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342 lines
8.0 KiB
ArmAsm
342 lines
8.0 KiB
ArmAsm
/*
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* vr4300.S -- CPU specific support routines
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*
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* Copyright (c) 1995,1996 Cygnus Support
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*
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* The authors hereby grant permission to use, copy, modify, distribute,
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* and license this software and its documentation for any purpose, provided
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* that existing copyright notices are retained in all copies and that this
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* notice is included verbatim in any distributions. No written agreement,
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* license, or royalty fee is required for any of the authorized uses.
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* Modifications to this software may be copyrighted by their authors
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* and need not follow the licensing terms described here, provided that
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* the new terms are clearly indicated on the first page of each file where
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* they apply.
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*/
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#ifndef __mips64
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.set mips3
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#endif
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#ifdef __mips16
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/* This file contains 32 bit assembly code. */
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.set nomips16
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#endif
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#include "regs.S"
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.text
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.align 2
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# Taken from "R4300 Preliminary RISC Processor Specification
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# Revision 2.0 January 1995" page 39: "The Count
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# register... increments at a constant rate... at one-half the
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# PClock speed."
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# We can use this fact to provide small polled delays.
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.globl __cpu_timer_poll
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.ent __cpu_timer_poll
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__cpu_timer_poll:
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.set noreorder
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# in: a0 = (unsigned int) number of PClock ticks to wait for
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# out: void
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# The Vr4300 counter updates at half PClock, so divide by 2 to
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# get counter delta:
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bnezl a0, 1f # continue if delta non-zero
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srl a0, a0, 1 # divide ticks by 2 {DELAY SLOT}
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# perform a quick return to the caller:
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j ra
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nop # {DELAY SLOT}
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1:
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mfc0 v0, C0_COUNT # get current counter value
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nop
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nop
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# We cannot just do the simple test, of adding our delta onto
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# the current value (ignoring overflow) and then checking for
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# equality. The counter is incrementing every two PClocks,
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# which means the counter value can change between
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# instructions, making it hard to sample at the exact value
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# desired.
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# However, we do know that our entry delta value is less than
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# half the number space (since we divide by 2 on entry). This
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# means we can use a difference in signs to indicate timer
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# overflow.
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addu a0, v0, a0 # unsigned add (ignore overflow)
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# We know have our end value (which will have been
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# sign-extended to fill the 64bit register value).
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2:
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# get current counter value:
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mfc0 v0, C0_COUNT
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nop
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nop
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# This is an unsigned 32bit subtraction:
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subu v0, a0, v0 # delta = (end - now) {DELAY SLOT}
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bgtzl v0, 2b # looping back is most likely
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nop
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# We have now been delayed (in the foreground) for AT LEAST
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# the required number of counter ticks.
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j ra # return to caller
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nop # {DELAY SLOT}
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.set reorder
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.end __cpu_timer_poll
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# Flush the processor caches to memory:
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.globl __cpu_flush
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.ent __cpu_flush
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__cpu_flush:
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.set noreorder
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# NOTE: The Vr4300 *CANNOT* have any secondary cache (bit 17
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# of the CONFIG registered is hard-wired to 1). We just
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# provide code to flush the Data and Instruction caches.
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# Even though the Vr4300 has hard-wired cache and cache line
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# sizes, we still interpret the relevant Config register
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# bits. This allows this code to be used for other conforming
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# MIPS architectures if desired.
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# Get the config register
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mfc0 a0, C0_CONFIG
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nop
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nop
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li a1, 1 # a useful constant
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#
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srl a2, a0, 9 # bits 11..9 for instruction cache size
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andi a2, a2, 0x7 # 3bits of information
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add a2, a2, 12 # get full power-of-2 value
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sllv a2, a1, a2 # instruction cache size
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#
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srl a3, a0, 6 # bits 8..6 for data cache size
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andi a3, a3, 0x7 # 3bits of information
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add a3, a3, 12 # get full power-of-2 value
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sllv a3, a1, a3 # data cache size
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#
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li a1, (1 << 5) # check IB (instruction cache line size)
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and a1, a0, a1 # mask against the CONFIG register value
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beqz a1, 1f # branch on result of delay slot operation
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nop
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li a1, 32 # non-zero, then 32bytes
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j 2f # continue
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nop
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1:
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li a1, 16 # 16bytes
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2:
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#
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li t0, (1 << 4) # check DB (data cache line size)
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and a0, a0, t0 # mask against the CONFIG register value
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beqz a0, 3f # branch on result of delay slot operation
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nop
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li a0, 32 # non-zero, then 32bytes
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j 4f # continue
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nop
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3:
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li a0, 16 # 16bytes
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4:
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#
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# a0 = data cache line size
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# a1 = instruction cache line size
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# a2 = instruction cache size
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# a3 = data cache size
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#
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lui t0, ((K0BASE >> 16) & 0xFFFF)
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ori t0, t0, (K0BASE & 0xFFFF)
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addu t1, t0, a2 # end cache address
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subu t2, a1, 1 # line size mask
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not t2 # invert the mask
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and t3, t0, t2 # get start address
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addu t1, -1
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and t1, t2 # get end address
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5:
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cache INDEX_INVALIDATE_I,0(t3)
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bne t3, t1, 5b
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addu t3, a1
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#
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addu t1, t0, a3 # end cache address
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subu t2, a0, 1 # line size mask
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not t2 # invert the mask
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and t3, t0, t2 # get start address
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addu t1, -1
