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[/] [System09/] [trunk/] [src/] [Flex9/] [f9-monex.txt] - Rev 177
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*
** FLEX 9 DISK DRIVERS
*
* FOR SYS09BUG ON THE
* DIGILENT SPARTAN 3 STARTER BOARD AND
* TERASIC CYCLONE 2 DE1 BOARD
* WITH I/O MAPPED AT $XE000
* AND ROM MAPPED AT $XF000
* THE DIGILENT SPARTAN 3 STARTER BOARD HAS 1MBYTE OF SRAM
* THE TERASIC CYCLONE 2 DE1 BOARD HAS 512KBYTE OF SRAM
* THE FIRST 64K IS USED BY FLEX,
* THE SECOND 128K IS USED AS A ROM DISK
* THE REMAINING RAM IS USED FOR A RAM DISK
*
*
CFLAG EQU $01 CARRY FLAG
VFLAG EQU $02 OVERFLOW FLAG
ZFLAG EQU $04 ZERO FLAG
NFLAG EQU $08 NEGATIVE FLAG
IFLAG EQU $10 IRQ MASK CC
HFLAG EQU $20 HALF CARRY
FFLAG EQU $40 FIRQ MASK CC
EFLAG EQU $80 ENTIRE FLAG
*
MAPPAG EQU $00 PAGE $0000 DAT ADDRESS
DATREG EQU IC11 DAT REGISTERS
*
* Serial Port
*
ACIAC1 EQU ACIAS
ACIAD1 EQU ACIAS+1
DELCON EQU 1250 Delay (Processor clock in MHz * 50)
*
* XMODEM Control characters
*
SOH EQU $01
EOT EQU $04
ACK EQU $06
NAK EQU $15
CAN EQU $18
*
* DRIVE GEOMETRY
*
EMAXSEC EQU 14 ROM DISK
EMAXTRK EQU 48 3 * 16 * 14 * 256 = 172,032 Bytes
ETOTSEC EQU EMAXTRK*EMAXSEC-EMAXSEC
*
RMAXSEC EQU 14 RAM DISK
*RMAXTRK EQU 192 12 * 16 * 14 * 256 = 688,128 Bytes Digilent Spartan 3
RMAXTRK EQU 64 4 * 16 * 14 * 256 = 229,376 Bytes Terasic Cyclone 2
RTOTSEC EQU RMAXTRK*RMAXSEC-RMAXSEC
*
* DRIVE TYPES
*
DTYPROM EQU 0 ROM DISK
DTYPRAM EQU 1 RAM DISK
DTYPFLS EQU 2 FLASH DISK
DTYPNET EQU 3 FLEXNET DISK
*
ORG $DE00
*
* DISK DRIVER JUMP TABLE LAST UPDATE: 22/12/2006
* Disk driver for RAM Disk.
*
* 14 SECTORS PER TRACK
* 16 * N TRACKS PER DISK
*
* ROM DISK OCCUPIES $10000 - $1E000 ... $30000 - $3E000
* RAM DISK OCCUPIES $40000 - $4E000 ... $F0000 - $FE000
* Track Buffer page mapped at $E000 - $EFFF
* MAPPAG = $00 = 0 x $1000 (4 K pages)
* ON SWTPC ROM AT $XF000 AND IO AT $XE000
* APPEARS THROUGHOUT THE MEMORY SO MUST BE SKIPPED OVER
* WHEN USING RAM AS A RAMDISK.
* THE MSN OF THE TRACK MAPS INTO THE MSN OF THE DAT
* THE LSN OF THE TRACK NUMBER INDEXES INTO THE 4K RAM PAGE
* THE SECTOR MAPS INTO THE LSN OF THE DAT WHICH IS INVERTED
*
*
*
* FLEX disk jump table.
*
READ JMP READSC
WRITE JMP WRITSC
VERIFY JMP BUSY
RESTOR JMP RESTR1
DRIVE JMP DRVSEL
DRVRDY JMP CHKRDY
QUICK JMP CHKQIK
COLDDR JMP DINIT
WARMDR JMP DWARM
SEEK JMP SEEKTS
*
* RAM SPACE
*
DRVNUM FCB 0
TRACK FCB 0
SECTOR FCB 0
CHKSUM FCB 0
CCSAVE FCB 0
BLKNUM FCB 0 Xmodem block number
BYTCNT FCB 0 Xmodem byte count
XSTATE FDB 0 Xmodem State Vector
DELCNT FCB $00,$00,$00 Xmodem Poll timer
*
* Disc driver type table.
