freebsd-skq/sys/sun4v/cddl/t1_copy.S

1599 lines
37 KiB
ArmAsm

/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License, Version 1.0 only
* (the "License"). You may not use this file except in compliance
* with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http: //www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright 2005 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
#include <machine/asm.h>
__FBSDID("$FreeBSD$")
#include <machine/asi.h>
#include <machine/asmacros.h>
#include <machine/ktr.h>
#include <machine/pstate.h>
#include <machine/trap.h>
#include <machine/tstate.h>
#include <machine/wstate.h>
#include <machine/hypervisorvar.h>
.register %g2,#ignore
.register %g3,#ignore
.register %g6,#ignore
.register %g7,#ignore
/*
* This define is to align data for the unaligned source cases.
* The data1, data2 and data3 is merged into data1 and data2.
* The data3 is preserved for next merge.
*/
#define ALIGN_DATA(data1, data2, data3, lshift, rshift, tmp) \
sllx data1, lshift, data1 ;\
srlx data2, rshift, tmp ;\
or data1, tmp, data1 ;\
sllx data2, lshift, data2 ;\
srlx data3, rshift, tmp ;\
or data2, tmp, data2
/*
* This macro is to align the data. Basically it merges
* data1 and data2 to form double word.
*/
#define ALIGN_DATA_EW(data1, data2, lshift, rshift, tmp) \
sllx data1, lshift, data1 ;\
srlx data2, rshift, tmp ;\
or data1, tmp, data1
/*
* DGDEF and DGDEF2 provide global data declarations.
*
* DGDEF provides a word aligned word of storage.
*
* DGDEF2 allocates "sz" bytes of storage with **NO** alignment. This
* implies this macro is best used for byte arrays.
*
* DGDEF3 allocates "sz" bytes of storage with "algn" alignment.
*/
#define DGDEF2(name, sz) \
.section ".data" ; \
.global name ; \
.type name, @object ; \
.size name, sz; \
name:
#define DGDEF3(name, sz, algn) \
.section ".data" ; \
.align algn ; \
.global name ; \
.type name, @object ; \
.size name, sz; \
name:
#define DGDEF(name) DGDEF3(name, 4, 4)
.align 4
DGDEF(hw_copy_limit_1)
.word 0x100
DGDEF(hw_copy_limit_2)
.word 0x200
DGDEF(hw_copy_limit_4)
.word 0x400
DGDEF(hw_copy_limit_8)
.word 0x400
.align 64
.section ".text"
#if defined(lint)
/*ARGSUSED*/
void
ovbcopy(const void *from, void *to, size_t count)
{}
#else /* lint */
ENTRY(bcopy)
tst %o2 ! check count
bgu,a %xcc, 1f ! nothing to do or bad arguments
subcc %o0, %o1, %o3 ! difference of from and to address
retl ! return
nop
1:
bneg,a %xcc, 2f
neg %o3 ! if < 0, make it positive
2: cmp %o2, %o3 ! cmp size and abs(from - to)
bleu %xcc, novbcopy ! if size <= abs(diff): use bcopy,
nop
cmp %o0, %o1 ! compare from and to addresses
blu %xcc, ov_bkwd ! if from < to, copy backwards
nop
!
! Copy forwards.
!
ov_fwd:
ldub [%o0], %o3 ! read from address
inc %o0 ! inc from address
stb %o3, [%o1] ! write to address
deccc %o2 ! dec count
bgu %xcc, ov_fwd ! loop till done
inc %o1 ! inc to address
retl ! return
nop
!
! Copy backwards.
!
ov_bkwd:
deccc %o2 ! dec count
ldub [%o0 + %o2], %o3 ! get byte at end of src
bgu %xcc, ov_bkwd ! loop till done
stb %o3, [%o1 + %o2] ! delay slot, store at end of dst
retl ! return
nop
END(bcopy)
#endif /* lint */
/*
* Copy a block of storage - must not overlap (from + len <= to).
*/
ENTRY(novbcopy)
save %sp, -SA(MINFRAME), %sp
do_copy:
cmp %i2, 12 ! for small counts
blu %xcc, bytecp ! just copy bytes
nop
cmp %i2, 128 ! for less than 128 bytes
blu,pn %xcc, bcb_punt ! no block st/quad ld
nop
#if 0
set use_hw_bcopy, %o2
ld [%o2], %o2
tst %o2
bz bcb_punt
nop
#endif
subcc %i1, %i0, %i3
bneg,a,pn %xcc, 1f
neg %i3
1:
/*
* Compare against 256 since we should be checking block addresses
* and (dest & ~63) - (src & ~63) can be 3 blocks even if
* src = dest + (64 * 3) + 63.
*/
cmp %i3, 256
blu,pn %xcc, bcb_punt
nop
/*
* Copy that reach here have at least 2 blocks of data to copy.
*/
do_blockcopy:
! Swap src/dst since the code below is memcpy code
! and memcpy/bcopy have different calling sequences
mov %i1, %i5
mov %i0, %i1
mov %i5, %i0
andcc %i0, 0x3f, %i3 ! is dst aligned on a 64 bytes
bz %xcc, chksrc ! dst is already double aligned
sub %i3, 0x40, %i3
neg %i3 ! bytes till dst 64 bytes aligned
sub %i2, %i3, %i2 ! update i2 with new count
1: ldub [%i1], %i4
stb %i4, [%i0]
inc %i1
deccc %i3
bgu %xcc, 1b
inc %i0
! Now Destination is block (64 bytes) aligned
chksrc:
andn %i2, 0x3f, %i3 ! %i3 count is multiple of block size
sub %i2, %i3, %i2 ! Residue bytes in %i2
wr %g0, ASI_LDSTBI_P, %asi
andcc %i1, 0xf, %o2 ! is src quadword aligned
bz,pn %xcc, blkcpy ! src offset in %o2
nop
cmp %o2, 0x8
bg cpy_upper_double
nop
bl cpy_lower_double
nop
! Falls through when source offset is equal to 8 i.e.
! source is double word aligned.
