AppleWin/docs/DiskII Formatter/Format1.1.1-annotated.txt

807 lines
23 KiB
Plaintext

;*
;*
;* * * * * * * * * * * * * * * * * * * * * * * * * * * *
;* * * * * * * * * * * * * * * * * * * * * * * * * * * *
;* * * *
;* * M U S T B E O N P A G E B O U N D A R Y * *
;* * * *
;* * * * * * * * * * * * * * * * * * * * * * * * * * * *
;* * * * * * * * * * * * * * * * * * * * * * * * * * * *
;* *
;* ProDOS DISK ][ Formatter Device Driver *
;* *
;* Copyright Apple Computer, Inc., 1982-1984 *
;* *
;* Enter with ProDOS device number in A-register: *
;* Zero = bits 0, 1, 2, 3 *
;* Slot No.= bits 4, 5, 6 *
;* Drive 1 = bit 7 off *
;* Drive 2 = bit 7 on *
;* *
;* Error codes returned in A-register: *
;* $00 : Good completion *
;* $27 : Unable to format *
;* $2B : Write-Protected *
;* $33 : Drive too SLOW *
;* $34 : Drive too FAST *
;* NOTE: Carry flag is set if error occured. *
;* *
;* Uses zero page locations $D0 thru $DD *
;* *
;* - - - - - - - - - - - - - - - - - - - - - - - - - - *
;* Modified 15 December 1983 to disable interrupts *
;* Modified 20 December 1983 to increase tolerance *
;* of disk speed check *
;* Modified 30 March 1983 to increase tolerance of *
;* disk speed *
;* * * * * * * * * * * * * * * * * * * * * * * * * * * *
;
; Disassembly and annotations by TC (Nov. 2017)
; . disassembly from prodos_utility.dsk (ProDOS 1.1.1)
;
;
; Entrypoint
; Pre: A=slot*16, ($DE)=#$01=volume#
;
7900- 08 PHP
7901- 78 SEI ; interrupt disable
7902- 20 3A 79 JSR $793A
7905- 28 PLP ; restore interrupt ena/dis state
7906- C9 00 CMP #$00
7908- D0 02 BNE $790C
790A- 18 CLC ; res=OK
790B- 60 RTS
; error:
790C- C9 02 CMP #$02
790E- D0 05 BNE $7915
7910- A9 2B LDA #$2B ; MLI error: write protected
7912- 4C 21 79 JMP $7921
;
7915- C9 01 CMP #$01
7917- D0 05 BNE $791E
7919- A9 27 LDA #$27 ; MLI error: I/O error
791B- 4C 21 79 JMP $7921
;
791E- 18 CLC
791F- 69 30 ADC #$30 ; =>$33 or $34
7921- 38 SEC ; res=ERROR
7922- 60 RTS
; end
; Seek to track
; Pre: A=trk#, X=slot*16
7923- 0A ASL ; A=half track
7924- 0E 24 7D ASL $7D24
7927- 8D 36 7D STA $7D36
792A- 8A TXA
792B- 4A LSR
792C- 4A LSR
792D- 4A LSR
792E- 4A LSR ; A=slot
792F- A8 TAY ; Y=slot
7930- AD 36 7D LDA $7D36
7933- 20 C6 7A JSR $7AC6
7936- 4E 24 7D LSR $7D24
7939- 60 RTS
; ??? (end)
; FormatDisk (called from Entrypoint)
; Pre: A=slot*16, A.b7=drive#
793A- AA TAX
793B- 29 70 AND #$70
793D- 8D 23 7D STA $7D23 ; set slot*16
7940- 8A TXA
7941- AE 23 7D LDX $7D23
7944- 2A ROL ; C=drive#
7945- A9 00 LDA #$00
7947- 2A ROL
7948- D0 06 BNE $7950
794A- BD 8A C0 LDA $C08A,X ; select drive-1
794D- 4C 53 79 JMP $7953
7950- BD 8B C0 LDA $C08B,X ; select drive-2
;
7953- BD 89 C0 LDA $C089,X ; motor on
7956- A9 D7 LDA #$D7
7958- 85 DA STA $DA ; ($DA) = #$D7
795A- A9 50 LDA #$50
795C- 8D 24 7D STA $7D24 ; ($7D24) = 80
; Seek to track 0
795F- A9 00 LDA #$00
7961- 20 23 79 JSR $7923
; Wait (until motor up to speed?)
