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|
/*
* M7memcpy: Optimized SPARC M7 memcpy
*
* Copyright (c) 2016, Oracle and/or its affiliates. All rights reserved.
*/
.file "M7memcpy.S"
/*
* memcpy(s1, s2, len)
*
* Copy s2 to s1, always copy n bytes.
* Note: this C code does not work for overlapped copies.
*
* Fast assembler language version of the following C-program for memcpy
* which represents the `standard' for the C-library.
*
* void *
* memcpy(void *s, const void *s0, size_t n)
* {
* if (n != 0) {
* char *s1 = s;
* const char *s2 = s0;
* do {
* *s1++ = *s2++;
* } while (--n != 0);
* }
* return (s);
* }
*
*
* SPARC T7/M7 Flow :
*
* if (count < SMALL_MAX) {
* if count < SHORTCOPY (SHORTCOPY=3)
* copy bytes; exit with dst addr
* if src & dst aligned on word boundary but not long word boundary,
* copy with ldw/stw; branch to finish_up
* if src & dst aligned on long word boundary
* copy with ldx/stx; branch to finish_up
* if src & dst not aligned and length <= SHORTCHECK (SHORTCHECK=14)
* copy bytes; exit with dst addr
* move enough bytes to get src to word boundary
* if dst now on word boundary
* move_words:
* copy words; branch to finish_up
* if dst now on half word boundary
* load words, shift half words, store words; branch to finish_up
* if dst on byte 1
* load words, shift 3 bytes, store words; branch to finish_up
* if dst on byte 3
* load words, shift 1 byte, store words; branch to finish_up
* finish_up:
* copy bytes; exit with dst addr
* } else { More than SMALL_MAX bytes
* move bytes until dst is on long word boundary
* if( src is on long word boundary ) {
* if (count < MED_MAX) {
* finish_long: src/dst aligned on 8 bytes
* copy with ldx/stx in 8-way unrolled loop;
* copy final 0-63 bytes; exit with dst addr
* } else { src/dst aligned; count > MED_MAX
* align dst on 64 byte boundary; for main data movement:
* prefetch src data to L2 cache; let HW prefetch move data to L1 cache
* Use BIS (block initializing store) to avoid copying store cache
* lines from memory. But pre-store first element of each cache line
* ST_CHUNK lines in advance of the rest of that cache line. That
* gives time for replacement cache lines to be written back without
* excess STQ and Miss Buffer filling. Repeat until near the end,
* then finish up storing before going to finish_long.
* }
* } else { src/dst not aligned on 8 bytes
* if src is word aligned and count < MED_WMAX
* move words in 8-way unrolled loop
* move final 0-31 bytes; exit with dst addr
* if count < MED_UMAX
* use alignaddr/faligndata combined with ldd/std in 8-way
* unrolled loop to move data.
* go to unalign_done
* else
* setup alignaddr for faligndata instructions
* align dst on 64 byte boundary; prefetch src data to L1 cache
* loadx8, falign, block-store, prefetch loop
* (only use block-init-store when src/dst on 8 byte boundaries.)
* unalign_done:
* move remaining bytes for unaligned cases. exit with dst addr.
* }
*
*/
#include <asm/visasm.h>
#include <asm/asi.h>
#if !defined(EX_LD) && !defined(EX_ST)
#define NON_USER_COPY
#endif
#ifndef EX_LD
#define EX_LD(x,y) x
#endif
#ifndef EX_LD_FP
#define EX_LD_FP(x,y) x
#endif
#ifndef EX_ST
#define EX_ST(x,y) x
#endif
#ifndef EX_ST_FP
#define EX_ST_FP(x,y) x
#endif
#ifndef EX_RETVAL
#define EX_RETVAL(x) x
#endif
#ifndef LOAD
#define LOAD(type,addr,dest) type [addr], dest
#endif
#ifndef STORE
#define STORE(type,src,addr) type src, [addr]
#endif
/*
* ASI_BLK_INIT_QUAD_LDD_P/ASI_BLK_INIT_QUAD_LDD_S marks the cache
* line as "least recently used" which means if many threads are
* active, it has a high probability of being pushed out of the cache
* between the first initializing store and the final stores.
* Thus, we use ASI_ST_BLKINIT_MRU_P/ASI_ST_BLKINIT_MRU_S which
* marks the cache line as "most recently used" for all
* but the last cache line
*/
#ifndef STORE_ASI
#ifndef SIMULATE_NIAGARA_ON_NON_NIAGARA
#define STORE_ASI ASI_BLK_INIT_QUAD_LDD_P
#else
#define STORE_ASI 0x80 /* ASI_P */
#endif
#endif
#ifndef STORE_MRU_ASI
#ifndef SIMULATE_NIAGARA_ON_NON_NIAGARA
#define STORE_MRU_ASI ASI_ST_BLKINIT_MRU_P
#else
#define STORE_MRU_ASI 0x80 /* ASI_P */
#endif
#endif
#ifndef STORE_INIT
#define STORE_INIT(src,addr) stxa src, [addr] STORE_ASI
#endif
#ifndef STORE_INIT_MRU
#define STORE_INIT_MRU(src,addr) stxa src, [addr] STORE_MRU_ASI
#endif
#ifndef FUNC_NAME
#define FUNC_NAME M7memcpy
#endif
#ifndef PREAMBLE
#define PREAMBLE
#endif
#define BLOCK_SIZE 64
#define SHORTCOPY 3
#define SHORTCHECK 14
#define SHORT_LONG 64 /* max copy for short longword-aligned case */
/* must be at least 64 */
#define SMALL_MAX 128
#define MED_UMAX 1024 /* max copy for medium un-aligned case */
#define MED_WMAX 1024 /* max copy for medium word-aligned case */
#define MED_MAX 1024 /* max copy for medium longword-aligned case */
#define ST_CHUNK 24 /* ST_CHUNK - block of values for BIS Store */
#define ALIGN_PRE 24 /* distance for aligned prefetch loop */
.register %g2,#scratch
.section ".text"
.global FUNC_NAME
.type FUNC_NAME, #function
.align 16
FUNC_NAME:
srlx %o2, 31, %g2
cmp %g2, 0
tne %xcc, 5
PREAMBLE
mov %o0, %g1 ! save %o0
brz,pn %o2, .Lsmallx
cmp %o2, 3
ble,pn %icc, .Ltiny_cp
cmp %o2, 19
ble,pn %icc, .Lsmall_cp
or %o0, %o1, %g2
cmp %o2, SMALL_MAX
bl,pn %icc, .Lmedium_cp
nop
.Lmedium:
neg %o0, %o5
andcc %o5, 7, %o5 ! bytes till DST 8 byte aligned
brz,pt %o5, .Ldst_aligned_on_8
! %o5 has the bytes to be written in partial store.
