 7/7/87 - Add disassembly to trace.
;* - Add entries to jump table.
;* 9/20/87 - Rewrote trace to use XIRQ, added STOPAT Command
;* 11/24/87- Write block protect reg for 'E9 version
;* - Modified variable length download for use
;* with 'E9 bootloader (XBOOT command)
;*
;*
;****************************************************
;* Although the information contained herein, *
;* as well as any information provided relative *
;* thereto, has been carefully reviewed and is *
;* believed accurate, Motorola assumes no *
;* liability arising out of its application or *
;* use, neither does it convey any license under *
;* its patent rights nor the rights of others. *
;****************************************************
CPU 6811
;***************
;* EQUATES *
;***************
RAMBS EQU $0000 ; start of ram
REGBS EQU $1000 ; start of registers
ROMBS EQU $E000 ; start of rom
STREE EQU $B600 ; start of eeprom
ENDEE EQU $B7FF ; end of eeprom
PORTE EQU REGBS+$0A ; port e
CFORC EQU REGBS+$0B ; force output compare
TCNT EQU REGBS+$0E ; timer count
TOC5 EQU REGBS+$1E ; oc5 reg
TCTL1 EQU REGBS+$20 ; timer control 1
TMSK1 EQU REGBS+$22 ; timer mask 1
TFLG1 EQU REGBS+$23 ; timer flag 1
TMSK2 EQU REGBS+$24 ; timer mask 2
BAUD EQU REGBS+$2B ; sci baud reg
SCCR1 EQU REGBS+$2C ; sci control1 reg
SCCR2 EQU REGBS+$2D ; sci control2 reg
SCSR EQU REGBS+$2E ; sci status reg
SCDAT EQU REGBS+$2F ; sci data reg
BPROT EQU REGBS+$35 ; block protect reg
OPTION EQU REGBS+$39 ; option reg
COPRST EQU REGBS+$3A ; cop reset reg
PPROG EQU REGBS+$3B ; ee prog reg
HPRIO EQU REGBS+$3C ; hprio reg
CONFIG EQU REGBS+$3F ; config register
DFLOP EQU $4000 ; evb d flip flop
DUART EQU $D000 ; duart address
PORTA EQU DUART
PORTB EQU DUART+8
ACIA EQU $9800 ; acia address
PROMPT EQU '>'
BUFFLNG EQU 35
CTLA EQU $01 ; exit host or assembler
CTLB EQU $02 ; send break to host
CTLW EQU $17 ; wait
CTLX EQU $18 ; abort
DEL EQU $7F ; abort
EOT EQU $04 ; end of text/table
SWI EQU $3F
;***************
;* RAM *
;***************
ORG $33
;*** Buffalo ram space ***
RMB 20 ; user stack area
USTACK RMB 30 ; monitor stack area
STACK RMB 1
REGS RMB 9 ; user's pc,y,x,a,b,c
SP RMB 2 ; user's sp
INBUFF RMB BUFFLNG ; input buffer
ENDBUFF EQU *
COMBUFF RMB 8 ; command buffer
SHFTREG RMB 2 ; input shift register
BRKTABL RMB 8 ; breakpoint table
AUTOLF RMB 1 ; auto lf flag for i/o
IODEV RMB 1 ; 0=sci, 1=acia, 2=duartA, 3=duartB
EXTDEV RMB 1 ; 0=none, 1=acia, 2=duart,
HOSTDEV RMB 1 ; 0=sci, 1=acia, 3=duartB
COUNT RMB 1 ; # characters read
CHRCNT RMB 1 ; # characters output on current line
PTRMEM RMB 2 ; current memory location
;*** Buffalo variables - used by: ***
PTR0 RMB 2 ; main,readbuff,incbuff,AS
PTR1 RMB 2 ; main,BR,DU,MO,AS,EX
PTR2 RMB 2 ; EX,DU,MO,AS
PTR3 RMB 2 ; EX,HO,MO,AS
PTR4 RMB 2 ; EX,AS
PTR5 RMB 2 ; EX,AS,BOOT
PTR6 RMB 2 ; EX,AS,BOOT
PTR7 RMB 2 ; EX,AS
PTR8 RMB 2 ; AS
TMP1 RMB 1 ; main,hexbin,buffarg,termarg
TMP2 RMB 1 ; GO,HO,AS,LOAD
TMP3 RMB 1 ; AS,LOAD
TMP4 RMB 1 ; TR,HO,ME,AS,LOAD
;*** Vector jump table ***
JSCI RMB 3
JSPI RMB 3
JPAIE RMB 3
JPAO RMB 3
JTOF RMB 3
JTOC5 RMB 3
JTOC4 RMB 3
JTOC3 RMB 3
JTOC2 RMB 3
JTOC1 RMB 3
JTIC3 RMB 3
JTIC2 RMB 3
JTIC1 RMB 3
JRTI RMB 3
JIRQ RMB 3
JXIRQ RMB 3
JSWI RMB 3
JILLOP RMB 3
JCOP RMB 3
JCLM RMB 3
;*****************
;*
;* ROM starts here *
;*
;*****************
ORG ROMBS
;*****************
;** BUFFALO - This is where Buffalo starts
;** out of reset. All initialization is done
;** here including determination of where the
;** user terminal is (SCI,ACIA, or DUART).
;*****************
BUFFALO LDX #PORTE
BRCLR 0,X,#01,BUFISIT ; if bit 0 of port e is 1
JMP $B600 ; then jump to the start of EEPROM
BUFISIT LDAA #$93
STAA OPTION ; adpu, dly, irqe, cop
LDAA #$00
STAA TMSK2 ; timer pre = %1 for trace
LDAA #$00
STAA BPROT ; clear 'E9 eeprom block protect
LDS #STACK ; monitor stack pointer
JSR VECINIT
LDX #USTACK
STX SP ; default user stack
LDAA TCTL1
ORAA #$03
STAA TCTL1 ; force oc5 pin high for trace
LDAA #$D0
STAA REGS+8 ; default user ccr
LDD #$3F0D ; initial command is ?
STD INBUFF
JSR BPCLR ; clear breakpoints
CLR AUTOLF
INC AUTOLF ; auto cr/lf = on
;* Determine type of external comm device - none, or acia *
CLR EXTDEV ; default is none
LDAA HPRIO
ANDA #$20
BEQ BUFF2 ; jump if single chip mode
LDAA #$03 ; see if external acia exists
STAA ACIA ; master reset
LDAA ACIA
ANDA #$7F ; mask irq bit from status register
BNE BUFF1 ; jump if status reg not 0
LDAA #$12
STAA ACIA ; turn on acia
LDAA ACIA
ANDA #$02
BEQ BUFF1 ; jump if tdre not set
LDAA #$01
STAA EXTDEV ; external device is acia
BRA BUFF2
BUFF1 EQU * ; see if duart exists
LDAA DUART+$0C ; read IRQ vector register
CMPA #$0F ; should be out of reset
BNE BUFF2
LDAA #$AA
STAA DUART+$0C ; write irq vector register
LDAA DUART+$0C ; read irq vector register
CMPA #$AA
BNE BUFF2
LDAA #$02
STAA EXTDEV ; external device is duart A
;* Find terminal port - SCI or external. *
BUFF2 CLR IODEV
JSR TARGCO ; disconnect sci for evb board
JSR SIGNON ; initialize sci
LDAA EXTDEV
BEQ BUFF3 ; jump if no external device
STAA IODEV
JSR SIGNON ; initialize external device
BUFF3 CLR IODEV
JSR INPUT ; get input from sci port
CMPA #$0D
BEQ BUFF4 ; jump if cr - sci is terminal port
LDAA EXTDEV
BEQ BUFF3 ; jump if no external device
STAA IODEV
JSR INPUT ; get input from external device
CMPA #$0D
BEQ BUFF4 ; jump if cr - terminal found ext
BRA BUFF3
SIGNON JSR INIT ; initialize device
LDX #MSG1 ; buffalo message
JSR OUTSTRG
RTS
;* Determine where host port should be. *
BUFF4 CLR HOSTDEV ; default - host = sci port
LDAA IODEV
CMPA #$01
BEQ BUFF5 ; default host if term = acia
LDAA #$03
STAA HOSTDEV ; else host is duart port b
BUFF5 EQU *
;*****************
;** MAIN - This module reads the user's input into
;** a buffer called INBUFF. The first field (assumed
;** to be the command field) is then parsed into a
;** second buffer called COMBUFF. The command table
;** is then searched for the contents of COMBUFF and
;** if found, the address of the corresponding task
;** routine is fetched from the command table. The
;** task is then called as a subroutine so that
;** control returns back to here upon completion of
;** the task. Buffalo expects the following format
;** for commands:
;** <cmd>[<wsp><arg><wsp><arg>...]<cr>
;** [] implies contents optional.
;** <wsp> means whitespace character (space,comma,tab).
;** <cmd> = command string of 1-8 characters.
;** <arg> = Argument particular to the command.
;** <cr> = Carriage return signifying end of input string.
;*****************
;* Prompt user
;*do
;* a=input();
;* if(a==(cntlx or del)) continue;
;* elseif(a==backspace)
;* b--;
;* if(b<0) b=0;
;* else
;* if(a==cr && buffer empty)
;* repeat last command;
;* else put a into buffer;
;* check if buffer full;
;*while(a != (cr or /)
MAIN LDS #STACK ; initialize sp every time
CLR AUTOLF
INC AUTOLF ; auto cr/lf = on
JSR OUTCRLF
LDAA #PROMPT ; prompt user
JSR OUTPUT
CLRB
MAIN1 JSR INCHAR ; read terminal
LDX #INBUFF
ABX ; pointer into buffer
CMPA #CTLX
BEQ MAIN ; jump if cntl X
CMPA #DEL
BEQ MAIN ; jump if del
CMPA #$08
BNE MAIN2 ; jump if not bckspc
DECB
BLT MAIN ; jump if buffer empty
BRA MAIN1
MAIN2 CMPA #$D
BNE MAIN3 ; jump if not cr
TSTB
BEQ COMM0 ; jump if buffer empty
STAA ,X ; put a in buffer
BRA COMM0
MAIN3 STAA ,X ; put a in buffer
INCB
CMPB #BUFFLNG
BLE MAIN4 ; jump if not long
LDX #MSG3 ; "long"
JSR OUTSTRG
BRA MAIN
MAIN4 CMPA #'/'
BNE MAIN1 ; jump if not "/"
;* *******************
;*****************
;* Parse out and evaluate the command field.
;*****************
;*Initialize
COMM0 EQU *
CLR TMP1 ; Enable "/" command
CLR SHFTREG
CLR SHFTREG+1
CLRB
LDX #INBUFF ; ptrbuff[] = inbuff[]
STX PTR0
JSR WSKIP ; find first char
;*while((a=readbuff) != (cr or wspace))
;* upcase(a);
;* buffptr[b] = a
;* b++
;* if (b > 8) error(too long);
;* if(a == "/")
;* if(enabled) mslash();
;* else error(command?);
;* else hexbin(a);
COMM1 EQU *
JSR READBUFF ; read from buffer
LDX #COMBUFF
ABX
JSR UPCASE ; convert to upper case
STAA ,X ; put in command buffer
CMPA #$0D
BEQ SRCH ; jump if cr
JSR WCHEK
BEQ SRCH ; jump if wspac
JSR INCBUFF ; move buffer pointer
INCB
CMPB #$8
BLE COMM2
LDX #MSG3 ; "long"
JSR OUTSTRG
JMP MAIN
COMM2 EQU *
CMPA #'/'
BNE COMM4 ; jump if not "/"
TST TMP1
BNE COMM3 ; jump if not enabled
DECB
STAB COUNT
LDX #MSLASH
JMP EXEC ; execute "/"
COMM3 LDX #MSG8 ; "command?"
JSR OUTSTRG
JMP MAIN
COMM4 EQU *
JSR HEXBIN
BRA COMM1
;*****************
;* Search tables for command. At this point,
;* COMBUFF holds the command field to be executed,
;* and B = # of characters in the command field.
;* The command table holds the whole command name
;* but only the first n characters of the command
;* must match what is in COMBUFF where n is the
;* number of characters entered by the user.
;*****************
;*count = b;
;*ptr1 = comtabl;
;*while(ptr1[0] != end of table)
;* ptr1 = next entry
;* for(b=1; b=count; b++)
;* if(ptr1[b] == combuff[b]) continue;
;* else error(not found);
;* execute task;
;* return();
;*return(command not found);
SRCH STAB COUNT ; size of command entered
LDX #COMTABL ; pointer to table
STX PTR1 ; pointer to next entry
SRCH1 LDX PTR1
LDY #COMBUFF ; pointer to command buffer
LDAB 0,X
CMPB #$FF
BNE SRCH2
LDX #MSG2 ; "command not found"
JSR OUTSTRG
JMP MAIN
SRCH2 PSHX ; compute next table entry
ADDB #$3
ABX
STX PTR1
PULX
CLRB
SRCHLP INCB ; match characters loop
LDAA 1,X ; read table
CMPA 0,Y ; compare to combuff
BNE SRCH1 ; try next entry
INX ; move pointers
INY
CMPB COUNT
BLT SRCHLP ; loop countu1 times
LDX PTR1
DEX
DEX
LDX 0,X ; jump address from table
EXEC JSR 0,X ; call task as subroutine
JMP MAIN
;*
;*****************
;* UTILITY SUBROUTINES - These routines
;* are called by any of the task routines.
;*****************
;*****************
;* UPCASE(a) - If the contents of A is alpha,
;* returns a converted to uppercase.
;*****************
UPCASE CMPA #'a'
BLT UPCASE1 ; jump if < a
CMPA #'z'
BGT UPCASE1 ; jump if > z
SUBA #$20 ; convert
UPCASE1 RTS
;*****************
;* BPCLR() - Clear all entries in the
;* table of breakpoints.
;*****************
BPCLR LDX #BRKTABL
LDAB #8
BPCLR1 CLR 0,X
INX
DECB
BGT BPCLR1 ; loop 8 times
RTS
;*****************
;* RPRNT1(x) - Prints name and contents of a single
;* user register. On entry X points to name of register
;* in reglist. On exit, a=register name.
;*****************
REGLIST FCC "PYXABCS" ; names
FCB 0,2,4,6,7,8,9 ; offset
FCB 1,1,1,0,0,0,1 ; size
RPRNT1 LDAA 0,X
PSHA
PSHX
JSR OUTPUT ; name
LDAA #'-'
JSR OUTPUT ; dash
LDAB 7,X ; contents offset
LDAA 14,X ; bytesize
LDX #REGS ; address
ABX
TSTA
BEQ RPRN2 ; jump if 1 byte
JSR OUT1BYT ; 2 bytes
RPRN2 JSR OUT1BSP
PULX
PULA
RTS
;*****************
;* RPRINT() - Print the name and contents
;* of all the user registers.
;*****************
RPRINT PSHX
LDX #REGLIST
RPRI1 JSR RPRNT1 ; print name
INX
CMPA #'S' ; s is last register
BNE RPRI1 ; jump if not done
PULX
RTS
;*****************
;* HEXBIN(a) - Convert the ASCII character in a
;* to binary and shift into shftreg. Returns value
;* in tmp1 incremented if a is not hex.
;*****************
HEXBIN PSHA
PSHB
PSHX
JSR UPCASE ; convert to upper case
CMPA #'0'
BLT HEXNOT ; jump if a < $30
CMPA #'9'
BLE HEXNMB ; jump if 0-9
CMPA #'A'
BLT HEXNOT ; jump if $39> a <$41
CMPA #'F'
BGT HEXNOT ; jump if a > $46
ADDA #$9 ; convert $A-$F
HEXNMB ANDA #$0F ; convert to binary
LDX #SHFTREG
LDAB #4
HEXSHFT ASL 1,X ; 2 byte shift through
ROL 0,X ; carry bit
DECB
BGT HEXSHFT ; shift 4 times
ORAA 1,X
STAA 1,X
BRA HEXRTS
HEXNOT INC TMP1 ; indicate not hex
HEXRTS PULX
PULB
PULA
RTS
;*****************
;* BUFFARG() - Build a hex argument from the
;* contents of the input buffer. Characters are
;* converted to binary and shifted into shftreg
;* until a non-hex character is found. On exit
;* shftreg holds the last four digits read, count
;* holds the number of digits read, ptrbuff points
;* to the first non-hex character read, and A holds
;* that first non-hex character.
;*****************
;*Initialize
;*while((a=readbuff()) not hex)
;* hexbin(a);
;*return();
BUFFARG CLR TMP1 ; not hex indicator
CLR COUNT ; # or digits
CLR SHFTREG
CLR SHFTREG+1
JSR WSKIP
BUFFLP JSR READBUFF ; read char
JSR HEXBIN
TST TMP1
BNE BUFFRTS ; jump if not hex
INC COUNT
JSR INCBUFF ; move buffer pointer
BRA BUFFLP
BUFFRTS RTS
;*****************
;* TERMARG() - Build a hex argument from the
;* terminal. Characters are converted to binary
;* and shifted into shftreg until a non-hex character
;* is found. On exit shftreg holds the last four
;* digits read, count holds the number of digits
;* read, and A holds the first non-hex character.
