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https://github.com/AuxXxilium/linux_dsm_epyc7002.git
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8f21bd0090
The csum_partial_copy_generic() function saves the PowerPC non-volatile r14, r15, and r16 registers for the main checksum-and-copy loop. Unfortunately, it fails to restore them upon error exit from this loop, which results in silent corruption of these registers in the presumably rare event of an access exception within that loop. This commit therefore restores these register on error exit from the loop. Signed-off-by: Paul E. McKenney <paulmck@linux.vnet.ibm.com> Signed-off-by: Anton Blanchard <anton@samba.org> Cc: stable@vger.kernel.org Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org>
481 lines
9.2 KiB
ArmAsm
481 lines
9.2 KiB
ArmAsm
/*
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* This file contains assembly-language implementations
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* of IP-style 1's complement checksum routines.
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*
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* Copyright (C) 1995-1996 Gary Thomas (gdt@linuxppc.org)
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version
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* 2 of the License, or (at your option) any later version.
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*
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* Severely hacked about by Paul Mackerras (paulus@cs.anu.edu.au).
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*/
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#include <linux/sys.h>
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#include <asm/processor.h>
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#include <asm/errno.h>
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#include <asm/ppc_asm.h>
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/*
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* ip_fast_csum(r3=buf, r4=len) -- Optimized for IP header
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* len is in words and is always >= 5.
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*
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* In practice len == 5, but this is not guaranteed. So this code does not
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* attempt to use doubleword instructions.
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*/
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_GLOBAL(ip_fast_csum)
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lwz r0,0(r3)
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lwzu r5,4(r3)
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addic. r4,r4,-2
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addc r0,r0,r5
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mtctr r4
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blelr-
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1: lwzu r4,4(r3)
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adde r0,r0,r4
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bdnz 1b
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addze r0,r0 /* add in final carry */
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rldicl r4,r0,32,0 /* fold two 32-bit halves together */
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add r0,r0,r4
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srdi r0,r0,32
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rlwinm r3,r0,16,0,31 /* fold two halves together */
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add r3,r0,r3
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not r3,r3
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srwi r3,r3,16
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blr
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/*
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* Compute checksum of TCP or UDP pseudo-header:
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* csum_tcpudp_magic(r3=saddr, r4=daddr, r5=len, r6=proto, r7=sum)
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* No real gain trying to do this specially for 64 bit, but
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* the 32 bit addition may spill into the upper bits of
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* the doubleword so we still must fold it down from 64.
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*/
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_GLOBAL(csum_tcpudp_magic)
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rlwimi r5,r6,16,0,15 /* put proto in upper half of len */
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addc r0,r3,r4 /* add 4 32-bit words together */
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adde r0,r0,r5
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adde r0,r0,r7
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rldicl r4,r0,32,0 /* fold 64 bit value */
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add r0,r4,r0
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srdi r0,r0,32
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rlwinm r3,r0,16,0,31 /* fold two halves together */
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add r3,r0,r3
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not r3,r3
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srwi r3,r3,16
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blr
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/*
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* Computes the checksum of a memory block at buff, length len,
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* and adds in "sum" (32-bit).
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*
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* csum_partial(r3=buff, r4=len, r5=sum)
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*/
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_GLOBAL(csum_partial)
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addic r0,r5,0 /* clear carry */
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srdi. r6,r4,3 /* less than 8 bytes? */
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beq .Lcsum_tail_word
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/*
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* If only halfword aligned, align to a double word. Since odd
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* aligned addresses should be rare and they would require more
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* work to calculate the correct checksum, we ignore that case
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* and take the potential slowdown of unaligned loads.
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*/
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rldicl. r6,r3,64-1,64-2 /* r6 = (r3 & 0x3) >> 1 */
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beq .Lcsum_aligned
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li r7,4
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sub r6,r7,r6
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mtctr r6
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1:
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lhz r6,0(r3) /* align to doubleword */
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subi r4,r4,2
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addi r3,r3,2
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adde r0,r0,r6
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bdnz 1b
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.Lcsum_aligned:
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/*
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* We unroll the loop such that each iteration is 64 bytes with an
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* entry and exit limb of 64 bytes, meaning a minimum size of
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* 128 bytes.
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*/
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srdi. r6,r4,7
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beq .Lcsum_tail_doublewords /* len < 128 */
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srdi r6,r4,6
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subi r6,r6,1
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mtctr r6
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stdu r1,-STACKFRAMESIZE(r1)
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std r14,STK_REG(R14)(r1)
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std r15,STK_REG(R15)(r1)
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std r16,STK_REG(R16)(r1)
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ld r6,0(r3)
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ld r9,8(r3)
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ld r10,16(r3)
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ld r11,24(r3)
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/*
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* On POWER6 and POWER7 back to back addes take 2 cycles because of
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* the XER dependency. This means the fastest this loop can go is
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* 16 cycles per iteration. The scheduling of the loop below has
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* been shown to hit this on both POWER6 and POWER7.