! In this case no shift/merge of data is required
sub %i1, %o2, %i1 ! align the src at 16 bytes.
andn %i1, 0x3f, %l0 ! %l0 has block aligned source
prefetch [%l0+0x0], #one_read
ldda [%i1+0x0]%asi, %l2
loop0:
ldda [%i1+0x10]%asi, %l4
prefetch [%l0+0x40], #one_read
stxa %l3, [%i0+0x0]%asi
stxa %l4, [%i0+0x8]%asi
ldda [%i1+0x20]%asi, %l2
stxa %l5, [%i0+0x10]%asi
stxa %l2, [%i0+0x18]%asi
ldda [%i1+0x30]%asi, %l4
stxa %l3, [%i0+0x20]%asi
stxa %l4, [%i0+0x28]%asi
ldda [%i1+0x40]%asi, %l2
stxa %l5, [%i0+0x30]%asi
stxa %l2, [%i0+0x38]%asi
add %l0, 0x40, %l0
add %i1, 0x40, %i1
subcc %i3, 0x40, %i3
bgu,pt %xcc, loop0
add %i0, 0x40, %i0
ba blkdone
add %i1, %o2, %i1 ! increment the source by src offset
! the src offset was stored in %o2
cpy_lower_double:
sub %i1, %o2, %i1 ! align the src at 16 bytes.
sll %o2, 3, %o0 ! %o0 left shift
mov 0x40, %o1
sub %o1, %o0, %o1 ! %o1 right shift = (64 - left shift)
andn %i1, 0x3f, %l0 ! %l0 has block aligned source
prefetch [%l0+0x0], #one_read
ldda [%i1+0x0]%asi, %l2 ! partial data in %l2 and %l3 has
! complete data
loop1:
ldda [%i1+0x10]%asi, %l4 ! %l4 has partial data for this read.
ALIGN_DATA(%l2, %l3, %l4, %o0, %o1, %l6) ! merge %l2, %l3 and %l4
! into %l2 and %l3
prefetch [%l0+0x40], #one_read
stxa %l2, [%i0+0x0]%asi
stxa %l3, [%i0+0x8]%asi
ldda [%i1+0x20]%asi, %l2
ALIGN_DATA(%l4, %l5, %l2, %o0, %o1, %l6) ! merge %l2 with %l5 and
stxa %l4, [%i0+0x10]%asi ! %l4 from previous read
stxa %l5, [%i0+0x18]%asi ! into %l4 and %l5
! Repeat the same for next 32 bytes.
ldda [%i1+0x30]%asi, %l4
ALIGN_DATA(%l2, %l3, %l4, %o0, %o1, %l6)
stxa %l2, [%i0+0x20]%asi
stxa %l3, [%i0+0x28]%asi
ldda [%i1+0x40]%asi, %l2
ALIGN_DATA(%l4, %l5, %l2, %o0, %o1, %l6)
stxa %l4, [%i0+0x30]%asi
stxa %l5, [%i0+0x38]%asi
add %l0, 0x40, %l0
add %i1, 0x40, %i1
subcc %i3, 0x40, %i3
bgu,pt %xcc, loop1
add %i0, 0x40, %i0
ba blkdone
add %i1, %o2, %i1 ! increment the source by src offset
! the src offset was stored in %o2
cpy_upper_double:
sub %i1, %o2, %i1 ! align the src at 16 bytes.
mov 0x8, %o0
sub %o2, %o0, %o0
sll %o0, 3, %o0 ! %o0 left shift
mov 0x40, %o1
sub %o1, %o0, %o1 ! %o1 right shift = (64 - left shift)
andn %i1, 0x3f, %l0 ! %l0 has block aligned source
prefetch [%l0+0x0], #one_read
ldda [%i1+0x0]%asi, %l2 ! partial data in %l3 for this read and
! no data in %l2
loop2:
ldda [%i1+0x10]%asi, %l4 ! %l4 has complete data and %l5 has
! partial
ALIGN_DATA(%l3, %l4, %l5, %o0, %o1, %l6) ! merge %l3, %l4 and %l5
! into %l3 and %l4
prefetch [%l0+0x40], #one_read
stxa %l3, [%i0+0x0]%asi
stxa %l4, [%i0+0x8]%asi
ldda [%i1+0x20]%asi, %l2
ALIGN_DATA(%l5, %l2, %l3, %o0, %o1, %l6) ! merge %l2 and %l3 with
stxa %l5, [%i0+0x10]%asi ! %l5 from previous read
stxa %l2, [%i0+0x18]%asi ! into %l5 and %l2
! Repeat the same for next 32 bytes.
ldda [%i1+0x30]%asi, %l4
ALIGN_DATA(%l3, %l4, %l5, %o0, %o1, %l6)
stxa %l3, [%i0+0x20]%asi
stxa %l4, [%i0+0x28]%asi
ldda [%i1+0x40]%asi, %l2
ALIGN_DATA(%l5, %l2, %l3, %o0, %o1, %l6)
stxa %l5, [%i0+0x30]%asi
stxa %l2, [%i0+0x38]%asi
add %l0, 0x40, %l0
add %i1, 0x40, %i1
subcc %i3, 0x40, %i3
bgu,pt %xcc, loop2
add %i0, 0x40, %i0
ba blkdone
add %i1, %o2, %i1 ! increment the source by src offset
! the src offset was stored in %o2
! Both Source and Destination are block aligned.
! Do fast copy using ASI_LDSTBI_P
blkcpy:
prefetch [%i1+0x0], #one_read
1:
ldda [%i1+0x0]%asi, %l0
ldda [%i1+0x10]%asi, %l2
prefetch [%i1+0x40], #one_read
stxa %l0, [%i0+0x0]%asi
ldda [%i1+0x20]%asi, %l4
ldda [%i1+0x30]%asi, %l6
stxa %l1, [%i0+0x8]%asi
stxa %l2, [%i0+0x10]%asi
stxa %l3, [%i0+0x18]%asi
stxa %l4, [%i0+0x20]%asi
stxa %l5, [%i0+0x28]%asi
stxa %l6, [%i0+0x30]%asi
stxa %l7, [%i0+0x38]%asi
add %i1, 0x40, %i1
subcc %i3, 0x40, %i3
bgu,pt %xcc, 1b
add %i0, 0x40, %i0
blkdone:
tst %i2
bz,pt %xcc, blkexit
nop
residue:
ldub [%i1], %i4
stb %i4, [%i0]
inc %i1
deccc %i2
bgu %xcc, residue
inc %i0
blkexit:
membar #Sync ! sync error barrier
ret
restore %g0, 0, %o0
bcb_punt:
!
! use aligned transfers where possible
!
xor %i0, %i1, %o4 ! xor from and to address
btst 7, %o4 ! if lower three bits zero
bz aldoubcp ! can align on double boundary
nop ! assembler complaints about label
xor %i0, %i1, %o4 ! xor from and to address
btst 3, %o4 ! if lower two bits zero
bz alwordcp ! can align on word boundary
btst 3, %i0 ! delay slot, from address unaligned?
