/* Copyright (c) 2011, Intel Corporation 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 Intel Corporation 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 THE COPYRIGHT OWNER 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. */ #ifndef USE_AS_STRCAT # ifndef STRLEN # define STRLEN strlen_atom # endif # ifndef L # define L(label) .L##label # endif # ifndef cfi_startproc # define cfi_startproc .cfi_startproc # endif # ifndef cfi_endproc # define cfi_endproc .cfi_endproc # endif /* calee safe register only for strnlen is required */ # ifdef USE_AS_STRNLEN # ifndef cfi_rel_offset # define cfi_rel_offset(reg, off) .cfi_rel_offset reg, off # endif # ifndef cfi_restore # define cfi_restore(reg) .cfi_restore reg # endif # ifndef cfi_adjust_cfa_offset # define cfi_adjust_cfa_offset(off) .cfi_adjust_cfa_offset off # endif # endif # ifndef ENTRY # define ENTRY(name) \ .type name, @function; \ .globl name; \ .p2align 4; \ name: \ cfi_startproc # endif # ifndef END # define END(name) \ cfi_endproc; \ .size name, .-name # endif # define PARMS 4 # define STR PARMS # define RETURN ret # ifdef USE_AS_STRNLEN # define LEN PARMS + 8 # define CFI_PUSH(REG) \ cfi_adjust_cfa_offset (4); \ cfi_rel_offset (REG, 0) # define CFI_POP(REG) \ cfi_adjust_cfa_offset (-4); \ cfi_restore (REG) # define PUSH(REG) pushl REG; CFI_PUSH (REG) # define POP(REG) popl REG; CFI_POP (REG) # undef RETURN # define RETURN POP (%edi); ret; CFI_PUSH(%edi); # endif .text ENTRY (STRLEN) mov STR(%esp), %edx # ifdef USE_AS_STRNLEN PUSH (%edi) movl LEN(%esp), %edi sub $4, %edi jbe L(len_less4_prolog) # endif #endif xor %eax, %eax cmpb $0, (%edx) jz L(exit_tail0) cmpb $0, 1(%edx) jz L(exit_tail1) cmpb $0, 2(%edx) jz L(exit_tail2) cmpb $0, 3(%edx) jz L(exit_tail3) #ifdef USE_AS_STRNLEN sub $4, %edi jbe L(len_less8_prolog) #endif cmpb $0, 4(%edx) jz L(exit_tail4) cmpb $0, 5(%edx) jz L(exit_tail5) cmpb $0, 6(%edx) jz L(exit_tail6) cmpb $0, 7(%edx) jz L(exit_tail7) #ifdef USE_AS_STRNLEN sub $4, %edi jbe L(len_less12_prolog) #endif cmpb $0, 8(%edx) jz L(exit_tail8) cmpb $0, 9(%edx) jz L(exit_tail9) cmpb $0, 10(%edx) jz L(exit_tail10) cmpb $0, 11(%edx) jz L(exit_tail11) #ifdef USE_AS_STRNLEN sub $4, %edi jbe L(len_less16_prolog) #endif cmpb $0, 12(%edx) jz L(exit_tail12) cmpb $0, 13(%edx) jz L(exit_tail13) cmpb $0, 14(%edx) jz L(exit_tail14) cmpb $0, 15(%edx) jz L(exit_tail15) pxor %xmm0, %xmm0 lea 16(%edx), %eax mov %eax, %ecx and $-16, %eax #ifdef USE_AS_STRNLEN and $15, %edx add %edx, %edi sub $64, %edi jbe L(len_less64) #endif pcmpeqb (%eax), %xmm0 pmovmskb %xmm0, %edx pxor %xmm1, %xmm1 lea 