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linux-next/arch/sparc64/lib/NGmemcpy.S

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ArmAsm
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/* NGmemcpy.S: Niagara optimized memcpy.
*
* Copyright (C) 2006 David S. Miller (davem@davemloft.net)
*/
#ifdef __KERNEL__
#include <asm/asi.h>
#include <asm/thread_info.h>
#define GLOBAL_SPARE %g7
#define RESTORE_ASI(TMP) \
ldub [%g6 + TI_CURRENT_DS], TMP; \
wr TMP, 0x0, %asi;
#else
#define GLOBAL_SPARE %g5
#define RESTORE_ASI(TMP) \
wr %g0, ASI_PNF, %asi
#endif
#ifndef STORE_ASI
#define STORE_ASI ASI_BLK_INIT_QUAD_LDD_P
#endif
#ifndef EX_LD
#define EX_LD(x) x
#endif
#ifndef EX_ST
#define EX_ST(x) x
#endif
#ifndef EX_RETVAL
#define EX_RETVAL(x) x
#endif
#ifndef LOAD
#ifndef MEMCPY_DEBUG
#define LOAD(type,addr,dest) type [addr], dest
#else
#define LOAD(type,addr,dest) type##a [addr] 0x80, dest
#endif
#endif
#ifndef LOAD_TWIN
#define LOAD_TWIN(addr_reg,dest0,dest1) \
ldda [addr_reg] ASI_BLK_INIT_QUAD_LDD_P, dest0
#endif
#ifndef STORE
#define STORE(type,src,addr) type src, [addr]
#endif
#ifndef STORE_INIT
#define STORE_INIT(src,addr) stxa src, [addr] %asi
#endif
#ifndef FUNC_NAME
#define FUNC_NAME NGmemcpy
#endif
#ifndef PREAMBLE
#define PREAMBLE
#endif
#ifndef XCC
#define XCC xcc
#endif
.register %g2,#scratch
.register %g3,#scratch
.text
.align 64
.globl FUNC_NAME
.type FUNC_NAME,#function
FUNC_NAME: /* %o0=dst, %o1=src, %o2=len */
srlx %o2, 31, %g2
cmp %g2, 0
tne %xcc, 5
PREAMBLE
mov %o0, GLOBAL_SPARE
cmp %o2, 0
be,pn %XCC, 85f
or %o0, %o1, %o3
cmp %o2, 16
blu,a,pn %XCC, 80f
or %o3, %o2, %o3
/* 2 blocks (128 bytes) is the minimum we can do the block
* copy with. We need to ensure that we'll iterate at least
* once in the block copy loop. At worst we'll need to align
* the destination to a 64-byte boundary which can chew up
* to (64 - 1) bytes from the length before we perform the
* block copy loop.
*/
cmp %o2, (2 * 64)
blu,pt %XCC, 70f
andcc %o3, 0x7, %g0
/* %o0: dst
* %o1: src
* %o2: len (known to be >= 128)
*
* The block copy loops will use %o4/%o5,%g2/%g3 as
* temporaries while copying the data.
*/
LOAD(prefetch, %o1, #one_read)
wr %g0, STORE_ASI, %asi
/* Align destination on 64-byte boundary. */
andcc %o0, (64 - 1), %o4
be,pt %XCC, 2f
sub %o4, 64, %o4
sub %g0, %o4, %o4 ! bytes to align dst
sub %o2, %o4, %o2
1: subcc %o4, 1, %o4
EX_LD(LOAD(ldub, %o1, %g1))
EX_ST(STORE(stb, %g1, %o0))
add %o1, 1, %o1
bne,pt %XCC, 1b
add %o0, 1, %o0
/* If the source is on a 16-byte boundary we can do
* the direct block copy loop. If it is 8-byte aligned
* we can do the 16-byte loads offset by -8 bytes and the
* init stores offset by one register.
*
* If the source is not even 8-byte aligned, we need to do
* shifting and masking (basically integer faligndata).
*
* The careful bit with init stores is that if we store
* to any part of the cache line we have to store the whole
* cacheline else we can end up with corrupt L2 cache line
* contents. Since the loop works on 64-bytes of 64-byte
* aligned store data at a time, this is easy to ensure.