;*****************
;*initialize
;*while((a=inchar()) == hex)
;* if(a = cntlx or del)
;* abort;
;* else
;* hexbin(a); countu1++;
;*return();
TERMARG CLR COUNT
CLR SHFTREG
CLR SHFTREG+1
TERM0 JSR INCHAR
CMPA #CTLX
BEQ TERM1 ; jump if controlx
CMPA #DEL
BNE TERM2 ; jump if not delete
TERM1 JMP MAIN ; abort
TERM2 CLR TMP1 ; hex indicator
JSR HEXBIN
TST TMP1
BNE TERM3 ; jump if not hex
INC COUNT
BRA TERM0
TERM3 RTS
;*****************
;* CHGBYT() - If shftreg is not empty, put
;* contents of shftreg at address in X. If X
;* is an address in EEPROM then program it.
;*****************
;*if(count != 0)
;* (x) = a;
CHGBYT TST COUNT
BEQ CHGBYT4 ; quit if shftreg empty
LDAA SHFTREG+1 ; get data into a
JSR WRITE
CHGBYT4 RTS
;*****************
;* WRITE() - This routine is used to write the
;*contents of A to the address of X. If the
;*address is in EEPROM, it will be programmed
;*and if it is already programmed, it will be
;*byte erased first.
;******************
;*if(X is eeprom)then
;* if(not erased) then erase;
;* program (x) = A;
;*write (x) = A;
;*if((x) != A) error(rom);
WRITE EQU *
CPX #CONFIG
BEQ WRITE1 ; jump if config
CPX #STREE ; start of EE
BLO WRITE2 ; jump if not EE
CPX #ENDEE ; end of EE
BHI WRITE2 ; jump if not EE
WRITEE PSHB
LDAB 0,X
CMPB #$FF
PULB
BEQ WRITE1 ; jump if erased
JSR EEBYTE ; byte erase
WRITE1 JSR EEWRIT ; byte program
WRITE2 STAA 0,X ; write for non EE
CMPA 0,X
BEQ WRITE3 ; jump if write ok
PSHX
LDX #MSG6 ; "rom"
JSR OUTSTRG
PULX
WRITE3 RTS
;*****************
;* EEWRIT(), EEBYTE(), EEBULK() -
;* These routines are used to program and eeprom
;*locations. eewrite programs the address in X with
;*the value in A, eebyte does a byte address at X,
;*and eebulk does a bulk of eeprom. Whether eebulk
;*erases the config or not depends on the address it
;*receives in X.
;****************
EEWRIT EQU * ; program one byte at x
PSHB
LDAB #$02
STAB PPROG
STAA 0,X
LDAB #$03
BRA EEPROG
;***
EEBYTE EQU * ; byte erase address x
PSHB
LDAB #$16
STAB PPROG
LDAB #$FF
STAB 0,X
LDAB #$17
BRA EEPROG
;***
EEBULK EQU * ; bulk erase eeprom
PSHB
LDAB #$06
STAB PPROG
LDAB #$FF
STAB 0,X ; erase config or not
LDAB #$07 ; depends on X addr
EEPROG BNE ACL1
CLRB ; fail safe
ACL1 STAB PPROG
PULB
;***
DLY10MS EQU * ; delay 10ms at E = 2MHz
PSHX
LDX #$0D06
DLYLP DEX
BNE DLYLP
PULX
CLR PPROG
RTS
;*****************
;* READBUFF() - Read the character in INBUFF
;* pointed at by ptrbuff into A. Returns ptrbuff
;* unchanged.
;*****************
READBUFF PSHX
LDX PTR0
LDAA 0,X
PULX
RTS
;*****************
;* INCBUFF(), DECBUFF() - Increment or decrement
;* ptrbuff.
;*****************
INCBUFF PSHX
LDX PTR0
INX
BRA INCDEC
DECBUFF PSHX
LDX PTR0
DEX
INCDEC STX PTR0
PULX
RTS
;*****************
;* WSKIP() - Read from the INBUFF until a
;* non whitespace (space, comma, tab) character
;* is found. Returns ptrbuff pointing to the
;* first non-whitespace character and a holds
;* that character. WSKIP also compares a to
;* $0D (CR) and cond codes indicating the
;* results of that compare.
;*****************
WSKIP JSR READBUFF ; read character
JSR WCHEK
BNE WSKIP1 ; jump if not wspc
JSR INCBUFF ; move pointer
BRA WSKIP ; loop
WSKIP1 CMPA #$0D
RTS
;*****************
;* WCHEK(a) - Returns z=1 if a holds a
;* whitespace character, else z=0.
;*****************
WCHEK CMPA #$2C ; comma
BEQ WCHEK1
CMPA #$20 ; space
BEQ WCHEK1
CMPA #$09 ; tab
WCHEK1 RTS
;*****************
;* DCHEK(a) - Returns Z=1 if a = whitespace
;* or carriage return. Else returns z=0.
;*****************
DCHEK JSR WCHEK
BEQ DCHEK1 ; jump if whitespace
CMPA #$0D
DCHEK1 RTS
;*****************
;* CHKABRT() - Checks for a control x or delete
;* from the terminal. If found, the stack is
;* reset and the control is transferred to main.
;* Note that this is an abnormal termination.
;* If the input from the terminal is a control W
;* then this routine keeps waiting until any other
;* character is read.
;*****************
;*a=input();
;*if(a=cntl w) wait until any other key;
;*if(a = cntl x or del) abort;
CHKABRT JSR INPUT
BEQ CHK4 ; jump if no input
CMPA #CTLW
BNE CHK2 ; jump in not cntlw
CHKABRT1 JSR INPUT
BEQ CHKABRT1 ; jump if no input
CHK2 CMPA #DEL
BEQ CHK3 ; jump if delete
CMPA #CTLX
BEQ CHK3 ; jump if control x
CMPA #CTLA
BNE CHK4 ; jump not control a
CHK3 JMP MAIN ; abort
CHK4 RTS ; return
;***********************
;* HOSTCO - connect sci to host for evb board.
;* TARGCO - connect sci to target for evb board.
;***********************
HOSTCO PSHA
LDAA #$01
STAA DFLOP ; send 1 to d-flop
PULA
RTS
TARGCO PSHA
LDAA #$00
STAA DFLOP ; send 0 to d-flop
PULA
RTS
;*
;**********
;*
;* VECINIT - This routine checks for
;* vectors in the RAM table. All
;* uninitialized vectors are programmed
;* to JMP STOPIT
;*
;**********
;*
VECINIT LDX #JSCI ; Point to First RAM Vector
LDY #STOPIT ; Pointer to STOPIT routine
LDD #$7E03 ; A=JMP opcode; B=offset
VECLOOP CMPA 0,X
BEQ VECNEXT ; If vector already in
STAA 0,X ; install JMP
STY 1,X ; to STOPIT routine
VECNEXT ABX ; Add 3 to point at next vector
CPX #JCLM+3 ; Done?
BNE VECLOOP ; If not, continue loop
RTS
;*
STOPIT LDAA #$50 ; Stop-enable; IRQ, XIRQ-Off
TAP
STOP ; You are lost! Shut down
JMP STOPIT ; In case continue by XIRQ
;**********
;*
;* I/O MODULE
;* Communications with the outside world.
;* 3 I/O routines (INIT, INPUT, and OUTPUT) call
;* drivers specified by IODEV (0=SCI, 1=ACIA,
;* 2=DUARTA, 3=DUARTB).
;*
;**********
;* INIT() - Initialize device specified by iodev.
;*********
;*
INIT EQU *
PSHA ; save registers
PSHX
LDAA IODEV
CMPA #$00
BNE INIT1 ; jump not sci
JSR ONSCI ; initialize sci
BRA INIT4
INIT1 CMPA #$01
BNE INIT2 ; jump not acia
JSR ONACIA ; initialize acia
BRA INIT4
INIT2 LDX #PORTA
CMPA #$02
BEQ INIT3 ; jump duart a
LDX #PORTB
INIT3 JSR ONUART ; initialize duart
INIT4 PULX ; restore registers
PULA
RTS
;**********
;* INPUT() - Read device. Returns a=char or 0.
;* This routine also disarms the cop.
;**********
INPUT EQU *
PSHX
LDAA #$55 ; reset cop
STAA COPRST
LDAA #$AA
STAA COPRST
LDAA IODEV
BNE INPUT1 ; jump not sci
JSR INSCI ; read sci
BRA INPUT4
INPUT1 CMPA #$01
BNE INPUT2 ; jump not acia
JSR INACIA ; read acia
BRA INPUT4
INPUT2 LDX #PORTA
CMPA #$02
BEQ INPUT3 ; jump if duart a
LDX #PORTB
INPUT3 JSR INUART ; read uart
INPUT4 PULX
RTS
;**********
;* OUTPUT() - Output character in A.
;* chrcnt indicates the current column on the
;*output display. It is incremented every time
;*a character is outputted, and cleared whenever
;*the subroutine outcrlf is called.
;**********
OUTPUT EQU *
PSHA ; save registers
PSHB
PSHX
LDAB IODEV
BNE OUTPUT1 ; jump not sci
JSR OUTSCI ; write sci
BRA OUTPUT4
OUTPUT1 CMPB #$01
BNE OUTPUT2 ; jump not acia
JSR OUTACIA ; write acia
BRA OUTPUT4
OUTPUT2 LDX #PORTA
CMPB #$02
BEQ OUTPUT3 ; jump if duart a
LDX #PORTB
OUTPUT3 JSR OUTUART ; write uart
OUTPUT4 PULX
PULB
PULA
INC CHRCNT ; increment column count
RTS
;**********
;* ONUART(port) - Initialize a duart port.
;* Sets duart to internal clock, divide by 16,
;* 8 data + 1 stop bits.
;**********
ONUART LDAA #$22
STAA 2,X ; reset receiver
LDAA #$38
STAA 2,X ; reset transmitter
LDAA #$40
STAA 2,X ; reset error status
LDAA #$10
STAA 2,X ; reset pointer
LDAA #$00
STAA DUART+4 ; clock source
LDAA #$00
STAA DUART+5 ; interrupt mask
LDAA #$13
STAA 0,X ; 8 data, no parity
LDAA #$07
STAA 0,X ; 1 stop bits
LDAA #$BB ; baud rate (9600)
STAA 1,X ; tx and rcv baud rate
LDAA #$05
STAA 2,X ; enable tx and rcv
RTS
;**********
;* INUART(port) - Check duart for any input.
;**********
INUART LDAA 1,X ; read status
ANDA #$01 ; check rxrdy
BEQ INUART1 ; jump if no data
LDAA 3,X ; read data
ANDA #$7F ; mask parity
INUART1 RTS
;**********
;* OUTUART(port) - Output the character in a.
;* if autolf=1, transmits cr or lf as crlf.
;**********
OUTUART TST AUTOLF
BEQ OUTUART2 ; jump if no autolf
BSR OUTUART2
CMPA #$0D
BNE OUTUART1
LDAA #$0A ; if cr, output lf
BRA OUTUART2
OUTUART1 CMPA #$0A
BNE OUTUART3
LDAA #$0D ; if lf, output cr
OUTUART2 LDAB 1,X ; check status
ANDB #$4
BEQ OUTUART2 ; loop until tdre=1
ANDA #$7F ; mask parity
STAA 3,X ; send character
OUTUART3 RTS
;**********
;* ONSCI() - Initialize the SCI for 9600
;* baud at 8 MHz Extal.
;**********
ONSCI LDAA #$30
STAA BAUD ; baud register
LDAA #$00
STAA SCCR1
LDAA #$0C
STAA SCCR2 ; enable
RTS
;**********
;* INSCI() - Read from SCI. Return a=char or 0.
;**********
INSCI LDAA SCSR ; read status reg
ANDA #$20 ; check rdrf
BEQ INSCI1 ; jump if no data
LDAA SCDAT ; read data
ANDA #$7F ; mask parity
INSCI1 RTS
;**********
;* OUTSCI() - Output A to sci. IF autolf = 1,
;* cr and lf sent as crlf.
;**********
OUTSCI TST AUTOLF
BEQ OUTSCI2 ; jump if autolf=0
BSR OUTSCI2
CMPA #$0D
BNE OUTSCI1
LDAA #$0A ; if cr, send lf
BRA OUTSCI2
OUTSCI1 CMPA #$0A
BNE OUTSCI3
LDAA #$0D ; if lf, send cr
OUTSCI2 LDAB SCSR ; read status
BITB #$80
BEQ OUTSCI2 ; loop until tdre=1
ANDA #$7F ; mask parity
STAA SCDAT ; send character
OUTSCI3 RTS
;**********
;* ONACIA - Initialize the ACIA for
;* 8 data bits, 1 stop bit, divide by 64 clock.
;**********
ONACIA LDX #ACIA
LDAA #$03
STAA 0,X ; master reset
LDAA #$16
STAA 0,X ; setup
RTS
;**********
;* INACIA - Read from the ACIA, Return a=char or 0.
;* Tmp3 is used to flag overrun or framing error.
;**********
INACIA LDX #ACIA
LDAA 0,X ; read status register
PSHA
ANDA #$30 ; check ov, fe
PULA
BEQ INACIA1 ; jump - no error
LDAA #$01
STAA TMP3 ; flag receiver error
BRA INACIA2 ; read data to clear status
INACIA1 ANDA #$01 ; check rdrf
BEQ INACIA3 ; jump if no data
INACIA2 LDAA 1,X ; read data
ANDA #$7F ; mask parity
INACIA3 RTS
;**********
;* OUTACIA - Output A to acia. IF autolf = 1,
;* cr or lf sent as crlf.
;**********
OUTACIA BSR OUTACIA3 ; output char
TST AUTOLF
BEQ OUTACIA2 ; jump no autolf
CMPA #$0D
BNE OUTACIA1
LDAA #$0A
BSR OUTACIA3 ; if cr, output lf
BRA OUTACIA2
OUTACIA1 CMPA #$0A
BNE OUTACIA2
LDAA #$0D
BSR OUTACIA3 ; if lf, output cr
OUTACIA2 RTS
OUTACIA3 LDX #ACIA
LDAB 0,X
BITB #$2
BEQ OUTACIA3 ; loop until tdre
ANDA #$7F ; mask parity
STAA 1,X ; output
RTS
;*
;* Space for modifying OUTACIA routine
;*
FDB $FFFF,$FFFF,$FFFF,$FFFF
;*******************************
;*** I/O UTILITY SUBROUTINES ***
;***These subroutines perform the neccesary
;* data I/O operations.
;* OUTLHLF-Convert left 4 bits of A from binary
;* to ASCII and output.
;* OUTRHLF-Convert right 4 bits of A from binary
;* to ASCII and output.
;* OUT1BYT-Convert byte addresed by X from binary
;* to ASCII and output.
;* OUT1BSP-Convert byte addressed by X from binary
;* to ASCII and output followed by a space.
;* OUT2BSP-Convert 2 bytes addressed by X from binary
;* to ASCII and output followed by a space.
;* OUTSPAC-Output a space.
;*
;* OUTCRLF-Output a line feed and carriage return.
;*
;* OUTSTRG-Output the string of ASCII bytes addressed
;* by X until $04.
;* OUTA-Output the ASCII character in A.
;*
;* TABTO-Output spaces until column 20 is reached.
;*
;* INCHAR-Input to A and echo one character. Loops
;* until character read.
;* *******************
;
;**********
;* OUTRHLF(), OUTLHLF(), OUTA()
;*Convert A from binary to ASCII and output.
;*Contents of A are destroyed..
;**********
OUTLHLF LSRA ; shift data to right
LSRA
LSRA
LSRA
OUTRHLF ANDA #$0F ; mask top half
ADDA #$30 ; convert to ascii
CMPA #$39
BLE OUTA ; jump if 0-9
ADDA #$07 ; convert to hex A-F
OUTA JSR OUTPUT ; output character
RTS
;**********
;* OUT1BYT(x) - Convert the byte at X to two
;* ASCII characters and output. Return X pointing
;* to next byte.
;**********
OUT1BYT PSHA
LDAA 0,X ; get data in a
PSHA ; save copy
BSR OUTLHLF ; output left half
PULA ; retrieve copy
BSR OUTRHLF ; output right half
PULA
INX
RTS
;**********
;* OUT1BSP(x), OUT2BSP(x) - Output 1 or 2 bytes
;* at x followed by a space. Returns x pointing to
;* next byte.
;**********
OUT2BSP JSR OUT1BYT ; do first byte
OUT1BSP JSR OUT1BYT ; do next byte
OUTSPAC LDAA #$20 ; output a space
JSR OUTPUT
RTS
;**********
;* OUTCRLF() - Output a Carriage return and
;* a line feed. Returns a = cr.
;**********
OUTCRLF LDAA #$0D ; cr
JSR OUTPUT ; output a
LDAA #$00
JSR OUTPUT ; output padding
LDAA #$0D
CLR CHRCNT ; zero the column counter
RTS
;**********
;* OUTSTRG(x) - Output string of ASCII bytes
;* starting at x until end of text ($04). Can
;* be paused by control w (any char restarts).