!
! use aligned reads and writes where possible
! this differs from wordcp in that it copes
! with odd alignment between source and destnation
! using word reads and writes with the proper shifts
! in between to align transfers to and from memory
! i0 - src address, i1 - dest address, i2 - count
! i3, i4 - tmps for used generating complete word
! i5 (word to write)
! l0 size in bits of upper part of source word (US)
! l1 size in bits of lower part of source word (LS = 32 - US)
! l2 size in bits of upper part of destination word (UD)
! l3 size in bits of lower part of destination word (LD = 32 - UD)
! l4 number of bytes leftover after aligned transfers complete
! l5 the number 32
!
mov 32, %l5 ! load an oft-needed constant
bz align_dst_only
btst 3, %i1 ! is destnation address aligned?
clr %i4 ! clear registers used in either case
bz align_src_only
clr %l0
!
! both source and destination addresses are unaligned
!
1: ! align source
ldub [%i0], %i3 ! read a byte from source address
add %i0, 1, %i0 ! increment source address
or %i4, %i3, %i4 ! or in with previous bytes (if any)
btst 3, %i0 ! is source aligned?
add %l0, 8, %l0 ! increment size of upper source (US)
bnz,a 1b
sll %i4, 8, %i4 ! make room for next byte
sub %l5, %l0, %l1 ! generate shift left count (LS)
sll %i4, %l1, %i4 ! prepare to get rest
ld [%i0], %i3 ! read a word
add %i0, 4, %i0 ! increment source address
srl %i3, %l0, %i5 ! upper src bits into lower dst bits
or %i4, %i5, %i5 ! merge
mov 24, %l3 ! align destination
1:
srl %i5, %l3, %i4 ! prepare to write a single byte
stb %i4, [%i1] ! write a byte
add %i1, 1, %i1 ! increment destination address
sub %i2, 1, %i2 ! decrement count
btst 3, %i1 ! is destination aligned?
bnz,a 1b
sub %l3, 8, %l3 ! delay slot, decrement shift count (LD)
sub %l5, %l3, %l2 ! generate shift left count (UD)
sll %i5, %l2, %i5 ! move leftover into upper bytes
cmp %l2, %l0 ! cmp # reqd to fill dst w old src left
bgu %xcc, more_needed ! need more to fill than we have
nop
sll %i3, %l1, %i3 ! clear upper used byte(s)
srl %i3, %l1, %i3
! get the odd bytes between alignments
sub %l0, %l2, %l0 ! regenerate shift count
sub %l5, %l0, %l1 ! generate new shift left count (LS)
and %i2, 3, %l4 ! must do remaining bytes if count%4 > 0
andn %i2, 3, %i2 ! # of aligned bytes that can be moved
srl %i3, %l0, %i4
or %i5, %i4, %i5
st %i5, [%i1] ! write a word
subcc %i2, 4, %i2 ! decrement count
bz %xcc, unalign_out
add %i1, 4, %i1 ! increment destination address
b 2f
sll %i3, %l1, %i5 ! get leftover into upper bits
more_needed:
sll %i3, %l0, %i3 ! save remaining byte(s)
srl %i3, %l0, %i3
sub %l2, %l0, %l1 ! regenerate shift count
sub %l5, %l1, %l0 ! generate new shift left count
sll %i3, %l1, %i4 ! move to fill empty space
b 3f
or %i5, %i4, %i5 ! merge to complete word
!
! the source address is aligned and destination is not
!
align_dst_only:
ld [%i0], %i4 ! read a word
add %i0, 4, %i0 ! increment source address
mov 24, %l0 ! initial shift alignment count
1:
srl %i4, %l0, %i3 ! prepare to write a single byte
stb %i3, [%i1] ! write a byte
add %i1, 1, %i1 ! increment destination address
sub %i2, 1, %i2 ! decrement count
btst 3, %i1 ! is destination aligned?
bnz,a 1b
sub %l0, 8, %l0 ! delay slot, decrement shift count
xfer:
sub %l5, %l0, %l1 ! generate shift left count
sll %i4, %l1, %i5 ! get leftover
3:
and %i2, 3, %l4 ! must do remaining bytes if count%4 > 0
andn %i2, 3, %i2 ! # of aligned bytes that can be moved
2:
ld [%i0], %i3 ! read a source word
add %i0, 4, %i0 ! increment source address
srl %i3, %l0, %i4 ! upper src bits into lower dst bits
or %i5, %i4, %i5 ! merge with upper dest bits (leftover)
st %i5, [%i1] ! write a destination word
subcc %i2, 4, %i2 ! decrement count
bz %xcc, unalign_out ! check if done
add %i1, 4, %i1 ! increment destination address
b 2b ! loop
sll %i3, %l1, %i5 ! get leftover
unalign_out:
tst %l4 ! any bytes leftover?
bz %xcc, cpdone
nop
1:
sub %l0, 8, %l0 ! decrement shift
srl %i3, %l0, %i4 ! upper src byte into lower dst byte
stb %i4, [%i1] ! write a byte
subcc %l4, 1, %l4 ! decrement count
bz %xcc, cpdone ! done?
add %i1, 1, %i1 ! increment destination
tst %l0 ! any more previously read bytes
bnz %xcc, 1b ! we have leftover bytes
mov %l4, %i2 ! delay slot, mv cnt where dbytecp wants
b dbytecp ! let dbytecp do the rest
sub %i0, %i1, %i0 ! i0 gets the difference of src and dst
!
! the destination address is aligned and the source is not
!
align_src_only:
ldub [%i0], %i3 ! read a byte from source address
add %i0, 1, %i0 ! increment source address
or %i4, %i3, %i4 ! or in with previous bytes (if any)
btst 3, %i0 ! is source aligned?
add %l0, 8, %l0 ! increment shift count (US)
bnz,a align_src_only
sll %i4, 8, %i4 ! make room for next byte
b,a xfer
!
! if from address unaligned for double-word moves,
! move bytes till it is, if count is < 56 it could take
! longer to align the thing than to do the transfer
! in word size chunks right away
!
aldoubcp:
cmp %i2, 56 ! if count < 56, use wordcp, it takes
blu,a %xcc, alwordcp ! longer to align doubles than words
mov 3, %o0 ! mask for word alignment
call alignit ! copy bytes until aligned
mov 7, %o0 ! mask for double alignment
!