7964- A5 DA LDA $DA ; read_vol
7966- F0 06 BEQ $796E
7968- 20 3A 7C JSR $7C3A ; Wait incs read_vol
796B- 4C 64 79 JMP $7964
; Init vars/consts
796E- A5 DE LDA $DE
7970- 85 D3 STA $D3 ; ($D3) = write_vol = 1 (constant)
7972- A9 AA LDA #$AA
7974- 85 D0 STA $D0 ; ($D0) = #$AA (constant)
7976- AD 20 7D LDA $7D20 ; max_gap3
7979- 18 CLC
797A- 69 02 ADC #$02
797C- 85 D4 STA $D4 ; ($D4) = max_gap3 + 2
797E- A9 00 LDA #$00
7980- 85 D1 STA $D1 ; ($D1) = write_trk = 0
; Write next track
7982- A5 D1 LDA $D1
7984- AE 23 7D LDX $7D23
7987- 20 23 79 JSR $7923
798A- AE 23 7D LDX $7D23
798D- BD 8D C0 LDA $C08D,X ; load disk write prot to latch(b7=1 => write protected)
7990- BD 8E C0 LDA $C08E,X ; set read mode & read latch
7993- A8 TAY
7994- BD 8E C0 LDA $C08E,X ; set read mode
7997- BD 8C C0 LDA $C08C,X ; read nib to latch & read latch
799A- 98 TYA
799B- 10 05 BPL $79A2
799D- A9 02 LDA #$02 ; Error = write protected
799F- 4C F9 79 JMP $79F9
; Write track
79A2- 20 63 7C JSR $7C63
79A5- 90 0E BCC $79B5
; Error...
79A7- A9 01 LDA #$01
79A9- A4 D4 LDY $D4
79AB- CC 1F 7D CPY $7D1F
79AE- B0 02 BCS $79B2
79B0- A9 04 LDA #$04
79B2- 4C F9 79 JMP $79F9 ; error code = 4 (Drive too FAST)
; Succeeded writing track, now check gap3_count tolerance
79B5- A4 D4 LDY $D4
79B7- CC 1F 7D CPY $7D1F
79BA- B0 05 BCS $79C1
79BC- A9 04 LDA #$04
79BE- 4C F9 79 JMP $79F9 ; error code = 4 (Drive too FAST)
;
79C1- CC 20 7D CPY $7D20
79C4- 90 05 BCC $79CB
79C6- A9 03 LDA #$03
79C8- 4C F9 79 JMP $79F9 ; error code = 3 (Drive too SLOW)
; Read a max of 15 (not 16) address fields, looking for sector 0
79CB- AD 22 7D LDA $7D22 ; A = #$10 (constant)
79CE- 8D 25 7D STA $7D25
;
79D1- CE 25 7D DEC $7D25
79D4- D0 05 BNE $79DB
79D6- A9 01 LDA #$01
79D8- 4C F9 79 JMP $79F9 ; error code = 1 (I/O error)
79DB- AE 23 7D LDX $7D23
79DE- 20 6A 7A JSR $7A6A ; Read address field
79E1- B0 EE BCS $79D1
79E3- A5 D8 LDA $D8 ; sector 0?
79E5- D0 EA BNE $79D1 ; ... no, so keep reading
; Got address field for sector 0:
; Verify sector
79E7- AE 23 7D LDX $7D23
79EA- 20 07 7A JSR $7A07 ; ???
79ED- B0 E2 BCS $79D1
; Prep for formatting next track
79EF- E6 D1 INC $D1 ; inc write_trk
79F1- A5 D1 LDA $D1
79F3- C9 23 CMP #$23 ; done 35 tracks?
