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dolphin/Source/DSPSpy/tests/dsp_base.inc
Soren Jorvang 664cea45c7 Meta: 
Using Unix tools to operate on a tree containing filename with spaces in them
is really annoying, so rename the handful of instances where there were spaces.

Host.cpp has never been used.

Games tend to lookup the following directories that we don't yet have anything
to put in, so prepopulate them in Data/User/Wii:

title/00010001
title/00010002
title/00010003
title/00010004
title/00010005
title/00010006
title/00010007
meta
shared2/title
 
Set eol-style native on a number of text files which didn't already have it.


git-svn-id: https://dolphin-emu.googlecode.com/svn/trunk@5572 8ced0084-cf51-0410-be5f-012b33b47a6e
2010-06-02 18:00:22 +00:00

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; This is the trojan program we send to the DSP from DSPSpy to figure it out.
REGS_BASE: equ 0x0f80
MEM_HI: equ 0x0f7E
MEM_LO: equ 0x0f7F
; Interrupt vectors 8 vectors, 2 opcodes each
jmp irq0
jmp irq1
jmp irq2
jmp irq3
jmp irq4
jmp irq5
jmp irq6
jmp irq7
; Main code (and normal entrypoint) at 0x10
sbset #0x02
sbset #0x03
sbclr #0x04
sbset #0x05
sbset #0x06
s16
lri $CR, #0x00ff
clr $acc1
clr $acc0
; get address of memory dump and copy it to DRAM
call 0x807e
si @DMBH, #0x8888
si @DMBL, #0xdead
si @DIRQ, #0x0001
call 0x8078
andi $ac0.m, #0x7fff
lrs $ac1.m, @CMBL
sr @MEM_HI, $ac0.m
sr @MEM_LO, $ac1.m
lri $ax0.l, #0
lri $ax1.l, #0 ;(DSP_CR_IMEM | DSP_CR_TO_CPU)
lri $ax0.h, #0x2000
lr $ac0.l, @MEM_HI
lr $ac0.m, @MEM_LO
call do_dma
; get address of registers and DMA them to ram
call 0x807e
si @DMBH, #0x8888
si @DMBL, #0xbeef
si @DIRQ, #0x0001
call 0x8078
andi $ac0.m, #0x7fff
lrs $ac1.m, @CMBL
sr @MEM_HI, $ac0.m
sr @MEM_LO, $ac1.m
lri $ax0.l, #REGS_BASE
lri $ax1.l, #0 ;(DSP_CR_IMEM | DSP_CR_TO_CPU)
lri $ax0.h, #0x80
lr $ac0.l, @MEM_HI
lr $ac0.m, @MEM_LO
call do_dma
; Read in all the registers from RAM
lri $ar0, #REGS_BASE+1
lrri $ar1, @$ar0
lrri $ar2, @$ar0
lrri $ar3, @$ar0
lrri $ix0, @$ar0
lrri $ix1, @$ar0
lrri $ix2, @$ar0
lrri $ix3, @$ar0
lrri $wr0, @$ar0
lrri $wr1, @$ar0
lrri $wr2, @$ar0
lrri $wr3, @$ar0
lrri $st0, @$ar0
lrri $st1, @$ar0
lrri $st2, @$ar0
lrri $st3, @$ar0
lrri $ac0.h, @$ar0
lrri $ac1.h, @$ar0
lrri $cr, @$ar0
lrri $sr, @$ar0
lrri $prod.l, @$ar0
lrri $prod.m1, @$ar0
lrri $prod.h, @$ar0
lrri $prod.m2, @$ar0
lrri $ax0.l, @$ar0
lrri $ax1.l, @$ar0
lrri $ax0.h, @$ar0
lrri $ax1.h, @$ar0
lrri $ac0.l, @$ar0
lrri $ac1.l, @$ar0
lrri $ac0.m, @$ar0
lrri $ac1.m, @$ar0
lr $ar0, @REGS_BASE
jmp start_of_test
; This is where we jump when we're done testing, see above.
; We just fall into a loop, playing dead until someone resets the DSP.
end_of_test:
jmp end_of_test
; Utility function to do DMA.
do_dma:
sr @DSMAH, $ac0.l
sr @DSMAL, $ac0.m
sr @DSPA, $ax0.l
sr @DSCR, $ax1.l
sr @DSBL, $ax0.h ; This kicks off the DMA.
call 0x863d ; Wait for DMA to complete by watching a bit in DSCR.
ret
; IRQ handlers. Just send back exception# and die
