mirror of
https://github.com/zellyn/a2audit.git
synced 2024-11-28 07:49:26 +00:00
799 lines
14 KiB
NASM
799 lines
14 KiB
NASM
;;; Apple IIe Auxiliary memory audit routines
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;;; Copyright © 2017 Zellyn Hunter <zellyn@gmail.com>
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!zone auxmem {
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.MEM_1 = %00
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.MEM_2 = %01
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.MEM_3 = %10
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.MEM_4 = %11
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.MEM_2_1_1_1 = (.MEM_2 << 0) + (.MEM_1 << 2) + (.MEM_1 << 4) + (.MEM_1 << 6)
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.MEM_3_2_2_2 = (.MEM_3 << 0) + (.MEM_2 << 2) + (.MEM_2 << 4) + (.MEM_2 << 6)
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.C_8f = %0001
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.C_12 = %0010
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.C_47 = %0100
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.C_3 = %1000
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.C_0 = %0000
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.C_skip = $80
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.C_1348 = .C_12 | .C_3 | .C_47 | .C_8f
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.C_38 = .C_3 | .C_8f
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.checkdata = tmp1
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.ismain = tmp3
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.region = tmp4
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.actual = tmp1
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.desired = tmp2
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AUXMEMTESTS
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lda #0
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sta AUXRESULT
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lda MEMORY
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cmp #65
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bcs +
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+print
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!text "64K OR LESS:SKIPPING AUXMEM TEST",$8D
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+printed
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sec
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rts
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+ +print
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!text "TESTING AUX MEM",$8D
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+printed
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lda LCRESULT
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bne .auxlc
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+print
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!text "LC FAILED BEFORE:SKIPPING AUXMEM LC",$8D
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+printed
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jmp .datadriventests
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.auxlc ;; Run langcard tests in auxmem
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lda LCRESULT
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sta LCRESULT1
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lda #0
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sta LCRESULT
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;; Store distinct values in RAM areas, to see if they stay safe.
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lda $C08B ; Read and write bank 1
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lda $C08B
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lda #$44
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sta $D17B ; $D17B is $53 in Apple II/plus/e/enhanced
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sta $FE1F ; FE1F is $60 in Apple II/plus/e/enhanced
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lda $C083 ; Read and write bank 2
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lda $C083
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lda #$44
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sta $D17B
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jsr zptoaux
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sta SET_ALTZP
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jsr LANGCARDTESTS_NO_CHECK
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sta RESET_ALTZP
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jsr zpfromaux
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lda LCRESULT
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bne +
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+prerr $0008 ;; E0008: We tried to run the langcard tests again with auxmem (ALTZP active), and they failed, so we're quitting the auxmem test.
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!text "QUITTING AUXMEM TEST DUE TO LC FAIL",$8D
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+prerred
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sec
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rts
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;; Check that the stuff we stashed in main RAM was unaffected.
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+
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lda $C088 ; Read bank 1
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lda $D17B
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cmp #$44
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beq +
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pha
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+print
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!text "WANT BANK1 $D17B"
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+printed
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beq .lcerr
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+ lda $C080 ; Read bank 2
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lda $D17B
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cmp #$44
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beq +
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pha
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+print
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!text "WANT BANK2 $D17B"
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+printed
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beq .lcerr
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+
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lda $FE1F
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cmp #$44
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beq .datadriventests
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pha
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+print
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!text "WANT RAM $FE1F"
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+printed
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.lcerr
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+print
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!text "=$44;GOT $"
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+printed
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pla
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jsr PRBYTE
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+prerr $0009 ;; E0009: We wrote $44 to main RAM in the three test locations used by the LC test. They should have been unaffected by the LC test while it was using auxmem, but at least one of them was modified.
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!text ""
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+prerred
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sec
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rts
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.success
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lda #' '
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sta $427
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+print
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!text "AUXMEM TESTS SUCCEEDED",$8D
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+printed
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lda #1
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sta AUXRESULT
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clc
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rts
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;;; Main data-driven test. PCL,PCH holds the address of the next
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;;; data-driven test routine. We expect the various softswitches
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;;; to be reset each time we loop at .ddloop.
