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cd888f01a4
To support Intel CET, all indirect branch targets must start with ENDBR32/ENDBR64. Here is a patch to define endbranch and add it to function entries in x86 assembly codes which are indirect branch targets as discovered by running testsuite on Intel CET machine and visual inspection. Verified with $ CC="gcc -Wl,-z,cet-report=error -fcf-protection" CXX="g++ -Wl,-z,cet-report=error -fcf-protection" .../configure x86_64-linux $ make -j8 $ make -j8 check with both nasm and yasm on both CET and non-CET machines. Change-Id: I9822578e7294fb5043a64ab7de5c41de81a7d337 Signed-off-by: H.J. Lu <hjl.tools@gmail.com>
285 lines
6.9 KiB
NASM
285 lines
6.9 KiB
NASM
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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; Copyright(c) 2011-2015 Intel Corporation All rights reserved.
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;
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; Redistribution and use in source and binary forms, with or without
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; modification, are permitted provided that the following conditions
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; are met:
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; * Redistributions of source code must retain the above copyright
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; notice, this list of conditions and the following disclaimer.
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; * Redistributions in binary form must reproduce the above copyright
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; notice, this list of conditions and the following disclaimer in
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; the documentation and/or other materials provided with the
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; distribution.
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; * Neither the name of Intel Corporation nor the names of its
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; contributors may be used to endorse or promote products derived
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; from this software without specific prior written permission.
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;
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; THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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; "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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; LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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; A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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; OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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; SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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; LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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; DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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; THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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; (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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; OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;;; Optimized xor of N source vectors using SSE
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;;; int xor_gen_sse(int vects, int len, void **array)
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;;; Generates xor parity vector from N (vects-1) sources in array of pointers
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;;; (**array). Last pointer is the dest.
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;;; Vectors must be aligned to 16 bytes. Length can be any value.
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%include "reg_sizes.asm"
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%ifidn __OUTPUT_FORMAT__, elf64
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%define arg0 rdi
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%define arg1 rsi
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%define arg2 rdx
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%define arg3 rcx
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%define arg4 r8
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%define arg5 r9
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%define tmp r11
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%define tmp2 rax
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%define tmp2.b al
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%define tmp3 arg4
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%define return rax
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%define PS 8
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%define func(x) x: endbranch
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%define FUNC_SAVE
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%define FUNC_RESTORE
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%elifidn __OUTPUT_FORMAT__, win64
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%define arg0 rcx
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%define arg1 rdx
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%define arg2 r8
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%define arg3 r9
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%define return rax
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%define tmp2 rax
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%define tmp2.b al
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%define PS 8
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%define tmp r11
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%define tmp3 r10
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%define stack_size 2*16 + 8 ; must be an odd multiple of 8
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%define func(x) proc_frame x
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%macro FUNC_SAVE 0
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alloc_stack stack_size
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save_xmm128 xmm6, 0*16
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save_xmm128 xmm7, 1*16
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end_prolog
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%endmacro
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%macro FUNC_RESTORE 0
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movdqa xmm6, [rsp + 0*16]
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movdqa xmm7, [rsp + 1*16]
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add rsp, stack_size
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%endmacro
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%elifidn __OUTPUT_FORMAT__, elf32
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%define arg0 arg(0)
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%define arg1 ecx
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%define tmp2 eax
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%define tmp2.b al
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%define tmp3 edx
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%define return eax
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%define PS 4
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%define func(x) x: endbranch
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%define arg(x) [ebp+8+PS*x]
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%define arg2 edi ; must sav/restore
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%define arg3 esi
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%define tmp ebx
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%macro FUNC_SAVE 0
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push ebp
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mov ebp, esp
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push esi
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push edi
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push ebx
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mov arg1, arg(1)
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mov arg2, arg(2)
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%endmacro
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%macro FUNC_RESTORE 0
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pop ebx
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pop edi
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pop esi
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mov esp, ebp ;if has frame pointer
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pop ebp
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%endmacro
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%endif ; output formats
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%define vec arg0
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%define len arg1
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%define ptr arg3
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%define pos tmp3
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%ifidn PS,8 ; 64-bit code
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default rel
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[bits 64]
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%endif
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;;; Use Non-temporal load/stor
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%ifdef NO_NT_LDST
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%define XLDR movdqa