irq0:
lri $ac0.m, #0x0000
jmp irq
irq1:
lri $ac0.m, #0x0001
jmp irq
irq2:
lri $ac0.m, #0x0002
jmp irq
irq3:
lri $ac0.m, #0x0003
jmp irq
irq4:
lri $ac0.m, #0x0004
jmp irq
irq5:
lri $ac0.m, #0x0005
jmp irq
irq6:
lri $ac0.m, #0x0006
jmp irq
irq7:
lri $ac0.m, #0x0007
irq:
lrs $ac1.m, @DMBH
andcf $ac1.m, #0x8000
jlz irq
si @DMBH, #0x8bad
;sr @DMBL, $wr3 ; ???
sr @DMBL, $ac0.m ; Exception number
si @DIRQ, #0x0001
halt ; Through some magic this allows us to properly ack the exception in dspspy
;rti ; allow dumping of ucodes which cause exceptions...probably not safe at all
; DMA:s the current state of the registers back to the PowerPC. To do this,
; it must write the contents of all regs to DRAM.
; Unfortunately, this loop uses ar0 so it's best to use AR1 and friends for testing
; when messing with indexing.
send_back:
; make state safe.
set16
; store registers to reg table
sr @REGS_BASE, $ar0
lri $ar0, #(REGS_BASE + 1)
srri @$ar0, $ar1
srri @$ar0, $ar2
srri @$ar0, $ar3
srri @$ar0, $ix0
srri @$ar0, $ix1
srri @$ar0, $ix2
srri @$ar0, $ix3
srri @$ar0, $wr0
srri @$ar0, $wr1
srri @$ar0, $wr2
srri @$ar0, $wr3
srri @$ar0, $st0
srri @$ar0, $st1
srri @$ar0, $st2
srri @$ar0, $st3
srri @$ar0, $ac0.h
srri @$ar0, $ac1.h
srri @$ar0, $cr
srri @$ar0, $sr
srri @$ar0, $prod.l
srri @$ar0, $prod.m1
srri @$ar0, $prod.h
srri @$ar0, $prod.m2
srri @$ar0, $ax0.l
srri @$ar0, $ax1.l
srri @$ar0, $ax0.h
srri @$ar0, $ax1.h
srri @$ar0, $ac0.l
srri @$ar0, $ac1.l
srri @$ar0, $ac0.m
srri @$ar0, $ac1.m
; Regs are stored. Prepare DMA.
lri $ax0.l, #0x0000
lri $ax1.l, #1 ;(DSP_CR_IMEM | DSP_CR_TO_CPU)
lri $ax0.h, #0x200
lr $ac0.l, @MEM_HI
lr $ac0.m, @MEM_LO
; Now, why are we looping here?
lri $ar1, #8+8
bloop $ar1, dma_copy
call do_dma
addi $ac0.m, #0x200
mrr $ac1.m, $ax0.l
addi $ac1.m, #0x100
dma_copy:
mrr $ax0.l, $ac1.m
; Wait for the CPU to send us a mail.
call 0x807e
si @DMBH, #0x8888
si @DMBL, #0xfeeb
si @DIRQ, #0x0001
; wait for the CPU to recieve our response before we execute the next op
call 0x8078
andi $ac0.m, #0x7fff
lrs $ac1.m, @CMBL
; Restore all regs again so we're ready to execute another op.
lri $ar0, #REGS_BASE+1
lrri $ar1, @$ar0
lrri $ar2, @$ar0
lrri $ar3, @$ar0
lrri $ix0, @$ar0
lrri $ix1, @$ar0
lrri $ix2, @$ar0
lrri $ix3, @$ar0
lrri $wr0, @$ar0
lrri $wr1, @$ar0
lrri $wr2, @$ar0
lrri $wr3, @$ar0
lrri $st0, @$ar0
lrri $st1, @$ar0
lrri $st2, @$ar0
lrri $st3, @$ar0
lrri $ac0.h, @$ar0
lrri $ac1.h, @$ar0
lrri $cr, @$ar0
lrri $sr, @$ar0
lrri $prod.l, @$ar0
lrri $prod.m1, @$ar0
lrri $prod.h, @$ar0
lrri $prod.m2, @$ar0
lrri $ax0.l, @$ar0
lrri $ax1.l, @$ar0
lrri $ax0.h, @$ar0
lrri $ax1.h, @$ar0
lrri $ac0.l, @$ar0
lrri $ac1.l, @$ar0
lrri $ac0.m, @$ar0
lrri $ac1.m, @$ar0
lr $ar0, @REGS_BASE
ret ; from send_back
; If you are in set40 mode, use this instead of send_back if you want to stay
; in set40 mode.
send_back_40:
set16
call send_back
set40
ret
; Obviously this must be included directly before your test code
start_of_test:
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