79F5- 90 8B BCC $7982 ; ... no, so write next track
79F7- A9 00 LDA #$00 ; res = OK
79F9- 48 PHA ; push error code
79FA- AE 23 7D LDX $7D23
79FD- BD 88 C0 LDA $C088,X
7A00- A9 00 LDA #$00
7A02- 20 23 79 JSR $7923
7A05- 68 PLA ; pop error code
7A06- 60 RTS
; end
;
; Verify sector
;
; Read data prologue (D5 AA AD) within 32 nibbles
7A07- A0 20 LDY #$20
7A09- 88 DEY
7A0A- F0 5C BEQ $7A68
7A0C- BD 8C C0 LDA $C08C,X
7A0F- 10 FB BPL $7A0C
7A11- 49 D5 EOR #$D5
7A13- D0 F4 BNE $7A09
7A15- EA NOP
7A16- BD 8C C0 LDA $C08C,X
7A19- 10 FB BPL $7A16
7A1B- C9 AA CMP #$AA
7A1D- D0 F2 BNE $7A11
7A1F- A0 56 LDY #$56 ; Y=#$56
7A21- BD 8C C0 LDA $C08C,X
7A24- 10 FB BPL $7A21
7A26- C9 AD CMP #$AD
7A28- D0 E7 BNE $7A11
; Read data
7A2A- A9 00 LDA #$00 ; ($D5) = #$FF = Number of #$96 nibbles to read
7A2C- 88 DEY
7A2D- 84 D5 STY $D5
7A2F- BD 8C C0 LDA $C08C,X
7A32- 10 FB BPL $7A2F
7A34- C9 96 CMP #$96
7A36- D0 30 BNE $7A68
7A38- A4 D5 LDY $D5
7A3A- D0 F0 BNE $7A2C
;
7A3C- 84 D5 STY $D5
7A3E- BD 8C C0 LDA $C08C,X
7A41- 10 FB BPL $7A3E
7A43- C9 96 CMP #$96
7A45- D0 21 BNE $7A68
7A47- A4 D5 LDY $D5
7A49- C8 INY
7A4A- D0 F0 BNE $7A3C
;
7A4C- BD 8C C0 LDA $C08C,X
7A4F- 10 FB BPL $7A4C
7A51- C9 96 CMP #$96
7A53- D0 13 BNE $7A68
; Read data epilogue (DE AA)
7A55- BD 8C C0 LDA $C08C,X
7A58- 10 FB BPL $7A55
7A5A- C9 DE CMP #$DE
7A5C- D0 0A BNE $7A68 ; error
7A5E- EA NOP
7A5F- BD 8C C0 LDA $C08C,X
7A62- 10 FB BPL $7A5F
7A64- C9 AA CMP #$AA
7A66- F0 5C BEQ $7AC4 ; CLC & RTS
7A68- 38 SEC ; error
7A69- 60 RTS
; end
;
; Read address field
;
; Post:
; ($D7) = Chksum
; ($D8) = Sec
; ($D9) = Trk
; ($DA) = Vol
;
; Carry set => error:
; . max nibble count read before addr prologue
; . chksum error
; . addr epilogue not correct
;
; Init: nibble count until error: 3+3*256 = 3+768 = 771
7A6A- A0 FC LDY #$FC
7A6C- 84 DC STY $DC
; Read until address prologue (D5 AA 96)
7A6E- C8 INY
7A6F- D0 04 BNE $7A75
7A71- E6 DC INC $DC
7A73- F0 F3 BEQ $7A68 ; error
7A75- BD 8C C0 LDA $C08C,X
7A78- 10 FB BPL $7A75
7A7A- C9 D5 CMP #$D5
7A7C- D0 F0 BNE $7A6E
7A7E- EA NOP
7A7F- BD 8C C0 LDA $C08C,X
7A82- 10 FB BPL $7A7F