* Indexed by drive number
*
DTYPTAB FCB DTYPROM Drive 0 (ROM Disk)
FCB DTYPRAM Drive 1 (RAM Disk)
FCB DTYPFLS Drive 2 (FLASH Disk)
FCB DTYPNET Drive 3 (NETPC Disk)
*
* RAM Disk offset
* Indexed by drive type
*
DOFFTAB FCB $10 ROM Disk $10000
FCB $40 RAM DISK $40000
FCB $FF Flash Disk
FCB $FF NETPC Disk
*
REAVEC RMB 2 Disc driver jump table.
WRIVEC RMB 2
VERVEC RMB 2
RSTVEC RMB 2
DRVVEC RMB 2
CHKVEC RMB 2
QUIVEC RMB 2
INIVEC RMB 2
WARVEC RMB 2
SEEVEC RMB 2
*
* SECTOR BUFFER
*
BUFFER RMB 256
SYNCREG RMB 4 Prom input register
*
****************************************
*
* START OF EXTENSION COMMANDS
*
****************************************
*
ORG MONEXT
FDB NEXTEXT Jump to next extended command
*
*
*****************************************
* Disk drivers *
* ------------ *
* The system dependant code for the *
* disc drivers fits here. Two tables *
* must be included. These are DTYPTAB a *
* four byte table that defines which of *
* the (up to four) following sets of *
* jump tables to use, and TABSRT the *
* jump tables themselves. For a full *
* description of the floppy drivers see *
* section 4 (pp9-14) of the general *
* Flex adaptation guide. *
*****************************************
*
* Mass storage drivers for embedded applications.
*
* Jump tables.
TABSRT FDB EREAD Drive type 0 (ROM disk).
FDB EWRITE
FDB ECHECK
FDB ECHECK
FDB ECHECK
FDB ECHECK
FDB ECHECK
FDB DDUMMY
FDB DDUMMY
FDB DDUMMY
*
FDB EREAD Drive type 1 (RAM disk).
FDB EWRITE
FDB ECHECK
FDB ECHECK
FDB ECHECK
FDB ECHECK
FDB ECHECK
FDB DDUMMY
FDB DDUMMY
FDB DDUMMY
*
FDB DDUMMY Drive type 2 (External Flash disk).
FDB DDUMMY
FDB DDUMMY
FDB DDUMMY
FDB DDUMMY
FDB DDUMMY
FDB DDUMMY
FDB DDUMMY
FDB DDUMMY
FDB DDUMMY
*
FDB NREAD Drive type 3 (NetPC drive via serial port).
FDB NWRITE
FDB NVERIFY
FDB NCHECK
FDB NCHECK
FDB NCHECK
FDB NCHECK
FDB DDUMMY
FDB DDUMMY
FDB DDUMMY
*
*
* Dummy routine (no errors).
DDUMMY CLRB
TSTB Set (z)=1
ANDCC #$FF-CFLAG Set (c)=0
RTS
* *
**************************
* Main Flex entry points *
*************************
*
* Read sector routine.
* Entry: (X) = address where sector is to be placed.
* (A) = Track number.
* (B) = Sector number.
* Exit: (B) = Error code (z)=1 if no error.
READSC JMP [REAVEC]
*
* Write track routine.
* Entry: (X) = Address of area of memory from which the data will be taken.
* (A) = Track number.
* (B) = Sector number.
* Exit: (B) = Error condition, (Z)=1 no an error.
WRITSC JMP [WRIVEC]
*
* Verify sector routine.
* Entry: no parameters.
* Exit: (B) = Error condition (Z)=1 if no error.
BUSY JMP [VERVEC]
*
* Restore drive to track 00.
* Entry: (X) = FCB address (3,X contains drive number).
* Exit: (B) = Error condition, (Z)=1 if no error.
RESTR1 BSR DRVSEL Select drive first.
BEQ RST1
RTS
RST1 JMP [RSTVEC]
*
* Select current drive.
* Entry: (X) = FCB address (3,X contains drive number).
* Exit: (B) = Error condition, (Z)=0 and (c)=1 if error.
* (B) = $0F if non existant drive.
DRVSEL PSHS X,Y
LDB 3,X Get driver type.
STB DRVNUM
LDX #DTYPTAB
LDA B,X
CMPA #$FF Is the drive nonexistant?
BNE DRIVE1
PULS X,Y
LDB #$0F
TSTB
ORCC #$01
RTS
*
DRIVE1 LDB #20 Get correct table start address.
MUL
LDX #TABSRT
LEAX D,X
LDY #REAVEC Copy table into ram.