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and t1, t2 # get end address
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6:
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cache INDEX_WRITEBACK_INVALIDATE_D,0(t3)
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bne t3, t1, 6b
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addu t3, a0
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#
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j ra # return to the caller
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nop
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.set reorder
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.end __cpu_flush
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# NOTE: This variable should *NOT* be addressed relative to
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# the $gp register since this code is executed before $gp is
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# initialised... hence we leave it in the text area. This will
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# cause problems if this routine is ever ROMmed:
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.globl __buserr_cnt
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__buserr_cnt:
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.word 0
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.align 3
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__k1_save:
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.word 0
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.word 0
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.align 2
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.ent __buserr
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.globl __buserr
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__buserr:
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.set noat
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.set noreorder
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# k0 and k1 available for use:
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mfc0 k0,C0_CAUSE
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nop
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nop
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andi k0,k0,0x7c
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sub k0,k0,7 << 2
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beq k0,$0,__buserr_do
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nop
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# call the previous handler
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la k0,__previous
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jr k0
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nop
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#
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__buserr_do:
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# TODO: check that the cause is indeed a bus error
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# - if not then just jump to the previous handler
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la k0,__k1_save
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sd k1,0(k0)
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#
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la k1,__buserr_cnt
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lw k0,0(k1) # increment counter
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addu k0,1
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sw k0,0(k1)
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#
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la k0,__k1_save
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ld k1,0(k0)
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#
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mfc0 k0,C0_EPC
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nop
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nop
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addu k0,k0,4 # skip offending instruction
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mtc0 k0,C0_EPC # update EPC
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nop
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nop
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eret
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# j k0
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# rfe
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.set reorder
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.set at
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.end __buserr
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__exception_code:
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.set noreorder
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lui k0,%hi(__buserr)
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daddiu k0,k0,%lo(__buserr)
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jr k0
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nop
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.set reorder
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__exception_code_end:
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.data
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__previous:
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.space (__exception_code_end - __exception_code)
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# This subtracting two addresses is working
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# but is not garenteed to continue working.
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# The assemble reserves the right to put these
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# two labels into different frags, and then
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# cant take their difference.
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.text
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.ent __default_buserr_handler
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.globl __default_buserr_handler
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__default_buserr_handler:
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.set noreorder
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# attach our simple bus error handler:
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# in: void
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# out: void
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mfc0 a0,C0_SR
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nop
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li a1,SR_BEV
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and a1,a1,a0
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beq a1,$0,baseaddr
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lui a0,0x8000 # delay slot
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lui a0,0xbfc0
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daddiu a0,a0,0x0200
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baseaddr:
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daddiu a0,a0,0x0180
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# a0 = base vector table address
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la a1,__exception_code_end
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la a2,__exception_code
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subu a1,a1,a2
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la a3,__previous
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# there must be a better way of doing this????
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copyloop:
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lw v0,0(a0)
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sw v0,0(a3)
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lw v0,0(a2)
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sw v0,0(a0)
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daddiu a0,a0,4
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daddiu a2,a2,4
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daddiu a3,a3,4
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subu a1,a1,4
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bne a1,$0,copyloop
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nop
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la a0,__buserr_cnt
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sw $0,0(a0)
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j ra
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nop
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.set reorder
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.end __default_buserr_handler
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.ent __restore_buserr_handler
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.globl __restore_buserr_handler
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__restore_buserr_handler:
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.set noreorder
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# restore original (monitor) bus error handler
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# in: void
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# out: void
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mfc0 a0,C0_SR
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nop
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li a1,SR_BEV
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and a1,a1,a0
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beq a1,$0,res_baseaddr
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lui a0,0x8000 # delay slot
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lui a0,0xbfc0
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daddiu a0,a0,0x0200
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res_baseaddr:
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daddiu a0,a0,0x0180
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# a0 = base vector table address
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la a1,__exception_code_end
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la a3,__exception_code
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subu a1,a1,a3
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la a3,__previous
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# there must be a better way of doing this????
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res_copyloop:
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lw v0,0(a3)
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sw v0,0(a0)
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daddiu a0,a0,4
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daddiu a3,a3,4
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subu a1,a1,4
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bne a1,$0,res_copyloop
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nop
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j ra
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nop
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.set reorder
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.end __restore_buserr_handler
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.ent __buserr_count
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.globl __buserr_count
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__buserr_count:
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.set noreorder
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# restore original (monitor) bus error handler
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# in: void
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# out: unsigned int __buserr_cnt
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la v0,__buserr_cnt
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lw v0,0(v0)
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j ra
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nop
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.set reorder
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.end __buserr_count
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/* EOF vr4300.S */
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