7A84- C9 AA CMP #$AA
7A86- D0 F2 BNE $7A7A
7A88- A0 03 LDY #$03 ; Y=3
7A8A- BD 8C C0 LDA $C08C,X
7A8D- 10 FB BPL $7A8A
7A8F- C9 96 CMP #$96
7A91- D0 E7 BNE $7A7A
; Read 4&4
; ($D7) = Chksum
; ($D8) = Sec
; ($D9) = Trk
; ($DA) = Vol
7A93- A9 00 LDA #$00
7A95- 85 DB STA $DB ; update chksum
7A97- BD 8C C0 LDA $C08C,X
7A9A- 10 FB BPL $7A97
7A9C- 2A ROL
7A9D- 85 DD STA $DD
7A9F- BD 8C C0 LDA $C08C,X
7AA2- 10 FB BPL $7A9F
7AA4- 25 DD AND $DD
7AA6- 99 D7 00 STA $00D7,Y
7AA9- 45 DB EOR $DB
7AAB- 88 DEY
7AAC- 10 E7 BPL $7A95
;
7AAE- A8 TAY
7AAF- D0 B7 BNE $7A68 ; chksum error
; Read epilogue (DE AA)
7AB1- BD 8C C0 LDA $C08C,X
7AB4- 10 FB BPL $7AB1
7AB6- C9 DE CMP #$DE
7AB8- D0 AE BNE $7A68 ; error
7ABA- EA NOP
7ABB- BD 8C C0 LDA $C08C,X
7ABE- 10 FB BPL $7ABB
7AC0- C9 AA CMP #$AA
7AC2- D0 A4 BNE $7A68 ; error
7AC4- 18 CLC ; res = OK
7AC5- 60 RTS
; end
; Seek to half track
; Pre: A=half track#, X=slot*16, Y=slot
7AC6- 8E 37 7D STX $7D37
7AC9- 8D 36 7D STA $7D36
7ACC- CD 24 7D CMP $7D24
7ACF- F0 5C BEQ $7B2D
7AD1- A9 00 LDA #$00
7AD3- 8D 38 7D STA $7D38
7AD6- AD 24 7D LDA $7D24
7AD9- 8D 39 7D STA $7D39
7ADC- 38 SEC
7ADD- ED 36 7D SBC $7D36
7AE0- F0 37 BEQ $7B19
7AE2- B0 07 BCS $7AEB
7AE4- 49 FF EOR #$FF
7AE6- EE 24 7D INC $7D24
7AE9- 90 05 BCC $7AF0
7AEB- 69 FE ADC #$FE
7AED- CE 24 7D DEC $7D24
7AF0- CD 38 7D CMP $7D38
7AF3- 90 03 BCC $7AF8
7AF5- AD 38 7D LDA $7D38
7AF8- C9 0C CMP #$0C
7AFA- B0 01 BCS $7AFD
7AFC- A8 TAY
7AFD- 38 SEC
7AFE- 20 1D 7B JSR $7B1D
7B01- B9 4B 7C LDA $7C4B,Y
7B04- 20 3A 7C JSR $7C3A
7B07- AD 39 7D LDA $7D39
7B0A- 18 CLC
7B0B- 20 20 7B JSR $7B20
7B0E- B9 57 7C LDA $7C57,Y
7B11- 20 3A 7C JSR $7C3A
7B14- EE 38 7D INC $7D38
7B17- D0 BD BNE $7AD6
7B19- 20 3A 7C JSR $7C3A
7B1C- 18 CLC
7B1D- AD 24 7D LDA $7D24
7B20- 29 03 AND #$03
7B22- 2A ROL
7B23- 0D 37 7D ORA $7D37
7B26- AA TAX
7B27- BD 80 C0 LDA $C080,X
7B2A- AE 37 7D LDX $7D37
7B2D- 60 RTS
; end
;
; Write gap2, Data field, data
;
7B2E- 20 0E 7D JSR $7D0E
7B31- BD 8D C0 LDA $C08D,X
7B34- BD 8E C0 LDA $C08E,X
; Write gap2 (5x 10-bit FF)
7B37- A9 FF LDA #$FF
7B39- 9D 8F C0 STA $C08F,X
7B3C- DD 8C C0 CMP $C08C,X
