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git-svn-id: https://svn.code.sf.net/p/acme-crossass/code-0/trunk@327 4df02467-bbd4-4a76-a152-e7ce94205b78
147 lines
4.6 KiB
Plaintext
147 lines
4.6 KiB
Plaintext
;ACME 0.97
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!src <cbm/c64/reu.a> ; include REU/REC definitions
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; define commands to use:
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REUCOMMAND_STASH = rec_COMMAND_EXECUTE | rec_COMMAND_IMMEDIATELY | rec_COMMAND_MODE_STASH ; no reload
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REUCOMMAND_FETCH = rec_COMMAND_EXECUTE | rec_COMMAND_IMMEDIATELY | rec_COMMAND_MODE_FETCH ; no reload
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*=$0801
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!src "misc/basicstub.a"
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; basic stub jumps here
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; start by printing "found " right away, that way we do not
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; need to buffer the return values of the detection routine
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; just to output a string.
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ldy #<found
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lda #>found
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jsr print_string_AAYY
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; now check REU capacity (see below for actual code)
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jsr detect_reu_capacity
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; now C and A hold number of banks.
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; in theory all values from 0 up to and including 256 are
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; possible, but here we're just checking the highest bit, so
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; only the highest multiple of 2 is actually output:
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ldx #8 ; offset to output "16 MiB" message
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bcs @out
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-- dex ; next message
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bmi found_nothing ; no banks at all
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asl ; highest bit set?
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bcc --
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@out ; now X says which message to output, so output it
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ldy messages_low, x ; get correct low byte
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lda #>messages ; get high byte (same for all messages)
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jsr print_string_AAYY
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; output common end (" of reu memory." + CR)
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ldy #<end
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lda #>end
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jmp print_string_AAYY ; ...aaand we're done!
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; all the strings to output:
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found !pet "found ", 0
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messages ; helper label for making sure everything is in one page of memory
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msg_64K !pet "64kb", 0
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msg_128K !pet "128kb", 0
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msg_256K !pet "256kb", 0
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msg_512K !pet "512kb", 0
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msg_1M !pet "1mb", 0
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msg_2M !pet "2mb", 0
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msg_4M !pet "4mb", 0
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msg_8M !pet "8mb", 0
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msg_16M !pet "16mb", 0
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; make sure all messages share the same high byte
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!if >* != >messages { !error "messages span page border, fix code!" }
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; other strings:
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end !pet " of reu memory.", 13, 0
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msg_nothing !pet "no reu memory at all.", 13, 0
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; table of low bytes of message adresses
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messages_low !by <msg_64K, <msg_128K, <msg_256K, <msg_512K
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!by <msg_1M, <msg_2M, <msg_4M, <msg_8M, <msg_16M
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; if no reu memory has been found, output a different message
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found_nothing ldy #<msg_nothing
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lda #>msg_nothing
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jmp print_string_AAYY
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; include code for string output
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!src "misc/print_string.a"
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; actual code to check for REU and find out RAM capacity:
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detect_reu_capacity ; returns: C,A = number of RAM banks found in REU
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; examples:
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; C=0, A=0: 0 banks found (no REU)
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; C=0, A=2: 2 banks found (128 KiB, CBM 1700)
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; C=0, A=4: 4 banks found (256 KiB, CBM 1764)
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; C=0, A=8: 8 banks found (512 KiB, CBM 1750)
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; C=0, A=16: 16 banks found (1 MiB)
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; C=0, A=32: 32 banks found (2 MiB)
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; C=0, A=64: 64 banks found (4 MiB)
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; C=0, A=128: 128 banks found (8 MiB)
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; C=1, A=0: 256 banks found (16 MiB)
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; bear in mind these are just example values. it is still possible someone has
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; upgraded their REU to 1.5 MiB so you would get a A=24 result!
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ldx #0 ; pre-init
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; first write signatures to banks in *descending* order (banks 255..0):
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---- dex
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stx banknum
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lda #<signature_start
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ldx #>signature_start
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ldy #REUCOMMAND_STASH
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jsr set_registers_AXY
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; all banks written?
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ldx banknum
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bne ----
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; now check signatures in *ascending* order:
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; (checking signatures could be shortened by using the REC's "verify" command,
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; but I'm reluctant to use this function in a "REU detect" routine: it could
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; be buggy in modern FPGA implementations because it is so seldomly used)
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; banknum just became zero so no need to init it
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---- lda #<sig_candidate_start
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ldx #>sig_candidate_start
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ldy #REUCOMMAND_FETCH
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jsr set_registers_AXY
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; compare data
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ldx #SIGNATURE_LENGTH_LOW - 1
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-- lda sig_candidate_start, x
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cmp signature_start, x
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bne @failed
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dex
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bpl --
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; bank has correct signature
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inc banknum ; next bank (== number of banks already found)
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bne ----
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; there are actually 256 banks!
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sec
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lda banknum ; A = 0, C = 1 -> 256 banks found
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rts
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@failed clc
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lda banknum ; A = number of banks found, C = 0
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rts
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set_registers_AXY ; setup REU registers (used for both reading and writing)
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; A/X: c64 address
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; Y: REU command
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sta rec_int_low ; c64 address
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stx rec_int_high
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ldx #0
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stx rec_ext_low ; reu address
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stx rec_ext_high
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lda banknum
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sta rec_ext_bank
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lda #SIGNATURE_LENGTH_LOW
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sta rec_amount_low
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stx rec_amount_high
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sty rec_command
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rts
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; signature we write to REU banks, first byte is bank number
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signature_start
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banknum !tx 0, "bliblablub"
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SIGNATURE_LENGTH_LOW = * - signature_start
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; target buffer when reading signatures back from REU
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sig_candidate_start
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!tx "XBLIBLABLUB" ; must be same length as signature above, obviously
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sig_candidate_end
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SIGNATURE_LENGTH_LOW = * - sig_candidate_start
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