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%define XSTR movdqa
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%else
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%define XLDR movntdqa
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%define XSTR movntdq
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%endif
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section .text
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align 16
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mk_global xor_gen_sse, function
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func(xor_gen_sse)
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FUNC_SAVE
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%ifidn PS,8 ;64-bit code
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sub vec, 2 ; Keep as offset to last source
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%else ;32-bit code
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mov tmp, arg(0) ; Update vec length arg to last source
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sub tmp, 2
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mov arg(0), tmp
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%endif
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jng return_fail ;Must have at least 2 sources
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cmp len, 0
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je return_pass
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test len, (128-1) ;Check alignment of length
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jnz len_not_aligned
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len_aligned_128bytes:
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sub len, 128
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mov pos, 0
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mov tmp, vec ;Preset to last vector
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loop128:
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mov tmp2, [arg2+tmp*PS] ;Fetch last pointer in array
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sub tmp, 1 ;Next vect
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XLDR xmm0, [tmp2+pos] ;Start with end of array in last vector
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XLDR xmm1, [tmp2+pos+16] ;Keep xor parity in xmm0-7
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XLDR xmm2, [tmp2+pos+(2*16)]
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XLDR xmm3, [tmp2+pos+(3*16)]
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XLDR xmm4, [tmp2+pos+(4*16)]
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XLDR xmm5, [tmp2+pos+(5*16)]
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XLDR xmm6, [tmp2+pos+(6*16)]
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XLDR xmm7, [tmp2+pos+(7*16)]
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next_vect:
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mov ptr, [arg2+tmp*PS]
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sub tmp, 1
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xorpd xmm0, [ptr+pos] ;Get next vector (source)
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xorpd xmm1, [ptr+pos+16]
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xorpd xmm2, [ptr+pos+(2*16)]
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xorpd xmm3, [ptr+pos+(3*16)]
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xorpd xmm4, [ptr+pos+(4*16)]
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xorpd xmm5, [ptr+pos+(5*16)]
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xorpd xmm6, [ptr+pos+(6*16)]
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xorpd xmm7, [ptr+pos+(7*16)]
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;;; prefetch [ptr+pos+(8*16)]
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jge next_vect ;Loop for each vect
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mov tmp, vec ;Back to last vector
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mov ptr, [arg2+PS+tmp*PS] ;Address of parity vector
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XSTR [ptr+pos], xmm0 ;Write parity xor vector
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XSTR [ptr+pos+(1*16)], xmm1
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XSTR [ptr+pos+(2*16)], xmm2
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XSTR [ptr+pos+(3*16)], xmm3
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XSTR [ptr+pos+(4*16)], xmm4
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XSTR [ptr+pos+(5*16)], xmm5
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XSTR [ptr+pos+(6*16)], xmm6
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XSTR [ptr+pos+(7*16)], xmm7
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add pos, 128
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cmp pos, len
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jle loop128
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return_pass:
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mov return, 0
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FUNC_RESTORE
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ret
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;;; Do one byte at a time for no alignment case
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xor_gen_byte:
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mov tmp, vec ;Preset to last vector
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loop_1byte:
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mov ptr, [arg2+tmp*PS] ;Fetch last pointer in array
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mov tmp2.b, [ptr+len-1] ;Get array n
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sub tmp, 1
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nextvect_1byte:
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mov ptr, [arg2+tmp*PS]
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xor tmp2.b, [ptr+len-1]
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sub tmp, 1
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jge nextvect_1byte
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mov tmp, vec ;Back to last vector
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mov ptr, [arg2+PS+tmp*PS] ;Get last vec
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mov [ptr+len-1], tmp2.b ;Write parity
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sub len, 1
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test len, (8-1)
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jnz loop_1byte
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cmp len, 0
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je return_pass
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test len, (128-1) ;If not 0 and 128bit aligned
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jz len_aligned_128bytes ; then do aligned case. len = y * 128
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;; else we are 8-byte aligned so fall through to recheck
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;; Unaligned length cases
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len_not_aligned:
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test len, (PS-1)
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jne xor_gen_byte
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mov tmp3, len
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and tmp3, (128-1) ;Do the unaligned bytes 4-8 at a time
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mov tmp, vec ;Preset to last vector
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;; Run backwards 8 bytes (4B for 32bit) at a time for (tmp3) bytes
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loopN_bytes:
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mov ptr, [arg2+tmp*PS] ;Fetch last pointer in array
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mov tmp2, [ptr+len-PS] ;Get array n
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sub tmp, 1
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nextvect_Nbytes:
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mov ptr, [arg2+tmp*PS] ;Get pointer to next vector
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xor tmp2, [ptr+len-PS]
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sub tmp, 1
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jge nextvect_Nbytes ;Loop for each source
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mov tmp, vec ;Back to last vector
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mov ptr, [arg2+PS+tmp*PS] ;Get last vec
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mov [ptr+len-PS], tmp2 ;Write parity
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sub len, PS
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sub tmp3, PS
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jg loopN_bytes
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cmp len, 128 ;Now len is aligned to 128B
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jge len_aligned_128bytes ;We can do the rest aligned
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cmp len, 0
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je return_pass
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return_fail:
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mov return, 1
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FUNC_RESTORE
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ret
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endproc_frame
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section .data
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;;; func core, ver, snum
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slversion xor_gen_sse, 00, 0c, 0030
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