;**********
OUTSTRG JSR OUTCRLF
OUTSTRG0 PSHA
OUTSTRG1 LDAA 0,X ; read char into a
CMPA #EOT
BEQ OUTSTRG3 ; jump if eot
JSR OUTPUT ; output character
INX
JSR INPUT
BEQ OUTSTRG1 ; jump if no input
CMPA #CTLW
BNE OUTSTRG1 ; jump if not cntlw
OUTSTRG2 JSR INPUT
BEQ OUTSTRG2 ; jump if any input
BRA OUTSTRG1
OUTSTRG3 PULA
RTS
;*********
;* TABTO() - move cursor over to column 20.
;*while(chrcnt < 16) outspac.
TABTO EQU *
PSHA
TABTOLP JSR OUTSPAC
LDAA CHRCNT
CMPA #20
BLE TABTOLP
PULA
RTS
;**********
;* INCHAR() - Reads input until character sent.
;* Echoes char and returns with a = char.
INCHAR JSR INPUT
TSTA
BEQ INCHAR ; jump if no input
JSR OUTPUT ; echo
RTS
;*********************
;*** COMMAND TABLE ***
COMTABL EQU *
FCB 5
FCC "ASSEM"
FDB ASSEM
FCB 5
FCC "BREAK"
FDB BREAK
FCB 4
FCC "BULK"
FDB BULK
FCB 7
FCC "BULKALL"
FDB BULKALL
FCB 4
FCC "CALL"
FDB CALL
FCB 4
FCC "DUMP"
FDB DUMP
FCB 4
FCC "FILL"
FDB FILL
FCB 2
FCC "GO"
FDB GO
FCB 4
FCC "HELP"
FDB HELP
FCB 4
FCC "HOST"
FDB HOST
FCB 4
FCC "LOAD"
FDB LOAD
FCB 6 ; LENGTH OF COMMAND
FCC "MEMORY" ; ASCII COMMAND
FDB MEMORY ; COMMAND ADDRESS
FCB 4
FCC "MOVE"
FDB MOVE
FCB 7
FCC "PROCEED"
FDB PROCEED
FCB 8
FCC "REGISTER"
FDB REGISTER
FCB 6
FCC "STOPAT"
FDB STOPAT
FCB 5
FCC "TRACE"
FDB TRACE
FCB 6
FCC "VERIFY"
FDB VERIFY
FCB 1
FCC "?" ; initial command
FDB HELP
FCB 5
FCC "XBOOT"
FDB BOOT
;*
;*** Command names for evm compatability ***
;*
FCB 3
FCC "ASM"
FDB ASSEM
FCB 2
FCC "BF"
FDB FILL
FCB 4
FCC "COPY"
FDB MOVE
FCB 5
FCC "ERASE"
FDB BULK
FCB 2
FCC "MD"
FDB DUMP
FCB 2
FCC "MM"
FDB MEMORY
FCB 2
FCC "RD"
FDB REGISTER
FCB 2
FCC "RM"
FDB REGISTER
FCB 4
FCC "READ"
FDB MOVE
FCB 2
FCC "TM"
FDB HOST
FCB 4
FCC "TEST"
FDB EVBTEST
FCB $FF
;*******************
;*** TEXT TABLES ***
MSG1 FCC "BUFFALO 3.2 (int) - Bit User Fast Friendly Aid to Logical Operation"
FCB EOT
MSG2 FCC "What?"
FCB EOT
MSG3 FCC "Too Long"
FCB EOT
MSG4 FCC "Full"
FCB EOT
MSG5 FCC "Op- "
FCB EOT
MSG6 FCC "rom-"
FCB EOT
MSG8 FCC "Command?"
FCB EOT
MSG9 FCC "Bad argument"
FCB EOT
MSG10 FCC "No host port available"
FCB EOT
MSG11 FCC "done"
FCB EOT
MSG12 FCC "checksum error"
FCB EOT
MSG13 FCC "error addr "
FCB EOT
MSG14 FCC "receiver error"
FCB EOT
;**********
;* break [-][<addr>] . . .
;* Modifies the breakpoint table. More than
;* one argument can be entered on the command
;* line but the table will hold only 4 entries.
;* 4 types of arguments are implied above:
;* break Prints table contents.
;* break <addr> Inserts <addr>.
;* break -<addr> Deletes <addr>.
;* break - Clears all entries.
;**********
;* while 1
;* a = wskip();
;* switch(a)
;* case(cr):
;* bprint(); return;
BREAK JSR WSKIP
BNE BRKDEL ; jump if not cr
JSR BPRINT ; print table
RTS
;* case("-"):
;* incbuff(); readbuff();
;* if(dchek(a)) /* look for wspac or cr */
;* bpclr();
;* breaksw;
;* a = buffarg();
;* if( !dchek(a) ) return(bad argument);
;* b = bpsrch();
;* if(b >= 0)
;* brktabl[b] = 0;
;* breaksw;
BRKDEL CMPA #'-'
BNE BRKDEF ; jump if not -
JSR INCBUFF
JSR READBUFF
JSR DCHEK
BNE BRKDEL1 ; jump if not delimeter
JSR BPCLR ; clear table
JMP BREAK ; do next argument
BRKDEL1 JSR BUFFARG ; get address to delete
JSR DCHEK
BEQ BRKDEL2 ; jump if delimeter
LDX #MSG9 ; "bad argument"
JSR OUTSTRG
RTS
BRKDEL2 JSR BPSRCH ; look for addr in table
TSTB
BMI BRKDEL3 ; jump if not found
LDX #BRKTABL
ABX
CLR 0,X ; clear entry
CLR 1,X
BRKDEL3 JMP BREAK ; do next argument
;* default:
;* a = buffarg();
;* if( !dchek(a) ) return(bad argument);
;* b = bpsrch();
;* if(b < 0) /* not already in table */
;* x = shftreg;
;* shftreg = 0;
;* a = x[0]; x[0] = $3F
;* b = x[0]; x[0] = a;
;* if(b != $3F) return(rom);
;* b = bpsrch(); /* look for hole */
;* if(b >= 0) return(table full);
;* brktabl[b] = x;
;* breaksw;
BRKDEF JSR BUFFARG ; get argument
JSR DCHEK
BEQ BRKDEF1 ; jump if delimiter
LDX #MSG9 ; "bad argument"
JSR OUTSTRG
RTS
BRKDEF1 JSR BPSRCH ; look for entry in table
TSTB
BGE BREAK ; jump if already in table
LDX SHFTREG ; x = new entry addr
LDAA 0,X ; save original contents
PSHA
LDAA #SWI
JSR WRITE ; write to entry addr
LDAB 0,X ; read back
PULA
JSR WRITE ; restore original
CMPB #SWI
BEQ BRKDEF2 ; jump if writes ok
STX PTR1 ; save address
LDX #PTR1
JSR OUT2BSP ; print address
JSR BPRINT
RTS
BRKDEF2 CLR SHFTREG
CLR SHFTREG+1
PSHX
JSR BPSRCH ; look for 0 entry
PULX
TSTB
BPL BRKDEF3 ; jump if table not full
LDX #MSG4 ; "full"
JSR OUTSTRG
JSR BPRINT
RTS
BRKDEF3 LDY #BRKTABL
ABY
STX 0,Y ; put new entry in
JMP BREAK ; do next argument
;**********
;* bprint() - print the contents of the table.
;**********
BPRINT JSR OUTCRLF
LDX #BRKTABL
LDAB #4
BPRINT1 JSR OUT2BSP
DECB
BGT BPRINT1 ; loop 4 times
RTS
;**********
;* bpsrch() - search table for address in
;* shftreg. Returns b = index to entry or
;* b = -1 if not found.
;**********
;*for(b=0; b=6; b=+2)
;* x[] = brktabl + b;
;* if(x[0] = shftreg)
;* return(b);
;*return(-1);
BPSRCH CLRB
BPSRCH1 LDX #BRKTABL
ABX
LDX 0,X ; get table entry
CPX SHFTREG
BNE BPSRCH2 ; jump if no match
RTS
BPSRCH2 INCB
INCB
CMPB #$6
BLE BPSRCH1 ; loop 4 times
LDAB #$FF
RTS
;**********
;* bulk - Bulk erase the eeprom not config.
;* bulkall - Bulk erase eeprom and config.
;*********
BULK EQU *
LDX #$B600
BRA BULK1
BULKALL LDX #CONFIG
BULK1 LDAA #$FF
JSR EEBULK
RTS
;**********
;* dump [<addr1> [<addr2>]] - Dump memory
;* in 16 byte lines from <addr1> to <addr2>.
;* Default starting address is "current
;* location" and default number of lines is 8.
;**********
;*ptr1 = ptrmem; /* default start address */
;*ptr2 = ptr1 + $80; /* default end address */
;*a = wskip();
;*if(a != cr)
;* a = buffarg();
;* if(countu1 = 0) return(bad argument);
;* if( !dchek(a) ) return(bad argument);
;* ptr1 = shftreg;
;* ptr2 = ptr1 + $80; /* default end address */
;* a = wskip();
;* if(a != cr)
;* a = buffarg();
;* if(countu1 = 0) return(bad argument);
;* a = wskip();
;* if(a != cr) return(bad argument);
;* ptr2 = shftreg;
DUMP LDX PTRMEM ; current location
STX PTR1 ; default start
LDAB #$80
ABX
STX PTR2 ; default end
JSR WSKIP
BEQ DUMP1 ; jump - no arguments
JSR BUFFARG ; read argument
TST COUNT
BEQ DUMPERR ; jump if no argument
JSR DCHEK
BNE DUMPERR ; jump if delimiter
LDX SHFTREG
STX PTR1
LDAB #$80
ABX
STX PTR2 ; default end address
JSR WSKIP
BEQ DUMP1 ; jump - 1 argument
JSR BUFFARG ; read argument
TST COUNT
BEQ DUMPERR ; jump if no argument
JSR WSKIP
BNE DUMPERR ; jump if not cr
LDX SHFTREG
STX PTR2
BRA DUMP1 ; jump - 2 arguments
DUMPERR LDX #MSG9 ; "bad argument"
JSR OUTSTRG
RTS
;*ptrmem = ptr1;
;*ptr1 = ptr1 & $fff0;
DUMP1 LDD PTR1
STD PTRMEM ; new current location
ANDB #$F0
STD PTR1 ; start dump at 16 byte boundary
;*** dump loop starts here ***
;*do:
;* output address of first byte;
DUMPLP JSR OUTCRLF
LDX #PTR1
JSR OUT2BSP ; first address
;* x = ptr1;
;* for(b=0; b=16; b++)
;* output contents;
LDX PTR1 ; base address
CLRB ; loop counter
DUMPDAT JSR OUT1BSP ; hex value loop
INCB
CMPB #$10
BLT DUMPDAT ; loop 16 times
;* x = ptr1;
;* for(b=0; b=16; b++)
;* a = x[b];
;* if($7A < a < $20) a = $20;
;* output ascii contents;
CLRB ; loop counter
DUMPASC LDX PTR1 ; base address
ABX
LDAA ,X ; ascii value loop
CMPA #$20
BLO DUMP3 ; jump if non printable
CMPA #$7A
BLS DUMP4 ; jump if printable
DUMP3 LDAA #$20 ; space for non printables
DUMP4 JSR OUTPUT ; output ascii value
INCB
CMPB #$10
BLT DUMPASC ; loop 16 times
;* chkabrt();
;* ptr1 = ptr1 + $10;
;*while(ptr1 <= ptr2);
;*return;
JSR CHKABRT ; check abort or wait
LDD PTR1
ADDD #$10 ; point to next 16 byte bound
STD PTR1 ; update ptr1
CPD PTR2
BHI DUMP5 ; quit if ptr1 > ptr2
CPD #$00 ; check wraparound at $ffff
BNE DUMPLP ; jump - no wraparound
LDD PTR2
CPD #$FFF0
BLO DUMPLP ; upper bound not at top
DUMP5 RTS ; quit
;**********
;* fill <addr1> <addr2> [<data>] - Block fill
;*memory from addr1 to addr2 with data. Data
;*defaults to $FF.
;**********
;*get addr1 and addr2
FILL EQU *
JSR WSKIP
JSR BUFFARG
TST COUNT
BEQ FILLERR ; jump if no argument
JSR WCHEK
BNE FILLERR ; jump if bad argument
LDX SHFTREG
STX PTR1 ; address1
JSR WSKIP
JSR BUFFARG
TST COUNT
BEQ FILLERR ; jump if no argument
JSR DCHEK
BNE FILLERR ; jump if bad argument
LDX SHFTREG
STX PTR2 ; address2
;*Get data if it exists
LDAA #$FF
STAA TMP2 ; default data
JSR WSKIP
BEQ FILL1 ; jump if default data
JSR BUFFARG
TST COUNT
BEQ FILLERR ; jump if no argument
JSR WSKIP
BNE FILLERR ; jump if bad argument
LDAA SHFTREG+1
STAA TMP2
;*while(ptr1 <= ptr2)
;* *ptr1 = data
;* if(*ptr1 != data) abort
FILL1 EQU *
JSR CHKABRT ; check for abort
LDX PTR1 ; starting address
LDAA TMP2 ; data
JSR WRITE ; write the data to x
CMPA 0,X
BNE FILLBAD ; jump if no write
CPX PTR2
BEQ FILL2 ; quit yet?
INX
STX PTR1
BRA FILL1 ; loop
FILL2 RTS
FILLERR LDX #MSG9 ; "bad argument"
JSR OUTSTRG
RTS
FILLBAD EQU *
LDX #PTR1 ; output bad address
JSR OUT2BSP
RTS
;**********
;* call [<addr>] - Execute a jsr to <addr> or user
;*pc value. Return to monitor via rts or breakpoint.
;**********
;*a = wskip();
;*if(a != cr)
;* a = buffarg();
;* a = wskip();
;* if(a != cr) return(bad argument)
;* pc = shftreg;
CALL JSR WSKIP
BEQ CALL3 ; jump if no arg
JSR BUFFARG
JSR WSKIP
BEQ CALL2 ; jump if cr
LDX #MSG9 ; "bad argument"
JSR OUTSTRG
RTS
CALL2 LDX SHFTREG
STX REGS ; pc = <addr>
;*put return address on user stack
;*setbps();
;*restack(); /* restack and go*/
CALL3 LDX SP
DEX ; user stack pointer
LDD #RETURN ; return address
STD 0,X
DEX
STX SP ; new user stack pointer
JSR SETBPS
CLR TMP2 ; 1=go, 0=call
JMP RESTACK ; go to user code
;**********
;* return() - Return here from rts after
;*call command.
;**********
RETURN PSHA ; save a register
TPA
STAA REGS+8 ; cc register
PULA
STD REGS+6 ; a and b registers
STX REGS+4 ; x register
STY REGS+2 ; y register
STS SP ; user stack pointer
LDS PTR2 ; monitor stack pointer
JSR REMBPS ; remove breakpoints
JSR OUTCRLF
JSR RPRINT ; print user registers
RTS
;**********
;* proceed - Same as go except it ignores
;*a breakpoint at the first opcode. Calls
;*runone for the first instruction only.
;**********
PROCEED EQU *
JSR RUNONE ; run one instruction
JSR CHKABRT ; check for abort
CLR TMP2 ; flag for breakpoints
INC TMP2 ; 1=go 0=call
JSR SETBPS
JMP RESTACK ; go execute
;**********
;* go [<addr>] - Execute starting at <addr> or
;*user's pc value. Executes an rti to user code.
;*Returns to monitor via an swi through swiin.
;**********
;*a = wskip();
;*if(a != cr)
;* a = buffarg();
;* a = wskip();
;* if(a != cr) return(bad argument)
;* pc = shftreg;
;*setbps();
;*restack(); /* restack and go*/
GO JSR WSKIP
BEQ GO2 ; jump if no arg
JSR BUFFARG
JSR WSKIP
BEQ GO1 ; jump if cr
LDX #MSG9 ; "bad argument"
JSR OUTSTRG
RTS
GO1 LDX SHFTREG
STX REGS ; pc = <addr>
GO2 CLR TMP2
INC TMP2 ; 1=go, 0=call
JSR SETBPS
JMP RESTACK ; go to user code
;*****
;** SWIIN - Breakpoints from go or call commands enter here.
;*Remove breakpoints, save user registers, return
SWIIN EQU * ; swi entry point
TSX ; user sp -> x
LDS PTR2 ; restore monitor sp
JSR SAVSTACK ; save user regs
JSR REMBPS ; remove breakpoints from code
LDX REGS
DEX
STX REGS ; save user pc value
;*if(call command) remove call return addr from user stack;
TST TMP2 ; 1=go, 0=call
BNE GO3 ; jump if go command
LDX SP ; remove return address
INX ; user stack pointer
INX
STX SP
GO3 JSR OUTCRLF ; print register values
JSR RPRINT
RTS ; done
;**********
;* setbps - Replace user code with swi's at
;*breakpoint addresses.