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.datadriventests
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lda #<.auxtests
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sta PCL
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lda #>.auxtests
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sta PCH
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;;; Main data-drive-test loop.
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.ddloop
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ldy #0
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lda (PCL),Y
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beq .success
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lda #3
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sta SET_ALTZP
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sta SET_RAMWRT
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sta SET_RAMRD
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.initloop ; Loop twice: initialize aux to $3 and main to $1.
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ldy #.memorylen
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- ldx .memorylocs,y
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stx + +1
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ldx .memorylocs+1,y
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stx + +2
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+ sta $ffff ;; this address gets replaced
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dey
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dey
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bpl -
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sta RESET_ALTZP
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sta RESET_RAMWRT
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sta RESET_RAMRD
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sec
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sbc #2
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bcs .initloop
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jmp (PCL) ; Jump to test routine.
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;; Test routine will JSR back to here, so the check data address is on the stack.
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;; .checkdata (tmp1/tmp2) is the pointer to the current checkdata byte
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;; .ismain (tmp3) is the main/aux loop counter.
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;; .region (tmp4) is the zp/main/text/hires loop counter
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.check
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;; Increment all the test memory locations, so we can see what we were reading and writing.
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inc $ff
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inc $100
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inc $200
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inc $3ff
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inc $427
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inc $7ff
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inc $800
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inc $1fff
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inc $2000
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inc $3fff
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inc $4000
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inc $5fff
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inc $bfff
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;; pull address off of stack: it points just below check data for this test.
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pla
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sta .checkdata
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pla
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sta .checkdata+1
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;; First checkdata byte is for Cxxx tests.
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jsr .nextcheck
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bmi +
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jsr .checkCxxx
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+ ldx .checkdata
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ldy .checkdata+1
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jsr RESETALL
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stx .checkdata
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sty .checkdata+1
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;; Do the next part twice.
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lda #1
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sta .ismain
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jsr .nextcheck
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.checkloop ; Loop twice here: once for main, once for aux.
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lda #4
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sta .region
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ldx #$fe
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ldy #0
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.memlp inx
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inx
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lda .memorylocs,x
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sta SRC
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lda .memorylocs+1,x
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sta SRC+1
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ora SRC
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beq .memlpinc
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;; Perform the actual memory check.
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lda (SRC),y
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cmp (.checkdata),y
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bne .checkerr
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beq .memlp
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.memlpinc
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jsr .nextcheck
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dec .region ; loop four times: zero, main, text, hires
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bne .memlp
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dec .ismain
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bmi .checkdone
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ldx .checkdata
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ldy .checkdata+1
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lda .ismain
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sta SET_ALTZP
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sta SET_RAMRD
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sta SET_RAMWRT
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stx .checkdata
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sty .checkdata+1
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sta .ismain
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jmp .checkloop
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.checkdone
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;; Jump PCL,PCH to next test, and loop.
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ldx .checkdata
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ldy .checkdata+1
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jsr RESETALL
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stx PCL
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sty PCH
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jmp .ddloop
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.checkerr
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;; X = index of memory location
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;; A = actual
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;; Y = 0
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;; desired = (.checkdata),y
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pha
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lda .ismain
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clc
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ror
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ror
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ora (.checkdata),y
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tay
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pla
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;; Now:
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;; X = index of memory location
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;; A = actual
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;; Y = desired | (high bit set if main, unset=aux)
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jsr RESETALL
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sta .actual
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sty .desired
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lda .memorylocs,x
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sta SRC
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lda .memorylocs+1,x
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sta SRC+1
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+print
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!text "GOT $"
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+printed
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lda .actual
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jsr PRBYTE
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+print
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!text " AT $"
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+printed
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ldx SRC
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ldy SRC+1
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jsr PRNTYX
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lda .desired
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bpl +
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eor #$80
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sta .desired
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+print
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!text " OF MAIN MEM (WANT $"
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+printed
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beq ++
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+ +print
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!text " OF AUX MEM (WANT $"
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+printed
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++
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lda .desired
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jsr PRBYTE
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lda #')'
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jsr COUT
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lda #$8D
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jsr COUT
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jsr .printtest
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+prerr $000A ;; E000A: This is a data-driven test of main and auxiliary memory softswitch operation. We initialize $FF, $100, $200, $3FF, $427, $7FF, $800, $1FFF, $2000, $3FFF, $4000, $5FFF, and $BFFF in main RAM to value 1, and in auxiliary RAM to value 3. Then, we perform a testdata-driven sequence of instructions. Finally we (try to) increment all test locations. Then we test the expected values of the test locations in main and auxiliary memory. For more information on the operation of the auxiliary memory soft-switches, see Understanding the Apple IIe, by James Fielding Sather, Pg 5-22 to 5-28.