sub %o2, %o5, %o2
sub %o1, %o0, %o1 ! %o1 gets the difference
7: ! dst aligning loop
add %o1, %o0, %o4
EX_LD(LOAD(ldub, %o4, %o4), memcpy_retl_o2_plus_o5) ! load one byte
subcc %o5, 1, %o5
EX_ST(STORE(stb, %o4, %o0), memcpy_retl_o2_plus_o5_plus_1)
bgu,pt %xcc, 7b
add %o0, 1, %o0 ! advance dst
add %o1, %o0, %o1 ! restore %o1
.Ldst_aligned_on_8:
andcc %o1, 7, %o5
brnz,pt %o5, .Lsrc_dst_unaligned_on_8
nop
.Lsrc_dst_aligned_on_8:
! check if we are copying MED_MAX or more bytes
set MED_MAX, %o3
cmp %o2, %o3 ! limit to store buffer size
bgu,pn %xcc, .Llarge_align8_copy
nop
/*
* Special case for handling when src and dest are both long word aligned
* and total data to move is less than MED_MAX bytes
*/
.Lmedlong:
subcc %o2, 63, %o2 ! adjust length to allow cc test
ble,pn %xcc, .Lmedl63 ! skip big loop if less than 64 bytes
nop
.Lmedl64:
EX_LD(LOAD(ldx, %o1, %o4), memcpy_retl_o2_plus_63) ! load
subcc %o2, 64, %o2 ! decrement length count
EX_ST(STORE(stx, %o4, %o0), memcpy_retl_o2_plus_63_64) ! and store
EX_LD(LOAD(ldx, %o1+8, %o3), memcpy_retl_o2_plus_63_56) ! a block of 64
EX_ST(STORE(stx, %o3, %o0+8), memcpy_retl_o2_plus_63_56)
EX_LD(LOAD(ldx, %o1+16, %o4), memcpy_retl_o2_plus_63_48)
EX_ST(STORE(stx, %o4, %o0+16), memcpy_retl_o2_plus_63_48)
EX_LD(LOAD(ldx, %o1+24, %o3), memcpy_retl_o2_plus_63_40)
EX_ST(STORE(stx, %o3, %o0+24), memcpy_retl_o2_plus_63_40)
EX_LD(LOAD(ldx, %o1+32, %o4), memcpy_retl_o2_plus_63_32)! load and store
EX_ST(STORE(stx, %o4, %o0+32), memcpy_retl_o2_plus_63_32)
EX_LD(LOAD(ldx, %o1+40, %o3), memcpy_retl_o2_plus_63_24)! a block of 64
add %o1, 64, %o1 ! increase src ptr by 64
EX_ST(STORE(stx, %o3, %o0+40), memcpy_retl_o2_plus_63_24)
EX_LD(LOAD(ldx, %o1-16, %o4), memcpy_retl_o2_plus_63_16)
add %o0, 64, %o0 ! increase dst ptr by 64
EX_ST(STORE(stx, %o4, %o0-16), memcpy_retl_o2_plus_63_16)
EX_LD(LOAD(ldx, %o1-8, %o3), memcpy_retl_o2_plus_63_8)
bgu,pt %xcc, .Lmedl64 ! repeat if at least 64 bytes left
EX_ST(STORE(stx, %o3, %o0-8), memcpy_retl_o2_plus_63_8)
.Lmedl63:
addcc %o2, 32, %o2 ! adjust remaining count
ble,pt %xcc, .Lmedl31 ! to skip if 31 or fewer bytes left
nop
EX_LD(LOAD(ldx, %o1, %o4), memcpy_retl_o2_plus_31) ! load
sub %o2, 32, %o2 ! decrement length count
EX_ST(STORE(stx, %o4, %o0), memcpy_retl_o2_plus_31_32) ! and store
EX_LD(LOAD(ldx, %o1+8, %o3), memcpy_retl_o2_plus_31_24) ! a block of 32
add %o1, 32, %o1 ! increase src ptr by 32
EX_ST(STORE(stx, %o3, %o0+8), memcpy_retl_o2_plus_31_24)
EX_LD(LOAD(ldx, %o1-16, %o4), memcpy_retl_o2_plus_31_16)
add %o0, 32, %o0 ! increase dst ptr by 32
EX_ST(STORE(stx, %o4, %o0-16), memcpy_retl_o2_plus_31_16)
EX_LD(LOAD(ldx, %o1-8, %o3), memcpy_retl_o2_plus_31_8)
EX_ST(STORE(stx, %o3, %o0-8), memcpy_retl_o2_plus_31_8)
.Lmedl31:
addcc %o2, 16, %o2 ! adjust remaining count
ble,pt %xcc, .Lmedl15 ! skip if 15 or fewer bytes left
nop !