LDB #20
DRIVE2 LDA 0,X+
STA 0,Y+
DECB
BNE DRIVE2
PULS X,Y
JMP [DRVVEC]
*
* Check for drive ready.
* Entry: (X) = FCB address (3,X contains drive number)>
* Exit: (B) = Error condition, (Z)=0 AND (C)=1 if drive is not ready.
CHKRDY JMP [CHKVEC]
*
* Quick drive ready check.
* Entry: (X) = FCB address (3,X contains drive number).
* Exit: (B) = Error condition, (Z)=0 AND (c)=1 if drive not ready.
CHKQIK JMP [QUIVEC]
*
* Init (cold start).
* Entry: no parameters.
* Exit: no change.
DINIT CLRA
DINIT1 STA DRVNUM Init each valid drive in turn.
LDX #DRVNUM-3
BSR DRVSEL
BCS DINIT2
JSR [INIVEC]
DINIT2 LDA DRVNUM
INCA
CMPA #4
BNE DINIT1
RTS
*
* Warm start.
* Entry: no parameters.
* Exit: no change.
DWARM JMP [WARVEC]
*
* Seek track.
* Entry: (A) = Track number.
* (B) = Sector number.
* Exit: (B) = Error condition, (Z)=1 if no error.
SEEKTS JMP [SEEVEC]
*
*
*****************************************************
* ROMdisk drivers *
* --------------- *
* Drivers to support a ROMdisk in the external RAM *
* of the SYS09. The ROMdisk base address is $10000 *
*****************************************************
* Dummy return for ROM disk (write protected!)
*
* MAP RAM DISK INTO MEMORY SPACE
*
MAPIN TFR CC,A ; Save state of interrupt masks
STA CCSAVE
ORCC #FFLAG+IFLAG ; Mask interrupts while IO mapped out
LDU #DTYPTAB ; Point to Drive Type table
LDB DRVNUM ; Get working drive number
LDB B,U
LDU #DOFFTAB
LDA TRACK
ADDA B,U ; Add Base offset into RAM
ANDA #$F0 ; Mask MSN
STA ,-S ; Save A on stack
*
LDA SECTOR
SUBA #1 ; Sectors 1 to 14 => 0 to 13
EORA #$0F ; Complement LSNybble
ANDA #$0F
*
ADDA ,S+ ; Add sector to LSN of Track and pop
STA DATREG+MAPPAG
*
LDA TRACK ; LSN of Track indexes into 4K page
ANDA #$0F
ADDA #MAPPAG*16
CLRB
TFR D,U
RTS
*
* MAP RAM DISK OUT OF MEMORY
*
MAPOUT LDA #MAPPAG ; Point to the Flex page
EORA #$0F ; Complement LSNybble
STA DATREG+MAPPAG ; map in Flex page
LDA CCSAVE ; restore interrupt masks
TFR A,CC
RTS
*
* Seek track and sector
* A holds track number (0-32)
* B holds sector number (1-14)
*
ESEEK STA TRACK
STB SECTOR
ANDCC #$FE ; CLEAR CARRY
ORCC #$04 ; SET Z
RTS
*
* MARK DISK READ ONLY
*
EDUMMY LDB #$40
TSTB
ORCC #$01
RTS
*
EREAD PSHS X,Y,U push sequentialy to preserve order on stack
LBSR ESEEK
LBSR MAPIN build external ram address
*
LDY #BUFFER
CLRB
ERLOOP1 LDA 0,U+ move 256 bytes to buffer from external RAM
STA 0,Y+
DECB
BNE ERLOOP1
*
LBSR MAPOUT
*
LDY #BUFFER
CLRB
ERLOOP2 LDA 0,Y+ move 256 bytes from buffer to Flex RAM
STA 0,X+
DECB
BNE ERLOOP2
*
CLRB
PULS X,Y,U,PC restore all registers
*
* check for marker bytes $AA55 in first bytes of first track/sector
*
*ECHECK CLRA
* LDB #1
* LDX #BUFFER
* BSR EREAD
* LDD BUFFER
* CMPD #$AA55
* BNE EERR
* LBRA DDUMMY
*EERR LDB #$80 not ready bit set
* TSTB
* ORCC #$01
* RTS
ECHECK CLRB
RTS
*
* Write Sector
*
EWRITE PSHS X,Y,U
LBSR ESEEK
LDU #DTYPTAB ; Point to Drive Type table
LDB DRVNUM ; Get working drive number
LDB B,U ; Fetch Drive type
CMPB #DTYPRAM ; Is it a RAM Disk ?