! source and destination are now double-word aligned
! i3 has aligned count returned by alignit
!
and %i2, 7, %i2 ! unaligned leftover count
sub %i0, %i1, %i0 ! i0 gets the difference of src and dst
5:
ldx [%i0+%i1], %o4 ! read from address
stx %o4, [%i1] ! write at destination address
subcc %i3, 8, %i3 ! dec count
bgu %xcc, 5b
add %i1, 8, %i1 ! delay slot, inc to address
cmp %i2, 4 ! see if we can copy a word
blu %xcc, dbytecp ! if 3 or less bytes use bytecp
nop
!
! for leftover bytes we fall into wordcp, if needed
!
wordcp:
and %i2, 3, %i2 ! unaligned leftover count
5:
ld [%i0+%i1], %o4 ! read from address
st %o4, [%i1] ! write at destination address
subcc %i3, 4, %i3 ! dec count
bgu %xcc, 5b
add %i1, 4, %i1 ! delay slot, inc to address
b,a dbytecp
! we come here to align copies on word boundaries
alwordcp:
call alignit ! go word-align it
mov 3, %o0 ! bits that must be zero to be aligned
b wordcp
sub %i0, %i1, %i0 ! i0 gets the difference of src and dst
!
! byte copy, works with any alignment
!
bytecp:
b dbytecp
sub %i0, %i1, %i0 ! i0 gets difference of src and dst
!
! differenced byte copy, works with any alignment
! assumes dest in %i1 and (source - dest) in %i0
!
1:
stb %o4, [%i1] ! write to address
inc %i1 ! inc to address
dbytecp:
deccc %i2 ! dec count
bgeu,a %xcc, 1b ! loop till done
ldub [%i0+%i1], %o4 ! read from address
cpdone:
membar #Sync ! sync error barrier
ret
restore %g0, 0, %o0 ! return (0)
/*
* Common code used to align transfers on word and doubleword
* boudaries. Aligns source and destination and returns a count
* of aligned bytes to transfer in %i3
*/
1:
inc %i0 ! inc from
stb %o4, [%i1] ! write a byte
inc %i1 ! inc to
dec %i2 ! dec count
alignit:
btst %o0, %i0 ! %o0 is bit mask to check for alignment
bnz,a 1b
ldub [%i0], %o4 ! read next byte
retl
andn %i2, %o0, %i3 ! return size of aligned bytes
END(novbcopy)
/*
* hwblkclr - clears block-aligned, block-multiple-sized regions that are
* longer than 256 bytes in length using Niagara's block stores/quad store.
* If the criteria for using this routine are not met then it calls bzero
* and returns 1. Otherwise 0 is returned indicating success.
* Caller is responsible for ensuring use_hw_bzero is true and that
* kpreempt_disable() has been called.
*/
#ifdef lint
/*ARGSUSED*/
int
hwblkclr(void *addr, size_t len)
{
return(0);
}
#else /* lint */
! %i0 - start address
! %i1 - length of region (multiple of 64)
ENTRY(hwblkclr)
save %sp, -SA(MINFRAME), %sp
! Must be block-aligned
andcc %i0, 0x3f, %g0
bnz,pn %xcc, 1f
nop
! ... and must be 256 bytes or more
cmp %i1, 0x100
blu,pn %xcc, 1f
nop
! ... and length must be a multiple of 64
andcc %i1, 0x3f, %g0
bz,pn %xcc, pz_doblock
wr %g0, ASI_LDSTBI_P, %asi
1: ! punt, call bzero but notify the caller that bzero was used
mov %i0, %o0
call bzero
mov %i1, %o1
ret
restore %g0, 1, %o0 ! return (1) - did not use block operations
! Already verified that there are at least 256 bytes to set
pz_doblock:
stxa %g0, [%i0+0x0]%asi
stxa %g0, [%i0+0x40]%asi
stxa %g0, [%i0+0x80]%asi
stxa %g0, [%i0+0xc0]%asi
stxa %g0, [%i0+0x8]%asi
stxa %g0, [%i0+0x10]%asi
stxa %g0, [%i0+0x18]%asi
stxa %g0, [%i0+0x20]%asi
stxa %g0, [%i0+0x28]%asi
stxa %g0, [%i0+0x30]%asi
stxa %g0, [%i0+0x38]%asi
stxa %g0, [%i0+0x48]%asi
stxa %g0, [%i0+0x50]%asi
stxa %g0, [%i0+0x58]%asi
stxa %g0, [%i0+0x60]%asi
stxa %g0, [%i0+0x68]%asi
stxa %g0, [%i0+0x70]%asi
stxa %g0, [%i0+0x78]%asi
stxa %g0, [%i0+0x88]%asi
stxa %g0, [%i0+0x90]%asi
stxa %g0, [%i0+0x98]%asi
stxa %g0, [%i0+0xa0]%asi
stxa %g0, [%i0+0xa8]%asi
stxa %g0, [%i0+0xb0]%asi
stxa %g0, [%i0+0xb8]%asi
stxa %g0, [%i0+0xc8]%asi
stxa %g0, [%i0+0xd0]%asi
stxa %g0, [%i0+0xd8]%asi
stxa %g0, [%i0+0xe0]%asi
stxa %g0, [%i0+0xe8]%asi
stxa %g0, [%i0+0xf0]%asi
stxa %g0, [%i0+0xf8]%asi
sub %i1, 0x100, %i1
cmp %i1, 0x100
bgu,pt %xcc, pz_doblock
add %i0, 0x100, %i0
2:
! Check if more than 64 bytes to set
cmp %i1,0x40
blu %xcc, pz_finish
nop
3:
stxa %g0, [%i0+0x0]%asi
stxa %g0, [%i0+0x8]%asi
stxa %g0, [%i0+0x10]%asi
stxa %g0, [%i0+0x18]%asi
stxa %g0, [%i0+0x20]%asi
stxa %g0, [%i0+0x28]%asi
stxa %g0, [%i0+0x30]%asi
stxa %g0, [%i0+0x38]%asi
subcc %i1, 0x40, %i1
bgu,pt %xcc, 3b
add %i0, 0x40, %i0
pz_finish:
membar #Sync
ret
restore %g0, 0, %o0 ! return (bzero or not)
END(hwblkclr)
#endif /* lint */
#if defined(lint)
/* ARGSUSED */
void
bzero(void *addr, size_t count)
{}
#else /* lint */
ENTRY(bzero)
wr %g0, ASI_P, %asi
cmp %o1, 7
blu,pn %xcc, byteclr
nop
cmp %o1, 15
blu,pn %xcc, wdalign
nop
andcc %o0, 7, %o3 ! is add aligned on a 8 byte bound
bz,pt %xcc, blkalign ! already double aligned
sub %o3, 8, %o3 ! -(bytes till double aligned)
add %o1, %o3, %o1 ! update o1 with new count
1:
stba %g0, [%o0]%asi
inccc %o3
bl,pt %xcc, 1b
inc %o0
! Now address is double aligned
blkalign:
cmp %o1, 0x80 ! check if there are 128 bytes to set
blu,pn %xcc, bzero_small
mov %o1, %o3
#if 0
sethi %hi(use_hw_bzero), %o2
ld [%o2 + %lo(use_hw_bzero)], %o2
tst %o2
bz %xcc, bzero_small
mov %o1, %o3
#endif
rd %asi, %o3
wr %g0, ASI_LDSTBI_P, %asi
cmp %o3, ASI_P
bne,a %xcc, algnblk
wr %g0, ASI_LDSTBI_AIUS, %asi
algnblk:
andcc %o0, 0x3f, %o3 ! is block aligned?