EX_LD(LOAD(ldx, %o1, %o4), memcpy_retl_o2_plus_15)
add %o1, 16, %o1 ! increase src ptr by 16
EX_ST(STORE(stx, %o4, %o0), memcpy_retl_o2_plus_15)
sub %o2, 16, %o2 ! decrease count by 16
EX_LD(LOAD(ldx, %o1-8, %o3), memcpy_retl_o2_plus_15_8)
add %o0, 16, %o0 ! increase dst ptr by 16
EX_ST(STORE(stx, %o3, %o0-8), memcpy_retl_o2_plus_15_8)
.Lmedl15:
addcc %o2, 15, %o2 ! restore count
bz,pt %xcc, .Lsmallx ! exit if finished
cmp %o2, 8
blt,pt %xcc, .Lmedw7 ! skip if 7 or fewer bytes left
tst %o2
EX_LD(LOAD(ldx, %o1, %o4), memcpy_retl_o2) ! load 8 bytes
add %o1, 8, %o1 ! increase src ptr by 8
add %o0, 8, %o0 ! increase dst ptr by 8
subcc %o2, 8, %o2 ! decrease count by 8
bnz,pn %xcc, .Lmedw7
EX_ST(STORE(stx, %o4, %o0-8), memcpy_retl_o2_plus_8) ! and store 8
retl
mov EX_RETVAL(%g1), %o0 ! restore %o0
.align 16
.Lsrc_dst_unaligned_on_8:
! DST is 8-byte aligned, src is not
2:
andcc %o1, 0x3, %o5 ! test word alignment
bnz,pt %xcc, .Lunalignsetup ! branch to skip if not word aligned
nop
/*
* Handle all cases where src and dest are aligned on word
* boundaries. Use unrolled loops for better performance.
* This option wins over standard large data move when
* source and destination is in cache for.Lmedium
* to short data moves.
*/
set MED_WMAX, %o3
cmp %o2, %o3 ! limit to store buffer size
bge,pt %xcc, .Lunalignrejoin ! otherwise rejoin main loop
nop
subcc %o2, 31, %o2 ! adjust length to allow cc test
! for end of loop
ble,pt %xcc, .Lmedw31 ! skip big loop if less than 16
.Lmedw32:
EX_LD(LOAD(ld, %o1, %o4), memcpy_retl_o2_plus_31)! move a block of 32
sllx %o4, 32, %o5
EX_LD(LOAD(ld, %o1+4, %o4), memcpy_retl_o2_plus_31)
or %o4, %o5, %o5
EX_ST(STORE(stx, %o5, %o0), memcpy_retl_o2_plus_31)
subcc %o2, 32, %o2 ! decrement length count
EX_LD(LOAD(ld, %o1+8, %o4), memcpy_retl_o2_plus_31_24)
sllx %o4, 32, %o5
EX_LD(LOAD(ld, %o1+12, %o4), memcpy_retl_o2_plus_31_24)
or %o4, %o5, %o5
EX_ST(STORE(stx, %o5, %o0+8), memcpy_retl_o2_plus_31_24)
add %o1, 32, %o1 ! increase src ptr by 32
EX_LD(LOAD(ld, %o1-16, %o4), memcpy_retl_o2_plus_31_16)
sllx %o4, 32, %o5
EX_LD(LOAD(ld, %o1-12, %o4), memcpy_retl_o2_plus_31_16)
or %o4, %o5, %o5
EX_ST(STORE(stx, %o5, %o0+16), memcpy_retl_o2_plus_31_16)
add %o0, 32, %o0 ! increase dst ptr by 32
EX_LD(LOAD(ld, %o1-8, %o4), memcpy_retl_o2_plus_31_8)
sllx %o4, 32, %o5
EX_LD(LOAD(ld, %o1-4, %o4), memcpy_retl_o2_plus_31_8)
or %o4, %o5, %o5
bgu,pt %xcc, .Lmedw32 ! repeat if at least 32 bytes left
EX_ST(STORE(stx, %o5, %o0-8), memcpy_retl_o2_plus_31_8)
.Lmedw31:
addcc %o2, 31, %o2 ! restore count
bz,pt %xcc, .Lsmallx ! exit if finished
nop
cmp %o2, 16
blt,pt %xcc, .Lmedw15
nop
EX_LD(LOAD(ld, %o1, %o4), memcpy_retl_o2)! move a block of 16 bytes
sllx %o4, 32, %o5
subcc %o2, 16, %o2 ! decrement length count
EX_LD(LOAD(ld, %o1+4, %o4), memcpy_retl_o2_plus_16)
or %o4, %o5, %o5
EX_ST(STORE(stx, %o5, %o0), memcpy_retl_o2_plus_16)
add %o1, 16, %o1 ! increase src ptr by 16
EX_LD(LOAD(ld, %o1-8, %o4), memcpy_retl_o2_plus_8)
add %o0, 16, %o0 ! increase dst ptr by 16
sllx %o4, 32, %o5
EX_LD(LOAD(ld, %o1-4, %o4), memcpy_retl_o2_plus_8)
or %o4, %o5, %o5
EX_ST(STORE(stx, %o5, %o0-8), memcpy_retl_o2_plus_8)
.Lmedw15:
bz,pt %xcc, .Lsmallx ! exit if finished
cmp %o2, 8
blt,pn %xcc, .Lmedw7 ! skip if 7 or fewer bytes left
tst %o2
EX_LD(LOAD(ld, %o1, %o4), memcpy_retl_o2) ! load 4 bytes
subcc %o2, 8, %o2 ! decrease count by 8
EX_ST(STORE(stw, %o4, %o0), memcpy_retl_o2_plus_8)! and store 4 bytes
add %o1, 8, %o1 ! increase src ptr by 8
EX_LD(LOAD(ld, %o1-4, %o3), memcpy_retl_o2_plus_4) ! load 4 bytes
add %o0, 8, %o0 ! increase dst ptr by 8
EX_ST(STORE(stw, %o3, %o0-4), memcpy_retl_o2_plus_4)! and store 4 bytes
bz,pt %xcc, .Lsmallx ! exit if finished
.Lmedw7: ! count is ge 1, less than 8
cmp %o2, 4 ! check for 4 bytes left
blt,pn %xcc, .Lsmallleft3 ! skip if 3 or fewer bytes left
nop !