BEQ EWOK ; Yep, can write to it
CMPB #DTYPROM ; Allow writes to ROM Disk too
BEQ EWOK
LBRA EDUMMY ; Nope report read only
*
EWOK LDY #BUFFER
CLRB
EWLOOP1 LDA 0,X+ move 256 bytes to buffer from Flex RAM
STA 0,Y+
DECB
BNE EWLOOP1
*
LBSR MAPIN
*
LDY #BUFFER
CLRB
EWLOOP2 LDA 0,Y+ move 256 bytes from buffer to external RAM
STA 0,U+
DECB
BNE EWLOOP2
*
LBSR MAPOUT
*
CLRB
PULS X,Y,U,PC
*
*
*****************************************************
* FlexNet drivers *
* --------------- *
* Drivers to support a remote connection via the *
* serial port using the FlexNet protocol as defined *
* in FLEXNet_421B *
*****************************************************
*
*
* read sector from remote drive
*
NREAD PSHS B
PSHS A
CLR CHKSUM clear checksum
CLR CHKSUM+1
*
LDA #'s Send read sector command
JSR SCHAR
BCC NRD_DNR if timeout, then flag drive not ready
*
LDA DRVNUM send drive
JSR SCHAR
BCC NRD_DNR
*
PULS A send track
JSR SCHAR
BCC NRD_DNR
*
PULS A send sector
JSR SCHAR
BCC NRD_DNR
*
* transfer 256 bytes
CLRB
NREAD1 JSR RCHAR read byte
BCC NRD_DNR if timeout, then flag drive not ready
STA 0,X+
ADDA CHKSUM+1 update checksum
STA CHKSUM+1
BCC NREAD2
INC CHKSUM
NREAD2 DECB
BNE NREAD1
*
* compare checksums
JSR RCHAR get checksum msb
BCC NRD_DNR
PSHS A
JSR RCHAR get checksum lsb
BCC NRD_DNR
TFR A,B
PULS A
CMPD CHKSUM compare checksums
BNE NRD_ERR if checksum error, then flag crc read error
*
LDA #ACK no checksum error, send ACK char
JSR SCHAR
BCC NRD_DNR
CLRB all OK, flag no error
BRA NRD_END
*
NRD_DNR LDB #16 flag drive not ready
BRA NRD_END
*
NRD_ERR LDA #NAK send NAK
JSR SCHAR
BCC NRD_DNR
LDB #09 flag crc read error
*
NRD_END STB CHKSUM used by VERIFY
TSTB
RTS
*
*
* write sector to remote drive
*
NWRITE PSHS B
PSHS A
CLR CHKSUM clear checksum
CLR CHKSUM+1
*
LDA #'r Send write sector command
JSR SCHAR
BCC NRD_DNR if timeout, then flag drive not ready
*
LDA DRVNUM send drive
JSR SCHAR
BCC NRD_DNR
*
PULS A send track
JSR SCHAR
BCC NRD_DNR
*
PULS A send sector
JSR SCHAR
BCC NRD_DNR
*
* transfer 256 bytes
CLRB
NWRITE1 LDA 0,X+
JSR SCHAR write byte
BCC NRD_DNR if timeout, then flag drive not ready
ADDA CHKSUM+1 update checksum
STA CHKSUM+1
BCC NWRITE2
INC CHKSUM
NWRITE2 DECB
BNE NWRITE1
*
* compare checksums
LDA CHKSUM
JSR SCHAR send checksum msb
BCC NRD_DNR
LDA CHKSUM+1
JSR SCHAR send checksum lsb
BCC NRD_DNR
*
JSR RCHAR get checksum response
BCC NRD_DNR
CMPA #ACK
BNE NWR_ERR if checksum error, then flag write error
*
CLRB all OK, flag no error
BRA NWR_END
*
NWR_ERR LDB #10 flag write error
*
NWR_END STB CHKSUM used by VERIFY
TSTB
RTS
*
*
* verify last sector written to remote drive
*
NVERIFY LDB CHKSUM test last checksum
TSTB
RTS
*
*
* quck check and check drive ready
*
NCHECK LDA #'Q quick check command
JSR SCHAR
BCC NCK_ERR if timeout, then flag drive not ready
JSR RCHAR get response from host
BCC NCK_ERR
CMPA #ACK
BNE NCK_ERR if NAK, then flag drive not ready
CLRB all OK, flag drive ready
BRA NCK_END
*
NCK_ERR LDB #16 report drive not ready
ORCC #$01 check needs carry set as well
*
NCK_END TSTB
RTS
*
*
* recieve char from remote drive.
* timeout if no response for approx 1s.
* Entry: no parameters
* Exit: (A) = recieved char, (C)=1 if valid char, (C)=0 if timeout.