bz,pt %xcc, bzero_blk
sub %o3, 0x40, %o3 ! -(bytes till block aligned)
add %o1, %o3, %o1 ! o1 is the remainder
! Clear -(%o3) bytes till block aligned
1:
stxa %g0, [%o0]%asi
addcc %o3, 8, %o3
bl,pt %xcc, 1b
add %o0, 8, %o0
bzero_blk:
and %o1, 0x3f, %o3 ! calc bytes left after blk clear
andn %o1, 0x3f, %o4 ! calc size of blocks in bytes
cmp %o4, 0x100 ! 256 bytes or more
blu,pn %xcc, 3f
nop
2:
stxa %g0, [%o0+0x0]%asi
stxa %g0, [%o0+0x40]%asi
stxa %g0, [%o0+0x80]%asi
stxa %g0, [%o0+0xc0]%asi
stxa %g0, [%o0+0x8]%asi
stxa %g0, [%o0+0x10]%asi
stxa %g0, [%o0+0x18]%asi
stxa %g0, [%o0+0x20]%asi
stxa %g0, [%o0+0x28]%asi
stxa %g0, [%o0+0x30]%asi
stxa %g0, [%o0+0x38]%asi
stxa %g0, [%o0+0x48]%asi
stxa %g0, [%o0+0x50]%asi
stxa %g0, [%o0+0x58]%asi
stxa %g0, [%o0+0x60]%asi
stxa %g0, [%o0+0x68]%asi
stxa %g0, [%o0+0x70]%asi
stxa %g0, [%o0+0x78]%asi
stxa %g0, [%o0+0x88]%asi
stxa %g0, [%o0+0x90]%asi
stxa %g0, [%o0+0x98]%asi
stxa %g0, [%o0+0xa0]%asi
stxa %g0, [%o0+0xa8]%asi
stxa %g0, [%o0+0xb0]%asi
stxa %g0, [%o0+0xb8]%asi
stxa %g0, [%o0+0xc8]%asi
stxa %g0, [%o0+0xd0]%asi
stxa %g0, [%o0+0xd8]%asi
stxa %g0, [%o0+0xe0]%asi
stxa %g0, [%o0+0xe8]%asi
stxa %g0, [%o0+0xf0]%asi
stxa %g0, [%o0+0xf8]%asi
sub %o4, 0x100, %o4
cmp %o4, 0x100
bgu,pt %xcc, 2b
add %o0, 0x100, %o0
3:
! ... check if 64 bytes to set
cmp %o4, 0x40
blu %xcc, bzero_blk_done
nop
4:
stxa %g0, [%o0+0x0]%asi
stxa %g0, [%o0+0x8]%asi
stxa %g0, [%o0+0x10]%asi
stxa %g0, [%o0+0x18]%asi
stxa %g0, [%o0+0x20]%asi
stxa %g0, [%o0+0x28]%asi
stxa %g0, [%o0+0x30]%asi
stxa %g0, [%o0+0x38]%asi
subcc %o4, 0x40, %o4
bgu,pt %xcc, 3b
add %o0, 0x40, %o0
bzero_blk_done:
membar #Sync
!
! Undo asi register setting.
!
rd %asi, %o4
wr %g0, ASI_P, %asi
cmp %o4, ASI_LDSTBI_P
bne,a %xcc, bzero_small
wr %g0, ASI_AIUS, %asi
bzero_small:
! Set the remaining doubles
subcc %o3, 8, %o3 ! Can we store any doubles?
blu,pn %xcc, byteclr
and %o1, 7, %o1 ! calc bytes left after doubles
dbclr:
stxa %g0, [%o0]%asi ! Clear the doubles
subcc %o3, 8, %o3
bgeu,pt %xcc, dbclr
add %o0, 8, %o0
ba byteclr
nop
wdalign:
andcc %o0, 3, %o3 ! is add aligned on a word boundary
bz,pn %xcc, wdclr
andn %o1, 3, %o3 ! create word sized count in %o3
dec %o1 ! decrement count
stba %g0, [%o0]%asi ! clear a byte
ba wdalign
inc %o0 ! next byte
wdclr:
sta %g0, [%o0]%asi ! 4-byte clearing loop
subcc %o3, 4, %o3
bnz,pt %xcc, wdclr
inc 4, %o0
and %o1, 3, %o1 ! leftover count, if any
byteclr:
! Set the leftover bytes
brz %o1, bzero_exit
nop
7:
deccc %o1 ! byte clearing loop
stba %g0, [%o0]%asi
bgu,pt %xcc, 7b
inc %o0
bzero_exit:
retl
clr %o0 ! return (0)
END(bzero)
#endif /* lint */
#if 0
#define SMALL_LIMIT 7
#if defined(lint)
/*ARGSUSED*/
int
copyin(const void *uaddr, void *kaddr, size_t count)
{ return (0); }
#else /* lint */
ENTRY(copyin)
!
! Check the length and bail if zero.
!
tst %o2
bnz,pt %xcc, 1f
nop
retl
clr %o0
#if 0
1:
sethi %hi(copyio_fault), %o4
or %o4, %lo(copyio_fault), %o4
sethi %hi(copyio_fault_nowindow), %o3
ldn [THREAD_REG + T_LOFAULT], SAVED_LOFAULT
or %o3, %lo(copyio_fault_nowindow), %o3
membar #Sync
stn %o3, [THREAD_REG + T_LOFAULT]
mov %o0, SAVE_SRC
mov %o1, SAVE_DST
mov %o2, SAVE_COUNT
#endif
!