EX_LD(LOAD(ld, %o1, %o4), memcpy_retl_o2) ! load 4 bytes
add %o1, 4, %o1 ! increase src ptr by 4
add %o0, 4, %o0 ! increase dst ptr by 4
subcc %o2, 4, %o2 ! decrease count by 4
bnz .Lsmallleft3
EX_ST(STORE(stw, %o4, %o0-4), memcpy_retl_o2_plus_4)! and store 4 bytes
retl
mov EX_RETVAL(%g1), %o0
.align 16
.Llarge_align8_copy: ! Src and dst share 8 byte alignment
! align dst to 64 byte boundary
andcc %o0, 0x3f, %o3 ! %o3 == 0 means dst is 64 byte aligned
brz,pn %o3, .Laligned_to_64
andcc %o0, 8, %o3 ! odd long words to move?
brz,pt %o3, .Laligned_to_16
nop
EX_LD(LOAD(ldx, %o1, %o4), memcpy_retl_o2)
sub %o2, 8, %o2
add %o1, 8, %o1 ! increment src ptr
add %o0, 8, %o0 ! increment dst ptr
EX_ST(STORE(stx, %o4, %o0-8), memcpy_retl_o2_plus_8)
.Laligned_to_16:
andcc %o0, 16, %o3 ! pair of long words to move?
brz,pt %o3, .Laligned_to_32
nop
EX_LD(LOAD(ldx, %o1, %o4), memcpy_retl_o2)
sub %o2, 16, %o2
EX_ST(STORE(stx, %o4, %o0), memcpy_retl_o2_plus_16)
add %o1, 16, %o1 ! increment src ptr
EX_LD(LOAD(ldx, %o1-8, %o4), memcpy_retl_o2_plus_8)
add %o0, 16, %o0 ! increment dst ptr
EX_ST(STORE(stx, %o4, %o0-8), memcpy_retl_o2_plus_8)
.Laligned_to_32:
andcc %o0, 32, %o3 ! four long words to move?
brz,pt %o3, .Laligned_to_64
nop
EX_LD(LOAD(ldx, %o1, %o4), memcpy_retl_o2)
sub %o2, 32, %o2
EX_ST(STORE(stx, %o4, %o0), memcpy_retl_o2_plus_32)
EX_LD(LOAD(ldx, %o1+8, %o4), memcpy_retl_o2_plus_24)
EX_ST(STORE(stx, %o4, %o0+8), memcpy_retl_o2_plus_24)
EX_LD(LOAD(ldx, %o1+16, %o4), memcpy_retl_o2_plus_16)
EX_ST(STORE(stx, %o4, %o0+16), memcpy_retl_o2_plus_16)
add %o1, 32, %o1 ! increment src ptr
EX_LD(LOAD(ldx, %o1-8, %o4), memcpy_retl_o2_plus_8)
add %o0, 32, %o0 ! increment dst ptr
EX_ST(STORE(stx, %o4, %o0-8), memcpy_retl_o2_plus_8)
.Laligned_to_64:
!
! Using block init store (BIS) instructions to avoid fetching cache
! lines from memory. Use ST_CHUNK stores to first element of each cache
! line (similar to prefetching) to avoid overfilling STQ or miss buffers.
! Gives existing cache lines time to be moved out of L1/L2/L3 cache.
! Initial stores using MRU version of BIS to keep cache line in
! cache until we are ready to store final element of cache line.
! Then store last element using the LRU version of BIS.
!
andn %o2, 0x3f, %o5 ! %o5 is multiple of block size
and %o2, 0x3f, %o2 ! residue bytes in %o2
!
! We use STORE_MRU_ASI for the first seven stores to each cache line
! followed by STORE_ASI (mark as LRU) for the last store. That
! mixed approach reduces the probability that the cache line is removed
! before we finish setting it, while minimizing the effects on
! other cached values during a large memcpy
!
! ST_CHUNK batches up initial BIS operations for several cache lines
! to allow multiple requests to not be blocked by overflowing the
! the store miss buffer. Then the matching stores for all those
! BIS operations are executed.
!
sub %o0, 8, %o0 ! adjust %o0 for ASI alignment
.Lalign_loop:
cmp %o5, ST_CHUNK*64
blu,pt %xcc, .Lalign_loop_fin
mov ST_CHUNK,%o3
.Lalign_loop_start:
prefetch [%o1 + (ALIGN_PRE * BLOCK_SIZE)], 21
subcc %o3, 1, %o3
EX_LD(LOAD(ldx, %o1, %o4), memcpy_retl_o2_plus_o5)
add %o1, 64, %o1
add %o0, 8, %o0
EX_ST(STORE_INIT_MRU(%o4, %o0), memcpy_retl_o2_plus_o5)
bgu %xcc,.Lalign_loop_start
add %o0, 56, %o0
mov ST_CHUNK,%o3
sllx %o3, 6, %o4 ! ST_CHUNK*64
sub %o1, %o4, %o1 ! reset %o1
sub %o0, %o4, %o0 ! reset %o0
.Lalign_loop_rest:
EX_LD(LOAD(ldx, %o1+8, %o4), memcpy_retl_o2_plus_o5)
add %o0, 16, %o0
EX_ST(STORE_INIT_MRU(%o4, %o0), memcpy_retl_o2_plus_o5)
EX_LD(LOAD(ldx, %o1+16, %o4), memcpy_retl_o2_plus_o5)
add %o0, 8, %o0
EX_ST(STORE_INIT_MRU(%o4, %o0), memcpy_retl_o2_plus_o5)
subcc %o3, 1, %o3
EX_LD(LOAD(ldx, %o1+24, %o4), memcpy_retl_o2_plus_o5)
add %o0, 8, %o0
EX_ST(STORE_INIT_MRU(%o4, %o0), memcpy_retl_o2_plus_o5)
EX_LD(LOAD(ldx, %o1+32, %o4), memcpy_retl_o2_plus_o5)
add %o0, 8, %o0
EX_ST(STORE_INIT_MRU(%o4, %o0), memcpy_retl_o2_plus_o5)
EX_LD(LOAD(ldx, %o1+40, %o4), memcpy_retl_o2_plus_o5)
add %o0, 8, %o0
EX_ST(STORE_INIT_MRU(%o4, %o0), memcpy_retl_o2_plus_o5)