;**********
;*for(b=0; b=6; b =+ 2)
;* x = brktabl[b];
;* if(x != 0)
;* optabl[b] = x[0];
;* x[0] = $3F;
;*Put monitor SWI vector into jump table
SETBPS CLRB
SETBPS1 LDX #BRKTABL
LDY #PTR4
ABX
ABY
LDX 0,X ; breakpoint table entry
BEQ SETBPS2 ; jump if 0
LDAA 0,X ; save user opcode
STAA 0,Y
LDAA #SWI
JSR WRITE ; insert swi into code
SETBPS2 ADDB #$2
CMPB #$6
BLE SETBPS1 ; loop 4 times
LDX JSWI+1
STX PTR3 ; save user swi vector
LDAA #$7E ; jmp opcode
STAA JSWI
LDX #SWIIN
STX JSWI+1 ; monitor swi vector
RTS
;**********
;* rembps - Remove breakpoints from user code.
;**********
;*for(b=0; b=6; b =+ 2)
;* x = brktabl[b];
;* if(x != 0)
;* x[0] = optabl[b];
;*Replace user's SWI vector
REMBPS CLRB
REMBPS1 LDX #BRKTABL
LDY #PTR4
ABX
ABY
LDX 0,X ; breakpoint table entry
BEQ REMBPS2 ; jump if 0
LDAA 0,Y
JSR WRITE ; restore user opcode
REMBPS2 ADDB #$2
CMPB #$6
BLE REMBPS1 ; loop 4 times
LDX PTR3 ; restore user swi vector
STX JSWI+1
RTS
;**********
;* trace <n> - Trace n instructions starting
;*at user's pc value. n is a hex number less than
;*$FF (defaults to 1).
;**********
;*a = wskip();
;*if(a != cr)
;* a = buffarg(); a = wskip();
;* if(a != cr) return(bad argument);
;* countt1 = n
TRACE CLR TMP4
INC TMP4 ; default count=1
CLR CHRCNT ; set up for display
JSR WSKIP
BEQ TRACE2 ; jump if cr
JSR BUFFARG
JSR WSKIP
BEQ TRACE1 ; jump if cr
LDX #MSG9 ; "bad argument"
JSR OUTSTRG
RTS
TRACE1 LDAA SHFTREG+1 ; n
STAA TMP4
;*Disassemble the line about to be traced
TRACE2 EQU *
LDAB TMP4
PSHB
LDX REGS
STX PTR1 ; pc value for disass
JSR DISASSM
PULB
STAB TMP4
;*run one instruction
;*rprint();
;*while(count > 0) continue trace;
JSR RUNONE
JSR CHKABRT ; check for abort
JSR TABTO ; print registers for
JSR RPRINT ; result of trace
DEC TMP4
BEQ TRACDON ; quit if count=0
TRACE3 JSR OUTCRLF
BRA TRACE2
TRACDON RTS
;**********
;* stopat <addr> - Trace instructions until <addr>
;*is reached.
;**********
;*if((a=wskip) != cr)
;* a = buffarg(); a = wskip();
;* if(a != cr) return(bad argument);
;*else return(bad argument);
STOPAT EQU *
JSR WSKIP
BEQ STOPGO ; jump if cr - no argument
JSR BUFFARG
JSR WSKIP
BEQ STOPAT1 ; jump if cr
LDX #MSG9 ; "bad argument"
JSR OUTSTRG
RTS
STOPAT1 TST COUNT
BEQ STOPGO ; jump if no argument
LDX SHFTREG
STX PTRMEM ; update "current location"
;*while(!(ptrmem <= userpc < ptrmem+10)) runone();
;*rprint();
STOPGO LDD REGS ; userpc
CPD PTRMEM
BLO STOPNEXT ; if(userpc < ptrmem) runone
LDD PTRMEM
ADDD #10
CPD REGS
BHI STOPDON ; quit if ptrmem+10 > userpc
STOPNEXT JSR RUNONE
JSR CHKABRT ; check for abort
BRA STOPGO
STOPDON JSR OUTCRLF
JSR RPRINT ; result of trace
RTS ; done
;*************************
;* runone - This routine is used by the trace and
;* execute commands to run one only one user instruction.
;* Control is passed to the user code via an RTI. OC5
;* is then used to trigger an XIRQ as soon as the first user
;* opcode is fetched. Control then returns to the monitor
;* through XIRQIN.
;* Externally, the OC5 pin must be wired to the XIRQ pin.
;************************
;* Disable oc5 interrupts
;* Put monitor XIRQ vector into jump table
;* Unmask x bit in user ccr
;* Setup OC5 to go low when first user instruction executed
RUNONE EQU *
LDAA #$7E ; put "jmp xirqin" in jump table
STAA JTOC5
LDX #XIRQIN
STX JXIRQ+1
LDAA REGS+8 ; x bit will be cleared when
ANDA #$BF ; rti is executed below
STAA REGS+8
LDAB #87 ; cycles to end of rti
LDX TCNT
ABX ; 3~ \
STX TOC5 ; oc5 match register 5~ \
LDAA TCTL1 ; 4~ \
ANDA #$FE ; set up oc5 low on match 2~ \
STAA TCTL1 ; enable oc5 interrupt 4~ / 86~
;** RESTACK - Restore user stack and RTI to user code.
;* This code is the pathway to execution of user code.
;*(Force extended addressing to maintain cycle count)
;*Restore user stack and rti to user code
RESTACK EQU * ; 68~
STS >PTR2 ; save monitor sp
LDS >SP ; user stack pointer
LDX >REGS
PSHX ; pc
LDX >REGS+2
PSHX ; y
LDX >REGS+4
PSHX ; x
LDD >REGS+6
PSHA ; a
PSHB ; b
LDAA >REGS+8
PSHA ; ccr
RTI
;** Return here from run one line of user code.
XIRQIN EQU *
TSX ; user sp -> x
LDS PTR2 ; restore monitor sp
;** SAVSTACK - Save user's registers.
;* On entry - x points to top of user stack.
SAVSTACK EQU *
LDAA 0,X
STAA REGS+8 ; user ccr
LDD 1,X
STAA REGS+7 ; b
STAB REGS+6 ; a
LDD 3,X
STD REGS+4 ; x
LDD 5,X
STD REGS+2 ; y
LDD 7,X
STD REGS ; pc
LDAB #8
ABX
STX SP ; user stack pointer
LDAA TCTL1 ; force oc5 pin high which
ORAA #$03 ; is tied to xirq line
STAA TCTL1
LDAA #$08
STAA CFORC
RTS
;**********
;* help - List buffalo commands to terminal.
;**********
HELP EQU *
LDX #HELPMSG1
JSR OUTSTRG ; print help screen
RTS
HELPMSG1 EQU *
FCC "ASM [<addr>] Line assembler/disassembler."
FCB $0D
FCC " / Do same address. ^ Do previous address."
FCB $0D
FCC " CTRL-J Do next address. RETURN Do next opcode."
FCB $0D
FCC " CTRL-A Quit."
FCB $0D
FCC "BF <addr1> <addr2> [<data>] Block fill."
FCB $0D
FCC "BR [-][<addr>] Set up breakpoint table."
FCB $0D
FCC "BULK Erase the EEPROM. BULKALL Erase EEPROM and CONFIG."
FCB $0D
FCC "CALL [<addr>] Call user subroutine. G [<addr>] Execute user code."
FCB $0D
FCC "LOAD, VERIFY [T] <host download command> Load or verify S-records."
FCB $0D
FCC "MD [<addr1> [<addr2>]] Memory dump."
FCB $0D
FCC "MM [<addr>] Memory modify."
FCB $0D
FCC " / Open same address. CTRL-H or ^ Open previous address."
FCB $0D
FCC " CTRL-J Open next address. SPACE Open next address."
FCB $0D
FCC " RETURN Quit. <addr>O Compute offset to <addr>."
FCB $0D
FCC "MOVE <s1> <s2> [<d>] Block move."
FCB $0D
FCC "P Proceed/continue execution."
FCB $0D
FCC "RM [P, Y, X, A, B, C, or S] Register modify."
FCB $0D
FCC "T [<n>] Trace n instructions."
FCB $0D
FCC "TM Transparent mode (CTRL-A = exit, CTRL-B = send break)."
FCB $0D
FCC "CTRL-H Backspace. CTRL-W Wait for any key."
FCB $0D
FCC "CTRL-X or DELETE Abort/cancel command."
FCB $0D
FCC "RETURN Repeat last command."
FCB 4
;**********
;* HOST() - Establishes transparent link between
;* terminal and host. Port used for host is
;* determined in the reset initialization routine
;* and stored in HOSTDEV.
;* To exit type control A.
;* To send break to host type control B.
;*if(no external device) return;
;*initialize host port;
;*While( !(control A))
;* input(terminal); output(host);
;* input(host); output(terminal);
HOST LDAA EXTDEV
BNE HOST0 ; jump if host port avail.
LDX #MSG10 ; "no host port avail"
JSR OUTSTRG
RTS
HOST0 CLR AUTOLF ; turn off autolf
JSR HOSTCO ; connect sci (evb board)
JSR HOSTINIT ; initialize host port
HOST1 JSR INPUT ; read terminal
TSTA
BEQ HOST3 ; jump if no char
CMPA #CTLA
BEQ HOSTEND ; jump if control a
CMPA #CTLB
BNE HOST2 ; jump if not control b
JSR TXBREAK ; send break to host
BRA HOST3
HOST2 JSR HOSTOUT ; echo to host
HOST3 JSR HOSTIN ; read host
TSTA
BEQ HOST1 ; jump if no char
JSR OUTPUT ; echo to terminal
BRA HOST1
HOSTEND INC AUTOLF ; turn on autolf
JSR TARGCO ; disconnect sci (evb board)
RTS ; return
;**********
;* txbreak() - transmit break to host port.
;* The duration of the transmitted break is
;* approximately 200,000 E-clock cycles, or
;* 100ms at 2.0 MHz.
;***********
TXBREAK EQU *
LDAA HOSTDEV
CMPA #$03
BEQ TXBDU ; jump if duartb is host
TXBSCI LDX #SCCR2 ; sci is host
BSET 0,X,#01 ; set send break bit
BSR TXBWAIT
BCLR 0,X,#01 ; clear send break bit
BRA TXB1
TXBDU LDX #PORTB ; duart host port
LDAA #$60 ; start break cmd
STAA 2,X ; port b command register
BSR TXBWAIT
LDAA #$70 ; stop break cmd
STAA 2,X ; port b command register
TXB1 LDAA #$0D
JSR HOSTOUT ; send carriage return
LDAA #$0A
JSR HOSTOUT ; send linefeed
RTS
TXBWAIT LDY #$6F9B ; loop count = 28571
TXBWAIT1 DEY ; 7 cycle loop
BNE TXBWAIT1
RTS
;**********
;* hostinit(), hostin(), hostout() - host i/o
;*routines. Restores original terminal device.
;**********
HOSTINIT LDAB IODEV ; save terminal
PSHB
LDAB HOSTDEV
STAB IODEV ; point to host
JSR INIT ; initialize host
BRA TERMRES ; restore terminal
HOSTIN LDAB IODEV ; save terminal
PSHB
LDAB HOSTDEV
STAB IODEV ; point to host
JSR INPUT ; read host
BRA TERMRES ; restore terminal
HOSTOUT LDAB IODEV ; save terminal
PSHB
LDAB HOSTDEV
STAB IODEV ; point to host
JSR OUTPUT ; write to host
TERMRES PULB ; restore terminal device
STAB IODEV
RTS
;**********
;* load(ptrbuff[]) - Load s1/s9 records from
;*host to memory. Ptrbuff[] points to string in
;*input buffer which is a command to output s1/s9
;*records from the host ("cat filename" for unix).
;* Returns error and address if it can't write
;*to a particular location.
;**********
;* verify(ptrbuff[]) - Verify memory from load
;*command. Ptrbuff[] is same as for load.
;* tmp3 is used as an error indication, 0=no errors,
;* 1=receiver, 2=rom error, 3=checksum error.
;**********
VERIFY CLR TMP2
INC TMP2 ; TMP2=1=verify
BRA LOAD1
LOAD CLR TMP2 ; 0=load
;*a=wskip();
;*if(a = cr) goto transparent mode;
;*if(t option) hostdev = iodev;
LOAD1 CLR TMP3 ; clear error flag
JSR WSKIP
BNE LOAD2
JMP HOST ; go to host if no args
LOAD2 JSR UPCASE
CMPA #'T' ; look for t option
BNE LOAD3 ; jump not t option
JSR INCBUFF
JSR READBUFF ; get next character
JSR DECBUFF
CMPA #$0D
BNE LOAD3 ; jump if not t option
CLR AUTOLF
LDAA IODEV
STAA HOSTDEV ; set host port = terminal
BRA LOAD10 ; go wait for s1 records
;*else while(not cr)
;* read character from input buffer;
;* send character to host;
LOAD3 CLR AUTOLF
JSR HOSTCO ; connect sci (evb board)
JSR HOSTINIT ; initialize host port
LOAD4 JSR READBUFF ; get next char
JSR INCBUFF
PSHA ; save char
JSR HOSTOUT ; output to host
JSR OUTPUT ; echo to terminal
PULA
CMPA #$0D
BNE LOAD4 ; jump if not cr
;*repeat: /* look for s records */
;* if(hostdev != iodev) check abort;
;* a = hostin();
;* if(a = 'S')
;* a = hostin;
;* if(a = '1')
;* checksum = 0;
;* get byte count in b;
;* get base address in x;
;* while(byte count > 0)
;* byte();
;* x++; b--;
;* if(tmp3=0) /* no error */
;* if(load) x[0] = shftreg+1;
;* if(x[0] != shftreg+1)
;* tmp3 = 2; /* rom error */
;* ptr3 = x; /* save address */
;* if(tmp3 = 0) do checksum;
;* if(checksum err) tmp3 = 3; /* checksum error */
LOAD10 EQU *
LDAA HOSTDEV
CMPA IODEV
BEQ LOAD11 ; jump if hostdev=iodev
JSR CHKABRT ; check for abort
LOAD11 JSR HOSTIN ; read host
TSTA
BEQ LOAD10 ; jump if no input
CMPA #'S'
BNE LOAD10 ; jump if not S
LOAD12 JSR HOSTIN ; read host
TSTA
BEQ LOAD12 ; jump if no input
CMPA #'9'
BEQ LOAD90 ; jump if S9 record
CMPA #'1'
BNE LOAD10 ; jump if not S1
CLR TMP4 ; clear checksum
JSR BYTE
LDAB SHFTREG+1
SUBB #$2 ; b = byte count
JSR BYTE
JSR BYTE
LDX SHFTREG ; x = base address
DEX
LOAD20 JSR BYTE ; get next byte
INX
DECB ; check byte count
BEQ LOAD30 ; if b=0, go do checksum
TST TMP3
BNE LOAD10 ; jump if error flagged
TST TMP2
BNE LOAD21 ; jump if verify
LDAA SHFTREG+1
JSR WRITE ; load only
LOAD21 CMPA 0,X ; verify ram location
BEQ LOAD20 ; jump if ram ok
LDAA #$02
STAA TMP3 ; indicate rom error
STX PTR3 ; save error address
BRA LOAD20 ; finish download
;* calculate checksum
LOAD30 TST TMP3
BNE LOAD10 ; jump if error already
LDAA TMP4
INCA ; do checksum
BEQ LOAD10 ; jump if s1 record okay
LDAA #$03
STAA TMP3 ; indicate checksum error
BRA LOAD10
;* if(a = '9')
;* read rest of record;
;* if(tmp3=2) return("[ptr3]");
;* if(tmp3=1) return("rcv error");
;* if(tmp3=3) return("checksum err");
;* else return("done");
LOAD90 JSR BYTE
LDAB SHFTREG+1 ; b = byte count
LOAD91 JSR BYTE
DECB
BNE LOAD91 ; loop until end of record
INC AUTOLF ; turn on autolf
JSR TARGCO ; disconnect sci (evb)
LDX #MSG11 ; "done" default msg
LDAA TMP3
CMPA #$02
BNE LOAD92 ; jump not rom error
LDX #PTR3
JSR OUT2BSP ; address of rom error
BRA LOAD95
LOAD92 CMPA #$01
BNE LOAD93 ; jump not rcv error
LDX #MSG14 ; "rcv error"
BRA LOAD94
LOAD93 CMPA #$03
BNE LOAD94 ; jump not checksum error
LDX #MSG12 ; "checksum error"
LOAD94 JSR OUTSTRG
LOAD95 RTS
;**********
;* byte() - Read 2 ascii bytes from host and
;*convert to one hex byte. Returns byte
;*shifted into shftreg and added to tmp4.
;**********
BYTE PSHB
PSHX
BYTE0 JSR HOSTIN ; read host (1st byte)
TSTA
BEQ BYTE0 ; loop until input
JSR HEXBIN
BYTE1 JSR HOSTIN ; read host (2nd byte)
TSTA
BEQ BYTE1 ; loop until input
JSR HEXBIN
LDAA SHFTREG+1
ADDA TMP4
STAA TMP4 ; add to checksum
PULX
PULB
RTS
;*******************************************
;* MEMORY [<addr>]
;* [<addr>]/
;* Opens memory and allows user to modify the
;*contents at <addr> or the last opened location.