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!text "FOLLOWED BY INC OF TEST LOCATIONS. SEE"
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+prerred
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sec
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rts
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;;; Check that the expected ROM areas are visible.
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.checkCxxx
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.gotCxxx = tmp0
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.wantCxxx = SCRATCH
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pha
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jsr .genCxxxFingerprint
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pla
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cmp .gotCxxx
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beq .checkCxxxDone
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lda .gotCxxx
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;; Reset, but copy .checkdata over.
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ldx .checkdata
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ldy .checkdata+1
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jsr RESETALL
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stx .checkdata
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sty .checkdata+1
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sta .gotCxxx
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ldy #0
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lda (.checkdata),y
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sta .wantCxxx
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jsr .printtest
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+print
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!text "WANT:",$8D
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+printed
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lda .wantCxxx
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jsr .printCxxxBits
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+print
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!text "GOT:",$8D
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+printed
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lda .gotCxxx
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jsr .printCxxxBits
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+prerr $000B ;; E000B: This is a the Cxxx-ROM check part of the auxiliary memory data-driven test (see E000A for a description of the other part). After a full reset, we perform a testdata-driven sequence of instructions. Finally we check which parts of Cxxx ROM seem to be visible. We check C100-C2FF, C300-C3FF, C400-C7FF (which should be the same as C100-C2FF), and C800-CFFE. For more details, see Understanding the Apple IIe, by James Fielding Sather, Pg 5-28.
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!text "CXXX ROM TEST FAILED"
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+prerred
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;; Don't continue with auxmem check: return from parent JSR.
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pla
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pla
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sec
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rts
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.checkCxxxDone
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rts
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.genCxxxFingerprint
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.dataptr = SCRATCH2
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.want = SCRATCH3
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.loopctr = SCRATCH
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lda #0
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sta .gotCxxx
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lda #0
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sta .dataptr
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lda #4
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sta .loopctr
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-- clc
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ror .gotCxxx
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ldx #4 ; four check bytes per region
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lda #$8 ; start out with positive match bit
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ora .gotCxxx
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sta .gotCxxx
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- ldy .dataptr
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lda .cxtestdata,y
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iny
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sta SRC
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lda .cxtestdata,y
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iny
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sta SRC+1
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lda .cxtestdata,y
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iny
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sta .want
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sty .dataptr
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ldy #0
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lda (SRC),y
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cmp .want
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beq +
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lda #($ff-$8) ; mismatch: clear current bit
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and .gotCxxx
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sta .gotCxxx
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+ dex
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bne -
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dec .loopctr
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bne --
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rts
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.printCxxxBits
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tax
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+print
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!text "- C100-C2FF: "
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+printed
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txa
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and #.C_12
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jsr .printCxxxBit
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+print
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!text "- C300-C3FF: "
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+printed
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txa
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and #.C_3
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jsr .printCxxxBit
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+print
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!text "- C400-C7FF: "
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+printed
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txa
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and #.C_47
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jsr .printCxxxBit
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+print
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!text "- C800-CFFE: "
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+printed
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txa
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and #.C_8f
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jsr .printCxxxBit
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rts
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.printCxxxBit
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bne +
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+print
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!text "?",$8D
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+printed
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rts
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+ +print
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!text "ROM",$8D
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+printed
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rts
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;;; Increment .checkdata pointer to the next memory location, and load
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;;; it into the accumulator. X and Y are preserved.