EX_LD(LOAD(ldx, %o1+48, %o4), memcpy_retl_o2_plus_o5)
add %o1, 64, %o1
add %o0, 8, %o0
EX_ST(STORE_INIT_MRU(%o4, %o0), memcpy_retl_o2_plus_o5)
add %o0, 8, %o0
EX_LD(LOAD(ldx, %o1-8, %o4), memcpy_retl_o2_plus_o5)
sub %o5, 64, %o5
bgu %xcc,.Lalign_loop_rest
! mark cache line as LRU
EX_ST(STORE_INIT(%o4, %o0), memcpy_retl_o2_plus_o5_plus_64)
cmp %o5, ST_CHUNK*64
bgu,pt %xcc, .Lalign_loop_start
mov ST_CHUNK,%o3
cmp %o5, 0
beq .Lalign_done
nop
.Lalign_loop_fin:
EX_LD(LOAD(ldx, %o1, %o4), memcpy_retl_o2_plus_o5)
EX_ST(STORE(stx, %o4, %o0+8), memcpy_retl_o2_plus_o5)
EX_LD(LOAD(ldx, %o1+8, %o4), memcpy_retl_o2_plus_o5)
EX_ST(STORE(stx, %o4, %o0+8+8), memcpy_retl_o2_plus_o5)
EX_LD(LOAD(ldx, %o1+16, %o4), memcpy_retl_o2_plus_o5)
EX_ST(STORE(stx, %o4, %o0+8+16), memcpy_retl_o2_plus_o5)
subcc %o5, 64, %o5
EX_LD(LOAD(ldx, %o1+24, %o4), memcpy_retl_o2_plus_o5_64)
EX_ST(STORE(stx, %o4, %o0+8+24), memcpy_retl_o2_plus_o5_64)
EX_LD(LOAD(ldx, %o1+32, %o4), memcpy_retl_o2_plus_o5_64)
EX_ST(STORE(stx, %o4, %o0+8+32), memcpy_retl_o2_plus_o5_64)
EX_LD(LOAD(ldx, %o1+40, %o4), memcpy_retl_o2_plus_o5_64)
EX_ST(STORE(stx, %o4, %o0+8+40), memcpy_retl_o2_plus_o5_64)
EX_LD(LOAD(ldx, %o1+48, %o4), memcpy_retl_o2_plus_o5_64)
add %o1, 64, %o1
EX_ST(STORE(stx, %o4, %o0+8+48), memcpy_retl_o2_plus_o5_64)
add %o0, 64, %o0
EX_LD(LOAD(ldx, %o1-8, %o4), memcpy_retl_o2_plus_o5_64)
bgu %xcc,.Lalign_loop_fin
EX_ST(STORE(stx, %o4, %o0), memcpy_retl_o2_plus_o5_64)
.Lalign_done:
add %o0, 8, %o0 ! restore %o0 from ASI alignment
membar #StoreStore
sub %o2, 63, %o2 ! adjust length to allow cc test
ba .Lmedl63 ! in .Lmedl63
nop
.align 16
! Dst is on 8 byte boundary; src is not; remaining count > SMALL_MAX
.Lunalignsetup:
.Lunalignrejoin:
mov %g1, %o3 ! save %g1 as VISEntryHalf clobbers it
#ifdef NON_USER_COPY
VISEntryHalfFast(.Lmedium_vis_entry_fail_cp)
#else
VISEntryHalf
#endif
mov %o3, %g1 ! restore %g1
set MED_UMAX, %o3
cmp %o2, %o3 ! check for.Lmedium unaligned limit
bge,pt %xcc,.Lunalign_large
prefetch [%o1 + (4 * BLOCK_SIZE)], 20
andn %o2, 0x3f, %o5 ! %o5 is multiple of block size
and %o2, 0x3f, %o2 ! residue bytes in %o2
cmp %o2, 8 ! Insure we do not load beyond
bgt .Lunalign_adjust ! end of source buffer
andn %o1, 0x7, %o4 ! %o4 has long word aligned src address
add %o2, 64, %o2 ! adjust to leave loop
sub %o5, 64, %o5 ! early if necessary
.Lunalign_adjust:
alignaddr %o1, %g0, %g0 ! generate %gsr
add %o1, %o5, %o1 ! advance %o1 to after blocks
EX_LD_FP(LOAD(ldd, %o4, %f0), memcpy_retl_o2_plus_o5)
.Lunalign_loop:
EX_LD_FP(LOAD(ldd, %o4+8, %f2), memcpy_retl_o2_plus_o5)
faligndata %f0, %f2, %f16
EX_LD_FP(LOAD(ldd, %o4+16, %f4), memcpy_retl_o2_plus_o5)
subcc %o5, BLOCK_SIZE, %o5
EX_ST_FP(STORE(std, %f16, %o0), memcpy_retl_o2_plus_o5_plus_64)
faligndata %f2, %f4, %f18
EX_LD_FP(LOAD(ldd, %o4+24, %f6), memcpy_retl_o2_plus_o5_plus_56)
EX_ST_FP(STORE(std, %f18, %o0+8), memcpy_retl_o2_plus_o5_plus_56)
faligndata %f4, %f6, %f20
EX_LD_FP(LOAD(ldd, %o4+32, %f8), memcpy_retl_o2_plus_o5_plus_48)
EX_ST_FP(STORE(std, %f20, %o0+16), memcpy_retl_o2_plus_o5_plus_48)
faligndata %f6, %f8, %f22
EX_LD_FP(LOAD(ldd, %o4+40, %f10), memcpy_retl_o2_plus_o5_plus_40)
EX_ST_FP(STORE(std, %f22, %o0+24), memcpy_retl_o2_plus_o5_plus_40)
faligndata %f8, %f10, %f24
EX_LD_FP(LOAD(ldd, %o4+48, %f12), memcpy_retl_o2_plus_o5_plus_32)
EX_ST_FP(STORE(std, %f24, %o0+32), memcpy_retl_o2_plus_o5_plus_32)
faligndata %f10, %f12, %f26
EX_LD_FP(LOAD(ldd, %o4+56, %f14), memcpy_retl_o2_plus_o5_plus_24)
add %o4, BLOCK_SIZE, %o4
EX_ST_FP(STORE(std, %f26, %o0+40), memcpy_retl_o2_plus_o5_plus_24)
faligndata %f12, %f14, %f28
EX_LD_FP(LOAD(ldd, %o4, %f0), memcpy_retl_o2_plus_o5_plus_16)
EX_ST_FP(STORE(std, %f28, %o0+48), memcpy_retl_o2_plus_o5_plus_16)
faligndata %f14, %f0, %f30
EX_ST_FP(STORE(std, %f30, %o0+56), memcpy_retl_o2_plus_o5_plus_8)
add %o0, BLOCK_SIZE, %o0
bgu,pt %xcc, .Lunalign_loop
prefetch [%o4 + (5 * BLOCK_SIZE)], 20
ba .Lunalign_done
nop
.Lunalign_large:
andcc %o0, 0x3f, %o3 ! is dst 64-byte block aligned?