;* Subcommands:
;* [<data>]<cr> - Close current location and exit.
;* [<data>]<lf> - Close current and open next.
;* [<data>]<^> - Close current and open previous.
;* [<data>]<sp> - Close current and open next.
;* [<data>]/ - Reopen current location.
;* The contents of the current location is only
;* changed if valid data is entered before each
;* subcommand.
;* [<addr>]O - Compute relative offset from current
;* location to <addr>. The current location must
;* be the address of the offset byte.
;**********
;*a = wskip();
;*if(a != cr)
;* a = buffarg();
;* if(a != cr) return(bad argument);
;* if(countu1 != 0) ptrmem[] = shftreg;
MEMORY JSR WSKIP
BEQ MEM1 ; jump if cr
JSR BUFFARG
JSR WSKIP
BEQ MSLASH ; jump if cr
LDX #MSG9 ; "bad argument"
JSR OUTSTRG
RTS
MSLASH TST COUNT
BEQ MEM1 ; jump if no argument
LDX SHFTREG
STX PTRMEM ; update "current location"
;**********
;* Subcommands
;**********
;*outcrlf();
;*out2bsp(ptrmem[]);
;*out1bsp(ptrmem[0]);
MEM1 JSR OUTCRLF
MEM2 LDX #PTRMEM
JSR OUT2BSP ; output address
MEM3 LDX PTRMEM
JSR OUT1BSP ; output contents
CLR SHFTREG
CLR SHFTREG+1
;*while 1
;*a = termarg();
;* switch(a)
;* case(space):
;* chgbyt();
;* ptrmem[]++;
;* case(linefeed):
;* chgbyt();
;* ptrmem[]++;
;* case(up arrow):
;* case(backspace):
;* chgbyt();
;* ptrmem[]--;
;* case("/"):
;* chgbyt();
;* outcrlf();
;* case(O):
;* d = ptrmem[0] - (shftreg);
;* if($80 < d < $ff81)
;* print(out of range);
;* countt1 = d-1;
;* out1bsp(countt1);
;* case(carriage return):
;* chgbyt();
;* return;
;* default: return(command?)
MEM4 JSR TERMARG
JSR UPCASE
LDX PTRMEM
CMPA #$20
BEQ MEMSP ; jump if space
CMPA #$0A
BEQ MEMLF ; jump if linefeed
CMPA #$5E
BEQ MEMUA ; jump if up arrow
CMPA #$08
BEQ MEMBS ; jump if backspace
CMPA #'/'
BEQ MEMSL ; jump if /
CMPA #'O'
BEQ MEMOFF ; jump if O
CMPA #$0D
BEQ MEMCR ; jump if carriage ret
LDX #MSG8 ; "command?"
JSR OUTSTRG
JMP MEM1
MEMSP JSR CHGBYT
INX
STX PTRMEM
JMP MEM3 ; output contents
MEMLF JSR CHGBYT
INX
STX PTRMEM
JMP MEM2 ; output addr, contents
MEMUA EQU *
MEMBS JSR CHGBYT
DEX
STX PTRMEM
JMP MEM1 ; output cr, addr, contents
MEMSL JSR CHGBYT
JMP MEM1 ; output cr, addr, contents
MEMOFF LDD SHFTREG ; destination addr
SUBD PTRMEM
CMPA #$0
BNE MEMOFF1 ; jump if not 0
CMPB #$80
BLS MEMOFF3 ; jump if in range
BRA MEMOFF2 ; out of range
MEMOFF1 CMPA #$FF
BNE MEMOFF2 ; out of range
CMPB #$81
BHS MEMOFF3 ; in range
MEMOFF2 LDX #MSG3 ; "Too long"
JSR OUTSTRG
JMP MEM1 ; output cr, addr, contents
MEMOFF3 SUBD #$1 ; b now has offset
STAB TMP4
JSR OUTSPAC
LDX #TMP4
JSR OUT1BSP ; output offset
JMP MEM1 ; output cr, addr, contents
MEMCR JSR CHGBYT
RTS ; exit task
;**********
;* move <src1> <src2> [<dest>] - move
;*block at <src1> to <src2> to <dest>.
;* Moves block 1 byte up if no <dest>.
;**********
;*a = buffarg();
;*if(countu1 = 0) return(bad argument);
;*if( !wchek(a) ) return(bad argument);
;*ptr1 = shftreg; /* src1 */
MOVE EQU *
JSR BUFFARG
TST COUNT
BEQ MOVERR ; jump if no arg
JSR WCHEK
BNE MOVERR ; jump if no delim
LDX SHFTREG ; src1
STX PTR1
;*a = buffarg();
;*if(countu1 = 0) return(bad argument);
;*if( !dchek(a) ) return(bad argument);
;*ptr2 = shftreg; /* src2 */
JSR BUFFARG
TST COUNT
BEQ MOVERR ; jump if no arg
JSR DCHEK
BNE MOVERR ; jump if no delim
LDX SHFTREG ; src2
STX PTR2
;*a = buffarg();
;*a = wskip();
;*if(a != cr) return(bad argument);
;*if(countu1 != 0) tmp2 = shftreg; /* dest */
;*else tmp2 = ptr1 + 1;
JSR BUFFARG
JSR WSKIP
BNE MOVERR ; jump if not cr
TST COUNT
BEQ MOVE1 ; jump if no arg
LDX SHFTREG ; dest
BRA MOVE2
MOVERR LDX #MSG9 ; "bad argument"
JSR OUTSTRG
RTS
MOVE1 LDX PTR1
INX ; default dest
MOVE2 STX PTR3
;*if(src1 < dest <= src2)
;* dest = dest+(src2-src1);
;* for(x = src2; x = src1; x--)
;* dest[0]-- = x[0]--;
LDX PTR3 ; dest
CPX PTR1 ; src1
BLS MOVE3 ; jump if dest =< src1
CPX PTR2 ; src2
BHI MOVE3 ; jump if dest > src2
LDD PTR2
SUBD PTR1
ADDD PTR3
STD PTR3 ; dest = dest+(src2-src1)
LDX PTR2
MOVELP1 JSR CHKABRT ; check for abort
LDAA ,X ; char at src2
PSHX
LDX PTR3
JSR WRITE ; write a to x
CMPA 0,X
BNE MOVEBAD ; jump if no write
DEX
STX PTR3
PULX
CPX PTR1
BEQ MOVRTS
DEX
BRA MOVELP1 ; Loop SRC2 - SRC1 times
;*
;* else
;* for(x=src1; x=src2; x++)
;* dest[0]++ = x[0]++;
MOVE3 LDX PTR1 ; srce1
MOVELP2 JSR CHKABRT ; check for abort
LDAA ,X
PSHX
LDX PTR3 ; dest
JSR WRITE ; write a to x
CMPA 0,X
BNE MOVEBAD ; jump if no write
INX
STX PTR3
PULX
CPX PTR2
BEQ MOVRTS
INX
BRA MOVELP2 ; Loop SRC2-SRC1 times
MOVRTS RTS
MOVEBAD LDX #PTR3
JSR OUT2BSP ; output bad address
RTS
;**********
;* register [<name>] - prints the user regs
;*and opens them for modification. <name> is
;*the first register opened (default = P).
;* Subcommands:
;* [<nn>]<space> Opens the next register.
;* [<nn>]<cr> Return.
;* The register value is only changed if
;* <nn> is entered before the subcommand.
;**********
;*x[] = reglist
;*a = wskip(); a = upcase(a);
;*if(a != cr)
;* while( a != x[0] )
;* if( x[0] = "s") return(bad argument);
;* x[]++;
;* incbuff(); a = wskip();
;* if(a != cr) return(bad argument);
REGISTER LDX #REGLIST
JSR WSKIP ; a = first char of arg
JSR UPCASE ; convert to upper case
CMPA #$D
BEQ REG4 ; jump if no argument
REG1 CMPA 0,X
BEQ REG3
LDAB 0,X
INX
CMPB #'S'
BNE REG1 ; jump if not "s"
REG2 LDX #MSG9 ; "bad argument"
JSR OUTSTRG
RTS
REG3 PSHX
JSR INCBUFF
JSR WSKIP ; next char after arg
PULX
BNE REG2 ; jump if not cr
;*rprint();
;* while(x[0] != "s")
;* rprnt1(x);
;* a = termarg(); /* read from terminal */
;* if( ! dchek(a) ) return(bad argument);
;* if(countu1 != 0)
;* if(x[14] = 1)
;* regs[x[7]++ = shftreg;
;* regs[x[7]] = shftreg+1;
;* if(a = cr) break;
;*return;
REG4 JSR RPRINT ; print all registers
REG5 JSR OUTCRLF
JSR RPRNT1 ; print reg name
CLR SHFTREG
CLR SHFTREG+1
JSR TERMARG ; read subcommand
JSR DCHEK
BEQ REG6 ; jump if delimeter
LDX #MSG9 ; "bad argument"
JSR OUTSTRG
RTS
REG6 PSHA
PSHX
TST COUNT
BEQ REG8 ; jump if no input
LDAB 7,X ; get reg offset
LDAA 14,X ; byte size
LDX #REGS ; user registers
ABX
TSTA
BEQ REG7 ; jump if 1 byte reg
LDAA SHFTREG
STAA 0,X ; put in top byte
INX
REG7 LDAA SHFTREG+1
STAA 0,X ; put in bottom byte
REG8 PULX
PULA
LDAB 0,X ; CHECK FOR REGISTER S
CMPB #'S'
BEQ REG9 ; jump if "s"
INX ; point to next register
CMPA #$D
BNE REG5 ; jump if not cr
REG9 RTS
PAGE1 EQU $00 ; values for page opcodes
PAGE2 EQU $18
PAGE3 EQU $1A
PAGE4 EQU $CD
IMMED EQU $0 ; addressing modes
INDX EQU $1
INDY EQU $2
LIMMED EQU $3 ; (long immediate)
OTHER EQU $4
;*** Rename variables for assem/disassem ***
AMODE EQU TMP2 ; addressing mode
YFLAG EQU TMP3
PNORM EQU TMP4 ; page for normal opcode
OLDPC EQU PTR8
PC EQU PTR1 ; program counter
PX EQU PTR2 ; page for x indexed
PY EQU PTR2+1 ; page for y indexed
BASEOP EQU PTR3 ; base opcode
CLASS EQU PTR3+1 ; class
DISPC EQU PTR4 ; pc for disassembler
BRADDR EQU PTR5 ; relative branch offset
MNEPTR EQU PTR6 ; pointer to table for dis
ASSCOMM EQU PTR7 ; subcommand for assembler
;*** Error messages for assembler ***
MSGDIR FDB MSGA1 ; message table index
FDB MSGA2
FDB MSGA3
FDB MSGA4
FDB MSGA5
FDB MSGA6
FDB MSGA7
FDB MSGA8
FDB MSGA9
MSGA1 FCC "Immediate mode illegal"
FCB EOT
MSGA2 FCC "Error in mnemonic table"
FCB EOT
MSGA3 FCC "Illegal bit op"
FCB EOT
MSGA4 FCC "Bad argument"
FCB EOT
MSGA5 FCC "Mnemonic not found"
FCB EOT
MSGA6 FCC "Unknown addressing mode"
FCB EOT
MSGA7 FCC "Indexed addressing assumed"
FCB EOT
MSGA8 FCC "Syntax error"
FCB EOT
MSGA9 FCC "Branch out of range"
FCB EOT
;****************
;* assem(addr) -68HC11 line assembler/disassembler.
;* This routine will disassemble the opcode at
;*<addr> and then allow the user to enter a line for
;*assembly. Rules for assembly are as follows:
;* -A '#' sign indicates immediate addressing.
;* -A ',' (comma) indicates indexed addressing
;* and the next character must be X or Y.
;* -All arguments are assumed to be hex and the
;* '$' sign shouldn't be used.
;* -Arguments should be separated by 1 or more
;* spaces or tabs.
;* -Any input after the required number of
;* arguments is ignored.
;* -Upper or lower case makes no difference.
;*
;* To signify end of input line, the following
;*commands are available and have the indicated action:
;* <cr> -Carriage return finds the next opcode for
;* assembly. If there was no assembly input,
;* the next opcode disassembled is retrieved
;* from the disassembler.
;* <lf> -Linefeed works the same as carriage return
;* except if there was no assembly input, the
;* <addr> is incremented and the next <addr> is
;* disassembled.
;* '^' -Up arrow decrements <addr> and the previous
;* address is then disassembled.
;* '/' -Slash redisassembles the current address.
;*
;* To exit the assembler use CONTROL A. Of course
;*control X and DEL will also allow you to abort.
;**********
;*oldpc = rambase;
;*a = wskip();
;*if (a != cr)
;* buffarg()
;* a = wskip();
;* if ( a != cr ) return(error);
;* oldpc = a;
ASSEM EQU *
LDX #RAMBS
STX OLDPC
JSR WSKIP
BEQ ASSLOOP ; jump if no argument
JSR BUFFARG
JSR WSKIP
BEQ ASSEM1 ; jump if argument ok
LDX #MSGA4 ; "bad argument"
JSR OUTSTRG
RTS
ASSEM1 LDX SHFTREG
STX OLDPC
;*repeat
;* pc = oldpc;
;* out2bsp(pc);
;* disassem();
;* a=readln();
;* asscomm = a; /* save command */
;* if(a == ('^' or '/')) outcrlf;
;* if(a == 0) return(error);
ASSLOOP LDX OLDPC
STX PC
JSR OUTCRLF
LDX #PC
JSR OUT2BSP ; output the address
JSR DISASSM ; disassemble opcode
JSR TABTO
LDAA #PROMPT ; prompt user
JSR OUTA ; output prompt character
JSR READLN ; read input for assembly
STAA ASSCOMM
CMPA #'^'
BEQ ASSLP0 ; jump if up arrow
CMPA #'/'
BEQ ASSLP0 ; jump if slash
CMPA #$00
BNE ASSLP1 ; jump if none of above
RTS ; return if bad input
ASSLP0 JSR OUTCRLF
ASSLP1 EQU *
JSR OUTSPAC
JSR OUTSPAC
JSR OUTSPAC
JSR OUTSPAC
JSR OUTSPAC
;* b = parse(input); /* get mnemonic */
;* if(b > 5) print("not found"); asscomm='/';
;* elseif(b >= 1)
;* msrch();
;* if(class==$FF)
;* print("not found"); asscomm='/';
;* else
;* a = doop(opcode,class);
;* if(a == 0) dispc=0;
;* else process error; asscomm='/';
JSR PARSE
CMPB #$5
BLE ASSLP2 ; jump if mnemonic <= 5 chars
LDX #MSGA5 ; "mnemonic not found"
JSR OUTSTRG
BRA ASSLP5
ASSLP2 EQU *
CMPB #$0
BEQ ASSLP10 ; jump if no input
JSR MSRCH
LDAA CLASS
CMPA #$FF
BNE ASSLP3
LDX #MSGA5 ; "mnemonic not found"
JSR OUTSTRG
BRA ASSLP5
ASSLP3 JSR DOOP
CMPA #$00
BNE ASSLP4 ; jump if doop error
LDX #$00
STX DISPC ; indicate good assembly
BRA ASSLP10
ASSLP4 DECA ; a = error message index
TAB
LDX #MSGDIR
ABX
ABX
LDX 0,X
JSR OUTSTRG ; output error message
ASSLP5 CLR ASSCOMM ; error command
;* /* compute next address - asscomm holds subcommand
;* and dispc indicates if valid assembly occured. */
;* if(asscomm=='^') oldpc -= 1;
;* if(asscomm==(lf or cr)
;* if(dispc==0) oldpc=pc;
;* else
;* if(asscomm==lf) dispc=oldpc+1;
;* oldpc=dispc;
;*until(eot)
ASSLP10 EQU *
LDAA ASSCOMM
CMPA #'^'
BNE ASSLP11 ; jump if not up arrow
LDX OLDPC
DEX
STX OLDPC ; back up
BRA ASSLP15
ASSLP11 CMPA #$0A
BEQ ASSLP12 ; jump if linefeed
CMPA #$0D
BNE ASSLP15 ; jump if not cr
ASSLP12 LDX DISPC
BNE ASSLP13 ; jump if dispc != 0
LDX PC
STX OLDPC
BRA ASSLP15
ASSLP13 CMPA #$0A
BNE ASSLP14 ; jump if not linefeed
LDX OLDPC
INX
STX DISPC
ASSLP14 LDX DISPC
STX OLDPC
ASSLP15 JMP ASSLOOP
;****************
;* readln() --- Read input from terminal into buffer
;* until a command character is read (cr,lf,/,^).
;* If more chars are typed than the buffer will hold,
;* the extra characters are overwritten on the end.
;* On exit: b=number of chars read, a=0 if quit,
;* else a=next command.