16(%eax), %eax test %edx, %edx jnz L(exit) pcmpeqb (%eax), %xmm1 pmovmskb %xmm1, %edx pxor %xmm2, %xmm2 lea 16(%eax), %eax test %edx, %edx jnz L(exit) pcmpeqb (%eax), %xmm2 pmovmskb %xmm2, %edx pxor %xmm3, %xmm3 lea 16(%eax), %eax test %edx, %edx jnz L(exit) pcmpeqb (%eax), %xmm3 pmovmskb %xmm3, %edx lea 16(%eax), %eax test %edx, %edx jnz L(exit) #ifdef USE_AS_STRNLEN sub $64, %edi jbe L(len_less64) #endif pcmpeqb (%eax), %xmm0 pmovmskb %xmm0, %edx lea 16(%eax), %eax test %edx, %edx jnz L(exit) pcmpeqb (%eax), %xmm1 pmovmskb %xmm1, %edx lea 16(%eax), %eax test %edx, %edx jnz L(exit) pcmpeqb (%eax), %xmm2 pmovmskb %xmm2, %edx lea 16(%eax), %eax test %edx, %edx jnz L(exit) pcmpeqb (%eax), %xmm3 pmovmskb %xmm3, %edx lea 16(%eax), %eax test %edx, %edx jnz L(exit) #ifdef USE_AS_STRNLEN sub $64, %edi jbe L(len_less64) #endif pcmpeqb (%eax), %xmm0 pmovmskb %xmm0, %edx lea 16(%eax), %eax test %edx, %edx jnz L(exit) pcmpeqb (%eax), %xmm1 pmovmskb %xmm1, %edx lea 16(%eax), %eax test %edx, %edx jnz L(exit) pcmpeqb (%eax), %xmm2 pmovmskb %xmm2, %edx lea 16(%eax), %eax test %edx, %edx jnz L(exit) pcmpeqb (%eax), %xmm3 pmovmskb %xmm3, %edx lea 16(%eax), %eax test %edx, %edx jnz L(exit) #ifdef USE_AS_STRNLEN sub $64, %edi jbe L(len_less64) #endif pcmpeqb (%eax), %xmm0 pmovmskb %xmm0, %edx lea 16(%eax), %eax test %edx, %edx jnz L(exit) pcmpeqb (%eax), %xmm1 pmovmskb %xmm1, %edx lea 16(%eax), %eax test %edx, %edx jnz L(exit) pcmpeqb (%eax), %xmm2 pmovmskb %xmm2, %edx lea 16(%eax), %eax test %edx, %edx jnz L(exit) pcmpeqb (%eax), %xmm3 pmovmskb %xmm3, %edx lea 16(%eax), %eax test %edx, %edx jnz L(exit) #ifdef USE_AS_STRNLEN mov %eax, %edx and $63, %edx add %edx, %edi #endif and $-0x40, %eax .p2align 4 L(aligned_64_loop): #ifdef USE_AS_STRNLEN sub $64, %edi jbe L(len_less64) #endif movaps (%eax), %xmm0 movaps 16(%eax), %xmm1 movaps 32(%eax), %xmm2 movaps 48(%eax), %xmm6 pminub %xmm1, %xmm0 pminub %xmm6, %xmm2 pminub %xmm0, %xmm2 pcmpeqb %xmm3, %xmm2 pmovmskb %xmm2, %edx lea 64(%eax), %eax test %edx, %edx jz L(aligned_64_loop) pcmpeqb -64(%eax), %xmm3 pmovmskb %xmm3, %edx lea 48(%ecx), %ecx test %edx, %edx jnz L(exit) pcmpeqb %xmm1, %xmm3 pmovmskb %xmm3, %edx lea -16(%ecx), %ecx test %edx, %edx jnz L(exit) pcmpeqb -32(%eax), %xmm3 pmovmskb %xmm3, %edx lea -16(%ecx), %ecx test %edx, %edx jnz L(exit) pcmpeqb %xmm6, %xmm3 pmovmskb %xmm3, %edx lea -16(%ecx), %ecx L(exit): sub %ecx, %eax test %dl, %dl jz L(exit_high) mov %dl, %cl and $15, %cl jz L(exit_8) test $0x01, %dl jnz L(exit_tail0) test $0x02, %dl jnz L(exit_tail1) test $0x04, %dl jnz L(exit_tail2) add $3, %eax RETURN .p2align 