bz %xcc, .Lunalignsrc
sub %o3, 64, %o3 ! %o3 will be multiple of 8
neg %o3 ! bytes until dest is 64 byte aligned
sub %o2, %o3, %o2 ! update cnt with bytes to be moved
! Move bytes according to source alignment
andcc %o1, 0x1, %o5
bnz %xcc, .Lunalignbyte ! check for byte alignment
nop
andcc %o1, 2, %o5 ! check for half word alignment
bnz %xcc, .Lunalignhalf
nop
! Src is word aligned
.Lunalignword:
EX_LD_FP(LOAD(ld, %o1, %o4), memcpy_retl_o2_plus_o3) ! load 4 bytes
add %o1, 8, %o1 ! increase src ptr by 8
EX_ST_FP(STORE(stw, %o4, %o0), memcpy_retl_o2_plus_o3) ! and store 4
subcc %o3, 8, %o3 ! decrease count by 8
EX_LD_FP(LOAD(ld, %o1-4, %o4), memcpy_retl_o2_plus_o3_plus_4)! load 4
add %o0, 8, %o0 ! increase dst ptr by 8
bnz %xcc, .Lunalignword
EX_ST_FP(STORE(stw, %o4, %o0-4), memcpy_retl_o2_plus_o3_plus_4)
ba .Lunalignsrc
nop
! Src is half-word aligned
.Lunalignhalf:
EX_LD_FP(LOAD(lduh, %o1, %o4), memcpy_retl_o2_plus_o3) ! load 2 bytes
sllx %o4, 32, %o5 ! shift left
EX_LD_FP(LOAD(lduw, %o1+2, %o4), memcpy_retl_o2_plus_o3)
or %o4, %o5, %o5
sllx %o5, 16, %o5
EX_LD_FP(LOAD(lduh, %o1+6, %o4), memcpy_retl_o2_plus_o3)
or %o4, %o5, %o5
EX_ST_FP(STORE(stx, %o5, %o0), memcpy_retl_o2_plus_o3)
add %o1, 8, %o1
subcc %o3, 8, %o3
bnz %xcc, .Lunalignhalf
add %o0, 8, %o0
ba .Lunalignsrc
nop
! Src is Byte aligned
.Lunalignbyte:
sub %o0, %o1, %o0 ! share pointer advance
.Lunalignbyte_loop:
EX_LD_FP(LOAD(ldub, %o1, %o4), memcpy_retl_o2_plus_o3)
sllx %o4, 56, %o5
EX_LD_FP(LOAD(lduh, %o1+1, %o4), memcpy_retl_o2_plus_o3)
sllx %o4, 40, %o4
or %o4, %o5, %o5
EX_LD_FP(LOAD(lduh, %o1+3, %o4), memcpy_retl_o2_plus_o3)
sllx %o4, 24, %o4
or %o4, %o5, %o5
EX_LD_FP(LOAD(lduh, %o1+5, %o4), memcpy_retl_o2_plus_o3)
sllx %o4, 8, %o4
or %o4, %o5, %o5
EX_LD_FP(LOAD(ldub, %o1+7, %o4), memcpy_retl_o2_plus_o3)
or %o4, %o5, %o5
add %o0, %o1, %o0
EX_ST_FP(STORE(stx, %o5, %o0), memcpy_retl_o2_plus_o3)
sub %o0, %o1, %o0
subcc %o3, 8, %o3
bnz %xcc, .Lunalignbyte_loop
add %o1, 8, %o1
add %o0,%o1, %o0 ! restore pointer
! Destination is now block (64 byte aligned)
.Lunalignsrc:
andn %o2, 0x3f, %o5 ! %o5 is multiple of block size
and %o2, 0x3f, %o2 ! residue bytes in %o2
add %o2, 64, %o2 ! Insure we do not load beyond
sub %o5, 64, %o5 ! end of source buffer
andn %o1, 0x7, %o4 ! %o4 has long word aligned src address
alignaddr %o1, %g0, %g0 ! generate %gsr
add %o1, %o5, %o1 ! advance %o1 to after blocks
EX_LD_FP(LOAD(ldd, %o4, %f14), memcpy_retl_o2_plus_o5)
add %o4, 8, %o4
.Lunalign_sloop:
EX_LD_FP(LOAD(ldd, %o4, %f16), memcpy_retl_o2_plus_o5)
faligndata %f14, %f16, %f0
EX_LD_FP(LOAD(ldd, %o4+8, %f18), memcpy_retl_o2_plus_o5)
faligndata %f16, %f18, %f2
EX_LD_FP(LOAD(ldd, %o4+16, %f20), memcpy_retl_o2_plus_o5)
faligndata %f18, %f20, %f4
EX_ST_FP(STORE(std, %f0, %o0), memcpy_retl_o2_plus_o5)
subcc %o5, 64, %o5
EX_LD_FP(LOAD(ldd, %o4+24, %f22), memcpy_retl_o2_plus_o5_plus_56)
faligndata %f20, %f22, %f6
EX_ST_FP(STORE(std, %f2, %o0+8), memcpy_retl_o2_plus_o5_plus_56)
EX_LD_FP(LOAD(ldd, %o4+32, %f24), memcpy_retl_o2_plus_o5_plus_48)
faligndata %f22, %f24, %f8
EX_ST_FP(STORE(std, %f4, %o0+16), memcpy_retl_o2_plus_o5_plus_48)
EX_LD_FP(LOAD(ldd, %o4+40, %f26), memcpy_retl_o2_plus_o5_plus_40)
faligndata %f24, %f26, %f10
EX_ST_FP(STORE(std, %f6, %o0+24), memcpy_retl_o2_plus_o5_plus_40)