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.nextcheck
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inc .checkdata
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bne +
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inc .checkdata+1
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+ sty SCRATCH
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ldy #0
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lda (.checkdata),y
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ldy SCRATCH
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ora #0
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rts
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;;; Print out the sequence of instructions at PCL,PCH, until we hit a JSR.
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.printtest
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+print
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!text "AFTER SEQUENCE",$8D
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+printed
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-
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ldy #0
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lda (PCL),y
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cmp #$20
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beq +++
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lda #'-'
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jsr COUT
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lda #' '
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jsr COUT
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ldx #0
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lda (PCL,x)
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jsr $f88e
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ldx #3
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jsr $f8ea
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jsr $f953
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sta PCL
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sty PCH
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lda #$8D
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jsr COUT
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jmp -
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+++ rts
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;;; Copy zero page to aux mem. Assumes zp pointing at main mem, and leaves it that way.
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zptoaux
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ldx #0
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- sta RESET_ALTZP
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lda 0,x
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sta SET_ALTZP
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sta 0,x
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inx
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bne -
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sta RESET_ALTZP
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rts
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;;; Copy zero page from aux mem. Assumes zp pointing at main mem, and leaves it that way.
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zpfromaux
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ldx #0
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- sta SET_ALTZP
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lda 0,x
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sta RESET_ALTZP
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sta 0,x
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inx
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bne -
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rts
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.auxtests
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;; Our four basic tests --------------------------------------
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;; Test 1: everything reset.
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lda #1
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jsr .check
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!byte .C_skip, 2, 2, 2, 2, 3, 3, 3, 3
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;; Test 2: write to AUX but read from Main RAM, everything else normal.
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lda #2
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sta SET_RAMWRT
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jsr .check
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!byte .C_skip, 2, 1, 1, 1, 3, 2, 2, 2
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;; Test 3: write to main but read AUX, everything else normal.
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lda #3
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sta SET_RAMRD
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jsr .check
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!byte .C_skip, 2, 4, 4, 4, 3, 3, 3, 3
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;; Test 4: write to AUX, read from AUX, everything else normal.
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lda #4
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sta SET_RAMRD
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sta SET_RAMWRT
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jsr .check
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!byte .C_skip, 2, 1, 1, 1, 3, 4, 4, 4
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;; Our four basic tests, but with 80STORE ON -----------------
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;; (400-7ff is pointing at main mem)
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;; Test 5: everything reset.
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lda #5
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sta SET_80STORE
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jsr .check
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!byte .C_skip, 2, 2, 2, 2, 3, 3, 3, 3
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;; Test 6: write to aux
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lda #6
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sta SET_RAMWRT
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sta SET_80STORE
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jsr .check
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!byte .C_skip, 2, 1, 2, 1, 3, 2, 3, 2
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;; Test 7: read from aux
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lda #7
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sta SET_RAMRD
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sta SET_80STORE
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jsr .check
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!byte .C_skip, 2, 4, 2, 4, 3, 3, 3, 3
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;; Test 8: read and write aux
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lda #8
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sta SET_RAMRD
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sta SET_RAMWRT
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sta SET_80STORE
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jsr .check
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!byte .C_skip, 2, 1, 2, 1, 3, 4, 3, 4
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;; Our four basic tests, but with 80STORE and PAGE2 ON -------
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;; (400-7ff is pointing at aux mem)
|
|
|
|
;; Test 9: everything reset.