7B3F- 48 PHA
7B40- 68 PLA
7B41- EA NOP
7B42- A0 04 LDY #$04
7B44- 48 PHA
7B45- 68 PLA
7B46- 20 A5 7B JSR $7BA5
7B49- 88 DEY
7B4A- D0 F8 BNE $7B44
; Write Data prologue (D5 AA AD)
7B4C- A9 D5 LDA #$D5
7B4E- 20 A4 7B JSR $7BA4
7B51- A9 AA LDA #$AA
7B53- 20 A4 7B JSR $7BA4
7B56- A9 AD LDA #$AD
7B58- 20 A4 7B JSR $7BA4
; Write 86 x #$96
7B5B- A0 56 LDY #$56
7B5D- EA NOP
7B5E- EA NOP
7B5F- EA NOP
7B60- D0 03 BNE $7B65
7B62- 20 0E 7D JSR $7D0E ; RTS
7B65- EA NOP
7B66- EA NOP
7B67- A9 96 LDA #$96
7B69- 9D 8D C0 STA $C08D,X
7B6C- DD 8C C0 CMP $C08C,X
7B6F- 88 DEY
7B70- D0 F0 BNE $7B62
; Write 256 x #$96
7B72- 24 00 BIT $00
7B74- EA NOP
7B75- 20 0E 7D JSR $7D0E ; RTS
7B78- A9 96 LDA #$96
7B7A- 9D 8D C0 STA $C08D,X
7B7D- DD 8C C0 CMP $C08C,X
7B80- A9 96 LDA #$96
7B82- EA NOP
7B83- C8 INY
7B84- D0 EF BNE $7B75
; Write Data epilogue (DE AA EB FF)
7B86- 20 A4 7B JSR $7BA4
7B89- A9 DE LDA #$DE
7B8B- 20 A4 7B JSR $7BA4
7B8E- A9 AA LDA #$AA
7B90- 20 A4 7B JSR $7BA4
7B93- A9 EB LDA #$EB
7B95- 20 A4 7B JSR $7BA4
7B98- A9 FF LDA #$FF
7B9A- 20 A4 7B JSR $7BA4
;
7B9D- BD 8E C0 LDA $C08E,X ; read latch (and set read mode)
7BA0- BD 8C C0 LDA $C08C,X ; read latch
7BA3- 60 RTS
; Write nibble
7BA4- EA NOP
; Write nibble
7BA5- 48 PHA
7BA6- 68 PLA
7BA7- 9D 8D C0 STA $C08D,X
7BAA- DD 8C C0 CMP $C08C,X
7BAD- 60 RTS
;
; Write gap1(sector-0) or gap3 & address field
; Pre: X=slot*16, Y=gap count
;
; Check if disk is write enabled
7BAE- 38 SEC ; ? (2 cycles)
7BAF- BD 8D C0 LDA $C08D,X ; load write protect to latch (b7)
7BB2- BD 8E C0 LDA $C08E,X ; read latch (and set read mode)
7BB5- 30 5E BMI $7C15 ; branch if write protected
; Gap1 or Gap3: Initial 10-bit FF sync byte
7BB7- A9 FF LDA #$FF
7BB9- 9D 8F C0 STA $C08F,X ; set write mode & write data to latch
7BBC- DD 8C C0 CMP $C08C,X ; start writing latch (start shifting)
7BBF- 48 PHA
7BC0- 68 PLA
; Gap1 or Gap3: 10-bit FF sync byte (40 cycle loop)
; Pre: A=#$FF, Y=gap count
7BC1- 20 1B 7C JSR $7C1B ; RTS
7BC4- 20 1B 7C JSR $7C1B ; RTS
7BC7- 9D 8D C0 STA $C08D,X ; write data to latch
7BCA- DD 8C C0 CMP $C08C,X ; start writing latch (start shifting)