;****************
;*for(b==0;b<=bufflng;b++) inbuff[b] = cr;
READLN CLRB
LDAA #$0D ; carriage ret
RLN0 LDX #INBUFF
ABX
STAA 0,X ; initialize input buffer
INCB
CMPB #BUFFLNG
BLT RLN0
;*b=0;
;*repeat
;* if(a == (ctla, cntlc, cntld, cntlx, del))
;* return(a=0);
;* if(a == backspace)
;* if(b > 0) b--;
;* else b=0;
;* else inbuff[b] = upcase(a);
;* if(b < bufflng) b++;
;*until (a == (cr,lf,^,/))
;*return(a);
CLRB
RLN1 JSR INCHAR
CMPA #DEL ; Delete
BEQ RLNQUIT
CMPA #CTLX ; Control X
BEQ RLNQUIT
CMPA #CTLA ; Control A
BEQ RLNQUIT
CMPA #$03 ; Control C
BEQ RLNQUIT
CMPA #$04 ; Control D
BEQ RLNQUIT
CMPA #$08 ; backspace
BNE RLN2
DECB
BGT RLN1
BRA READLN ; start over
RLN2 LDX #INBUFF
ABX
JSR UPCASE
STAA 0,X ; put char in buffer
CMPB #BUFFLNG ; max buffer length
BGE RLN3 ; jump if buffer full
INCB ; move buffer pointer
RLN3 JSR ASSCHEK ; check for subcommand
BNE RLN1
RTS
RLNQUIT CLRA ; quit
RTS ; return
;**********
;* parse() -parse out the mnemonic from INBUFF
;* to COMBUFF. on exit: b=number of chars parsed.
;**********
;*combuff[3] = <space>; initialize 4th character to space.
;*ptrbuff[] = inbuff[];
;*a=wskip();
;*for (b = 0; b = 5; b++)
;* a=readbuff(); incbuff();
;* if (a = (cr,lf,^,/,wspace)) return(b);
;* combuff[b] = upcase(a);
;*return(b);
PARSE LDAA #$20
STAA COMBUFF+3
LDX #INBUFF ; initialize buffer ptr
STX PTR0
JSR WSKIP ; find first character
CLRB
PARSLP JSR READBUFF ; read character
JSR INCBUFF
JSR WCHEK
BEQ PARSRT ; jump if whitespace
JSR ASSCHEK
BEQ PARSRT ; jump if end of line
JSR UPCASE ; convert to upper case
LDX #COMBUFF
ABX
STAA 0,X ; store in combuff
INCB
CMPB #$5
BLE PARSLP ; loop 6 times
PARSRT RTS
;****************
;* asschek() -perform compares for
;* cr, lf, ^, /
;****************
ASSCHEK CMPA #$0A ; linefeed
BEQ ASSCHK1
CMPA #$0D ; carriage ret
BEQ ASSCHK1
CMPA #'^' ; up arrow
BEQ ASSCHK1
CMPA #'/' ; slash
ASSCHK1 RTS
;*********
;* msrch() --- Search MNETABL for mnemonic in COMBUFF.
;*stores base opcode at baseop and class at class.
;* Class = FF if not found.
;**********
;*while ( != EOF )
;* if (COMBUFF[0-3] = MNETABL[0-3])
;* return(MNETABL[4],MNETABL[5]);
;* else *MNETABL =+ 6
MSRCH LDX #MNETABL ; pointer to mnemonic table
LDY #COMBUFF ; pointer to string
BRA MSRCH1
MSNEXT EQU *
LDAB #6
ABX ; point to next table entry
MSRCH1 LDAA 0,X ; read table
CMPA #EOT
BNE MSRCH2 ; jump if not end of table
LDAA #$FF
STAA CLASS ; FF = not in table
RTS
MSRCH2 CMPA 0,Y ; op[0] = tabl[0] ?
BNE MSNEXT
LDAA 1,X
CMPA 1,Y ; op[1] = tabl[1] ?
BNE MSNEXT
LDAA 2,X
CMPA 2,Y ; op[2] = tabl[2] ?
BNE MSNEXT
LDAA 3,X
CMPA 3,Y ; op[2] = tabl[2] ?
BNE MSNEXT
LDD 4,X ; opcode, class
STAA BASEOP
STAB CLASS
RTS
;**********
;** doop(baseop,class) --- process mnemonic.
;** on exit: a=error code corresponding to error
;** messages.
;**********
;*amode = OTHER; /* addressing mode */
;*yflag = 0; /* ynoimm, nlimm, and cpd flag */
;*x[] = ptrbuff[]
DOOP EQU *
LDAA #OTHER
STAA AMODE ; mode
CLR YFLAG
LDX PTR0
;*while (*x != end of buffer)
;* if (x[0]++ == ',')
;* if (x[0] == 'y') amode = INDY;
;* else amod = INDX;
;* break;
;*a = wskip()
;*if( a == '#' ) amode = IMMED;
DOPLP1 CPX #ENDBUFF ; (end of buffer)
BEQ DOOP1 ; jump if end of buffer
LDD 0,X ; read 2 chars from buffer
INX ; move pointer
CMPA #','
BNE DOPLP1
CMPB #'Y' ; look for ",y"
BNE DOPLP2
LDAA #INDY
STAA AMODE
BRA DOOP1
DOPLP2 CMPB #'X' ; look for ",x"
BNE DOOP1 ; jump if not x
LDAA #INDX
STAA AMODE
BRA DOOP1
DOOP1 JSR WSKIP
CMPA #'#' ; look for immediate mode
BNE DOOP2
JSR INCBUFF ; point at argument
LDAA #IMMED
STAA AMODE
DOOP2 EQU *
;*switch(class)
LDAB CLASS
CMPB #P2INH
BNE DOSW1
JMP DOP2I
DOSW1 CMPB #INH
BNE DOSW2
JMP DOINH
DOSW2 CMPB #REL
BNE DOSW3
JMP DOREL
DOSW3 CMPB #LIMM
BNE DOSW4
JMP DOLIM
DOSW4 CMPB #NIMM
BNE DOSW5
JMP DONOI
DOSW5 CMPB #GEN
BNE DOSW6
JMP DOGENE
DOSW6 CMPB #GRP2
BNE DOSW7
JMP DOGRP
DOSW7 CMPB #CPD
BNE DOSW8
JMP DOCPD
DOSW8 CMPB #XNIMM
BNE DOSW9
JMP DOXNOI
DOSW9 CMPB #XLIMM
BNE DOSW10
JMP DOXLI
DOSW10 CMPB #YNIMM
BNE DOSW11
JMP DOYNOI
DOSW11 CMPB #YLIMM
BNE DOSW12
JMP DOYLI
DOSW12 CMPB #BTB
BNE DOSW13
JMP DOBTB
DOSW13 CMPB #SETCLR
BNE DODEF
JMP DOSET
;* default: return("error in mnemonic table");
DODEF LDAA #$2
RTS
;* case P2INH: emit(PAGE2)
DOP2I LDAA #PAGE2
JSR EMIT
;* case INH: emit(baseop);
;* return(0);
DOINH LDAA BASEOP
JSR EMIT
CLRA
RTS
;* case REL: a = assarg();
;* if(a=4) return(a);
;* d = address - pc + 2;
;* if ($7f >= d >= $ff82)
;* return (out of range);
;* emit(opcode);
;* emit(offset);
;* return(0);
DOREL JSR ASSARG
CMPA #$04
BNE DOREL1 ; jump if arg ok
RTS
DOREL1 LDD SHFTREG ; get branch address
LDX PC ; get program counter
INX
INX ; point to end of opcode
STX BRADDR
SUBD BRADDR ; calculate offset
STD BRADDR ; save result
CPD #$7F ; in range ?
BLS DOREL2 ; jump if in range
CPD #$FF80
BHS DOREL2 ; jump if in range
LDAA #$09 ; 'Out of range'
RTS
DOREL2 LDAA BASEOP
JSR EMIT ; emit opcode
LDAA BRADDR+1
JSR EMIT ; emit offset
CLRA ; normal return
RTS
;* case LIMM: if (amode == IMMED) amode = LIMMED;
DOLIM LDAA AMODE
CMPA #IMMED
BNE DONOI
LDAA #LIMMED
STAA AMODE
;* case NIMM: if (amode == IMMED)
;* return("Immediate mode illegal");
DONOI LDAA AMODE
CMPA #IMMED
BNE DOGENE ; jump if not immediate
LDAA #$1 ; "immediate mode illegal"
RTS
;* case GEN: dogen(baseop,amode,PAGE1,PAGE1,PAGE2);
;* return;
DOGENE LDAA #PAGE1
STAA PNORM
STAA PX
LDAA #PAGE2
STAA PY
JSR DOGEN
RTS
;* case GRP2: if (amode == INDY)
;* emit(PAGE2);
;* amode = INDX;
;* if( amode == INDX )
;* doindx(baseop);
;* else a = assarg();
;* if(a=4) return(a);
;* emit(opcode+0x10);
;* emit(extended address);
;* return;
DOGRP LDAA AMODE
CMPA #INDY
BNE DOGRP1
LDAA #PAGE2
JSR EMIT
LDAA #INDX
STAA AMODE
DOGRP1 EQU *
LDAA AMODE
CMPA #INDX
BNE DOGRP2
JSR DOINDEX
RTS
DOGRP2 EQU *
LDAA BASEOP
ADDA #$10
JSR EMIT
JSR ASSARG
CMPA #$04
BEQ DOGRPRT ; jump if bad arg
LDD SHFTREG ; extended address
JSR EMIT
TBA
JSR EMIT
CLRA
DOGRPRT RTS
;* case CPD: if (amode == IMMED)
;* amode = LIMMED; /* cpd */
;* if( amode == INDY ) yflag = 1;
;* dogen(baseop,amode,PAGE3,PAGE3,PAGE4);
;* return;
DOCPD LDAA AMODE
CMPA #IMMED
BNE DOCPD1
LDAA #LIMMED
STAA AMODE
DOCPD1 LDAA AMODE
CMPA #INDY
BNE DOCPD2
INC YFLAG
DOCPD2 LDAA #PAGE3
STAA PNORM
STAA PX
LDAA #PAGE4
STAA PY
JSR DOGEN
RTS
;* case XNIMM: if (amode == IMMED) /* stx */
;* return("Immediate mode illegal");
DOXNOI LDAA AMODE
CMPA #IMMED
BNE DOXLI
LDAA #$1 ; "immediate mode illegal"
RTS
;* case XLIMM: if (amode == IMMED) /* cpx, ldx */
;* amode = LIMMED;
;* dogen(baseop,amode,PAGE1,PAGE1,PAGE4);
;* return;
DOXLI LDAA AMODE
CMPA #IMMED
BNE DOXLI1
LDAA #LIMMED
STAA AMODE
DOXLI1 LDAA #PAGE1
STAA PNORM
STAA PX
LDAA #PAGE4
STAA PY
JSR DOGEN
RTS
;* case YNIMM: if (amode == IMMED) /* sty */
;* return("Immediate mode illegal");
DOYNOI LDAA AMODE
CMPA #IMMED
BNE DOYLI
LDAA #$1 ; "immediate mode illegal"
RTS
;* case YLIMM: if (amode == INDY) yflag = 1;/* cpy, ldy */
;* if(amode == IMMED) amode = LIMMED;
;* dogen(opcode,amode,PAGE2,PAGE3,PAGE2);
;* return;
DOYLI LDAA AMODE
CMPA #INDY
BNE DOYLI1
INC YFLAG
DOYLI1 CMPA #IMMED
BNE DOYLI2
LDAA #LIMMED
STAA AMODE
DOYLI2 LDAA #PAGE2
STAA PNORM
STAA PY
LDAA #PAGE3
STAA PX
JSR DOGEN
RTS
;* case BTB: /* bset, bclr */
;* case SETCLR: a = bitop(baseop,amode,class);
;* if(a=0) return(a = 3);
;* if( amode == INDY )
;* emit(PAGE2);
;* amode = INDX;
DOBTB EQU *
DOSET JSR BITOP
CMPA #$00
BNE DOSET1
LDAA #$3 ; "illegal bit op"
RTS
DOSET1 LDAA AMODE
CMPA #INDY
BNE DOSET2
LDAA #PAGE2
JSR EMIT
LDAA #INDX
STAA AMODE
DOSET2 EQU *
;* emit(baseop);
;* a = assarg();
;* if(a = 4) return(a);
;* emit(index offset);
;* if( amode == INDX )
;* Buffptr += 2; /* skip ,x or ,y */
LDAA BASEOP
JSR EMIT
JSR ASSARG
CMPA #$04
BNE DOSET22 ; jump if arg ok
RTS
DOSET22 LDAA SHFTREG+1 ; index offset
JSR EMIT
LDAA AMODE
CMPA #INDX
BNE DOSET3
JSR INCBUFF
JSR INCBUFF
DOSET3 EQU *
;* a = assarg();
;* if(a = 4) return(a);
;* emit(mask); /* mask */
;* if( class == SETCLR )
;* return;
JSR ASSARG
CMPA #$04
BNE DOSET33 ; jump if arg ok
RTS
DOSET33 LDAA SHFTREG+1 ; mask
JSR EMIT
LDAA CLASS
CMPA #SETCLR
BNE DOSET4
CLRA
RTS
DOSET4 EQU *
;* a = assarg();
;* if(a = 4) return(a);
;* d = (pc+1) - shftreg;
;* if ($7f >= d >= $ff82)
;* return (out of range);
;* emit(branch offset);
;* return(0);
JSR ASSARG
CMPA #$04
BNE DOSET5 ; jump if arg ok
RTS
DOSET5 LDX PC ; program counter
INX ; point to next inst
STX BRADDR ; save pc value
LDD SHFTREG ; get branch address
SUBD BRADDR ; calculate offset
CPD #$7F
BLS DOSET6 ; jump if in range
CPD #$FF80
BHS DOSET6 ; jump if in range
CLRA
JSR EMIT
LDAA #$09 ; 'out of range'
RTS
DOSET6 TBA ; offset
JSR EMIT
CLRA
RTS
;**********
;** bitop(baseop,amode,class) --- adjust opcode on bit
;** manipulation instructions. Returns opcode in a
;** or a = 0 if error
;**********
;*if( amode == INDX || amode == INDY ) return(op);
;*if( class == SETCLR ) return(op-8);
;*else if(class==BTB) return(op-12);
;*else fatal("bitop");
BITOP EQU *
LDAA AMODE
LDAB CLASS
CMPA #INDX
BNE BITOP1
RTS
BITOP1 CMPA #INDY
BNE BITOP2 ; jump not indexed
RTS
BITOP2 CMPB #SETCLR
BNE BITOP3 ; jump not bset,bclr
LDAA BASEOP ; get opcode
SUBA #8
STAA BASEOP
RTS
BITOP3 CMPB #BTB
BNE BITOP4 ; jump not bit branch
LDAA BASEOP ; get opcode
SUBA #12
STAA BASEOP
RTS
BITOP4 CLRA ; 0 = fatal bitop
RTS
;**********
;** dogen(baseop,mode,pnorm,px,py) - process
;** general addressing modes. Returns a = error #.
;**********
;*pnorm = page for normal addressing modes: IMM,DIR,EXT
;*px = page for INDX addressing
;*py = page for INDY addressing
;*switch(amode)
DOGEN LDAA AMODE
CMPA #LIMMED
BEQ DOGLIM
CMPA #IMMED
BEQ DOGIMM
CMPA #INDY
BEQ DOGINDY
CMPA #INDX
BEQ DOGINDX
CMPA #OTHER
BEQ DOGOTH
;*default: error("Unknown Addressing Mode");
DOGDEF LDAA #$06 ; unknown addre...
RTS
;*case LIMMED: epage(pnorm);
;* emit(baseop);
;* a = assarg();
;* if(a = 4) return(a);
;* emit(2 bytes);
;* return(0);
DOGLIM LDAA PNORM
JSR EPAGE
DOGLIM1 LDAA BASEOP
JSR EMIT
JSR ASSARG ; get next argument
CMPA #$04
BNE DOGLIM2 ; jump if arg ok
RTS
DOGLIM2 LDD SHFTREG
JSR EMIT
TBA
JSR EMIT
CLRA
RTS
;*case IMMED: epage(pnorm);
;* emit(baseop);
;* a = assarg();
;* if(a = 4) return(a);
;* emit(lobyte);
;* return(0);
DOGIMM LDAA PNORM
JSR EPAGE
LDAA BASEOP
JSR EMIT
JSR ASSARG
CMPA #$04
BNE DOGIMM1 ; jump if arg ok
RTS
DOGIMM1 LDAA SHFTREG+1
JSR EMIT
CLRA
RTS
;*case INDY: epage(py);
;* a=doindex(op+0x20);
;* return(a);
DOGINDY LDAA PY
JSR EPAGE
LDAA BASEOP
ADDA #$20
STAA BASEOP
JSR DOINDEX
RTS
;*case INDX: epage(px);
;* a=doindex(op+0x20);
;* return(a);
DOGINDX LDAA PX
JSR EPAGE
LDAA BASEOP
ADDA #$20
STAA BASEOP
JSR DOINDEX
RTS
;*case OTHER: a = assarg();
;* if(a = 4) return(a);
;* epage(pnorm);
;* if(countu1 <= 2 digits) /* direct */
;* emit(op+0x10);
;* emit(lobyte(Result));
;* return(0);
;* else emit(op+0x30); /* extended */
;* eword(Result);
;* return(0)
DOGOTH JSR ASSARG
CMPA #$04
BNE DOGOTH0 ; jump if arg ok
RTS
DOGOTH0 LDAA PNORM
JSR EPAGE
LDAA COUNT
CMPA #$2
BGT DOGOTH1
LDAA BASEOP
ADDA #$10 ; direct mode opcode
JSR EMIT
LDAA SHFTREG+1
JSR EMIT
CLRA
RTS
DOGOTH1 LDAA BASEOP
ADDA #$30 ; extended mode opcode
JSR EMIT
LDD SHFTREG
JSR EMIT
TBA
JSR EMIT
CLRA
RTS
;**********
;** doindex(op) --- handle all wierd stuff for
;** indexed addressing. Returns a = error number.