*
RCHAR PSHS X,Y
*
LDX #1000 1000x inner loop
RCHAR1 LDY #DELCON delay constant for inner loop (approx 1ms).
RCHAR2 LDA ACIAC1 test for recieved char
ASRA
BCS RCHAR3 get character
LEAY -1,Y else, continue to count delay
BNE RCHAR2
LEAX -1,X
BNE RCHAR1
PULS X,Y,PC return with error if timed out
*
RCHAR3 LDA ACIAD1 return data (carry bit still set)
PULS X,Y,PC
*
*
* transmit char to remote drive.
* timeout if no response for approx 1s. (allows for use of hardware flow control)
* Entry: (A) = char to transmit
* Exit: (A) = recieved char, (C)=1 if valid char, (C)=0 if timeout.
*
SCHAR PSHS X,Y
PSHS A
*
LDX #1000 1000x inner loop
SCHAR1 LDY #DELCON delay constant for inner loop (approx 1ms).
SCHAR2 LDA ACIAC1 test for space in transmit FIFO
ASRA
ASRA
BCS SCHAR3 send character
LEAY -1,Y else, continue to count delay
BNE SCHAR2
LEAX -1,X
BNE SCHAR1
PULS A
PULS X,Y,PC return with error if timed out
*
SCHAR3 PULS A
STA ACIAD1 send data (carry bit still set)
PULS X,Y,PC
*
** 'UF' Format RAMdisc to FLEX standard.
*
DISFOS FCB $0A,$0D
FCC 'Formating RAMdisk... '
FCB 4
MESS6 FCB $0A,$0D,4
FCC 'Ramdisk not allocated! '
FCB 4
*
UFSUB LDX #DISFOS
JSR PDATA1
LDX #DTYPTAB search for allocated ramdisk
CLRB
FMT9 LDA B,X
CMPA #DTYPRAM driver type 1 is ramdisk
BEQ FFOUND
INCB
CMPB #4 end of table? then not allocated.
BNE FMT9
LDX #MESS6
JSR PDATA1
RTS
*
FFOUND STB DRVNUM
LDX #DRVNUM-3
JSR DRVSEL
*
* set up free chain
*
LDX #BUFFER clear out buffer
CLRA
CLRB
DFL1 STA 0,X+
DECB
BNE DFL1
*
CLR TRACK
LDA #1
STA SECTOR
DFL2 LDX #BUFFER
LDA TRACK
STA 0,X
LDA SECTOR
INCA
CMPA #RMAXSEC+1 last sector on track?
BNE DFL3
INC 0,X
LDA #1
DFL3 STA 1,X
LDA TRACK
LDB SECTOR
JSR WRITSC
INC SECTOR
LDA SECTOR
CMPA #RMAXSEC+1
BNE DFL2
LDA #1
STA SECTOR
INC TRACK
LDA TRACK
CMPA #RMAXTRK
BNE DFL2
* break free chain at last track/sector
LDX #BUFFER
LDA #RMAXTRK-1
LDB #RMAXSEC
JSR READSC
LDX #BUFFER
CLR 0,X
CLR 1,X
LDA #RMAXTRK-1
LDB #RMAXSEC
JSR WRITSC
* set up sector structure, SIR, directory etc
LDX #BUFFER
CLRA
LDB #RMAXSEC
JSR READSC
LDX #BUFFER
CLR 0,X break end of directory chain
CLR 1,X
CLRA
LDB #RMAXSEC
JSR WRITSC
*
LDX #BUFFER
CLRA
LDB #3 set up SIR
JSR READSC
LDX #BUFFER
CLR 0,X break forward link
CLR 1,X
LDD #$5241 set volume name (RAMDISK )
STD 16,X
LDD #$4D44
STD 18,X
LDD #$4953
STD 20,X
LDD #$4B20
STD 22,X
LDD #1 volume number
STD 27,X
LDD #$0101 first trk/sec 01-01
STD 29,X
LDA #RMAXTRK-1
LDB #RMAXSEC
STD 31,X
STD 38,X
LDD #RTOTSEC total DATA sectors (2912-14)
STD 33,X
*
LDA #01 month set default creation date (SYS09's birthday!)
STA 35,X
LDA #07 day
STA 36,X
LDA #07 year
STA 37,X
*
RF3 CLRA
LDB #3
JSR WRITSC
*
LDX #BUFFER
CLRA
LDB #1
JSR READSC
LDX #BUFFER
LDA #$AA set the init flag
STA 0,X
LDA #$55
STA 1,X
CLRA
LDB #1
JMP WRITSC
*
********************************
* System specific Boot *
* command goes here. *
********************************
*
* Boot FLEX from the FPGA's internal pre-loaded scratch RAM
*
UBMESS FCB $08, $08
FCC 'Booting internal FLEX....'