|
|
lda #9
|
|
sta SET_80STORE
|
|
sta SET_PAGE2
|
|
jsr .check
|
|
!byte .C_skip, 2, 2, 1, 2, 3, 3, 4, 3
|
|
|
|
;; Test A: write to aux
|
|
lda #$a
|
|
sta SET_RAMWRT
|
|
sta SET_80STORE
|
|
sta SET_PAGE2
|
|
jsr .check
|
|
!byte .C_skip, 2, 1, 1, 1, 3, 2, 4, 2
|
|
|
|
;; Test B: read from aux
|
|
lda #$b
|
|
sta SET_RAMRD
|
|
sta SET_80STORE
|
|
sta SET_PAGE2
|
|
jsr .check
|
|
!byte .C_skip, 2, 4, 1, 4, 3, 3, 4, 3
|
|
|
|
;; Test C: read and write aux
|
|
lda #$c
|
|
sta SET_RAMRD
|
|
sta SET_RAMWRT
|
|
sta SET_80STORE
|
|
sta SET_PAGE2
|
|
jsr .check
|
|
!byte .C_skip, 2, 1, 1, 1, 3, 4, 4, 4
|
|
|
|
;; Our four basic tests, but with 80STORE and HIRES ON -------
|
|
;; (400-7ff and 2000-3fff are pointing at main mem)
|
|
|
|
;; Test D: everything reset.
|
|
lda #$d
|
|
sta SET_80STORE
|
|
sta SET_HIRES
|
|
jsr .check
|
|
!byte .C_skip, 2, 2, 2, 2, 3, 3, 3, 3
|
|
|
|
;; Test E: write to aux
|
|
lda #$e
|
|
sta SET_RAMWRT
|
|
sta SET_80STORE
|
|
sta SET_HIRES
|
|
jsr .check
|
|
!byte .C_skip, 2, 1, 2, 2, 3, 2, 3, 3
|
|
|
|
;; Test F: read from aux
|
|
lda #$f
|
|
sta SET_RAMRD
|
|
sta SET_80STORE
|
|
sta SET_HIRES
|
|
jsr .check
|
|
!byte .C_skip, 2, 4, 2, 2, 3, 3, 3, 3
|
|
|
|
;; Test 10: read and write aux
|
|
lda #$10
|
|
sta SET_RAMRD
|
|
sta SET_RAMWRT
|
|
sta SET_80STORE
|
|
sta SET_HIRES
|
|
jsr .check
|
|
!byte .C_skip, 2, 1, 2, 2, 3, 4, 3, 3
|
|
|
|
;; Our four basic tests, but with 80STORE, HIRES, PAGE2 ON ---
|
|
;; (400-7ff and 2000-3fff are pointing at aux mem)
|
|
|
|
;; Test 11: everything reset.
|
|
lda #$11
|
|
sta SET_80STORE
|
|
sta SET_HIRES
|
|
sta SET_PAGE2
|
|
jsr .check
|
|
!byte .C_skip, 2, 2, 1, 1, 3, 3, 4, 4
|
|
|
|
;; Test 12: write to aux
|
|
lda #$12
|
|
sta SET_RAMWRT
|
|
sta SET_80STORE
|
|
sta SET_HIRES
|
|
sta SET_PAGE2
|
|
jsr .check
|
|
!byte .C_skip, 2, 1, 1, 1, 3, 2, 4, 4
|
|
|
|
;; Test 13: read from aux
|
|
lda #$13
|
|
sta SET_RAMRD
|
|
sta SET_80STORE
|
|
sta SET_HIRES
|
|
sta SET_PAGE2
|
|
jsr .check
|
|
!byte .C_skip, 2, 4, 1, 1, 3, 3, 4, 4
|
|
|
|
;; Test 14: read and write aux
|
|
lda #$14
|
|
sta SET_RAMRD
|
|
sta SET_RAMWRT
|
|
sta SET_80STORE
|
|
sta SET_HIRES
|
|
sta SET_PAGE2
|
|
jsr .check
|
|
!byte .C_skip, 2, 1, 1, 1, 3, 4, 4, 4
|
|
|
|
;; Test 15: Cxxx test with everything reset.
|
|
lda #$15
|
|
jsr .check
|
|
!byte .C_3, 2, 2, 2, 2, 3, 3, 3, 3
|
|
|
|
;; Test 16: Cxxx test with SLOTC3ROM set
|
|
lda #$16
|
|
sta SET_SLOTC3ROM
|
|
jsr .check
|
|
!byte .C_0, 2, 2, 2, 2, 3, 3, 3, 3
|
|
|
|
;; Test 17: Cxxx test with INTCXROM set.