7BCD- EA NOP
7BCE- 88 DEY
7BCF- D0 F0 BNE $7BC1 ; NB. branch taken cross pages
; Write address prologue (D5 AA 96)
7BD1- A9 D5 LDA #$D5
7BD3- 20 2D 7C JSR $7C2D
7BD6- A9 AA LDA #$AA
7BD8- 20 2D 7C JSR $7C2D
7BDB- A9 96 LDA #$96
7BDD- 20 2D 7C JSR $7C2D
; Write address field
7BE0- A5 D3 LDA $D3 ; Vol=01
7BE2- 20 1C 7C JSR $7C1C
7BE5- A5 D1 LDA $D1 ; Trk
7BE7- 20 1C 7C JSR $7C1C
7BEA- A5 D2 LDA $D2 ; Sec
7BEC- 20 1C 7C JSR $7C1C
7BEF- A5 D3 LDA $D3
7BF1- 45 D1 EOR $D1
7BF3- 45 D2 EOR $D2
7BF5- 48 PHA ; Chksum
7BF6- 4A LSR
7BF7- 05 D0 ORA $D0 ; OR with #$AA
; write 4&4 chksum in A
7BF9- 9D 8D C0 STA $C08D,X
7BFC- BD 8C C0 LDA $C08C,X
7BFF- 68 PLA
7C00- 09 AA ORA #$AA
7C02- 20 2C 7C JSR $7C2C
; write address epilogue (DE AA EB)
7C05- A9 DE LDA #$DE
7C07- 20 2D 7C JSR $7C2D
7C0A- A9 AA LDA #$AA
7C0C- 20 2D 7C JSR $7C2D
7C0F- A9 EB LDA #$EB
7C11- 20 2D 7C JSR $7C2D
7C14- 18 CLC
7C15- BD 8E C0 LDA $C08E,X
7C18- BD 8C C0 LDA $C08C,X
7C1B- 60 RTS
; write 4&4 byte in A
7C1C- 48 PHA
7C1D- 4A LSR
7C1E- 05 D0 ORA $D0
7C20- 9D 8D C0 STA $C08D,X
7C23- DD 8C C0 CMP $C08C,X
7C26- 68 PLA
7C27- EA NOP
7C28- EA NOP
7C29- EA NOP
7C2A- 09 AA ORA #$AA
7C2C- EA NOP
; fall through...
; 32 cycle write
7C2D- EA NOP
7C2E- 48 PHA
7C2F- 68 PLA
7C30- 9D 8D C0 STA $C08D,X
7C33- DD 8C C0 CMP $C08C,X
7C36- 60 RTS
; end
; ??? (unused)
7C37- C8 INY
7C38- A0 C3 LDY #$C3
; ??? (end)
; Wait: A * (2 + (5*16) + 5+3+5+2+2+3) = A * 102 cycles (roughly)
; Pre: A = wait value
7C3A- A2 11 LDX #$11 ; 2cy
7C3C- CA DEX ; 2cy
7C3D- D0 FD BNE $7C3C ; 2+1 (branch taken)
7C3F- E6 D9 INC $D9 ; 5cy / read_trk++
7C41- D0 02 BNE $7C45 ; 2+1 (branch taken)
7C43- E6 DA INC $DA ; 5cy / read_vol++
7C45- 38 SEC ; 2cy
7C46- E9 01 SBC #$01 ; 2cy
7C48- D0 F0 BNE $7C3A ; 2+1 (branch taken)
7C4A- 60 RTS
; end
.data
7C4B: ; 12 bytes
!byte $01,$30,$28
!byte $24,$20,$1E
!byte $1D,$1C,$1C
!byte $1C,$1C,$1C
7C57: ; 12 bytes
!byte $70,$2C,$26
!byte $22,$1F,$1E
!byte $1D,$1C,$1C
!byte $1C,$1C,$1C
.code
;
; Write track and verify track
;
; write gap1 & address field
7C63- AD 21 7D LDA $7D21
7C66- 85 D6 STA $D6 ; ($D6) = 3 = timeout * 256?