FCB $0D,$0A,$04
*
UBSUB LDX #UBMESS
JSR PDATA1
*
LDX #$D3E5
LDY #CONTAB Overlay console driver table
UB1 LDD 0,Y++
STD 0,X++
CMPX #$D3FD
BNE UB1
*
LDX #$DE00 Overlay disk driver table
LDY #DISTAB
UB2 LDD 0,Y++
STD 0,X++
CMPX #$DE1E
BNE UB2
*
UBEND JMP $CD00
*
* FLEX console jump table.
CONTAB FDB INPNE INPUT NO ECHO
FDB DUMMY INTERRUPT HANDLER
FDB MONRAM+$02 SWI VECTOR
FDB MONRAM+$08 IRQ VECTOR
FDB DUMMY TIMER OFF
FDB DUMMY TIMER ON
FDB DUMMY TIMER INITIALIZATION
FDB CONTRL MONITOR
FDB DUMMY TERMINAL INITIALIZATION
FDB STATUS INPUT CHECK
FDB OUTP TERMINAL OUTPUT
FDB INPE TERMINAL INPUT WITH ECHO
*
* FLEX disk jump table.
DISTAB JMP READSC
JMP WRITSC
JMP BUSY
JMP RESTR1
JMP DRVSEL
JMP CHKRDY
JMP CHKQIK
JMP DINIT
JMP DWARM
JMP SEEKTS
*
* Monitor jumps
*
PDATA1 JMP [PDATAV]
OUTP JMP [OUTCHV]
INPE JMP [INCHEV]
INPNE JMP [INCHV]
STATUS JMP [INCHKV]
CONTRL JMP [MONITV]
DUMMY RTS
*
** 'UL' LOAD ROM DISK VIA SERIAL PORT
*
ULMES FCC 'Serial ROM Disk upload ...'
FCB $0D,$0A,$04
ULMES1 FCC 'ROM Disk Loaded'
FCB $0D,$0A,$04
*
ULSUB LDX #ULMES
JSR PDATA1
*
LDA #$00
STA DRVNUM
CLRA TRACK 0
LDB #$01 SECTOR 1
ULLOOP0 STA TRACK
STB SECTOR`
LBSR MAPIN
*
CLRB xfer 256 bytes at a time.
ULLOOP1 JSR LRBYTE transfer should be hex bytes
STA ,U+
DECB
BNE ULLOOP1
*
LBSR MAPOUT
*
LDA TRACK
LDB SECTOR
INCB
CMPB #EMAXSEC+1
BNE ULLOOP0
LDB #1
INCA
CMPA #EMAXTRK
BNE ULLOOP0
*
ULEXIT LDX #ULMES1
JMP PDATA1
*
* Read a byte from the serial port
*
LRBYTE PSHS B
BSR LRHEX Get hex digit.
ASLA
ASLA Shift to msb.
ASLA
ASLA
TFR A,B Save in B.
BSR LRHEX Get next digit.
PSHS B
ADDA 0,S+ Add together bytes.
PULS B,PC
*
LRHEX JSR INTER
BVS LRHEX
SUBA #$30 Remove ascii bias.
BMI LRHEX
CMPA #$09 Number?
BLE LRHEX1 Yes.
CMPA #$11 Keep testing.
BMI LRHEX
CMPA #$16
BGT LRHEX
SUBA #$07
LRHEX1 RTS
*
* ACIA INPUT TEST
*
INTEST LDA ACIAC1
BITA #$01
RTS
*
* RESET ACIA
*
ACIRST LDA #$03 master reset
STA ACIAC1
LDA #$11
STA ACIAC1
RTS
*
* ACIA INPUT
*
INTER LDA #16
STA DELCNT+0
CLR DELCNT+1
CLR DELCNT+2
INTER0 LDA ACIAC1
BITA #$01
BNE INTER1
BITA #$78
BEQ INTER2
BSR ACIRST
BRA INTER
*
INTER1 LDA ACIAD1
ANDCC #VFLAG
RTS
*
INTER2 DEC DELCNT+2
BNE INTER0
DEC DELCNT+1
BNE INTER0
DEC DELCNT+0
BNE INTER0
CLRA
ORCC #VFLAG
RTS
*
* ACIA OUTPUT
*
OUTTER PSHS A
*
OUTTE1 LDA ACIAC1
BITA #$02
BNE OUTTE2
BITA #$78
BEQ OUTTE1
BSR ACIRST
BRA OUTTE1
*
OUTTE2 PULS A
STA ACIAD1
RTS
*
** 'UX' Xmodem ROM Disk upload
*
UXMES FCB $0D,$0A
FCC 'Xmodem ROM Disk Upload'
FCB 4
UXMES1 FCB $0D,$0A
FCC 'Upload Complete'
FCB 4
UXMES2 FCB $0D,$0A
FCC 'Upload Error'
FCB 4
*
UXSUB LDX #UXMES
LBSR PDATA1
*
LDA #1
STA BLKNUM
LDX #XSTSTR
STX XSTATE
*
LDA #$00
STA DRVNUM
CLRA TRACK 0
LDB #$01 SECTOR 1
UXLOOP0 STA TRACK
STB SECTOR
LBSR MAPIN
*
CLRB xfer 256 bytes at a time.