4 L(exit_8): test $0x10, %dl jnz L(exit_tail4) test $0x20, %dl jnz L(exit_tail5) test $0x40, %dl jnz L(exit_tail6) add $7, %eax RETURN .p2align 4 L(exit_high): mov %dh, %ch and $15, %ch jz L(exit_high_8) test $0x01, %dh jnz L(exit_tail8) test $0x02, %dh jnz L(exit_tail9) test $0x04, %dh jnz L(exit_tail10) add $11, %eax RETURN .p2align 4 L(exit_high_8): test $0x10, %dh jnz L(exit_tail12) test $0x20, %dh jnz L(exit_tail13) test $0x40, %dh jnz L(exit_tail14) add $15, %eax L(exit_tail0): RETURN #ifdef USE_AS_STRNLEN .p2align 4 L(len_less64): pxor %xmm0, %xmm0 add $64, %edi pcmpeqb (%eax), %xmm0 pmovmskb %xmm0, %edx pxor %xmm1, %xmm1 lea 16(%eax), %eax test %edx, %edx jnz L(strnlen_exit) sub $16, %edi jbe L(return_start_len) pcmpeqb (%eax), %xmm1 pmovmskb %xmm1, %edx lea 16(%eax), %eax test %edx, %edx jnz L(strnlen_exit) sub $16, %edi jbe L(return_start_len) pcmpeqb (%eax), %xmm0 pmovmskb %xmm0, %edx lea 16(%eax), %eax test %edx, %edx jnz L(strnlen_exit) sub $16, %edi jbe L(return_start_len) pcmpeqb (%eax), %xmm1 pmovmskb %xmm1, %edx lea 16(%eax), %eax test %edx, %edx jnz L(strnlen_exit) #ifndef USE_AS_STRLCAT movl LEN(%esp), %eax RETURN #else jmp L(return_start_len) #endif .p2align 4 L(strnlen_exit): sub %ecx, %eax test %dl, %dl jz L(strnlen_exit_high) mov %dl, %cl and $15, %cl jz L(strnlen_exit_8) test $0x01, %dl jnz L(exit_tail0) test $0x02, %dl jnz L(strnlen_exit_tail1) test $0x04, %dl jnz L(strnlen_exit_tail2) sub $4, %edi jb L(return_start_len) lea 3(%eax), %eax RETURN .p2align 4 L(strnlen_exit_8): test $0x10, %dl jnz L(strnlen_exit_tail4) test $0x20, %dl jnz L(strnlen_exit_tail5) test $0x40, %dl jnz L(strnlen_exit_tail6) sub $8, %edi jb L(return_start_len) lea 7(%eax), %eax RETURN .p2align 4 L(strnlen_exit_high): mov %dh, %ch and $15, %ch jz L(strnlen_exit_high_8) test $0x01, %dh jnz L(strnlen_exit_tail8) test $0x02, %dh jnz L(strnlen_exit_tail9) test $0x04, %dh jnz L(strnlen_exit_tail10) sub $12, %edi jb L(return_start_len) lea 11(%eax), %eax RETURN .p2align 4 L(strnlen_exit_high_8): test $0x10, %dh jnz L(strnlen_exit_tail12) test $0x20, %dh jnz L(strnlen_exit_tail13) test $0x40, %dh jnz L(strnlen_exit_tail14) sub $16, %edi jb L(return_start_len) lea 15(%eax), %eax RETURN .p2align 4 L(strnlen_exit_tail1): sub $2, %edi jb L(return_start_len) lea 1(%eax), %eax RETURN .p2align 4 L(strnlen_exit_tail2): sub $3, %edi jb L(return_start_len) lea 2(%eax), %eax RETURN .p2align 4 L(strnlen_exit_tail4): sub $5, %edi jb L(return_start_len) lea 4(%eax), %eax RETURN .p2align 4 L(strnlen_exit_tail5): sub $6, %edi jb L(return_start_len) lea 5(%eax), %eax RETURN .p2align 4 L(strnlen_exit_tail6): sub $7, %edi jb L(return_start_len) lea 6(%eax), %eax RETURN .p2align 4 L(strnlen_exit_tail8): sub $9, %edi jb L(return_start_len) lea 8(%eax), %eax RETURN .p2align 4 L(strnlen_exit_tail9): sub $10, %edi jb L(return_start_len) lea 9(%eax), %eax RETURN .p2align 4 L(strnlen_exit_tail10): sub $11, %edi jb L(return_start_len) lea 10(%eax), %eax RETURN .p2align 4 L(strnlen_exit_tail12): sub $13, %edi jb L(return_start_len) lea 12(%eax), %eax RETURN .p2align 4 L(strnlen_exit_tail13): sub $14, %edi jb L(return_start_len) lea 13(%eax), %eax RETURN .p2align 4 L(strnlen_exit_tail14): sub $15, %edi jb L(return_start_len) lea 14(%eax), %eax RETURN #ifndef USE_AS_STRLCAT .p2align 4 L(return_start_len): movl LEN(%esp), %eax RETURN #endif /* for prolog only */ .p2align 4 L(len_less4_prolog): xor %eax, %eax add $4, %edi jz L(exit_tail0) cmpb $0, (%edx) jz L(exit_tail0) cmp $1, %edi je L(exit_tail1) cmpb $0, 1(%edx) jz L(exit_tail1) cmp $2, %edi je L(exit_tail2) cmpb $0, 2(%edx) jz L(exit_tail2) cmp $3, %edi je L(exit_tail3) cmpb $0, 3(%edx) jz L(exit_tail3) mov %edi, %eax RETURN .p2align 4 L(len_less8_prolog): add $4, %edi cmpb $0, 4(%edx) jz L(exit_tail4) cmp $1, %edi je L(exit_tail5) cmpb $0, 5(%edx) jz L(exit_tail5) cmp $2, %edi je L(exit_tail6) cmpb $0, 6(%edx) jz L(exit_tail6) cmp $3, %edi je L(exit_tail7) cmpb $0, 7(%edx) jz L(exit_tail7) mov $8, %eax RETURN .p2align 4 L(len_less12_prolog): add $4, %edi cmpb $0, 8(%edx) jz L(exit_tail8) cmp $1, %edi je L(exit_tail9) cmpb $0, 9(%edx) jz L(exit_tail9) cmp $2, %edi je L(exit_tail10) cmpb $0, 10(%edx) jz L(exit_tail10) cmp $3, %edi je L(exit_tail11) cmpb $0, 11(%edx) jz L(exit_tail11) mov $12, %eax RETURN .p2align 4 L(len_less16_prolog): add $4, %edi cmpb $0, 12(%edx) jz L(exit_tail12) cmp $1, %edi je L(exit_tail13) cmpb $0, 13(%edx) jz L(exit_tail13) cmp $2, %edi je L(exit_tail14) cmpb $0, 14(%edx) jz L(exit_tail14) cmp $3, %edi je L(exit_tail15) cmpb $0, 15(%edx) jz L(exit_tail15) mov $16, %eax RETURN #endif .p2align 4 L(exit_tail1): add $1, %eax RETURN L(exit_tail2): add $2, %eax RETURN L(exit_tail3): add $3, %eax RETURN L(exit_tail4): add $4, %eax RETURN L(exit_tail5): add $5, %eax RETURN L(exit_tail6): add $6, %eax RETURN L(exit_tail7): add $7, %eax RETURN L(exit_tail8): add $8, %eax RETURN L(exit_tail9): add $9, %eax RETURN L(exit_tail10): add $10, %eax RETURN L(exit_tail11): add $11, %eax RETURN L(exit_tail12): add $12, %eax RETURN L(exit_tail13): add $13, %eax RETURN L(exit_tail14): add $14, %eax RETURN L(exit_tail15): add $15, %eax #ifndef USE_AS_STRCAT RETURN END (STRLEN) #endif