;
7C68- A0 80 LDY #$80 ; gap1 has gap count = 128
7C6A- A9 00 LDA #$00
7C6C- 85 D2 STA $D2 ; sector = 0
7C6E- 4C 73 7C JMP $7C73
; write gap3 & address field
7C71- A4 D4 LDY $D4 ; gap3_count
;
7C73- AE 23 7D LDX $7D23 ; slot*16
7C76- 20 AE 7B JSR $7BAE ; write gap1|3 & address field
7C79- 90 03 BCC $7C7E
; error:
7C7B- 4C 0E 7D JMP $7D0E
; success:
; write gap2, data field, data
7C7E- AE 23 7D LDX $7D23
7C81- 20 2E 7B JSR $7B2E
7C84- E6 D2 INC $D2 ; inc write_sector
7C86- A5 D2 LDA $D2
7C88- C9 10 CMP #$10 ; done 16 sectors?
7C8A- 90 E5 BCC $7C71 ; ... no, write next gap3 & sector
;
; verify track
;
7C8C- A0 0F LDY #$0F
7C8E- 84 D2 STY $D2 ; write_sector = 15 (used as sector loop counter)
7C90- AD 22 7D LDA $7D22 ; A = #$10 (constant)
7C93- 8D 25 7D STA $7D25 ; Set retry count = #$10
; Fill sector_flag struct with #$10
7C96- 99 26 7D STA $7D26,Y
7C99- 88 DEY
7C9A- 10 FA BPL $7C96
7C9C- A5 D4 LDA $D4 ; gap3_count
7C9E- 38 SEC
7C9F- E9 05 SBC #$05
7CA1- A8 TAY
; Delay for: (gap3_count-5) * 40 cycles
7CA2- 20 0E 7D JSR $7D0E ; 12cy / RTS
7CA5- 20 0E 7D JSR $7D0E ; 12cy / RTS
7CA8- 48 PHA ; 3
7CA9- 68 PLA ; 4
7CAA- EA NOP ; 2
7CAB- EA NOP ; 2
7CAC- 88 DEY ; 2
7CAD- D0 F3 BNE $7CA2 ; 3 (taken)
; = 40 cycles
7CAF- AE 23 7D LDX $7D23
7CB2- 20 6A 7A JSR $7A6A ; Read address field
7CB5- B0 3C BCS $7CF3
7CB7- A5 D8 LDA $D8
7CB9- F0 13 BEQ $7CCE ; read sector 0?
; ... No:
7CBB- C6 D4 DEC $D4 ; gap3_count--
7CBD- A5 D4 LDA $D4
7CBF- CD 1F 7D CMP $7D1F
7CC2- B0 2F BCS $7CF3 ; rewrite track
7CC4- 38 SEC ; error: gap3_count too small
7CC5- 60 RTS
; Verify next sector
7CC6- AE 23 7D LDX $7D23
7CC9- 20 6A 7A JSR $7A6A ; Read address field
7CCC- B0 1A BCS $7CE8
;
7CCE- AE 23 7D LDX $7D23
7CD1- 20 07 7A JSR $7A07 ; Read sector data
7CD4- B0 12 BCS $7CE8
7CD6- A4 D8 LDY $D8 ; Y=read sector#
7CD8- B9 26 7D LDA $7D26,Y
7CDB- 30 0B BMI $7CE8 ; -ve if already read this sector
7CDD- A9 FF LDA #$FF
7CDF- 99 26 7D STA $7D26,Y ; sector_flag[Y] := #$FF
7CE2- C6 D2 DEC $D2 ; write_sector--
7CE4- 10 E0 BPL $7CC6
7CE6- 18 CLC ; res = OK
7CE7- 60 RTS
;
7CE8- CE 25 7D DEC $7D25 ; retry_count--
7CEB- D0 D9 BNE $7CC6
7CED- C6 D6 DEC $D6
7CEF- D0 02 BNE $7CF3
7CF1- 38 SEC ; error (timeout)
