copied langcard to auxmem tests, other rearranging

This commit is contained in:
Zellyn Hunter 2017-01-09 21:41:06 -05:00
parent 5ae6c9cea7
commit 26e75c13b8
7 changed files with 429 additions and 9 deletions

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@ -5,8 +5,12 @@
!to "audit.o", plain
* = $6000
CSW = $36
KSW = $38
HOME = $FC58
COUT = $FDED
COUT1 = $FDF0
KEYIN = $FD1B
CROUT = $FD8E
PRBYTE = $FDDA
PRNTYX = $F940
@ -16,8 +20,10 @@
;; Printing and error macros.
!src "macros.asm"
main:
jsr standard_fixup
jsr HOME
+print
!text "APPLE II AUDIT",$8D,$8D
@ -28,10 +34,17 @@ main:
;; Language card tests.
jsr LANGCARDTESTS
;; Auxiliary memory card tests.
jsr AUXMEMTESTS
;; ROM SHA-1 checks.
;; jsr SHASUMTESTS - do this later, because it's SLOW!
end: jmp *
!src "langcard.asm"
!src "auxmem.asm"
!src "shasumtests.asm"
print
@ -50,6 +63,21 @@ getch lda $FEED ; FEED gets modified
jmp -
+ rts
;;; Print a string of bytes, as hex.
;;; Address in SRC, count in A.
;;; Burns A,Y.
prbytes:
ldy #0
- pha
lda (SRC),y
jsr PRBYTE
iny
pla
adc #$ff
bne -
rts
errora
pha
lda $C082
@ -73,15 +101,17 @@ getche lda $FEED ; FEED gets modified
beq +
jsr COUT
jmp -
+
+
+print
!text "ZELLYN.COM/A2AUDIT/V0#E",0
+printed
jsr PRNTYX
lda #$8D
jsr COUT
rts
!src "technote2.asm"
!src "../shasum/shasum.asm"
; !if * != STRINGS {
; !error "Expected STRINGS to be ", *
; }
@ -90,3 +120,31 @@ rts
!error "End of compilation passed STRINGS:", *
}
;;; If we loaded via standard delivery, turn the motor off and fix up
;;; CSW and KSW (in case the user typed PR#6 or IN#6 to boot).
standard_fixup:
;; TODO(zellyn): actually check for standard delivery.
;; Turn drive motor off - do this regardless, since it doesn't hurt.
ldx $2B
lda $C088,X
;; If we typed PR#6 or IN#6 or something similar, the low byte
;; of CSW or KSW will be 0.
;; Fixup CSW
lda CSW
bne +
;; Point COUT at COUT1
lda #<COUT1
sta CSW
lda #>COUT1
sta CSW+1
;; Fixup KSW
+ lda KSW
bne +
lda #<KEYIN
sta KSW
lda #>KEYIN
sta KSW+1
+ rts

Binary file not shown.

