dolphin/Source/DSPSpy/tests/dsp_base.inc

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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:
nop
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.
wait_dma_finish:
lr $ac1.m, @DSCR
andcf $ac1.m, #0x4
jlz wait_dma_finish
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:
lrs $ac0.m, @DMBH
andcf $ac0.m, #0x8000
jlz irq5
si @DMBH, #0x8005
si @DMBL, #0x0000
si @DIRQ, #0x0001
lri $ac0.m, #0xbbbb
sr @0xffda, $ac0.m ; pred scale
sr @0xffdb, $ac0.m ; yn1
lr $ix2, @ARAM
sr @0xffdc, $ac0.m ; yn2
rti
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.
send_back:
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; first, store $sr so we can modify it
sr @(REGS_BASE + 19), $sr
set16
; Now store $wr0, as it must be 0xffff for srri to work as we expect
sr @(REGS_BASE + 8), $wr0
lri $wr0, #0xffff
; 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
; skip $wr0 since we already stored and modified it
iar $ar0
srri @$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
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; skip $sr since we already stored and modified it
iar $ar0
srri @$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.
; $cr must be 0x00ff because the ROM uses lrs and srs with the assumption that
; they will modify hardware registers.
lri $cr, #0x00ff
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
; leave $wr for later
iar $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
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; leave $sr for later
iar $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
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lr $ar0, @REGS_BASE
lr $wr0, @(REGS_BASE+8)
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lr $sr, @(REGS_BASE+19)
ret ; from send_back
; Obviously this must be included directly before your test code
start_of_test: