linux_dsm_epyc7002/arch/arm64/lib/memmove.S

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/* SPDX-License-Identifier: GPL-2.0-only */
/*
* Copyright (C) 2013 ARM Ltd.
* Copyright (C) 2013 Linaro.
*
* This code is based on glibc cortex strings work originally authored by Linaro
* be found @
*
* http://bazaar.launchpad.net/~linaro-toolchain-dev/cortex-strings/trunk/
* files/head:/src/aarch64/
*/
#include <linux/linkage.h>
#include <asm/assembler.h>
#include <asm/cache.h>
/*
* Move a buffer from src to test (alignment handled by the hardware).
* If dest <= src, call memcpy, otherwise copy in reverse order.
*
* Parameters:
* x0 - dest
* x1 - src
* x2 - n
* Returns:
* x0 - dest
*/
dstin .req x0
src .req x1
count .req x2
tmp1 .req x3
tmp1w .req w3
tmp2 .req x4
tmp2w .req w4
tmp3 .req x5
tmp3w .req w5
dst .req x6
A_l .req x7
A_h .req x8
B_l .req x9
B_h .req x10
C_l .req x11
C_h .req x12
D_l .req x13
D_h .req x14
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.weak memmove
SYM_FUNC_START_ALIAS(__memmove)
SYM_FUNC_START_PI(memmove)
cmp dstin, src
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b.lo __memcpy
add tmp1, src, count
cmp dstin, tmp1
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b.hs __memcpy /* No overlap. */
add dst, dstin, count
add src, src, count
cmp count, #16
b.lo .Ltail15 /*probably non-alignment accesses.*/
ands tmp2, src, #15 /* Bytes to reach alignment. */
b.eq .LSrcAligned
sub count, count, tmp2
/*
* process the aligned offset length to make the src aligned firstly.
* those extra instructions' cost is acceptable. It also make the
* coming accesses are based on aligned address.
*/
tbz tmp2, #0, 1f
ldrb tmp1w, [src, #-1]!
strb tmp1w, [dst, #-1]!
1:
tbz tmp2, #1, 2f
ldrh tmp1w, [src, #-2]!
strh tmp1w, [dst, #-2]!
2:
tbz tmp2, #2, 3f
ldr tmp1w, [src, #-4]!
str tmp1w, [dst, #-4]!
3:
tbz tmp2, #3, .LSrcAligned
ldr tmp1, [src, #-8]!
str tmp1, [dst, #-8]!
.LSrcAligned:
cmp count, #64
b.ge .Lcpy_over64
/*
* Deal with small copies quickly by dropping straight into the
* exit block.
*/
.Ltail63:
/*
* Copy up to 48 bytes of data. At this point we only need the
* bottom 6 bits of count to be accurate.
*/
ands tmp1, count, #0x30
b.eq .Ltail15
cmp tmp1w, #0x20
b.eq 1f
b.lt 2f
ldp A_l, A_h, [src, #-16]!
stp A_l, A_h, [dst, #-16]!
1:
ldp A_l, A_h, [src, #-16]!
stp A_l, A_h, [dst, #-16]!
2:
ldp A_l, A_h, [src, #-16]!
stp A_l, A_h, [dst, #-16]!
.Ltail15:
tbz count, #3, 1f
ldr tmp1, [src, #-8]!
str tmp1, [dst, #-8]!
1:
tbz count, #2, 2f
ldr tmp1w, [src, #-4]!
str tmp1w, [dst, #-4]!
2:
tbz count, #1, 3f
ldrh tmp1w, [src, #-2]!
strh tmp1w, [dst, #-2]!
3:
tbz count, #0, .Lexitfunc
ldrb tmp1w, [src, #-1]
strb tmp1w, [dst, #-1]
.Lexitfunc:
ret
.Lcpy_over64:
subs count, count, #128
b.ge .Lcpy_body_large
/*
* Less than 128 bytes to copy, so handle 64 bytes here and then jump
* to the tail.
*/
ldp A_l, A_h, [src, #-16]
stp A_l, A_h, [dst, #-16]
ldp B_l, B_h, [src, #-32]
ldp C_l, C_h, [src, #-48]
stp B_l, B_h, [dst, #-32]
stp C_l, C_h, [dst, #-48]
ldp D_l, D_h, [src, #-64]!
stp D_l, D_h, [dst, #-64]!
tst count, #0x3f
b.ne .Ltail63
ret
/*
* Critical loop. Start at a new cache line boundary. Assuming
* 64 bytes per line this ensures the entire loop is in one line.
*/
.p2align L1_CACHE_SHIFT
.Lcpy_body_large:
/* pre-load 64 bytes data. */
ldp A_l, A_h, [src, #-16]
ldp B_l, B_h, [src, #-32]
ldp C_l, C_h, [src, #-48]
ldp D_l, D_h, [src, #-64]!
1:
/*
* interlace the load of next 64 bytes data block with store of the last
* loaded 64 bytes data.
*/
stp A_l, A_h, [dst, #-16]
ldp A_l, A_h, [src, #-16]
stp B_l, B_h, [dst, #-32]
ldp B_l, B_h, [src, #-32]
stp C_l, C_h, [dst, #-48]
ldp C_l, C_h, [src, #-48]
stp D_l, D_h, [dst, #-64]!
ldp D_l, D_h, [src, #-64]!
subs count, count, #64
b.ge 1b
stp A_l, A_h, [dst, #-16]
stp B_l, B_h, [dst, #-32]
stp C_l, C_h, [dst, #-48]
stp D_l, D_h, [dst, #-64]!
tst count, #0x3f
b.ne .Ltail63
ret
SYM_FUNC_END_PI(memmove)
EXPORT_SYMBOL(memmove)
SYM_FUNC_END_ALIAS(__memmove)
EXPORT_SYMBOL(__memmove)