*/
2:
andcc %o1, (16 - 1), %o4
andn %o2, (64 - 1), %g1 ! block copy loop iterator
sub %o2, %g1, %o2 ! final sub-block copy bytes
be,pt %XCC, 50f
cmp %o4, 8
be,a,pt %XCC, 10f
sub %o1, 0x8, %o1
/* Neither 8-byte nor 16-byte aligned, shift and mask. */
mov %g1, %o4
and %o1, 0x7, %g1
sll %g1, 3, %g1
mov 64, %o3
andn %o1, 0x7, %o1
EX_LD(LOAD(ldx, %o1, %g2))
sub %o3, %g1, %o3
sllx %g2, %g1, %g2
#define SWIVEL_ONE_DWORD(SRC, TMP1, TMP2, PRE_VAL, PRE_SHIFT, POST_SHIFT, DST)\
EX_LD(LOAD(ldx, SRC, TMP1)); \
srlx TMP1, PRE_SHIFT, TMP2; \
or TMP2, PRE_VAL, TMP2; \
EX_ST(STORE_INIT(TMP2, DST)); \
sllx TMP1, POST_SHIFT, PRE_VAL;
1: add %o1, 0x8, %o1
SWIVEL_ONE_DWORD(%o1, %g3, %o5, %g2, %o3, %g1, %o0 + 0x00)
add %o1, 0x8, %o1
SWIVEL_ONE_DWORD(%o1, %g3, %o5, %g2, %o3, %g1, %o0 + 0x08)
add %o1, 0x8, %o1
SWIVEL_ONE_DWORD(%o1, %g3, %o5, %g2, %o3, %g1, %o0 + 0x10)
add %o1, 0x8, %o1
SWIVEL_ONE_DWORD(%o1, %g3, %o5, %g2, %o3, %g1, %o0 + 0x18)
add %o1, 32, %o1
LOAD(prefetch, %o1, #one_read)
sub %o1, 32 - 8, %o1
SWIVEL_ONE_DWORD(%o1, %g3, %o5, %g2, %o3, %g1, %o0 + 0x20)
add %o1, 8, %o1
SWIVEL_ONE_DWORD(%o1, %g3, %o5, %g2, %o3, %g1, %o0 + 0x28)
add %o1, 8, %o1
SWIVEL_ONE_DWORD(%o1, %g3, %o5, %g2, %o3, %g1, %o0 + 0x30)
add %o1, 8, %o1
SWIVEL_ONE_DWORD(%o1, %g3, %o5, %g2, %o3, %g1, %o0 + 0x38)
subcc %o4, 64, %o4
bne,pt %XCC, 1b
add %o0, 64, %o0
#undef SWIVEL_ONE_DWORD
srl %g1, 3, %g1
ba,pt %XCC, 60f
add %o1, %g1, %o1
10: /* Destination is 64-byte aligned, source was only 8-byte
* aligned but it has been subtracted by 8 and we perform
* one twin load ahead, then add 8 back into source when
* we finish the loop.
*/
EX_LD(LOAD_TWIN(%o1, %o4, %o5))
1: add %o1, 16, %o1
EX_LD(LOAD_TWIN(%o1, %g2, %g3))
add %o1, 16 + 32, %o1
LOAD(prefetch, %o1, #one_read)
sub %o1, 32, %o1
EX_ST(STORE_INIT(%o5, %o0 + 0x00)) ! initializes cache line
EX_ST(STORE_INIT(%g2, %o0 + 0x08))
EX_LD(LOAD_TWIN(%o1, %o4, %o5))
add %o1, 16, %o1
EX_ST(STORE_INIT(%g3, %o0 + 0x10))
EX_ST(STORE_INIT(%o4, %o0 + 0x18))
EX_LD(LOAD_TWIN(%o1, %g2, %g3))
add %o1, 16, %o1
EX_ST(STORE_INIT(%o5, %o0 + 0x20))
EX_ST(STORE_INIT(%g2, %o0 + 0x28))
EX_LD(LOAD_TWIN(%o1, %o4, %o5))
EX_ST(STORE_INIT(%g3, %o0 + 0x30))
EX_ST(STORE_INIT(%o4, %o0 + 0x38))
subcc %g1, 64, %g1
bne,pt %XCC, 1b
add %o0, 64, %o0
ba,pt %XCC, 60f
add %o1, 0x8, %o1
50: /* Destination is 64-byte aligned, and source is 16-byte
* aligned.
