2016-10-26 21:35:35 +02:00
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; adler32.asm -- compute the Adler-32 checksum of a data stream
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; Copyright (C) 1995-2011 Mark Adler
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; For conditions of distribution and use, see copyright notice in zlib.h
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BASE equ 65521 ;largest prime smaller than 65536
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NMAX equ 5552
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; NMAX is the largest n such that 255n(n+1)/2 + (n+1)(BASE-1) <= 2^32-1
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macro DO1 buf,i
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{
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mov eax,buf
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add eax,i
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movzx eax,byte[eax]
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add [adler],eax
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mov eax,[adler]
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add [sum2],eax
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}
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macro DO2 buf,i
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{
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DO1 buf,i
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DO1 buf,i+1
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}
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macro DO4 buf,i
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{
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DO2 buf,i
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DO2 buf,i+2
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}
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macro DO8 buf,i
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{
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DO4 buf,i
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DO4 buf,i+4
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}
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macro DO16 buf
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{
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DO8 buf,0
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DO8 buf,8
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}
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; use NO_DIVIDE if your processor does not do division in hardware --
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; try it both ways to see which is faster
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; note that this assumes BASE is 65521, where 65536 % 65521 == 15
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; (thank you to John Reiser for pointing this out)
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macro CHOP a
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{
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if NO_DIVIDE eq 1
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mov eax,a
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shr eax,16
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and a,0xffff
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shl eax,4
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add a,eax
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shr eax,4
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sub a,eax
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end if
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}
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macro MOD28 a
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{
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if NO_DIVIDE eq 1
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local .end0
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CHOP a
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cmp a,BASE
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jl .end0 ;if (..>=..)
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sub a,BASE
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.end0:
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else
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push eax ecx edx
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mov eax,a
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xor edx,edx
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mov ecx,BASE
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div ecx
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mov a,edx
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pop edx ecx eax
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end if
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}
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macro MOD a
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{
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if NO_DIVIDE eq 1
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CHOP a
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MOD28 a
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else
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push eax ecx edx
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mov eax,a
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xor edx,edx
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mov ecx,BASE
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div ecx
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mov a,edx
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pop edx ecx eax
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end if
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}
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macro MOD63 a
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{
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if NO_DIVIDE eq 1
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;this assumes a is not negative
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; z_off64_t tmp = a >> 32;
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; a &= 0xffffffff;
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; a += (tmp << 8) - (tmp << 5) + tmp;
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; tmp = a >> 16;
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; a &= 0xffff;
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; a += (tmp << 4) - tmp;
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; tmp = a >> 16;
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; a &= 0xffff;
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; a += (tmp << 4) - tmp;
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; if (a >= BASE) a -= BASE;
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else
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push eax ecx edx
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mov eax,a
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xor edx,edx
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mov ecx,BASE
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div ecx
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mov a,edx
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pop edx ecx eax
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end if
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}
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; =========================================================================
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;uLong (adler, buf, len)
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; uLong adler
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; const Bytef *buf
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; uInt len
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align 4
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proc adler32 uses ebx edx, adler:dword, buf:dword, len:dword
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locals
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sum2 dd ? ;uLong
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endl
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;zlib_debug 'adler32 adler = %d',[adler]
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; split Adler-32 into component sums
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mov eax,[adler]
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shr eax,16
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mov [sum2],eax
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and [adler],0xffff
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mov ebx,[buf]
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; in case user likes doing a byte at a time, keep it fast
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cmp dword[len],1
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jne .end0 ;if (..==..)
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movzx eax,byte[ebx]
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add [adler],eax
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cmp dword[adler],BASE
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2017-02-01 18:23:05 +01:00
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jb @f ;if (..>=..)
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2016-10-26 21:35:35 +02:00
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sub dword[adler],BASE
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@@:
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mov eax,[adler]
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add [sum2],eax
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cmp dword[sum2],BASE
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2017-02-01 18:23:05 +01:00
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jb @f ;if (..>=..)
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2016-10-26 21:35:35 +02:00
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sub dword[sum2],BASE
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@@:
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jmp .combine
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align 4
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.end0:
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; initial Adler-32 value (deferred check for len == 1 speed)
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cmp ebx,Z_NULL
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jne @f ;if (..==0)
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xor eax,eax
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inc eax
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jmp .end_f
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align 4
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@@:
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; in case short lengths are provided, keep it somewhat fast
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cmp dword[len],16
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jge .end1 ;if (..<..)