UXLOOP1 LBSR XBYTE transfer should be hex bytes
BCS UXERR
STA ,U+
DECB
BNE UXLOOP1
*
LBSR MAPOUT
*
LDA TRACK
LDB SECTOR
INCB
CMPB #EMAXSEC+1
BNE UXLOOP0
LDB #1
INCA
CMPA #EMAXTRK
BNE UXLOOP0
*
UXEXIT LDX #UXMES1
JMP PDATA1
*
UXERR LBSR MAPOUT
LDX #UXMES2
LBRA PDATA1
*
* Get a Byte using XModem protocol
* Carry clear => no errors
* Carry set => errors
*
XBYTE PSHS X
LDX XSTATE
*
XBYTE0 LBSR INTER
BVC XBYTE1
LDA #NAK
LBSR OUTTER
LDX #XSTSTR
BRA XBYTE0
*
XBYTE1 JSR ,X
BNE XBYTE0
STX XSTATE
PULS X,PC
*
* START - LOOK FOR SOH (START OF HEADER) = $01
*
XSTSTR CMPA #SOH
BNE XSTSTR1
LDX #XSTBLK
ANDCC #$FF-CFLAG-ZFLAG No abort, no valid data (no exit)
RTS
*
XSTSTR1 CMPA #EOT
BNE XSTSTR2
LDA #ACK
LBSR OUTTER
ORCC #CFLAG+ZFLAG Set (c)=1 abort & exit
RTS
*
XSTSTR2 CMPA #CAN
BNE XSTSTR3
ORCC #CFLAG+ZFLAG Set (c)=1 abort & exit
RTS
*
XSTSTR3 ANDCC #$FF-CFLAG-ZFLAG
RTS
*
* Got SOH
* Now get block number
*
XSTBLK CMPA BLKNUM
BNE XSTBLKE
LDX #XSTCOM
ANDCC #$FF-CFLAG-ZFLAG No abort, No valid data (no exit)
RTS
*
* Error in block number
*
XSTBLKE LDA #NAK
LBSR OUTTER
LDX #XSTSTR
ANDCC #$FF-CFLAG-ZFLAG No abort, No valid data (no exit)
RTS
*
* Get complement of block number
*
XSTCOM COMA
CMPA BLKNUM
BNE XSTBLKE
CLR CHKSUM
LDA #128
STA BYTCNT
LDX #XSTDAT
ANDCC #$FF-CFLAG-ZFLAG No abort, No valid data (no exit)
RTS
*
* Get data bytes
*
XSTDAT PSHS A
ADDA CHKSUM
STA CHKSUM
PULS A
DEC BYTCNT
BNE XSTDAT1
LDX #XSTCHK
XSTDAT1 ANDCC #$FF-CFLAG No abort
ORCC #ZFLAG Valid data (exit)
RTS
*
* Byte count reached zero
* Check checksum byte
*
XSTCHK CMPA CHKSUM
BNE XSTCHK1 retry if wrong checksum
*
* Checksum OK ...
* increment block number
* and send ACK
*
INC BLKNUM
LDA #ACK
BRA XSTCHK2
*
* Checksum Error detected ...
* Reset Sector counter in ACCB to last 128 byte boundary
* and send NAK
*
XSTCHK1 PSHS B
TFR U,D
DECB
ANDB #128
TFR D,U
PULS B
LDA #NAK
XSTCHK2 LBSR OUTTER
LDX #XSTSTR
ANDCC #$FF-CFLAG-ZFLAG No abort, no valid data (no exit)
RTS
*
** 'UP' Load ROMdisk via config PROM.
*
UPMES FCB $08,$08
FCC 'Load ROM disk from config PROM.'
FCB 4
UPMES1 FCC 'Found SYNC, loading data...'
