/* * 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. */ /* * Copyright (c) 2002 Advanced Micro Devices, Inc. * * All rights reserved. * * Redistribution and use in source and binary forms, with or * without modification, are permitted provided that the * following conditions are met: * * + Redistributions of source code must retain the above * copyright notice, this list of conditions and the * following disclaimer. * * + Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the * following disclaimer in the documentation and/or other * materials provided with the distribution. * * + Neither the name of Advanced Micro Devices, Inc. nor the * names of its contributors may be used to endorse or * promote products derived from this software without * specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND * CONTRIBUTORS AS IS AND ANY EXPRESS OR IMPLIED WARRANTIES, * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL ADVANCED MICRO DEVICES, * INC. OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE * GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * * It is licensee's responsibility to comply with any export * regulations applicable in licensee's jurisdiction. */ .ident "%Z%%M% %I% %E% SMI" .file "%M%" #include ANSI_PRAGMA_WEAK(memmove,function) ANSI_PRAGMA_WEAK(memcpy,function) #include "SYS.h" #include "cache.h" ANSI_PRAGMA_WEAK2(_private_memcpy,memcpy,function) #define LABEL(s) .memcpy/**/s ENTRY(memmove) /* (void *s1, void *s2, size_t n) */ cmpq %rsi,%rdi / if (source addr > dest addr) leaq -1(%rsi,%rdx),%r9 jle .CopyRight / cmpq %r9,%rdi jle .CopyLeft jmp .CopyRight ENTRY(memcpy) /* (void *, const void*, size_t) */ .CopyRight: LABEL(1try): cmp $16, %rdx mov %rdi, %rax jae LABEL(1after) .p2align 4 LABEL(1): /* 1-byte */ test $1, %dl jz LABEL(1a) mov (%rsi), %cl mov %cl, (%rdi) dec %dl lea 1 (%rsi), %rsi lea 1 (%rdi), %rdi jz LABEL(exit) .p2align 4,, 4 LABEL(1a): test $2, %dl jz LABEL(1b) mov (%rsi), %cx mov %cx, (%rdi) sub $2, %dl lea 2 (%rsi), %rsi lea 2 (%rdi), %rdi jz LABEL(exit) .p2align 4,, 4 LABEL(1b): test $4, %dl jz LABEL(1c) mov (%rsi), %ecx mov %ecx, (%rdi) /* sub $4, %dl */ lea 4 (%rsi), %rsi lea 4 (%rdi), %rdi /* jz LABEL(exit) */ .p2align 4,, 4 LABEL(1c): test $8, %dl jz LABEL(1d) mov (%rsi), %rcx mov %rcx, (%rdi) /* sub $8, %dl */ /* lea 8 (%rsi), %rsi */ /* lea 8 (%rdi), %rdi */ /* jz LABEL(exit) */ .p2align 4 LABEL(1d): LABEL(exit): rep ret .p2align 4 LABEL(1after): push %rax LABEL(8try): cmp $32, %rdx jae LABEL(8after) LABEL(8): /* 8-byte */ mov %edx, %ecx shr $3, %ecx jz LABEL(8skip) .p2align 4 LABEL(8loop): dec %ecx mov (%rsi), %rax mov %rax, (%rdi) lea 8 (%rsi), %rsi lea 8 (%rdi), %rdi jnz LABEL(8loop) LABEL(8skip): and $7, %edx pop %rax jnz LABEL(1) rep ret .p2align 4 LABEL(8after): LABEL(32try): mov $512, %r8d /* size for unaligned data */ mov $4096, %r9d /* size for aligned data */ test $7, %esi /* check if either source.. */ cmovz %r9, %r8 test $7, %edi /* .. or destination is aligned */ cmovz %r9, %r8 cmp %r8, %rdx ja LABEL(32after) LABEL(32): /* 32-byte */ mov %edx, %ecx shr $5, %ecx jz LABEL(32skip) .p2align 4 LABEL(32loop): dec %ecx mov (%rsi), %rax mov 8 (%rsi), %r8 mov 16 (%rsi), %r9 mov 24 (%rsi), %r10 mov %rax, (%rdi) mov %r8, 8 (%rdi) mov %r9, 16 (%rdi) mov %r10, 24 (%rdi) lea 32 (%rsi), %rsi lea 32 (%rdi), %rdi jz LABEL(32skip) dec %ecx mov (%rsi), %rax mov 8 (%rsi), %r8 mov 16 (%rsi), %r9 mov 24 (%rsi), %r10 mov %rax, (%rdi) mov %r8, 8 (%rdi) mov %r9, 16 (%rdi) mov %r10, 24 (%rdi) lea 32 (%rsi), %rsi lea 32 (%rdi), %rdi jnz LABEL(32loop) .p2align 4 LABEL(32skip): and $31, %edx jnz LABEL(8) pop %rax ret .p2align 4 LABEL(32after): /* 3DNow: use prefetch */ prefetchnta _sref_(.amd64cache1) /* improves test further ahead on B0 */ LABEL(aligntry): mov %edi, %r8d /* align by destination */ and $7, %r8d jz LABEL(alignafter) /* not unaligned */ LABEL(align): /* align */ lea -8 (%r8, %rdx), %rdx sub $8, %r8d .p2align 4 LABEL(alignloop): inc %r8d mov (%rsi), %al mov %al, (%rdi) lea 1 (%rsi), %rsi lea 1 (%rdi), %rdi jnz LABEL(alignloop) .p2align 4 LABEL(alignafter): mov _sref_(.amd64cache1half), %r11 cmp %rdx, %r11 cmova %rdx, %r11 LABEL(fast): mov %r11, %rcx and $-8, %r11 shr $3, %rcx /* jz LABEL(fastskip) */ rep /* good ol' MOVS */ movsq LABEL(fastskip): sub %r11, %rdx test $-8, %rdx jnz LABEL(fastafterlater) and $7, %edx pop %rax jnz LABEL(1) rep ret .p2align 4 LABEL(64try): mov _sref_(.amd64cache1half), %r11 cmp %rdx, %r11 cmova %rdx, %r11 LABEL(64): /* 64-byte */ mov %r11, %rcx and $-64, %r11 shr $6, %rcx jz LABEL(64skip) .p2align 4 LABEL(64loop): dec %ecx mov (%rsi), %rax mov 8 (%rsi), %r8 mov 16 (%rsi), %r9 mov 24 (%rsi), %r10 mov %rax, (%rdi) mov %r8, 8 (%rdi) mov %r9, 16 (%rdi) mov %r10, 24 (%rdi) mov 32 (%rsi), %rax mov 40 (%rsi), %r8 mov 48 (%rsi), %r9 mov 56 (%rsi), %r10 mov %rax, 32 (%rdi) mov %r8, 40 (%rdi) mov %r9, 48 (%rdi) mov %r10, 56 (%rdi) lea 64 (%rsi), %rsi lea 64 (%rdi), %rdi jz LABEL(64skip) dec %ecx mov (%rsi), %rax mov 8 (%rsi), %r8 mov 16 (%rsi), %r9 mov 24 (%rsi), %r10 mov %rax, (%rdi) mov %r8, 8 (%rdi) mov %r9, 16 (%rdi) mov %r10, 24 (%rdi) mov 32 (%rsi), %rax mov 40 (%rsi), %r8 mov 48 (%rsi), %r9 mov 56 (%rsi), %r10 mov %rax, 32 (%rdi) mov %r8, 40 (%rdi) mov %r9, 48 (%rdi) mov %r10, 56 (%rdi) lea 64 (%rsi), %rsi lea 64 (%rdi), %rdi jnz LABEL(64loop) .p2align 4 LABEL(64skip): sub %r11, %rdx test $-64, %rdx jnz LABEL(64after) and $63, %edx jnz LABEL(32) pop %rax ret .p2align 4 LABEL(64after): LABEL(fastafterlater): LABEL(pretry): mov _sref_(.amd64cache2half), %r8 cmp %rdx, %r8 cmova %rdx, %r8 LABEL(pre): /* 64-byte prefetching */ mov %r8, %rcx and $-64, %r8 shr $6, %rcx jz LABEL(preskip) push %r14 push %r13 push %r12 push %rbx .p2align 4 LABEL(preloop): dec %rcx mov (%rsi), %rax mov 8 (%rsi), %rbx mov 16 (%rsi), %r9 mov 24 (%rsi), %r10 mov 32 (%rsi), %r11 mov 40 (%rsi), %r12 mov 48 (%rsi), %r13 mov 56 (%rsi), %r14 prefetchnta 0 + 896 (%rsi) /* 3DNow: use prefetch */ prefetchnta 64 + 896 (%rsi) /* 3DNow: use prefetch */ mov %rax, (%rdi) mov %rbx, 8 (%rdi) mov %r9, 16 (%rdi) mov %r10, 24 (%rdi) mov %r11, 32 (%rdi) mov %r12, 40 (%rdi) mov %r13, 48 (%rdi) mov %r14, 56 (%rdi) lea 64 (%rsi), %rsi lea 64 (%rdi), %rdi jz LABEL(preskipa) dec %rcx mov (%rsi), %rax mov 8 (%rsi), %rbx mov 16 (%rsi), %r9 mov 24 (%rsi), %r10 mov 32 (%rsi), %r11 mov 40 (%rsi), %r12 mov 48 (%rsi), %r13 mov 56 (%rsi), %r14 mov %rax, (%rdi) mov %rbx, 8 (%rdi) mov %r9, 16 (%rdi) mov %r10, 24 (%rdi) mov %r11, 32 (%rdi) mov %r12, 40 (%rdi) mov %r13, 48 (%rdi) mov %r14, 56 (%rdi) prefetchnta -64 + 896 (%rdi) /* 3DNow: use prefetchw */ prefetchnta 0 + 896 (%rdi) /* 3DNow: use prefetchw */ lea 64 (%rsi), %rsi lea 64 (%rdi), %rdi jnz LABEL(preloop) LABEL(preskipa): pop %rbx pop %r12 pop %r13 pop %r14 LABEL(preskip): sub %r8, %rdx test $-64, %rdx jnz LABEL(preafter) and $63, %edx jnz LABEL(32) pop %rax ret .p2align 4 LABEL(preafter): LABEL(NTtry): LABEL(NT): /* NT 64-byte */ mov %rdx, %rcx shr $7, %rcx jz LABEL(NTskip) push %r14 push %r13 push %r12 .p2align 4 LABEL(NTloop): prefetchnta 768 (%rsi) /* prefetching NT here is not so good on B0 and C0 MP systems */ prefetchnta 832 (%rsi) dec %rcx mov (%rsi), %rax mov 8 (%rsi), %r8 mov 16 (%rsi), %r9 mov 24 (%rsi), %r10 mov 32 (%rsi), %r11 mov 40 (%rsi), %r12 mov 48 (%rsi), %r13 mov 56 (%rsi), %r14 movnti %rax, (%rdi) movnti %r8, 8 (%rdi) movnti %r9, 16 (%rdi) movnti %r10, 24 (%rdi) movnti %r11, 32 (%rdi) movnti %r12, 40 (%rdi) movnti %r13, 48 (%rdi) movnti %r14, 56 (%rdi) mov 64 (%rsi), %rax mov 72 (%rsi), %r8 mov 80 (%rsi), %r9 mov 88 (%rsi), %r10 mov 96 (%rsi), %r11 mov 104 (%rsi), %r12 mov 112 (%rsi), %r13 mov 120 (%rsi), %r14 movnti %rax, 64 (%rdi) movnti %r8, 72 (%rdi) movnti %r9, 80 (%rdi) movnti %r10, 88 (%rdi) movnti %r11, 96 (%rdi) movnti %r12, 104 (%rdi) movnti %r13, 112 (%rdi) movnti %r14, 120 (%rdi) lea 128 (%rsi), %rsi lea 128 (%rdi), %rdi jnz LABEL(NTloop) mfence pop %r12 pop %r13 pop %r14 LABEL(NTskip): and $127, %edx jnz LABEL(32) pop %rax ret SET_SIZE(memcpy) /* (void *, const void*, size_t) */ .CopyLeft: movq %rdi,%rax / set up return value movq $7,%r8 / heavily used constant movq %rdx,%rcx / put len into %rcx for rep std / reverse direction bit (RtoL) cmpq $24,%rcx / if (size < 24) ja .BigCopyLeft / { movq %r9,%rsi / src = src + size - 1 leaq -1(%rcx,%rdi),%rdi / dst = dst + size - 1 rep; smovb / do the byte copy cld / reset direction flag to LtoR ret / return(dba); .BigCopyLeft: / } else { xchgq %r9,%rcx movq %rcx,%rsi / align source w/byte copy leaq -1(%r9,%rdi),%rdi andq %r8,%rcx jz .SkipAlignLeft addq $1, %rcx / we need to insure that future subq %rcx,%r9 / copy is done on aligned boundary rep; smovb .SkipAlignLeft: movq %r9,%rcx subq %r8,%rsi shrq $3,%rcx / do 8 byte copy RtoL subq %r8,%rdi rep; smovq andq %r8,%r9 / do 1 byte copy whats left jz .CleanupReturnLeft movq %r9,%rcx addq %r8,%rsi / rep; smovl instruction will decrement addq %r8,%rdi / %rdi, %rsi by four after each copy / adding 3 will restore pointers to byte / before last double word copied / which is where they are expected to / be for the single byte copy code rep; smovb .CleanupReturnLeft: cld / reset direction flag to LtoR ret / return(dba); SET_SIZE(memmove)