! Check to see if we're more than SMALL_LIMIT.
!
subcc %o2, SMALL_LIMIT, %o3
bgu,a,pt %xcc, dci_ns
or %o0, %o1, %o3
!
! What was previously ".small_copyin"
!
dcibcp:
sub %g0, %o2, %o3 ! setup for copy loop
add %o0, %o2, %o0
add %o1, %o2, %o1
ba,pt %xcc, dcicl
lduba [%o0 + %o3]ASI_AIUS, %o4
!
! %o0 and %o1 point at the end and remain pointing at the end
! of their buffers. We pull things out by adding %o3 (which is
! the negation of the length) to the buffer end which gives us
! the curent location in the buffers. By incrementing %o3 we walk
! through both buffers without having to bump each buffer's
! pointer. A very fast 4 instruction loop.
!
.align 16
dcicl:
stb %o4, [%o1 + %o3]
inccc %o3
bl,a,pt %xcc, dcicl
lduba [%o0 + %o3]ASI_AIUS, %o4
!
! We're done. Go home.
!
membar #Sync
retl
clr %o0
!
! Try aligned copies from here.
!
dci_ns:
!
! See if we're single byte aligned. If we are, check the
! limit for single byte copies. If we're smaller, or equal,
! bounce to the byte for byte copy loop. Otherwise do it in
! HW (if enabled).
!
btst 1, %o3
bz,a,pt %icc, dcih8
btst 7, %o3
!
! We're single byte aligned.
!
sethi %hi(hw_copy_limit_1), %o3
ld [%o3 + %lo(hw_copy_limit_1)], %o3
!
! Is HW copy on? If not do everything byte for byte.
!
tst %o3
bz,pn %icc, dcibcp
subcc %o3, %o2, %o3
!
! Are we bigger than the HW limit? If not
! go to byte for byte.
!
bge,pt %xcc, dcibcp
nop
!
! We're big enough and copy is on. Do it with HW.
!
ba,pt %xcc, big_copyin
nop
dcih8:
!
! 8 byte aligned?
!
bnz,a %xcc, dcih4
btst 3, %o3
!
! We're eight byte aligned.
!
sethi %hi(hw_copy_limit_8), %o3
ld [%o3 + %lo(hw_copy_limit_8)], %o3
!
! Is HW assist on? If not, do it with the aligned copy.
!
tst %o3
bz,pn %icc, dcis8
subcc %o3, %o2, %o3
bge %xcc, dcis8
nop
ba,pt %xcc, big_copyin
nop
dcis8:
!
! Housekeeping for copy loops. Uses same idea as in the byte for
! byte copy loop above.
!
add %o0, %o2, %o0
add %o1, %o2, %o1
sub %g0, %o2, %o3
ba,pt %xcc, didebc
srl %o2, 3, %o2 ! Number of 8 byte chunks to copy
!
! 4 byte aligned?
!
dcih4:
bnz %xcc, dcih2
sethi %hi(hw_copy_limit_4), %o3
ld [%o3 + %lo(hw_copy_limit_4)], %o3
!
! Is HW assist on? If not, do it with the aligned copy.
!
tst %o3
bz,pn %icc, dcis4
subcc %o3, %o2, %o3
!
! We're negative if our size is less than or equal to hw_copy_limit_4.
!
bge %xcc, dcis4
nop
ba,pt %xcc, big_copyin
nop
dcis4:
!
! Housekeeping for copy loops. Uses same idea as in the byte
! for byte copy loop above.
!
add %o0, %o2, %o0
add %o1, %o2, %o1
sub %g0, %o2, %o3
ba,pt %xcc, didfbc
srl %o2, 2, %o2 ! Number of 4 byte chunks to copy
dcih2:
!
! We're two byte aligned. Check for "smallness"
! done in delay at .dcih4
!
bleu,pt %xcc, dcis2
sethi %hi(hw_copy_limit_2), %o3
ld [%o3 + %lo(hw_copy_limit_2)], %o3
!
! Is HW assist on? If not, do it with the aligned copy.
!
tst %o3
bz,pn %icc, dcis2
subcc %o3, %o2, %o3
!
! Are we larger than the HW limit?
!
bge %xcc, dcis2
nop
!
! HW assist is on and we're large enough to use it.
!
ba,pt %xcc, big_copyin
nop
!
! Housekeeping for copy loops. Uses same idea as in the byte
! for byte copy loop above.
!
dcis2:
add %o0, %o2, %o0
add %o1, %o2, %o1
sub %g0, %o2, %o3
ba,pt %xcc, didtbc
srl %o2, 1, %o2 ! Number of 2 byte chunks to copy
!
small_copyin:
!
! Why are we doing this AGAIN? There are certain conditions in
! big copyin that will cause us to forgo the HW assisted copys
! and bounce back to a non-hw assisted copy. This dispatches
! those copies. Note that we branch around this in the main line
! code.
!
! We make no check for limits or HW enablement here. We've
! already been told that we're a poster child so just go off
! and do it.
!
or %o0, %o1, %o3
btst 1, %o3
bnz %icc, dcibcp ! Most likely
btst 7, %o3
bz %icc, dcis8
btst 3, %o3
bz %icc, dcis4
nop
ba,pt %xcc, dcis2
nop
!
! Eight byte aligned copies. A steal from the original .small_copyin
! with modifications. %o2 is number of 8 byte chunks to copy. When
! done, we examine %o3. If this is < 0, we have 1 - 7 bytes more
! to copy.
!
.align 32
didebc:
ldxa [%o0 + %o3]ASI_AIUS, %o4
deccc %o2
stx %o4, [%o1 + %o3]
bg,pt %xcc, didebc
addcc %o3, 8, %o3
!
! End of copy loop. Most 8 byte aligned copies end here.
!
bz,pt %xcc, dcifh
nop
!
! Something is left. Do it byte for byte.
!
ba,pt %xcc, dcicl
lduba [%o0 + %o3]ASI_AIUS, %o4
!
! 4 byte copy loop. %o2 is number of 4 byte chunks to copy.
!
.align 32
didfbc:
lduwa [%o0 + %o3]ASI_AIUS, %o4
deccc %o2
st %o4, [%o1 + %o3]
bg,pt %xcc, didfbc
addcc %o3, 4, %o3
!
! End of copy loop. Most 4 byte aligned copies end here.
!
bz,pt %xcc, dcifh
nop
!
! Something is left. Do it byte for byte.
!
ba,pt %xcc, dcicl
lduba [%o0 + %o3]ASI_AIUS, %o4
!
! 2 byte aligned copy loop. %o2 is number of 2 byte chunks to
! copy.
!
.align 32
didtbc:
lduha [%o0 + %o3]ASI_AIUS, %o4
deccc %o2
sth %o4, [%o1 + %o3]
bg,pt %xcc, didtbc
addcc %o3, 2, %o3
!
! End of copy loop. Most 2 byte aligned copies end here.
!
bz,pt %xcc, dcifh
nop
!
! Deal with the last byte
!
lduba [%o0 + %o3]ASI_AIUS, %o4
stb %o4, [%o1 + %o3]
dcifh:
membar #Sync
retl
clr %o0
big_copyin:
!
! We're going off to do a block copy.
! Switch fault hendlers and grab a window. We
! don't do a membar #Sync since we've done only
! kernel data to this point.
!
save %sp, -SA(MINFRAME), %sp
! Copy in that reach here are larger than 256 bytes. The
! hw_copy_limit_1 is set to 256. Never set this limit less
! 128 bytes.
do_blockcopyin:
! Swap src/dst since the code below is memcpy code
! and memcpy/bcopy have different calling sequences
mov %i1, %i5
mov %i0, %i1
mov %i5, %i0
andcc %i0, 7, %i3 ! is dst double aligned
bz %xcc, copyin_blkcpy
sub %i3, 8, %i3
neg %i3 ! bytes till double aligned
sub %i2, %i3, %i2 ! update %i2 with new count
! Align Destination on double-word boundary
1: lduba [%i1]ASI_AIUS, %i4
inc %i1
stb %i4, [%i0]
deccc %i3
bgu %xcc, 1b
inc %i0
copyin_blkcpy:
andcc %i0, 63, %i3
bz,pn %xcc, copyin_blalign ! now block aligned
sub %i3, 64, %i3
neg %i3 ! bytes till block aligned
sub %i2, %i3, %i2 ! update %i2 with new count
! Copy %i3 bytes till dst is block (64 byte) aligned. use
! double word copies.
andcc %i1, 7, %g1 ! is src aligned on a 8 bytes
bz %xcc, ci_dbcopy ! %g1 has source offset (last 3-bits)
sll %g1, 3, %l1 ! left shift
mov 0x40, %l2
sub %l2, %l1, %l2 ! right shift = (64 - left shift)
! Now use double word copies to align destination.
ci_double:
sub %i1, %g1, %i1 ! align the src at 8 bytes.
ldxa [%i1]ASI_AIUS, %o2
2:
add %i1, 0x8, %i1
ldxa [%i1]ASI_AIUS, %o4
ALIGN_DATA_EW(%o2, %o4, %l1, %l2, %o3)
stx %o2, [%i0]
mov %o4, %o2
subcc %i3, 0x8, %i3
bgu,pt %xcc, 2b
add %i0, 0x8, %i0
ba copyin_blalign
add %i1, %g1, %i1
! Both source and destination are double aligned.
! No shift and merge of data required in this case.
ci_dbcopy:
ldxa [%i1]ASI_AIUS, %o2
stx %o2, [%i0]
add %i1, 0x8, %i1
subcc %i3, 0x8, %i3
bgu,pt %xcc, ci_dbcopy
add %i0, 0x8, %i0
copyin_blalign:
andn %i2, 0x3f, %i3 ! %i3 count is multiple of block size
sub %i2, %i3, %i2 ! Residue bytes in %i2
wr %g0, ASI_LDSTBI_P, %asi
andcc %i1, 0xf, %o2 ! is src quadword aligned
bz,pn %xcc, ci_blkcpy ! src offset in %o2 (last 4-bits)
nop
cmp %o2, 0x8
bg ci_upper_double
nop
bl ci_lower_double
nop
! Falls through when source offset is equal to 8 i.e.
! source is double word aligned.
! In this case no shift/merge of data is required
sub %i1, %o2, %i1 ! align the src at 16 bytes.
andn %i1, 0x3f, %l0 ! %l0 has block aligned source
prefetch [%l0+0x0], #one_read
ldda [%i1]ASI_LDSTBI_AIUS, %l2
ci_loop0:
add %i1, 0x10, %i1
ldda [%i1]ASI_LDSTBI_AIUS, %l4
prefetch [%l0+0x40], #one_read
stxa %l3, [%i0+0x0]%asi
stxa %l4, [%i0+0x8]%asi
add %i1, 0x10, %i1
ldda [%i1]ASI_LDSTBI_AIUS, %l2
stxa %l5, [%i0+0x10]%asi
stxa %l2, [%i0+0x18]%asi
add %i1, 0x10, %i1
ldda [%i1]ASI_LDSTBI_AIUS, %l4
stxa %l3, [%i0+0x20]%asi
stxa %l4, [%i0+0x28]%asi
add %i1, 0x10, %i1
ldda [%i1]ASI_LDSTBI_AIUS, %l2
stxa %l5, [%i0+0x30]%asi
stxa %l2, [%i0+0x38]%asi
add %l0, 0x40, %l0
subcc %i3, 0x40, %i3
bgu,pt %xcc, ci_loop0
add %i0, 0x40, %i0
ba ci_blkdone
add %i1, %o2, %i1 ! increment the source by src offset
! the src offset was stored in %o2
ci_lower_double:
sub %i1, %o2, %i1 ! align the src at 16 bytes.
sll %o2, 3, %o0 ! %o0 left shift
mov 0x40, %o1
sub %o1, %o0, %o1 ! %o1 right shift = (64 - left shift)
andn %i1, 0x3f, %l0 ! %l0 has block aligned source
prefetch [%l0+0x0], #one_read
ldda [%i1]ASI_LDSTBI_AIUS, %l2 ! partial data in %l2
! and %l3 has complete
! data
ci_loop1:
add %i1, 0x10, %i1
ldda [%i1]ASI_LDSTBI_AIUS, %l4 ! %l4 has partial data
! for this read.