;**********
;*emit(baseop);
;*a=assarg();
;*if(a = 4) return(a);
;*if( a != ',' ) return("Syntax");
;*buffptr++
;*a=readbuff()
;*if( a != 'x' && != 'y') warn("Ind Addr Assumed");
;*emit(lobyte);
;*return(0);
DOINDEX LDAA BASEOP
JSR EMIT
JSR ASSARG
CMPA #$04
BNE DOINDX0 ; jump if arg ok
RTS
DOINDX0 CMPA #','
BEQ DOINDX1
LDAA #$08 ; "syntax error"
RTS
DOINDX1 JSR INCBUFF
JSR READBUFF
CMPA #'Y'
BEQ DOINDX2
CMPA #'X'
BEQ DOINDX2
LDX MSGA7 ; "index addr assumed"
JSR OUTSTRG
DOINDX2 LDAA SHFTREG+1
JSR EMIT
CLRA
RTS
;**********
;** assarg(); - get argument. Returns a = 4 if bad
;** argument, else a = first non hex char.
;**********
;*a = buffarg()
;*if(asschk(aa) && countu1 != 0) return(a);
;*return(bad argument);
ASSARG JSR BUFFARG
JSR ASSCHEK ; check for command
BEQ ASSARG1 ; jump if ok
JSR WCHEK ; check for whitespace
BNE ASSARG2 ; jump if not ok
ASSARG1 TST COUNT
BEQ ASSARG2 ; jump if no argument
RTS
ASSARG2 LDAA #$04 ; bad argument
RTS
;**********
;** epage(a) --- emit page prebyte
;**********
;*if( a != PAGE1 ) emit(a);
EPAGE CMPA #PAGE1
BEQ EPAGRT ; jump if page 1
JSR EMIT
EPAGRT RTS
;**********
;* emit(a) --- emit contents of a
;**********
EMIT LDX PC
JSR WRITE ; write a to x
JSR OUT1BSP
STX PC
RTS
;*Mnemonic table for hc11 line assembler
NULL EQU $0 ; nothing
INH EQU $1 ; inherent
P2INH EQU $2 ; page 2 inherent
GEN EQU $3 ; general addressing
GRP2 EQU $4 ; group 2
REL EQU $5 ; relative
IMM EQU $6 ; immediate
NIMM EQU $7 ; general except for immediate
LIMM EQU $8 ; 2 byte immediate
XLIMM EQU $9 ; longimm for x
XNIMM EQU $10 ; no immediate for x
YLIMM EQU $11 ; longimm for y
YNIMM EQU $12 ; no immediate for y
BTB EQU $13 ; bit test and branch
SETCLR EQU $14 ; bit set or clear
CPD EQU $15 ; compare d
BTBD EQU $16 ; bit test and branch direct
SETCLRD EQU $17 ; bit set or clear direct
;**********
;* mnetabl - includes all '11 mnemonics, base opcodes,
;* and type of instruction. The assembler search routine
;*depends on 4 characters for each mnemonic so that 3 char
;*mnemonics are extended with a space and 5 char mnemonics
;*are truncated.
;**********
MNETABL EQU *
FCC "ABA " ; Mnemonic
FCB $1B ; Base opcode
FCB INH ; Class
FCC "ABX "
FCB $3A
FCB INH
FCC "ABY "
FCB $3A
FCB P2INH
FCC "ADCA"
FCB $89
FCB GEN
FCC "ADCB"
FCB $C9
FCB GEN
FCC "ADDA"
FCB $8B
FCB GEN
FCC "ADDB"
FCB $CB
FCB GEN
FCC "ADDD"
FCB $C3
FCB LIMM
FCC "ANDA"
FCB $84
FCB GEN
FCC "ANDB"
FCB $C4
FCB GEN
FCC "ASL "
FCB $68
FCB GRP2
FCC "ASLA"
FCB $48
FCB INH
FCC "ASLB"
FCB $58
FCB INH
FCC "ASLD"
FCB $05
FCB INH
FCC "ASR "
FCB $67
FCB GRP2
FCC "ASRA"
FCB $47
FCB INH
FCC "ASRB"
FCB $57
FCB INH
FCC "BCC "
FCB $24
FCB REL
FCC "BCLR"
FCB $1D
FCB SETCLR
FCC "BCS "
FCB $25
FCB REL
FCC "BEQ "
FCB $27
FCB REL
FCC "BGE "
FCB $2C
FCB REL
FCC "BGT "
FCB $2E
FCB REL
FCC "BHI "
FCB $22
FCB REL
FCC "BHS "
FCB $24
FCB REL
FCC "BITA"
FCB $85
FCB GEN
FCC "BITB"
FCB $C5
FCB GEN
FCC "BLE "
FCB $2F
FCB REL
FCC "BLO "
FCB $25
FCB REL
FCC "BLS "
FCB $23
FCB REL
FCC "BLT "
FCB $2D
FCB REL
FCC "BMI "
FCB $2B
FCB REL
FCC "BNE "
FCB $26
FCB REL
FCC "BPL "
FCB $2A
FCB REL
FCC "BRA "
FCB $20
FCB REL
FCC "BRCL" ; (BRCLR)
FCB $1F
FCB BTB
FCC "BRN "
FCB $21
FCB REL
FCC "BRSE" ; (BRSET)
FCB $1E
FCB BTB
FCC "BSET"
FCB $1C
FCB SETCLR
FCC "BSR "
FCB $8D
FCB REL
FCC "BVC "
FCB $28
FCB REL
FCC "BVS "
FCB $29
FCB REL
FCC "CBA "
FCB $11
FCB INH
FCC "CLC "
FCB $0C
FCB INH
FCC "CLI "
FCB $0E
FCB INH
FCC "CLR "
FCB $6F
FCB GRP2
FCC "CLRA"
FCB $4F
FCB INH
FCC "CLRB"
FCB $5F
FCB INH
FCC "CLV "
FCB $0A
FCB INH
FCC "CMPA"
FCB $81
FCB GEN
FCC "CMPB"
FCB $C1
FCB GEN
FCC "COM "
FCB $63
FCB GRP2
FCC "COMA"
FCB $43
FCB INH
FCC "COMB"
FCB $53
FCB INH
FCC "CPD "
FCB $83
FCB CPD
FCC "CPX "
FCB $8C
FCB XLIMM
FCC "CPY "
FCB $8C
FCB YLIMM
FCC "DAA "
FCB $19
FCB INH
FCC "DEC "
FCB $6A
FCB GRP2
FCC "DECA"
FCB $4A
FCB INH
FCC "DECB"
FCB $5A
FCB INH
FCC "DES "
FCB $34
FCB INH
FCC "DEX "
FCB $09
FCB INH
FCC "DEY "
FCB $09
FCB P2INH
FCC "EORA"
FCB $88
FCB GEN
FCC "EORB"
FCB $C8
FCB GEN
FCC "FDIV"
FCB $03
FCB INH
FCC "IDIV"
FCB $02
FCB INH
FCC "INC "
FCB $6C
FCB GRP2
FCC "INCA"
FCB $4C
FCB INH
FCC "INCB"
FCB $5C
FCB INH
FCC "INS "
FCB $31
FCB INH
FCC "INX "
FCB $08
FCB INH
FCC "INY "
FCB $08
FCB P2INH
FCC "JMP "
FCB $6E
FCB GRP2
FCC "JSR "
FCB $8D
FCB NIMM
FCC "LDAA"
FCB $86
FCB GEN
FCC "LDAB"
FCB $C6
FCB GEN
FCC "LDD "
FCB $CC
FCB LIMM
FCC "LDS "
FCB $8E
FCB LIMM
FCC "LDX "
FCB $CE
FCB XLIMM
FCC "LDY "
FCB $CE
FCB YLIMM
FCC "LSL "
FCB $68
FCB GRP2
FCC "LSLA"
FCB $48
FCB INH
FCC "LSLB"
FCB $58
FCB INH
FCC "LSLD"
FCB $05
FCB INH
FCC "LSR "
FCB $64
FCB GRP2
FCC "LSRA"
FCB $44
FCB INH
FCC "LSRB"
FCB $54
FCB INH
FCC "LSRD"
FCB $04
FCB INH
FCC "MUL "
FCB $3D
FCB INH
FCC "NEG "
FCB $60
FCB GRP2
FCC "NEGA"
FCB $40
FCB INH
FCC "NEGB"
FCB $50
FCB INH
FCC "NOP "
FCB $01
FCB INH
FCC "ORAA"
FCB $8A
FCB GEN
FCC "ORAB"
FCB $CA
FCB GEN
FCC "PSHA"
FCB $36
FCB INH
FCC "PSHB"
FCB $37
FCB INH
FCC "PSHX"
FCB $3C
FCB INH
FCC "PSHY"
FCB $3C
FCB P2INH
FCC "PULA"
FCB $32
FCB INH
FCC "PULB"
FCB $33
FCB INH
FCC "PULX"
FCB $38
FCB INH
FCC "PULY"
FCB $38
FCB P2INH
FCC "ROL "
FCB $69
FCB GRP2
FCC "ROLA"
FCB $49
FCB INH
FCC "ROLB"
FCB $59
FCB INH
FCC "ROR "
FCB $66
FCB GRP2
FCC "RORA"
FCB $46
FCB INH
FCC "RORB"
FCB $56
FCB INH
FCC "RTI "
FCB $3B
FCB INH
FCC "RTS "
FCB $39
FCB INH
FCC "SBA "
FCB $10
FCB INH
FCC "SBCA"
FCB $82
FCB GEN
FCC "SBCB"
FCB $C2
FCB GEN
FCC "SEC "
FCB $0D
FCB INH
FCC "SEI "
FCB $0F
FCB INH
FCC "SEV "
FCB $0B
FCB INH
FCC "STAA"
FCB $87
FCB NIMM
FCC "STAB"
FCB $C7
FCB NIMM
FCC "STD "
FCB $CD
FCB NIMM
FCC "STOP"
FCB $CF
FCB INH
FCC "STS "
FCB $8F
FCB NIMM
FCC "STX "
FCB $CF
FCB XNIMM
FCC "STY "
FCB $CF
FCB YNIMM
FCC "SUBA"
FCB $80
FCB GEN
FCC "SUBB"
FCB $C0
FCB GEN
FCC "SUBD"
FCB $83
FCB LIMM
FCC "SWI "
FCB $3F
FCB INH
FCC "TAB "
FCB $16
FCB INH
FCC "TAP "
FCB $06
FCB INH
FCC "TBA "
FCB $17
FCB INH
FCC "TPA "
FCB $07
FCB INH
FCC "TEST"
FCB $00
FCB INH
FCC "TST "
FCB $6D
FCB GRP2
FCC "TSTA"
FCB $4D
FCB INH
FCC "TSTB"
FCB $5D
FCB INH
FCC "TSX "
FCB $30
FCB INH
FCC "TSY "
FCB $30
FCB P2INH
FCC "TXS "
FCB $35
FCB INH
FCC "TYS "
FCB $35
FCB P2INH
FCC "WAI "
FCB $3E
FCB INH
FCC "XGDX"
FCB $8F
FCB INH
FCC "XGDY"
FCB $8F
FCB P2INH
FCC "BRSE" ; bit direct modes for
FCB $12 ; disassembler.
FCB BTBD
FCC "BRCL"
FCB $13
FCB BTBD
FCC "BSET"
FCB $14
FCB SETCLRD
FCC "BCLR"
FCB $15
FCB SETCLRD
FCB EOT ; End of table
;**********************************************
PG1 EQU $0
PG2 EQU $1
PG3 EQU $2
PG4 EQU $3
;******************
;*disassem() - disassemble the opcode.