*/
1: EX_LD(LOAD_TWIN(%o1, %o4, %o5))
add %o1, 16, %o1
EX_LD(LOAD_TWIN(%o1, %g2, %g3))
add %o1, 16 + 32, %o1
LOAD(prefetch, %o1, #one_read)
sub %o1, 32, %o1
EX_ST(STORE_INIT(%o4, %o0 + 0x00)) ! initializes cache line
EX_ST(STORE_INIT(%o5, %o0 + 0x08))
EX_LD(LOAD_TWIN(%o1, %o4, %o5))
add %o1, 16, %o1
EX_ST(STORE_INIT(%g2, %o0 + 0x10))
EX_ST(STORE_INIT(%g3, %o0 + 0x18))
EX_LD(LOAD_TWIN(%o1, %g2, %g3))
add %o1, 16, %o1
EX_ST(STORE_INIT(%o4, %o0 + 0x20))
EX_ST(STORE_INIT(%o5, %o0 + 0x28))
EX_ST(STORE_INIT(%g2, %o0 + 0x30))
EX_ST(STORE_INIT(%g3, %o0 + 0x38))
subcc %g1, 64, %g1
bne,pt %XCC, 1b
add %o0, 64, %o0
/* fall through */
60:
/* %o2 contains any final bytes still needed to be copied
* over. If anything is left, we copy it one byte at a time.
*/
RESTORE_ASI(%o3)
brz,pt %o2, 85f
sub %o0, %o1, %o3
ba,a,pt %XCC, 90f
.align 64
70: /* 16 < len <= 64 */
bne,pn %XCC, 75f
sub %o0, %o1, %o3
72:
andn %o2, 0xf, %o4
and %o2, 0xf, %o2
1: subcc %o4, 0x10, %o4
EX_LD(LOAD(ldx, %o1, %o5))
add %o1, 0x08, %o1
EX_LD(LOAD(ldx, %o1, %g1))
sub %o1, 0x08, %o1
EX_ST(STORE(stx, %o5, %o1 + %o3))
add %o1, 0x8, %o1
EX_ST(STORE(stx, %g1, %o1 + %o3))
bgu,pt %XCC, 1b
add %o1, 0x8, %o1
73: andcc %o2, 0x8, %g0
be,pt %XCC, 1f
nop
sub %o2, 0x8, %o2
EX_LD(LOAD(ldx, %o1, %o5))
EX_ST(STORE(stx, %o5, %o1 + %o3))
add %o1, 0x8, %o1
1: andcc %o2, 0x4, %g0
be,pt %XCC, 1f
nop
sub %o2, 0x4, %o2
EX_LD(LOAD(lduw, %o1, %o5))
EX_ST(STORE(stw, %o5, %o1 + %o3))
add %o1, 0x4, %o1
1: cmp %o2, 0
be,pt %XCC, 85f
nop
ba,pt %xcc, 90f
nop
75:
andcc %o0, 0x7, %g1
sub %g1, 0x8, %g1
be,pn %icc, 2f
sub %g0, %g1, %g1
sub %o2, %g1, %o2
1: subcc %g1, 1, %g1
EX_LD(LOAD(ldub, %o1, %o5))
EX_ST(STORE(stb, %o5, %o1 + %o3))
bgu,pt %icc, 1b
add %o1, 1, %o1
2: add %o1, %o3, %o0
andcc %o1, 0x7, %g1
bne,pt %icc, 8f
sll %g1, 3, %g1
cmp %o2, 16
bgeu,pt %icc, 72b
nop
ba,a,pt %xcc, 73b
8: mov 64, %o3
andn %o1, 0x7, %o1
EX_LD(LOAD(ldx, %o1, %g2))
sub %o3, %g1, %o3
andn %o2, 0x7, %o4
sllx %g2, %g1, %g2
1: add %o1, 0x8, %o1
EX_LD(LOAD(ldx, %o1, %g3))
subcc %o4, 0x8, %o4
srlx %g3, %o3, %o5
or %o5, %g2, %o5
EX_ST(STORE(stx, %o5, %o0))
add %o0, 0x8, %o0
bgu,pt %icc, 1b
sllx %g3, %g1, %g2
srl %g1, 3, %g1
andcc %o2, 0x7, %o2
be,pn %icc, 85f
add %o1, %g1, %o1
ba,pt %xcc, 90f
sub %o0, %o1, %o3
.align 64
80: /* 0 < len <= 16 */
andcc %o3, 0x3, %g0
bne,pn %XCC, 90f
sub %o0, %o1, %o3
1:
subcc %o2, 4, %o2
EX_LD(LOAD(lduw, %o1, %g1))
EX_ST(STORE(stw, %g1, %o1 + %o3))
bgu,pt %XCC, 1b
add %o1, 4, %o1
85: retl
mov EX_RETVAL(GLOBAL_SPARE), %o0
.align 32
90:
subcc %o2, 1, %o2
EX_LD(LOAD(ldub, %o1, %g1))
EX_ST(STORE(stb, %g1, %o1 + %o3))
bgu,pt %XCC, 90b
add %o1, 1, %o1
retl
mov EX_RETVAL(GLOBAL_SPARE), %o0
.size FUNC_NAME, .-FUNC_NAME