FCB $0A,$0D,4
UPMES2 FCC 'ROM Disk Loaded.'
FCB $0A,$0D,4
UPMES3 FCC 'ROM Disk Not Found.'
FCB $0A,$0D,4
*
UPSUB LDX #UPMES
JSR PDATA1
*
BSR UPRESET
LDY #$0020 Set up count for 2 MBit
LDX #$0000
UPSUB1 BSR UPBIT Shift in bit
BSR UPSYNC Test for Sync pattern`
BEQ UPSUB4 Skip if found
LEAX -1,X Count Down inner loop
CMPX #$0000
BNE UPSUB1 Branch if inner loop not complete
LEAY -1,X Count down outer loop
CMPY #$0000
BNE UPSUB1 Branch if outer loop not complete
*
LDX #UPMES3 2MBits scanned, no synch, report error
JMP PDATA1
*
UPSUB4 LDX #UPMES1 Sync found, now load disk
JSR PDATA1
*
CLRA
STA DRVNUM select Drive 0
LDB #$01
UPSUB2 STA TRACK track 0
STB SECTOR sector 1
*
LBSR MAPIN map in buffer
CLRB 256 byte sector
UPSUB3 BSR UPBYTE read byte from prom
STA ,U+ Store in buffer
DECB
BNE UPSUB3 Loop until sector read`
LBSR MAPOUT map out buffer
*
LDA TRACK Advance sector
LDB SECTOR
INCB
CMPB #EMAXSEC+1 Wrap on max sector count
BNE UPSUB2
LDB #1
INCA Advance track
CMPA #EMAXTRK
BNE UPSUB2
*
UPEXIT LDX #UPMES2 Load complete, report message
JMP PDATA1
*
* Reset Serial PROM
*
UPRESET LDA #PRSTHI Strobe the reset line
STA PROMREG
LDA #PRSTLO
STA PROMREG
LDX #$0000 Delay a while`
UPRST1 LEAX -1,X
CMPX #$0000
BNE UPRST1
STX SYNCREG+0 Clear Sync Shift Register
STX SYNCREG+2
RTS
*
* Input 1 Bit From PROM
*
UPBIT LDA #PCLKHI
STA PROMREG
LDA #PCLKLO
STA PROMREG
LDA PROMREG
LSRA
ASL SYNCREG+3
RTS
*
* Test for 32 bit Sync Word
*
UPSYNC ROL SYNCREG+2
ROL SYNCREG+1
ROL SYNCREG+0
LDD #SYNCLO
CMPD SYNCREG+2
BNE UPSYNCX
LDD #SYNCHI
CMPD SYNCREG+0
UPSYNCX RTS
*
* Input 1 Byte From PROM
*
UPBYTE PSHS B
LDB #8
UPBYTE1 BSR UPBIT
DECB
BNE UPBYTE1
LDA SYNCREG+3
PULS B,PC
*
***** NEXTCMD *****
*
NEXTEXT LBSR INPE GET ONE CHAR. FROM TERMINAL
ANDA #$7F STRIP PARITY FROM CHAR.
TFR A,B
LDA #$20
LBSR OUTP PRNT SPACE
CMPB #$60
BLE NXTEX0
SUBB #$20
*
***** DO TABLE LOOKUP *****
* FOR COMMAND FUNCTIONS
*
NXTEX0 LDX #EXTTAB POINT TO JUMP TABLE
NXTEX1 CMPB ,X+ DOES COMMAND MATCH TABLE ENTRY ?
BEQ JMPEXT BRANCH IF MATCH FOUND
LEAX 2,X POINT TO NEXT ENTRY IN TABLE
CMPX #EXTEND REACHED END OF TABLE YET ?
BNE NXTEX1 IF NOT END, CHECK NEXT ENTRY
LDX #MSGWHAT POINT TO MSG "WHAT?"
LBRA PDATA1 PRINT MSG AND RETURN
JMPEXT JMP [,X] JUMP TO COMMAND ROUTINE
*
* EXTENDED COMMAND JUMP TABLE
*
EXTTAB EQU *
FCC 'B' BOOT FLEX
FDB UBSUB
FCC 'L' LOAD ROM DISK OVER SERIAL PORT
FDB ULSUB
FCC 'F' FORMAT RAM DISK
FDB UFSUB
FCC 'P' LOAD ROM DISK FROM PROM
FDB UPSUB
FCC 'X' XMODEM ROM DISK UPLOAD
FDB UXSUB
*
EXTEND EQU *
*
MSGWHAT FCC "WHAT ?"
FCB $0A,$0D,$04
END
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