ALIGN_DATA(%l2, %l3, %l4, %o0, %o1, %l6) ! merge %l2, %l3 and %l4
! into %l2 and %l3
prefetch [%l0+0x40], #one_read
stxa %l2, [%i0+0x0]%asi
stxa %l3, [%i0+0x8]%asi
add %i1, 0x10, %i1
ldda [%i1]ASI_LDSTBI_AIUS, %l2
ALIGN_DATA(%l4, %l5, %l2, %o0, %o1, %l6) ! merge %l2 with %l5 and
! %l4 from previous read
! into %l4 and %l5
stxa %l4, [%i0+0x10]%asi
stxa %l5, [%i0+0x18]%asi
! Repeat the same for next 32 bytes.
add %i1, 0x10, %i1
ldda [%i1]ASI_LDSTBI_AIUS, %l4
ALIGN_DATA(%l2, %l3, %l4, %o0, %o1, %l6)
stxa %l2, [%i0+0x20]%asi
stxa %l3, [%i0+0x28]%asi
add %i1, 0x10, %i1
ldda [%i1]ASI_LDSTBI_AIUS, %l2
ALIGN_DATA(%l4, %l5, %l2, %o0, %o1, %l6)
stxa %l4, [%i0+0x30]%asi
stxa %l5, [%i0+0x38]%asi
add %l0, 0x40, %l0
subcc %i3, 0x40, %i3
bgu,pt %xcc, ci_loop1
add %i0, 0x40, %i0
ba ci_blkdone
add %i1, %o2, %i1 ! increment the source by src offset
! the src offset was stored in %o2
ci_upper_double:
sub %i1, %o2, %i1 ! align the src at 16 bytes.
sub %o2, 0x8, %o0
sll %o0, 3, %o0 ! %o0 left shift
mov 0x40, %o1
sub %o1, %o0, %o1 ! %o1 right shift = (64 - left shift)
andn %i1, 0x3f, %l0 ! %l0 has block aligned source
prefetch [%l0+0x0], #one_read
ldda [%i1]ASI_LDSTBI_AIUS, %l2 ! partial data in %l3
! for this read and
! no data in %l2
ci_loop2:
add %i1, 0x10, %i1
ldda [%i1]ASI_LDSTBI_AIUS, %l4 ! %l4 has complete data
! and %l5 has partial
ALIGN_DATA(%l3, %l4, %l5, %o0, %o1, %l6) ! merge %l3, %l4 and %l5
! into %l3 and %l4
prefetch [%l0+0x40], #one_read
stxa %l3, [%i0+0x0]%asi
stxa %l4, [%i0+0x8]%asi
add %i1, 0x10, %i1
ldda [%i1]ASI_LDSTBI_AIUS, %l2
ALIGN_DATA(%l5, %l2, %l3, %o0, %o1, %l6) ! merge %l2 and %l3 with
! %l5 from previous read
! into %l5 and %l2
stxa %l5, [%i0+0x10]%asi
stxa %l2, [%i0+0x18]%asi
! Repeat the same for next 32 bytes.
add %i1, 0x10, %i1
ldda [%i1]ASI_LDSTBI_AIUS, %l4
ALIGN_DATA(%l3, %l4, %l5, %o0, %o1, %l6)
stxa %l3, [%i0+0x20]%asi
stxa %l4, [%i0+0x28]%asi
add %i1, 0x10, %i1
ldda [%i1]ASI_LDSTBI_AIUS, %l2
ALIGN_DATA(%l5, %l2, %l3, %o0, %o1, %l6)
stxa %l5, [%i0+0x30]%asi
stxa %l2, [%i0+0x38]%asi
add %l0, 0x40, %l0
subcc %i3, 0x40, %i3
bgu,pt %xcc, ci_loop2
add %i0, 0x40, %i0
ba ci_blkdone
add %i1, %o2, %i1 ! increment the source by src offset
! the src offset was stored in %o2
! Do fast copy using ASI_LDSTBI_P
ci_blkcpy:
andn %i1, 0x3f, %o0 ! %o0 has block aligned source
prefetch [%o0+0x0], #one_read
1:
ldda [%i1]ASI_LDSTBI_AIUS, %l0
add %i1, 0x10, %i1
ldda [%i1]ASI_LDSTBI_AIUS, %l2
add %i1, 0x10, %i1
prefetch [%o0+0x40], #one_read
stxa %l0, [%i0+0x0]%asi
ldda [%i1]ASI_LDSTBI_AIUS, %l4
add %i1, 0x10, %i1
ldda [%i1]ASI_LDSTBI_AIUS, %l6
add %i1, 0x10, %i1
stxa %l1, [%i0+0x8]%asi
stxa %l2, [%i0+0x10]%asi
stxa %l3, [%i0+0x18]%asi
stxa %l4, [%i0+0x20]%asi
stxa %l5, [%i0+0x28]%asi
stxa %l6, [%i0+0x30]%asi
stxa %l7, [%i0+0x38]%asi
add %o0, 0x40, %o0
subcc %i3, 0x40, %i3
bgu,pt %xcc, 1b
add %i0, 0x40, %i0
ci_blkdone:
membar #Sync
! Copy as much rest of the data as double word copy.
ci_dwcp:
cmp %i2, 0x8 ! Not enough bytes to copy as double
blu %xcc, ci_dbdone
nop
andn %i2, 0x7, %i3 ! %i3 count is multiple of 8 bytes size
sub %i2, %i3, %i2 ! Residue bytes in %i2
andcc %i1, 7, %g1 ! is src aligned on a 8 bytes
bz %xcc, ci_cpy_db
nop
sll %g1, 3, %l0 ! left shift
mov 0x40, %l1
sub %l1, %l0, %l1 ! right shift = (64 - left shift)
ci_cpy_dbwd:
sub %i1, %g1, %i1 ! align the src at 8 bytes.
ldxa [%i1]ASI_AIUS, %o2
3:
add %i1, 0x8, %i1
ldxa [%i1]ASI_AIUS, %o4
ALIGN_DATA_EW(%o2, %o4, %l0, %l1, %o3)
stx %o2, [%i0]
mov %o4, %o2
subcc %i3, 0x8, %i3
bgu,pt %xcc, 3b
add %i0, 0x8, %i0
ba ci_dbdone
add %i1, %g1, %i1
ci_cpy_db:
ldxa [%i1]ASI_AIUS, %o2
stx %o2, [%i0]
add %i1, 0x8, %i1
subcc %i3, 0x8, %i3
bgu,pt %xcc, ci_cpy_db
add %i0, 0x8, %i0
ci_dbdone:
tst %i2
bz,pt %xcc, copyin_exit
nop
! Copy the residue as byte copy
ci_residue:
lduba [%i1]ASI_AIUS, %i4
stb %i4, [%i0]
inc %i1
deccc %i2
bgu %xcc, ci_residue
inc %i0
copyin_exit:
membar #Sync
ret
restore %g0, 0, %o0
END(copyin)
#endif /* lint */
#endif