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*/
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.align 5
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2:
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adde r0,r0,r6
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ld r12,32(r3)
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ld r14,40(r3)
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adde r0,r0,r9
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ld r15,48(r3)
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ld r16,56(r3)
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addi r3,r3,64
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adde r0,r0,r10
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adde r0,r0,r11
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adde r0,r0,r12
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adde r0,r0,r14
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adde r0,r0,r15
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ld r6,0(r3)
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ld r9,8(r3)
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adde r0,r0,r16
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ld r10,16(r3)
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ld r11,24(r3)
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bdnz 2b
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adde r0,r0,r6
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ld r12,32(r3)
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ld r14,40(r3)
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adde r0,r0,r9
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ld r15,48(r3)
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ld r16,56(r3)
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addi r3,r3,64
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adde r0,r0,r10
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adde r0,r0,r11
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adde r0,r0,r12
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adde r0,r0,r14
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adde r0,r0,r15
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adde r0,r0,r16
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ld r14,STK_REG(R14)(r1)
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ld r15,STK_REG(R15)(r1)
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ld r16,STK_REG(R16)(r1)
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addi r1,r1,STACKFRAMESIZE
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andi. r4,r4,63
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.Lcsum_tail_doublewords: /* Up to 127 bytes to go */
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srdi. r6,r4,3
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beq .Lcsum_tail_word
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mtctr r6
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3:
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ld r6,0(r3)
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addi r3,r3,8
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adde r0,r0,r6
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bdnz 3b
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andi. r4,r4,7
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.Lcsum_tail_word: /* Up to 7 bytes to go */
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srdi. r6,r4,2
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beq .Lcsum_tail_halfword
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lwz r6,0(r3)
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addi r3,r3,4
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adde r0,r0,r6
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subi r4,r4,4
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.Lcsum_tail_halfword: /* Up to 3 bytes to go */
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srdi. r6,r4,1
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beq .Lcsum_tail_byte
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lhz r6,0(r3)
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addi r3,r3,2
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adde r0,r0,r6
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subi r4,r4,2
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.Lcsum_tail_byte: /* Up to 1 byte to go */
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andi. r6,r4,1
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beq .Lcsum_finish
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lbz r6,0(r3)
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sldi r9,r6,8 /* Pad the byte out to 16 bits */
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adde r0,r0,r9
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.Lcsum_finish:
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addze r0,r0 /* add in final carry */
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rldicl r4,r0,32,0 /* fold two 32 bit halves together */
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add r3,r4,r0
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srdi r3,r3,32
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blr
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.macro srcnr
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100:
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.section __ex_table,"a"
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.align 3
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.llong 100b,.Lsrc_error_nr
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.previous
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.endm
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.macro source
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150:
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.section __ex_table,"a"
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.align 3
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.llong 150b,.Lsrc_error
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.previous
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.endm
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.macro dstnr
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200:
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.section __ex_table,"a"
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.align 3
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.llong 200b,.Ldest_error_nr
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.previous
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.endm
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.macro dest
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250:
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.section __ex_table,"a"
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.align 3
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.llong 250b,.Ldest_error
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.previous
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.endm
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/*
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* Computes the checksum of a memory block at src, length len,
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* and adds in "sum" (32-bit), while copying the block to dst.
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* If an access exception occurs on src or dst, it stores -EFAULT
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* to *src_err or *dst_err respectively. The caller must take any action
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* required in this case (zeroing memory, recalculating partial checksum etc).
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*
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* csum_partial_copy_generic(r3=src, r4=dst, r5=len, r6=sum, r7=src_err, r8=dst_err)
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*/
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_GLOBAL(csum_partial_copy_generic)
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addic r0,r6,0 /* clear carry */
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srdi. r6,r5,3 /* less than 8 bytes? */
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beq .Lcopy_tail_word
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/*
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* If only halfword aligned, align to a double word. Since odd
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* aligned addresses should be rare and they would require more
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* work to calculate the correct checksum, we ignore that case
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* and take the potential slowdown of unaligned loads.
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*
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* If the source and destination are relatively unaligned we only
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* align the source. This keeps things simple.
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*/
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rldicl. r6,r3,64-1,64-2 /* r6 = (r3 & 0x3) >> 1 */
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beq .Lcopy_aligned
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li r9,4
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sub r6,r9,r6
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mtctr r6
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1:
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srcnr; lhz r6,0(r3) /* align to doubleword */
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subi r5,r5,2
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addi r3,r3,2
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adde r0,r0,r6
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dstnr; sth r6,0(r4)
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addi r4,r4,2
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bdnz 1b
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.Lcopy_aligned:
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/*
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* We unroll the loop such that each iteration is 64 bytes with an
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* entry and exit limb of 64 bytes, meaning a minimum size of
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* 128 bytes.