303
audit/auxmem.asm Normal file
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@ -0,0 +1,303 @@
;;; Apple IIe Auxiliary memory audit routines
;;; Copyright © 2017 Zellyn Hunter <zellyn@gmail.com>
!zone auxmem {
AUXMEMTESTS
lda MEMORY
cmp #65
bcs +
+print
!text "64K OR LESS:SKIPPING AUXMEM TEST",$8D
+printed
rts
;; Setup - store differing values in bank first and second banked areas.
+ lda $C08B ; Read and write bank 1
lda $C08B
lda #$11
sta $D17B ; $D17B is $53 in Apple II/plus/e/enhanced
cmp $D17B
beq +
+prerr $0007 ;; E0007: We tried to put the language card into read bank 1, write bank 1, but failed to write.
!text "CANNOT WRITE TO LC BANK 1 RAM"
+prerred
rts
lda #$33
+ sta $FE1F ; FE1F is $60 in Apple II/plus/e/enhanced
cmp $FE1F
beq .dotest
+prerr $0008 ;; E0008: We tried to put the language card into read RAM, write RAM, but failed to write.
!text "CANNOT WRITE TO LC RAM"
+prerred
rts
+ lda $C083 ; Read and write bank 2
lda $C083
lda #$22
sta $D17B
cmp $D17B
beq +
+prerr $0009 ;; E0009: We tried to put the language card into read bank 2, write bank 2, but failed to write.
!text "CANNOT WRITE TO LC BANK 2 RAM"
+prerred
rts
;; Parameterized tests
.dotest lda #<.tests
sta 0
lda #>.tests
sta 1
.outer
;; Initialize to known state:
;; - $11 in $D17B bank 1 (ROM: $53)
;; - $22 in $D17B bank 2 (ROM: $53)
;; - $33 in $FE1F (ROM: $60)
lda $C08B ; Read and write bank 1
lda $C08B
lda #$11
sta $D17B
lda #$33
sta $FE1F
lda $C083 ; Read and write bank 2
lda $C083
lda #$22
sta $D17B
lda $C080
ldy #0
.inner
lda ($0),y
cmp #$ff
beq .test
tax
bmi +
ora #$80
sta .lda+1
.lda lda $C000
jmp ++
+ sta .sta+1
.sta sta $C000
++ iny
bne .inner
.test ;; ... test the triple
inc $D17B
inc $FE1F
iny
;; y now points to d17b-current,fe1f-current,bank1,bank2,fe1f-ram test quintiple
;; Test current $D17B
lda (0),y
cmp $D17B
beq +
lda $D17B
pha
jsr .printseq
+print
!text "$D17B TO CONTAIN $"
+printed
lda (0),y
jsr PRBYTE
+print
!text ", GOT $"
+printed
pla
jsr PRBYTE
lda #$8D
jsr COUT
jmp .datatesturl
+ iny
;; Test current $FE1F
lda (0),y
cmp $FE1F
beq +
lda $FE1F
pha
jsr .printseq
+print
!text "$FE1F=$"
+printed
lda (0),y
jsr PRBYTE
+print
!text ", GOT $"
+printed
pla
jsr PRBYTE
lda #$8D
jsr COUT
jmp .datatesturl
+ iny
;; Test bank 1 $D17B
lda $C088
lda (0),y
cmp $D17B
beq +
lda $D17B
pha
jsr .printseq
+print
!text "$D17B IN RAM BANK 1 TO CONTAIN $"
+printed
lda (0),y
jsr PRBYTE
+print
!text ", GOT $"
+printed
pla
jsr PRBYTE
lda #$8D
jsr COUT
jmp .datatesturl
+ iny
;; Test bank 2 $D17B
lda $C080
lda (0),y
cmp $D17B
beq +
lda $D17B
pha
jsr .printseq
+print
!text "$D17B IN RAM BANK 2 TO CONTAIN $"
+printed
lda (0),y
jsr PRBYTE
+print
!text ", GOT $"
+printed
pla
jsr PRBYTE
lda #$8D
jsr COUT
jmp .datatesturl
+ iny
;; Test RAM $FE1F
lda $C080
lda (0),y
cmp $FE1F
beq +
lda $FE1F
pha
jsr .printseq
+print
!text "RAM $FE1F=$"
+printed
lda (0),y
jsr PRBYTE
+print
!text ", GOT $"
+printed
pla
jsr PRBYTE
lda #$8D
jsr COUT
jmp .datatesturl
+ iny
lda ($0),y ; Done with the parameterized tests?
cmp #$ff
bne +
jmp .over
+ clc
tya
adc $0
sta $0
bcc +
inc $1
+ jmp .outer
.datatesturl
+prerr $000A ;; E000A: This is a data-driven test of Language Card operation. We initialize $D17B in RAM bank 1 to $11, $D17B in RAM bank 2 to $22, and $FE1F in RAM to $33. Then, we perform a testdata-driven sequence of LDA and STA to the $C08X range. Finally we (try to) increment $D17B and $FE1F. Then we test (a) the current live value in $D17B, (b) the current live value in $FE1F, (c) the RAM bank 1 value of $D17B, (d) the RAM bank 2 value of $D17B, and (e) the RAM value of $FE1F, to see whether they match expected values. $D17B is usually $53 in ROM, and $FE1F is usally $60. For more information on the operation of the language card soft-switches, see Understanding the Apple IIe, by James Fielding Sather, Pg 5-24.
!text "DATA-DRIVEN TEST FAILED"
+prerred
rts
.printseq
tya
pha
+print
!text "AFTER SEQUENCE OF:",$8D,"LDA $C080",$8D
+printed
ldy #$0
- lda ($0),y
cmp #$ff
beq +++
tax
bmi +
lda #'L'
jsr COUT
lda #'D'
bne ++
+ lda #'S'
jsr COUT
lda #'T'
++ jsr COUT
+print
!text "A $C0"
+printed
txa
ora #$80
jsr PRBYTE
lda #$8D
jsr COUT
iny
bne -
+++
+print
!text "INC $D17B",$8D,"INC $FE1F",$8D,"EXPECTED "
+printed
pla
tay
rts
.tests
;; Format:
;; - $ff-terminated list of C0XX addresses (0-F to read C08X, 80-8F to write C0XX).
;; - quint: expected current $d17b and fe1f, then d17b in bank1, d17b in bank 2, and fe1f
;; (All sequences start with lda $C080, just to reset things to a known state.)
!byte $08, $ff ; Read $C088 (RAM read, write protected)
!byte $11, $33, $11, $22, $33 ;
!byte $00, $ff ; Read $C080 (read bank 2, write disabled)
!byte $22, $33, $11, $22, $33 ;
!byte $01, $ff ; Read $C081 (ROM read, write disabled)
!byte $53, $60, $11, $22, $33 ;
!byte $01, $09, $ff ; Read $C081, $C089 (ROM read, bank 1 write)
!byte $53, $60, $54, $22, $61 ;
!byte $01, $01, $ff ; Read $C081, $C081 (read ROM, write RAM bank 2)
!byte $53, $60, $11, $54, $61 ;
!byte $0b, $ff ; Read $C08B (read RAM bank 1, no write)
!byte $11, $33, $11, $22, $33 ;
!byte $03, $ff ; Read $C083 (read RAM bank 2, no write)
!byte $22, $33, $11, $22, $33 ;
!byte $0b, $0b, $ff ; Read $C08B, $C08B (read/write RAM bank 1)
!byte $12, $34, $12, $22, $34 ;
!byte $0f, $07, $ff ; Read $C08F, $C087 (read/write RAM bank 2)
!byte $23, $34, $11, $23, $34 ;
!byte $07, $0D, $ff ; Read $C087, read $C08D (read ROM, write bank 1)
!byte $53, $60, $54, $22, $61 ;
!byte $0b, $8b, $0b, $ff ; Read $C08B, write $C08B, read $C08B (read RAM bank 1, no write)
!byte $11, $33, $11, $22, $33 ; (this one is tricky: reset WRTCOUNT by writing halfway)
!byte $ff
nop ; Provide clean break after data when viewing disassembly
nop
nop
.over
;; Success
+print
!text "LANGUAGE CARD TESTS SUCCEEDED",$8D
+printed
.done
rts
} ;auxmem