EX_LD_FP(LOAD(ldd, %o4+48, %f28), memcpy_retl_o2_plus_o5_plus_40)
faligndata %f26, %f28, %f12
EX_ST_FP(STORE(std, %f8, %o0+32), memcpy_retl_o2_plus_o5_plus_40)
add %o4, 64, %o4
EX_LD_FP(LOAD(ldd, %o4-8, %f30), memcpy_retl_o2_plus_o5_plus_40)
faligndata %f28, %f30, %f14
EX_ST_FP(STORE(std, %f10, %o0+40), memcpy_retl_o2_plus_o5_plus_40)
EX_ST_FP(STORE(std, %f12, %o0+48), memcpy_retl_o2_plus_o5_plus_40)
add %o0, 64, %o0
EX_ST_FP(STORE(std, %f14, %o0-8), memcpy_retl_o2_plus_o5_plus_40)
fsrc2 %f30, %f14
bgu,pt %xcc, .Lunalign_sloop
prefetch [%o4 + (8 * BLOCK_SIZE)], 20
.Lunalign_done:
! Handle trailing bytes, 64 to 127
! Dest long word aligned, Src not long word aligned
cmp %o2, 15
bleu %xcc, .Lunalign_short
andn %o2, 0x7, %o5 ! %o5 is multiple of 8
and %o2, 0x7, %o2 ! residue bytes in %o2
add %o2, 8, %o2
sub %o5, 8, %o5 ! insure we do not load past end of src
andn %o1, 0x7, %o4 ! %o4 has long word aligned src address
add %o1, %o5, %o1 ! advance %o1 to after multiple of 8
EX_LD_FP(LOAD(ldd, %o4, %f0), memcpy_retl_o2_plus_o5)! fetch partialword
.Lunalign_by8:
EX_LD_FP(LOAD(ldd, %o4+8, %f2), memcpy_retl_o2_plus_o5)
add %o4, 8, %o4
faligndata %f0, %f2, %f16
subcc %o5, 8, %o5
EX_ST_FP(STORE(std, %f16, %o0), memcpy_retl_o2_plus_o5)
fsrc2 %f2, %f0
bgu,pt %xcc, .Lunalign_by8
add %o0, 8, %o0
.Lunalign_short:
#ifdef NON_USER_COPY
VISExitHalfFast
#else
VISExitHalf
#endif
ba .Lsmallrest
nop
/*
* This is a special case of nested memcpy. This can happen when kernel
* calls unaligned memcpy back to back without saving FP registers. We need
* traps(context switch) to save/restore FP registers. If the kernel calls
* memcpy without this trap sequence we will hit FP corruption. Let's use
* the normal integer load/store method in this case.
*/
#ifdef NON_USER_COPY
.Lmedium_vis_entry_fail_cp:
or %o0, %o1, %g2
#endif
.Lmedium_cp:
LOAD(prefetch, %o1 + 0x40, #n_reads_strong)
andcc %g2, 0x7, %g0
bne,pn %xcc, .Lmedium_unaligned_cp
nop
.Lmedium_noprefetch_cp:
andncc %o2, 0x20 - 1, %o5
be,pn %xcc, 2f
sub %o2, %o5, %o2
1: EX_LD(LOAD(ldx, %o1 + 0x00, %o3), memcpy_retl_o2_plus_o5)
EX_LD(LOAD(ldx, %o1 + 0x08, %g2), memcpy_retl_o2_plus_o5)
EX_LD(LOAD(ldx, %o1 + 0x10, %g7), memcpy_retl_o2_plus_o5)
EX_LD(LOAD(ldx, %o1 + 0x18, %o4), memcpy_retl_o2_plus_o5)
add %o1, 0x20, %o1
subcc %o5, 0x20, %o5
EX_ST(STORE(stx, %o3, %o0 + 0x00), memcpy_retl_o2_plus_o5_plus_32)
EX_ST(STORE(stx, %g2, %o0 + 0x08), memcpy_retl_o2_plus_o5_plus_24)
EX_ST(STORE(stx, %g7, %o0 + 0x10), memcpy_retl_o2_plus_o5_plus_24)
EX_ST(STORE(stx, %o4, %o0 + 0x18), memcpy_retl_o2_plus_o5_plus_8)
bne,pt %xcc, 1b
add %o0, 0x20, %o0
2: andcc %o2, 0x18, %o5
be,pt %xcc, 3f
sub %o2, %o5, %o2
1: EX_LD(LOAD(ldx, %o1 + 0x00, %o3), memcpy_retl_o2_plus_o5)
add %o1, 0x08, %o1
add %o0, 0x08, %o0
subcc %o5, 0x08, %o5
bne,pt %xcc, 1b
EX_ST(STORE(stx, %o3, %o0 - 0x08), memcpy_retl_o2_plus_o5_plus_8)
3: brz,pt %o2, .Lexit_cp
cmp %o2, 0x04
bl,pn %xcc, .Ltiny_cp
nop
EX_LD(LOAD(lduw, %o1 + 0x00, %o3), memcpy_retl_o2)
add %o1, 0x04, %o1
add %o0, 0x04, %o0
subcc %o2, 0x04, %o2
bne,pn %xcc, .Ltiny_cp
EX_ST(STORE(stw, %o3, %o0 - 0x04), memcpy_retl_o2_plus_4)
ba,a,pt %xcc, .Lexit_cp
.Lmedium_unaligned_cp:
/* First get dest 8 byte aligned. */
sub %g0, %o0, %o3
and %o3, 0x7, %o3
brz,pt %o3, 2f
sub %o2, %o3, %o2
1: EX_LD(LOAD(ldub, %o1 + 0x00, %g2), memcpy_retl_o2_plus_g1)