;******************
;*(check for page prebyte)
;*baseop=pc[0];
;*pnorm=PG1;
;*if(baseop==$18) pnorm=PG2;
;*if(baseop==$1A) pnorm=PG3;
;*if(baseop==$CD) pnorm=PG4;
;*if(pnorm != PG1) dispc=pc+1;
;*else dispc=pc; (dispc points to next byte)
DISASSM EQU *
LDX PC ; address
LDAA 0,X ; opcode
LDAB #PG1
CMPA #$18
BEQ DISP2 ; jump if page2
CMPA #$1A
BEQ DISP3 ; jump if page3
CMPA #$CD
BNE DISP1 ; jump if not page4
DISP4 INCB ; set up page value
DISP3 INCB
DISP2 INCB
INX
DISP1 STX DISPC ; point to opcode
STAB PNORM ; save page
;*If(opcode == ($00-$5F or $8D or $8F or $CF))
;* if(pnorm == (PG3 or PG4))
;* disillop(); return();
;* b=disrch(opcode,NULL);
;* if(b==0) disillop(); return();
LDAA 0,X ; get current opcode
STAA BASEOP
INX
STX DISPC ; point to next byte
CMPA #$5F
BLS DIS1 ; jump if in range
CMPA #$8D
BEQ DIS1 ; jump if bsr
CMPA #$8F
BEQ DIS1 ; jump if xgdx
CMPA #$CF
BEQ DIS1 ; jump if stop
JMP DISGRP ; try next part of map
DIS1 LDAB PNORM
CMPB #PG3
BLO DIS2 ; jump if page 1 or 2
JSR DISILLOP ; "illegal opcode"
RTS
DIS2 LDAB BASEOP ; opcode
CLRB ; class=null
JSR DISRCH
TSTB
BNE DISPEC ; jump if opcode found
JSR DISILLOP ; "illegal opcode"
RTS
;* if(opcode==$8D) dissrch(opcode,REL);
;* if(opcode==($8F or $CF)) disrch(opcode,INH);
DISPEC LDAA BASEOP
CMPA #$8D
BNE DISPEC1
LDAB #REL
BRA DISPEC3 ; look for BSR opcode
DISPEC1 CMPA #$8F
BEQ DISPEC2 ; jump if XGDX opcode
CMPA #$CF
BNE DISINH ; jump not STOP opcode
DISPEC2 LDAB #INH
DISPEC3 JSR DISRCH ; find other entry in table
;* if(class==INH) /* INH */
;* if(pnorm==PG2)
;* b=disrch(baseop,P2INH);
;* if(b==0) disillop(); return();
;* prntmne();
;* return();
DISINH EQU *
LDAB CLASS
CMPB #INH
BNE DISREL ; jump if not inherent
LDAB PNORM
CMPB #PG1
BEQ DISINH1 ; jump if page1
LDAA BASEOP ; get opcode
LDAB #P2INH ; class=p2inh
JSR DISRCH
TSTB
BNE DISINH1 ; jump if found
JSR DISILLOP ; "illegal opcode"
RTS
DISINH1 JSR PRNTMNE
RTS
;* elseif(class=REL) /* REL */
;* if(pnorm != PG1)
;* disillop(); return();
;* prntmne();
;* disrelad();
;* return();
DISREL EQU *
LDAB CLASS
CMPB #REL
BNE DISBTD
TST PNORM
BEQ DISREL1 ; jump if page1
JSR DISILLOP ; "illegal opcode"
RTS
DISREL1 JSR PRNTMNE ; output mnemonic
JSR DISRELAD ; compute relative address
RTS
;* else /* SETCLR,SETCLRD,BTB,BTBD */
;* if(class == (SETCLRD or BTBD))
;* if(pnorm != PG1)
;* disillop(); return(); /* illop */
;* prntmne(); /* direct */
;* disdir(); /* output $byte */
;* else (class == (SETCLR or BTB))
;* prntmne(); /* indexed */
;* disindx();
;* outspac();
;* disdir();
;* outspac();
;* if(class == (BTB or BTBD))
;* disrelad();
;* return();
DISBTD EQU *
LDAB CLASS
CMPB #SETCLRD
BEQ DISBTD1
CMPB #BTBD
BNE DISBIT ; jump not direct bitop
DISBTD1 TST PNORM
BEQ DISBTD2 ; jump if page 1
JSR DISILLOP
RTS
DISBTD2 JSR PRNTMNE
JSR DISDIR ; operand(direct)
BRA DISBIT1
DISBIT EQU *
JSR PRNTMNE
JSR DISINDX ; operand(indexed)
DISBIT1 JSR OUTSPAC
JSR DISDIR ; mask
LDAB CLASS
CMPB #BTB
BEQ DISBIT2 ; jump if btb
CMPB #BTBD
BNE DISBIT3 ; jump if not bit branch
DISBIT2 JSR DISRELAD ; relative address
DISBIT3 RTS
;*Elseif($60 <= opcode <= $7F) /* GRP2 */
;* if(pnorm == (PG3 or PG4))
;* disillop(); return();
;* if((pnorm==PG2) and (opcode != $6x))
;* disillop(); return();
;* b=disrch(baseop & $6F,NULL);
;* if(b==0) disillop(); return();
;* prntmne();
;* if(opcode == $6x)
;* disindx();
;* else
;* disext();
;* return();
DISGRP EQU *
CMPA #$7F ; a=opcode
BHI DISNEXT ; try next part of map
LDAB PNORM
CMPB #PG3
BLO DISGRP2 ; jump if page 1 or 2
JSR DISILLOP ; "illegal opcode"
RTS
DISGRP2 ANDA #$6F ; mask bit 4
CLRB ; class=null
JSR DISRCH
TSTB
BNE DISGRP3 ; jump if found
JSR DISILLOP ; "illegal opcode"
RTS
DISGRP3 JSR PRNTMNE
LDAA BASEOP ; get opcode
ANDA #$F0
CMPA #$60
BNE DISGRP4 ; jump if not 6x
JSR DISINDX ; operand(indexed)
RTS
DISGRP4 JSR DISEXT ; operand(extended)
RTS
;*Else ($80 <= opcode <= $FF)
;* if(opcode == ($87 or $C7))
;* disillop(); return();
;* b=disrch(opcode&$CF,NULL);
;* if(b==0) disillop(); return();
DISNEXT EQU *
CMPA #$87 ; a=opcode
BEQ DISNEX1
CMPA #$C7
BNE DISNEX2
DISNEX1 JSR DISILLOP ; "illegal opcode"
RTS
DISNEX2 ANDA #$CF
CLRB ; class=null
JSR DISRCH
TSTB
BNE DISNEW ; jump if mne found
JSR DISILLOP ; "illegal opcode"
RTS
;* if(opcode&$CF==$8D) disrch(baseop,NIMM; (jsr)
;* if(opcode&$CF==$8F) disrch(baseop,NIMM; (sts)
;* if(opcode&$CF==$CF) disrch(baseop,XNIMM; (stx)
;* if(opcode&$CF==$83) disrch(baseop,LIMM); (subd)
DISNEW LDAA BASEOP
ANDA #$CF
CMPA #$8D
BNE DISNEW1 ; jump not jsr
LDAB #NIMM
BRA DISNEW4
DISNEW1 CMPA #$8F
BNE DISNEW2 ; jump not sts
LDAB #NIMM
BRA DISNEW4
DISNEW2 CMPA #$CF
BNE DISNEW3 ; jump not stx
LDAB #XNIMM
BRA DISNEW4
DISNEW3 CMPA #$83
BNE DISGEN ; jump not subd
LDAB #LIMM
DISNEW4 JSR DISRCH
TSTB
BNE DISGEN ; jump if found
JSR DISILLOP ; "illegal opcode"
RTS
;* if(class == (GEN or NIMM or LIMM )) /* GEN,NIMM,LIMM,CPD */
;* if(opcode&$CF==$83)
;* if(pnorm==(PG3 or PG4)) disrch(opcode#$CF,CPD)
;* class=LIMM;
;* if((pnorm == (PG2 or PG4) and (opcode != ($Ax or $Ex)))
;* disillop(); return();
;* disgenrl();
;* return();
DISGEN LDAB CLASS ; get class
CMPB #GEN
BEQ DISGEN1
CMPB #NIMM
BEQ DISGEN1
CMPB #LIMM
BNE DISXLN ; jump if other class
DISGEN1 LDAA BASEOP
ANDA #$CF
CMPA #$83
BNE DISGEN3 ; jump if not #$83
LDAB PNORM
CMPB #PG3
BLO DISGEN3 ; jump not pg3 or 4
LDAB #CPD
JSR DISRCH ; look for cpd mne
LDAB #LIMM
STAB CLASS ; set class to limm
DISGEN3 LDAB PNORM
CMPB #PG2
BEQ DISGEN4 ; jump if page 2
CMPB #PG4
BNE DISGEN5 ; jump not page 2 or 4
DISGEN4 LDAA BASEOP
ANDA #$B0 ; mask bits 6,3-0
CMPA #$A0
BEQ DISGEN5 ; jump if $Ax or $Ex
JSR DISILLOP ; "illegal opcode"
RTS
DISGEN5 JSR DISGENRL ; process general class
RTS
;* else /* XLIMM,XNIMM,YLIMM,YNIMM */
;* if(pnorm==(PG2 or PG3))
;* if(class==XLIMM) disrch(opcode&$CF,YLIMM);
;* else disrch(opcode&$CF,YNIMM);
;* if((pnorm == (PG3 or PG4))
;* if(opcode != ($Ax or $Ex))
;* disillop(); return();
;* class=LIMM;
;* disgen();
;* return();
DISXLN LDAB PNORM
CMPB #PG2
BEQ DISXLN1 ; jump if page2
CMPB #PG3
BNE DISXLN4 ; jump not page3
DISXLN1 LDAA BASEOP
ANDA #$CF
LDAB CLASS
CMPB #XLIMM
BNE DISXLN2
LDAB #YLIMM
BRA DISXLN3 ; look for ylimm
DISXLN2 LDAB #YNIMM ; look for ynimm
DISXLN3 JSR DISRCH
DISXLN4 LDAB PNORM
CMPB #PG3
BLO DISXLN5 ; jump if page 1 or 2
LDAA BASEOP ; get opcode
ANDA #$B0 ; mask bits 6,3-0
CMPA #$A0
BEQ DISXLN5 ; jump opcode = $Ax or $Ex
JSR DISILLOP ; "illegal opcode"
RTS
DISXLN5 LDAB #LIMM
STAB CLASS
JSR DISGENRL ; process general class
RTS
;******************
;*disrch(a=opcode,b=class)
;*return b=0 if not found
;* else mneptr=points to mnemonic
;* class=class of opcode
;******************
;*x=#MNETABL
;*while(x[0] != eot)
;* if((opcode==x[4]) && ((class=NULL) || (class=x[5])))
;* mneptr=x;
;* class=x[5];
;* return(1);
;* x += 6;
;*return(0); /* not found */
DISRCH EQU *
LDX #MNETABL ; point to top of table
DISRCH1 CMPA 4,X ; test opcode
BNE DISRCH3 ; jump not this entry
TSTB
BEQ DISRCH2 ; jump if class=null
CMPB 5,X ; test class
BNE DISRCH3 ; jump not this entry
DISRCH2 LDAB 5,X
STAB CLASS
STX MNEPTR ; return ptr to mnemonic
INCB
RTS ; return found
DISRCH3 PSHB ; save class
LDAB #6
ABX
LDAB 0,X
CMPB #EOT ; test end of table
PULB
BNE DISRCH1
CLRB
RTS ; return not found
;******************
;*prntmne() - output the mnemonic pointed
;*at by mneptr.
;******************
;*outa(mneptr[0-3]);
;*outspac;
;*return();
PRNTMNE EQU *
LDX MNEPTR
LDAA 0,X
JSR OUTA ; output char1
LDAA 1,X
JSR OUTA ; output char2
LDAA 2,X
JSR OUTA ; output char3
LDAA 3,X
JSR OUTA ; output char4
JSR OUTSPAC
RTS
;******************
;*disindx() - process indexed mode
;******************
;*disdir();
;*outa(',');
;*if(pnorm == (PG2 or PG4)) outa('Y');
;*else outa('X');
;*return();
DISINDX EQU *
JSR DISDIR ; output $byte
LDAA #','
JSR OUTA ; output ,
LDAB PNORM
CMPB #PG2
BEQ DISIND1 ; jump if page2
CMPB #PG4
BNE DISIND2 ; jump if not page4
DISIND1 LDAA #'Y'
BRA DISIND3
DISIND2 LDAA #'X'
DISIND3 JSR OUTA ; output x or y
RTS
;******************
;*disrelad() - compute and output relative address.
;******************
;* braddr = dispc[0] + (dispc++);( 2's comp arith)
;*outa('$');
;*out2bsp(braddr);
;*return();
DISRELAD EQU *
LDX DISPC
LDAB 0,X ; get relative offset
INX
STX DISPC
TSTB
BMI DISRLD1 ; jump if negative
ABX
BRA DISRLD2
DISRLD1 DEX
INCB
BNE DISRLD1 ; subtract
DISRLD2 STX BRADDR ; save address
JSR OUTSPAC
LDAA #'$'
JSR OUTA
LDX #BRADDR
JSR OUT2BSP ; output address
RTS
;******************
;*disgenrl() - output data for the general cases which
;*includes immediate, direct, indexed, and extended modes.
;******************
;*prntmne();
;*if(baseop == ($8x or $Cx)) /* immediate */
;* outa('#');
;* disdir();
;* if(class == LIMM)
;* out1byt(dispc++);
;*elseif(baseop == ($9x or $Dx)) /* direct */
;* disdir();
;*elseif(baseop == ($Ax or $Ex)) /* indexed */
;* disindx();
;*else (baseop == ($Bx or $Fx)) /* extended */
;* disext();
;*return();
DISGENRL EQU *
JSR PRNTMNE ; print mnemonic
LDAA BASEOP ; get opcode
ANDA #$B0 ; mask bits 6,3-0
CMPA #$80
BNE DISGRL2 ; jump if not immed
LDAA #'#' ; do immediate
JSR OUTA
JSR DISDIR
LDAB CLASS
CMPB #LIMM
BEQ DISGRL1 ; jump class = limm
RTS
DISGRL1 LDX DISPC
JSR OUT1BYT
STX DISPC
RTS
DISGRL2 CMPA #$90
BNE DISGRL3 ; jump not direct
JSR DISDIR ; do direct
RTS
DISGRL3 CMPA #$A0
BNE DISGRL4 ; jump not indexed
JSR DISINDX ; do extended
RTS
DISGRL4 JSR DISEXT ; do extended
RTS
;*****************
;*disdir() - output "$ next byte"
;*****************
DISDIR EQU *
LDAA #'$'
JSR OUTA
LDX DISPC
JSR OUT1BYT
STX DISPC
RTS
;*****************
;*disext() - output "$ next 2 bytes"
;*****************
DISEXT EQU *
LDAA #'$'
JSR OUTA
LDX DISPC
JSR OUT2BSP
STX DISPC
RTS
;*****************
;*disillop() - output "illegal opcode"
;*****************
DISMSG1 FCC "ILLOP"
FCB EOT
DISILLOP EQU *
PSHX
LDX #DISMSG1
JSR OUTSTRG0 ; no cr
PULX
RTS
;* Equates
JPORTD EQU $08
JDDRD EQU $09
JBAUD EQU $2B
JSCCR1 EQU $2C
JSCCR2 EQU $2D
JSCSR EQU $2E
JSCDAT EQU $2F
;*
;************
;* xboot [<addr1> [<addr2>]] - Use SCI to talk to an 'hc11 in
;* boot mode. Downloads bytes from addr1 thru addr2.
;* Default addr1 = $C000 and addr2 = $C0ff.
;*
;* IMPORTANT:
;* if talking to an 'A8 or 'A2: use either default addresses or ONLY
;* addr1 - this sends 256 bytes
;* if talking to an 'E9: include BOTH addr1 and addr2 for variable
;* length
;************
;*Get arguments
;*If no args, default $C000
BOOT JSR WSKIP
BNE BOT1 ; jump if arguments
LDX #$C0FF ; addr2 default
STX PTR5
LDY #$C000 ; addr1 default
BRA BOT2 ; go - use default address
;*Else get arguments
BOT1 JSR BUFFARG
TST COUNT
BEQ BOTERR ; jump if no address
LDY SHFTREG ; start address (addr1)
JSR WSKIP
BNE BOT1A ; go get addr2
STY PTR5 ; default addr2...
LDD PTR5 ; ...by taking addr1...
ADDD #$FF ; ...and adding 255 to it...
STD PTR5 ; ...for a total download of 256
BRA BOT2 ; continue
;*
BOT1A JSR BUFFARG
TST COUNT
BEQ BOTERR ; jump if no address
LDX SHFTREG ; end address (addr2)
STX PTR5
JSR WSKIP
BNE BOTERR ; go use addr1 and addr2
BRA BOT2
;*
BOTERR LDX #MSG9 ; "bad argument"
JSR OUTSTRG
RTS
;*Boot routine
BOT2 LDAB #$FF ; control character ($ff -> download)
JSR BTSUB ; set up SCI and send control char
;* initializes X as register pointer
;*Download block
BLOP LDAA 0,Y
STAA JSCDAT,X ; write to transmitter
BRCLR JSCSR,X,#80,* ; wait for TDRE
CPY PTR5 ; if last...
BEQ BTDONE ; ...quit
INY ; else...
BRA BLOP ; ...send next
BTDONE RTS
;************************************************
;*Subroutine
;* btsub - sets up SCI and outputs control character
;* On entry, B = control character
;* On exit, X = $1000
;* A = $0C
;***************************
BTSUB EQU *
LDX #$1000 ; to use indexed addressing
LDAA #$02
STAA JPORTD,X ; drive transmitter line
STAA JDDRD,X ; high
CLR JSCCR2,X ; turn off XMTR and RCVR
LDAA #$22 ; BAUD = /16
STAA JBAUD,X
LDAA #$0C ; TURN ON XMTR & RCVR
STAA JSCCR2,X
STAB JSCDAT,X
BRCLR JSCSR,X,#80,* ; wait for TDRE
RTS
;******************
;*
;* EVBTEST - This routine makes it a little easier
;* on us to test this board.
;*
;******************
EVBTEST LDAA #$FF
STAA $1000 ; Write ones to port A
CLR AUTOLF ; Turn off auto lf
JSR HOSTCO ; Connect host
JSR HOSTINIT ; Initialize host
LDAA #$7f
JSR HOSTOUT ; Send Delete to Altos
LDAA #$0d
JSR HOSTOUT ; Send <CR>
INC AUTOLF ; Turn on Auto LF
LDX #INBUFF+5 ; Point at Load message
STX PTR0 ; Set pointer for load command
LDY #MSGEVB ; Point at cat line
LOOP LDAA 0,Y ; Loop to xfer command line
CMPA #04 ; Into buffalo line buffer
BEQ DONE ; Quit on $04
STAA 0,X
INX ; next character
INY
BRA LOOP
DONE CLR TMP2 ; Set load vs. verify
JSR LOAD3 ; Jmp into middle of load
LDS #STACK ; Reset Stack
JMP $C0B3 ; Jump to Downloaded code
MSGEVB FCC "cat evbtest.out"
FCB $0D
FCB $04
;*** Jump table ***
ORG ROMBS+$1F7C
.WARMST JMP MAIN
.BPCLR JMP BPCLR
.RPRINT JMP RPRINT
.HEXBIN JMP HEXBIN
.BUFFAR JMP BUFFARG
.TERMAR JMP TERMARG
.CHGBYT JMP CHGBYT
.READBU JMP READBUFF
.INCBUF JMP INCBUFF
.DECBUF JMP DECBUFF
.WSKIP JMP WSKIP
.CHKABR JMP CHKABRT
ORG ROMBS+$1FA0
.UPCASE JMP UPCASE
.WCHEK JMP WCHEK
.DCHEK JMP DCHEK
.INIT JMP INIT
.INPUT JMP INPUT
.OUTPUT JMP OUTPUT
.OUTLHL JMP OUTLHLF
.OUTRHL JMP OUTRHLF
.OUTA JMP OUTA
.OUT1BY JMP OUT1BYT
.OUT1BS JMP OUT1BSP
.OUT2BS JMP OUT2BSP
.OUTCRL JMP OUTCRLF
.OUTSTR JMP OUTSTRG
.OUTST0 JMP OUTSTRG0
.INCHAR JMP INCHAR
.VECINT JMP VECINIT
ORG ROMBS+$1FD6
;*** Vectors ***
VSCI FDB JSCI
VSPI FDB JSPI
VPAIE FDB JPAIE
VPAO FDB JPAO
VTOF FDB JTOF
VTOC5 FDB JTOC5
VTOC4 FDB JTOC4
VTOC3 FDB JTOC3
VTOC2 FDB JTOC2
VTOC1 FDB JTOC1
VTIC3 FDB JTIC3
VTIC2 FDB JTIC2
VTIC1 FDB JTIC1
VRTI FDB JRTI
VIRQ FDB JIRQ
VXIRQ FDB JXIRQ
VSWI FDB JSWI
VILLOP FDB JILLOP
VCOP FDB JCOP
VCLM FDB JCLM
VRST FDB BUFFALO
END
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