|
|
lda #$17
|
|
sta SET_INTCXROM
|
|
jsr .check
|
|
!byte .C_1348, 2, 2, 2, 2, 3, 3, 3, 3
|
|
|
|
;; Test 18: Cxxx test with SLOTC3ROM and INTCXROM set
|
|
lda #$18
|
|
sta SET_SLOTC3ROM
|
|
sta SET_INTCXROM
|
|
jsr .check
|
|
!byte .C_1348, 2, 2, 2, 2, 3, 3, 3, 3
|
|
|
|
;; Test 19: Cxxx test with "INTC8ROM" set
|
|
lda #$19
|
|
lda $C300
|
|
jsr .check
|
|
!byte .C_38, 2, 2, 2, 2, 3, 3, 3, 3
|
|
|
|
;; Test 1A: Cxxx test showing inability to reset "INTC8ROM" with softswitches.
|
|
lda #$1A
|
|
lda $C300
|
|
sta SET_SLOTC3ROM
|
|
jsr .check
|
|
!byte .C_8f, 2, 2, 2, 2, 3, 3, 3, 3
|
|
|
|
;; Test 1B: Cxxx test showing ability to reset "INTC8ROM" with CFFF reference.
|
|
lda #$1B
|
|
lda $C300
|
|
sta SET_SLOTC3ROM
|
|
lda RESET_INTC8ROM
|
|
jsr .check
|
|
!byte .C_0, 2, 2, 2, 2, 3, 3, 3, 3
|
|
|
|
;; Test 1C: Cxxx test showing inability to reset "INTC8ROM" with CFFF reference.
|
|
lda #$1B
|
|
sta SET_SLOTC3ROM
|
|
sta SET_INTCXROM
|
|
lda RESET_INTC8ROM
|
|
jsr .check
|
|
!byte .C_1348, 2, 2, 2, 2, 3, 3, 3, 3
|
|
|
|
;; Test 1D: Cxxx test showing that "INTC8ROM" isn't set if SLOTC3ROM isn't reset.
|
|
lda #$1D
|
|
sta SET_INTCXROM
|
|
sta SET_SLOTC3ROM
|
|
lda $C300
|
|
sta RESET_INTCXROM
|
|
jsr .check
|
|
!byte .C_0, 2, 2, 2, 2, 3, 3, 3, 3
|
|
|
|
!byte 0 ; end of tests
|
|
|
|
.memorylocs
|
|
;; zero page locations
|
|
!word $ff, $100, 0
|
|
;; main memory locations
|
|
!word $200, $3ff, $800, $1fff, $4000, $5fff, $bfff, 0
|
|
;; text locations
|
|
!word $427, $7ff, 0
|
|
;; hires locations
|
|
!word $2000, $3fff, 0
|
|
;; end
|
|
.memorylen = * - .memorylocs - 2
|
|
!word 0
|
|
|
|
.cxtestdata
|
|
;; C800-Cffe
|
|
!byte $00, $c8, $4c
|
|
!byte $21, $ca, $8d
|
|
!byte $43, $cc, $f0
|
|
!byte $b5, $ce, $7b
|
|
|
|
;; C100-C2ff
|
|
!byte $4d, $c1, $a5
|
|
!byte $6c, $c1, $2a
|
|
!byte $b5, $c2, $ad
|
|
!byte $ff, $c2, $00
|
|
|
|
;; C400-C7ff
|
|
!byte $36, $c4, $8d
|
|
!byte $48, $c5, $18
|
|
!byte $80, $c6, $8b
|
|
!byte $6e, $c7, $cb
|
|
|
|
;; C300-C3ff
|
|
!byte $00, $c3, $2c
|
|
!byte $0a, $c3, $0c
|
|
!byte $2b, $c3, $04
|
|
!byte $e2, $c3, $ed
|
|
} ;auxmem
|