add %o1, 1, %o1
subcc %o3, 1, %o3
add %o0, 1, %o0
bne,pt %xcc, 1b
EX_ST(STORE(stb, %g2, %o0 - 0x01), memcpy_retl_o2_plus_g1_plus_1)
2:
and %o1, 0x7, %o3
brz,pn %o3, .Lmedium_noprefetch_cp
sll %o3, 3, %o3
mov 64, %g2
sub %g2, %o3, %g2
andn %o1, 0x7, %o1
EX_LD(LOAD(ldx, %o1 + 0x00, %o4), memcpy_retl_o2)
sllx %o4, %o3, %o4
andn %o2, 0x08 - 1, %o5
sub %o2, %o5, %o2
1: EX_LD(LOAD(ldx, %o1 + 0x08, %g3), memcpy_retl_o2_plus_o5)
add %o1, 0x08, %o1
subcc %o5, 0x08, %o5
srlx %g3, %g2, %g7
or %g7, %o4, %g7
EX_ST(STORE(stx, %g7, %o0 + 0x00), memcpy_retl_o2_plus_o5_plus_8)
add %o0, 0x08, %o0
bne,pt %xcc, 1b
sllx %g3, %o3, %o4
srl %o3, 3, %o3
add %o1, %o3, %o1
brz,pn %o2, .Lexit_cp
nop
ba,pt %xcc, .Lsmall_unaligned_cp
.Ltiny_cp:
EX_LD(LOAD(ldub, %o1 + 0x00, %o3), memcpy_retl_o2)
subcc %o2, 1, %o2
be,pn %xcc, .Lexit_cp
EX_ST(STORE(stb, %o3, %o0 + 0x00), memcpy_retl_o2_plus_1)
EX_LD(LOAD(ldub, %o1 + 0x01, %o3), memcpy_retl_o2)
subcc %o2, 1, %o2
be,pn %xcc, .Lexit_cp
EX_ST(STORE(stb, %o3, %o0 + 0x01), memcpy_retl_o2_plus_1)
EX_LD(LOAD(ldub, %o1 + 0x02, %o3), memcpy_retl_o2)
ba,pt %xcc, .Lexit_cp
EX_ST(STORE(stb, %o3, %o0 + 0x02), memcpy_retl_o2)
.Lsmall_cp:
andcc %g2, 0x3, %g0
bne,pn %xcc, .Lsmall_unaligned_cp
andn %o2, 0x4 - 1, %o5
sub %o2, %o5, %o2
1:
EX_LD(LOAD(lduw, %o1 + 0x00, %o3), memcpy_retl_o2_plus_o5)
add %o1, 0x04, %o1
subcc %o5, 0x04, %o5
add %o0, 0x04, %o0
bne,pt %xcc, 1b
EX_ST(STORE(stw, %o3, %o0 - 0x04), memcpy_retl_o2_plus_o5_plus_4)
brz,pt %o2, .Lexit_cp
nop
ba,a,pt %xcc, .Ltiny_cp
.Lsmall_unaligned_cp:
1: EX_LD(LOAD(ldub, %o1 + 0x00, %o3), memcpy_retl_o2)
add %o1, 1, %o1
add %o0, 1, %o0
subcc %o2, 1, %o2
bne,pt %xcc, 1b
EX_ST(STORE(stb, %o3, %o0 - 0x01), memcpy_retl_o2_plus_1)
ba,a,pt %xcc, .Lexit_cp
.Lsmallrest:
tst %o2
bz,pt %xcc, .Lsmallx
cmp %o2, 4
blt,pn %xcc, .Lsmallleft3
nop
sub %o2, 3, %o2
.Lsmallnotalign4:
EX_LD(LOAD(ldub, %o1, %o3), memcpy_retl_o2_plus_3)! read byte
subcc %o2, 4, %o2 ! reduce count by 4
EX_ST(STORE(stb, %o3, %o0), memcpy_retl_o2_plus_7)! write byte & repeat
EX_LD(LOAD(ldub, %o1+1, %o3), memcpy_retl_o2_plus_6)! for total of 4
add %o1, 4, %o1 ! advance SRC by 4
EX_ST(STORE(stb, %o3, %o0+1), memcpy_retl_o2_plus_6)
EX_LD(LOAD(ldub, %o1-2, %o3), memcpy_retl_o2_plus_5)
add %o0, 4, %o0 ! advance DST by 4
EX_ST(STORE(stb, %o3, %o0-2), memcpy_retl_o2_plus_5)
EX_LD(LOAD(ldub, %o1-1, %o3), memcpy_retl_o2_plus_4)
bgu,pt %xcc, .Lsmallnotalign4 ! loop til 3 or fewer bytes remain
EX_ST(STORE(stb, %o3, %o0-1), memcpy_retl_o2_plus_4)
addcc %o2, 3, %o2 ! restore count
bz,pt %xcc, .Lsmallx
.Lsmallleft3: ! 1, 2, or 3 bytes remain
subcc %o2, 1, %o2
EX_LD(LOAD(ldub, %o1, %o3), memcpy_retl_o2_plus_1) ! load one byte
bz,pt %xcc, .Lsmallx
EX_ST(STORE(stb, %o3, %o0), memcpy_retl_o2_plus_1) ! store one byte
EX_LD(LOAD(ldub, %o1+1, %o3), memcpy_retl_o2) ! load second byte
subcc %o2, 1, %o2
bz,pt %xcc, .Lsmallx
EX_ST(STORE(stb, %o3, %o0+1), memcpy_retl_o2_plus_1)! store second byte
EX_LD(LOAD(ldub, %o1+2, %o3), memcpy_retl_o2) ! load third byte
EX_ST(STORE(stb, %o3, %o0+2), memcpy_retl_o2) ! store third byte
.Lsmallx:
retl
mov EX_RETVAL(%g1), %o0
.Lsmallfin:
tst %o2
bnz,pn %xcc, .Lsmallleft3
nop
retl
mov EX_RETVAL(%g1), %o0 ! restore %o0
.Lexit_cp:
retl
mov EX_RETVAL(%g1), %o0
.size FUNC_NAME, .-FUNC_NAME
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