7CF2- 60 RTS
; Retry 32 times to read sector #$0F
; On success: rewrite track
7CF3- AD 22 7D LDA $7D22 ; A = #$10 (constant)
7CF6- 0A ASL ; A = #$20
7CF7- 8D 25 7D STA $7D25 ; Set retry count = #$20
;
7CFA- AE 23 7D LDX $7D23
7CFD- 20 6A 7A JSR $7A6A ; Read address field
7D00- B0 06 BCS $7D08
7D02- A5 D8 LDA $D8
7D04- C9 0F CMP #$0F ; read sector == #$0F? (ie. last sector on track)
7D06- F0 07 BEQ $7D0F ; ... yes: wait & rewrite track
7D08- CE 25 7D DEC $7D25
7D0B- D0 ED BNE $7CFA
7D0D- 38 SEC ; error
7D0E- 60 RTS
;
; wait for 214 x 32-cycle nibbles
7D0F- A2 D6 LDX #$D6 ; = 214
7D11- 20 0E 7D JSR $7D0E ; 12cy / RTS
7D14- 20 0E 7D JSR $7D0E ; 12cy / RTS
7D17- 24 00 BIT $00 ; 3cy
7D19- CA DEX ; 2cy
7D1A- D0 F5 BNE $7D11 ; 3cy (2+1taken)
; = 32
; JMP to Write track and verify track
7D1C- 4C 68 7C JMP $7C68
; end
.data
7D1F: 0E ; min gap3
7D20: 1B ; max gap3 (gap3 >= 0x1B means DRIVE TOO SLOW)
7D21: 03 ; timeout * 256
7D22: 10 ; a constant
7D23: 80 ; slot*10
7D24: A0 ; gets init'd to #$50 (80)
7D25: A0 ; retry count
; sector_flag[16]:
7D26: A0 B1 C5 A0
7D2A: A0 C4 A0 B0
7D2E: 80 A0 A0 C3
7D32: A0 A0 A0 A0
7D36: A0
7D37: A0
7D38: A0
7D39: A0
; Symbol table:
D0 kAA
D1 w_Track
D2 w_Sector
D3 w_Volume
D4 w_Gap3Count
D5 r_Nib96Count
D6 r_NibCount1Hi
D7 r_Chksum
D8 r_Sector
D9 r_Track
DA r_Volume
DB r_TmpChksum
DC r_NibCount2Hi
DD r_Tmp4and4
DE kVolNum01
7900 FormatterDiskII
7923 SeekTrack
793A FormatDisk
7982 WriteNextTrack
79A2 WriteTrack
79B5 CheckGap3Count
79CB FindSector00Init
79D1 FindSector00Cont
79E7 VerifySector
79EF NextTrack
79F9 Done
7A07 ReadSectorData
7A6A ReadAddressField
7AC6 SeekHalfTrack
7B2E WriteGap2AndData
7BA4 WriteNibble1a
7BA5 WriteNibble1b
7BAE CheckWriteProt
7BB7 WriteGap0Or3AndAddress
7C2C WriteNibble2a
7C2D WriteNibble2b
7C37 Unused3
7C3A WaitA
7C4B Data12_1
7C57 Data12_2
7C63 WriteAndVerifyTrack
7C68 WriteGap1AndAddress2
7C71 WriteGap3AndAddress
7C8C VerifyTrack
7C96 ResetSectorFlags
7CA2 WaitGap3Count
7CBB DecGap3Count
7CC6 VerifyNextSector
7CCE VerifyNextSector2
7CE8 Retry
7CF3 Retry2
7CFA FindSector0FCont
7D0E RTS
7D0F RetryWait
7D1F kMinGap3
7D20 kMaxGap3
7D21 kNibCountHi
7D22 k10
7D23 Slotx16
7D24 HalfTrack
7D25 RetryCount
7D26 SectorFlags