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*/
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srdi. r6,r5,7
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beq .Lcopy_tail_doublewords /* len < 128 */
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srdi r6,r5,6
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subi r6,r6,1
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mtctr r6
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stdu r1,-STACKFRAMESIZE(r1)
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std r14,STK_REG(R14)(r1)
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std r15,STK_REG(R15)(r1)
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std r16,STK_REG(R16)(r1)
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source; ld r6,0(r3)
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source; ld r9,8(r3)
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source; ld r10,16(r3)
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source; ld r11,24(r3)
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/*
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* On POWER6 and POWER7 back to back addes take 2 cycles because of
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* the XER dependency. This means the fastest this loop can go is
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* 16 cycles per iteration. The scheduling of the loop below has
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* been shown to hit this on both POWER6 and POWER7.
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*/
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.align 5
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2:
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adde r0,r0,r6
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source; ld r12,32(r3)
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source; ld r14,40(r3)
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adde r0,r0,r9
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source; ld r15,48(r3)
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source; ld r16,56(r3)
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addi r3,r3,64
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adde r0,r0,r10
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dest; std r6,0(r4)
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dest; std r9,8(r4)
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adde r0,r0,r11
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dest; std r10,16(r4)
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dest; std r11,24(r4)
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adde r0,r0,r12
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dest; std r12,32(r4)
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dest; std r14,40(r4)
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adde r0,r0,r14
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dest; std r15,48(r4)
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dest; std r16,56(r4)
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addi r4,r4,64
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adde r0,r0,r15
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source; ld r6,0(r3)
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source; ld r9,8(r3)
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adde r0,r0,r16
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source; ld r10,16(r3)
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source; ld r11,24(r3)
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bdnz 2b
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adde r0,r0,r6
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source; ld r12,32(r3)
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source; ld r14,40(r3)
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adde r0,r0,r9
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source; ld r15,48(r3)
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source; ld r16,56(r3)
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addi r3,r3,64
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adde r0,r0,r10
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dest; std r6,0(r4)
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dest; std r9,8(r4)
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adde r0,r0,r11
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dest; std r10,16(r4)
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dest; std r11,24(r4)
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adde r0,r0,r12
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dest; std r12,32(r4)
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dest; std r14,40(r4)
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adde r0,r0,r14
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dest; std r15,48(r4)
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dest; std r16,56(r4)
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addi r4,r4,64
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adde r0,r0,r15
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adde r0,r0,r16
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ld r14,STK_REG(R14)(r1)
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ld r15,STK_REG(R15)(r1)
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ld r16,STK_REG(R16)(r1)
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addi r1,r1,STACKFRAMESIZE
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andi. r5,r5,63
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.Lcopy_tail_doublewords: /* Up to 127 bytes to go */
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srdi. r6,r5,3
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beq .Lcopy_tail_word
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mtctr r6
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3:
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srcnr; ld r6,0(r3)
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addi r3,r3,8
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adde r0,r0,r6
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dstnr; std r6,0(r4)
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addi r4,r4,8
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bdnz 3b
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andi. r5,r5,7
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.Lcopy_tail_word: /* Up to 7 bytes to go */
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srdi. r6,r5,2
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beq .Lcopy_tail_halfword
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srcnr; lwz r6,0(r3)
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addi r3,r3,4
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adde r0,r0,r6
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dstnr; stw r6,0(r4)
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addi r4,r4,4
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subi r5,r5,4
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.Lcopy_tail_halfword: /* Up to 3 bytes to go */
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srdi. r6,r5,1
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beq .Lcopy_tail_byte
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srcnr; lhz r6,0(r3)
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addi r3,r3,2
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adde r0,r0,r6
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dstnr; sth r6,0(r4)
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addi r4,r4,2
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subi r5,r5,2
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.Lcopy_tail_byte: /* Up to 1 byte to go */
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andi. r6,r5,1
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beq .Lcopy_finish
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srcnr; lbz r6,0(r3)
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sldi r9,r6,8 /* Pad the byte out to 16 bits */
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adde r0,r0,r9
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dstnr; stb r6,0(r4)
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.Lcopy_finish:
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addze r0,r0 /* add in final carry */
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rldicl r4,r0,32,0 /* fold two 32 bit halves together */
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add r3,r4,r0
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srdi r3,r3,32
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blr
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.Lsrc_error:
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ld r14,STK_REG(R14)(r1)
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ld r15,STK_REG(R15)(r1)
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ld r16,STK_REG(R16)(r1)
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addi r1,r1,STACKFRAMESIZE
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.Lsrc_error_nr:
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cmpdi 0,r7,0
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beqlr
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li r6,-EFAULT
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stw r6,0(r7)
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blr
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.Ldest_error:
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ld r14,STK_REG(R14)(r1)
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ld r15,STK_REG(R15)(r1)
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ld r16,STK_REG(R16)(r1)
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addi r1,r1,STACKFRAMESIZE
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.Ldest_error_nr:
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cmpdi 0,r8,0
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beqlr
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li r6,-EFAULT
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stw r6,0(r8)
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blr
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