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.cycle0:
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cmp dword[len],0
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jne @f ;while (..)
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movzx eax,byte[ebx]
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inc ebx
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add [adler],eax
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mov eax,[adler]
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add [sum2],eax
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dec dword[len]
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jmp .cycle0
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align 4
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@@:
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cmp dword[adler],BASE
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jl @f ;if (..>=..)
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sub dword[adler],BASE
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@@:
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MOD28 dword[sum2] ;only added so many BASE's
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jmp .combine
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align 4
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.end1:
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; do length NMAX blocks -- requires just one modulo operation
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.cycle3:
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cmp dword[len],NMAX
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jl .cycle3end ;while (..>=..)
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sub dword[len],NMAX
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mov edx,NMAX/16 ;NMAX is divisible by 16
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.cycle1: ;do
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DO16 ebx ;16 sums unrolled
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add ebx,16
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dec edx
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cmp edx,0
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jg .cycle1 ;while (..)
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MOD [adler]
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MOD [sum2]
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jmp .cycle3
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align 4
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.cycle3end:
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; do remaining bytes (less than NMAX, still just one modulo)
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cmp dword[len],0
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jne .end2 ;if (..) ;avoid modulos if none remaining
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@@:
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cmp dword[len],16
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jl .cycle2 ;while (..>=..)
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sub dword[len],16
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DO16 ebx
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add ebx,16
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jmp @b
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align 4
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.cycle2:
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cmp dword[len],0
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jne @f ;while (..)
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movzx eax,byte[ebx]
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inc ebx
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add [adler],eax
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mov eax,[adler]
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add [sum2],eax
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dec dword[len]
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jmp .cycle2
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align 4
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@@:
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MOD [adler]
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MOD [sum2]
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.end2:
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; return recombined sums
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.combine:
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mov eax,[sum2]
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shl eax,16
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or eax,[adler]
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.end_f:
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;zlib_debug ' adler32.ret = %d',eax
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ret
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endp
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; =========================================================================
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;uLong (adler1, adler2, len2)
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; uLong adler1
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; uLong adler2
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; z_off64_t len2
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align 4
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proc adler32_combine_, adler1:dword, adler2:dword, len2:dword
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locals
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sum1 dd ? ;uLong
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sum2 dd ? ;uLong
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; unsigned rem;
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endl
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; for negative len, return invalid adler32 as a clue for debugging
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cmp dword[len2],0
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jge @f ;if (..<0)
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mov eax,0xffffffff
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jmp .end_f
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@@:
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; the derivation of this formula is left as an exercise for the reader
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; MOD63(len2) ;assumes len2 >= 0
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; rem = (unsigned)len2;
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; sum1 = adler1 & 0xffff;
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; sum2 = rem * sum1;
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; MOD(sum2);
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; sum1 += (adler2 & 0xffff) + BASE - 1;
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; sum2 += ((adler1 >> 16) & 0xffff) + ((adler2 >> 16) & 0xffff) + BASE - rem;
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cmp dword[sum1],BASE
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jl @f ;if (..>=..)
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sub dword[sum1],BASE
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@@:
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cmp dword[sum1],BASE
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jl @f ;if (..>=..)
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sub dword[sum1],BASE
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@@:
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cmp dword[sum2],BASE shl 1
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jl @f ;if (..>=..)
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sub dword[sum2],BASE shl 1
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@@:
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cmp dword[sum2],BASE
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jl @f ;if (..>=..)
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sub dword[sum2],BASE
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@@:
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mov eax,[sum2]
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shl eax,16
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or eax,[sum1]
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.end_f:
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ret
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endp
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; =========================================================================
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;uLong (adler1, adler2, len2)
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; uLong adler1
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; uLong adler2
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; z_off_t len2
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align 4
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proc adler32_combine, adler1:dword, adler2:dword, len2:dword
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stdcall adler32_combine_, [adler1], [adler2], [len2]
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ret
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endp
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;uLong (adler1, adler2, len2)
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; uLong adler1
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; uLong adler2
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; z_off64_t len2
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align 4
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proc adler32_combine64, adler1:dword, adler2:dword, len2:dword
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stdcall adler32_combine_, [adler1], [adler2], [len2]
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ret
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endp
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