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@ -85,7 +85,7 @@
!text "PLAIN APPLE II",$8D
+printed
beq .done
.iiplus
.iiplus
+print
!text "APPLE II PLUS",$8D
+printed

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@ -107,7 +107,7 @@ LANGCARDTESTS
lda #$8D
jsr COUT
jmp .datatesturl
+ iny
;; Test current $FE1F
lda (0),y
@ -129,7 +129,7 @@ LANGCARDTESTS
lda #$8D
jsr COUT
jmp .datatesturl
+ iny
;; Test bank 1 $D17B
@ -153,7 +153,7 @@ LANGCARDTESTS
lda #$8D
jsr COUT
jmp .datatesturl
+ iny
;; Test bank 2 $D17B
@ -221,7 +221,7 @@ LANGCARDTESTS
!text "DATA-DRIVEN TEST FAILED"
+prerred
rts
.printseq
tya
pha

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@ -2,7 +2,50 @@
;;; Copyright © 2016 Zellyn Hunter <zellyn@gmail.com>
!zone shasumtests {
!addr SRC = $06
!addr DST = $08
!addr SHAINPUT = $eb
!addr SHALENGTH = $ee
SHASUMTESTS
+print
!text "COMPUTING ROM SHASUM",$8D
+printed
lda #0
sta SHAINPUT
lda #$E0
sta SHAINPUT+1
lda #0
sta SHALENGTH
lda #$20
sta SHALENGTH+1
jsr SHASUM
+print
!text "SHASUM:",$8D
+printed
lda #<SHA
sta SRC
lda #>SHA
sta SRC+1
lda #SHALEN
jsr prbytes
.done
rts
} ;shasumtests
!eof
2744ebe53a13578f318fe017d01ea6a975083250
Apple II: 102FBF7DEA8B8D6DE5DE1C484FF45E7B5DFB28D5 (oe, vii)
Apple II Plus: 5a23616dca14e59b4aca8ff6cfa0d98592a78a79 (oe, mame)
2744ebe53a13578f318fe017d01ea6a975083250 (vii)
Apple IIe: 8895a4b703f2184b673078f411f4089889b61c54 (mame)
Apple IIe (enhanced): afb09bb96038232dc757d40c0605623cae38088e (vii, mame)

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@ -23,3 +23,19 @@ We tried to put the language card into read bank 2, write bank 2, but failed to
## E0006
This is a data-driven test of Language Card operation. We initialize $D17B in RAM bank 1 to $11, $D17B in RAM bank 2 to $22, and $FE1F in RAM to $33. Then, we perform a testdata-driven sequence of LDA and STA to the $C08X range. Finally we (try to) increment $D17B and $FE1F. Then we test (a) the current live value in $D17B, (b) the current live value in $FE1F, (c) the RAM bank 1 value of $D17B, (d) the RAM bank 2 value of $D17B, and (e) the RAM value of $FE1F, to see whether they match expected values. $D17B is usually $53 in ROM, and $FE1F is usally $60. For more information on the operation of the language card soft-switches, see Understanding the Apple IIe, by James Fielding Sather, Pg 5-24.
## E0007
We tried to put the language card into read bank 1, write bank 1, but failed to write.
## E0008
We tried to put the language card into read RAM, write RAM, but failed to write.
## E0009
We tried to put the language card into read bank 2, write bank 2, but failed to write.
## E000A
This is a data-driven test of Language Card operation. We initialize $D17B in RAM bank 1 to $11, $D17B in RAM bank 2 to $22, and $FE1F in RAM to $33. Then, we perform a testdata-driven sequence of LDA and STA to the $C08X range. Finally we (try to) increment $D17B and $FE1F. Then we test (a) the current live value in $D17B, (b) the current live value in $FE1F, (c) the RAM bank 1 value of $D17B, (d) the RAM bank 2 value of $D17B, and (e) the RAM value of $FE1F, to see whether they match expected values. $D17B is usually $53 in ROM, and $FE1F is usally $60. For more information on the operation of the language card soft-switches, see Understanding the Apple IIe, by James Fielding Sather, Pg 5-24.