/// DO NOT USE !!! CloudFlare's fork of ZLib for SSE3+SSE4.2 Intel/AMD CPUs // - only supports FPC+Win64 by now, due to Delphi linker issues // - this unit is a part of the freeware Synopse mORMot framework, // licensed under a MPL/GPL/LGPL tri-license; version 1.18 unit SynZLibSSE; // DEPRECATED UNIT !!! // just use plain SynZip.pas unit, defining USEZLIBSSE conditional on FPC+Win64 interface // About CloudFlare's fork of ZLib for SSE3+SSE4.2 Intel/AMD CPUs: // https://github.com/cloudflare/zlib // https://blog.cloudflare.com/cloudflare-fights-cancer implementation end. // put as reference all deprecated code below (* This file is part of Synopse framework. Synopse framework. Copyright (C) 2022 Arnaud Bouchez Synopse Informatique - https://synopse.info *** BEGIN LICENSE BLOCK ***** Version: MPL 1.1/GPL 2.0/LGPL 2.1 The contents of this file are subject to the Mozilla Public License Version 1.1 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.mozilla.org/MPL Software distributed under the License is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License for the specific language governing rights and limitations under the License. The Original Code is Synopse framework. The Initial Developer of the Original Code is Arnaud Bouchez. Portions created by the Initial Developer are Copyright (C) 2022 the Initial Developer. All Rights Reserved. Contributor(s): Alternatively, the contents of this file may be used under the terms of either the GNU General Public License Version 2 or later (the "GPL"), or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), in which case the provisions of the GPL or the LGPL are applicable instead of those above. If you wish to allow use of your version of this file only under the terms of either the GPL or the LGPL, and not to allow others to use your version of this file under the terms of the MPL, indicate your decision by deleting the provisions above and replace them with the notice and other provisions required by the GPL or the LGPL. If you do not delete the provisions above, a recipient may use your version of this file under the terms of any one of the MPL, the GPL or the LGPL. ***** END LICENSE BLOCK ***** *) {$I Synopse.inc} // define HASINLINE CPU32 CPU64 interface uses SysUtils, Classes, SynCommons; /// in-memory ZLib DEFLATE compression using CloudFlare's fork // - returns Z_VERSION_ERROR (-6) if the CPU doesn't support SSE4.2 instructions // - by default, will use the deflate/.zip header-less format, but you may set // ZlibFormat=true to add an header, as expected by zlib (and pdf) function CompressMemSSE42(src, dst: pointer; srcLen, dstLen: integer; CompressionLevel: integer=6; ZlibFormat: Boolean=false) : integer; /// in-memory to stream ZLib DEFLATE compression using CloudFlare's fork // - returns Z_VERSION_ERROR (-6) if the CPU doesn't support SSE4.2 instructions // - by default, will use the deflate/.zip header-less format, but you may set // ZlibFormat=true to add an header, as expected by zlib (and pdf) function CompressStreamSSE42(src: pointer; srcLen: integer; aStream: TStream; tmpbuf: pointer; tmpsize: integer; CompressionLevel:integer=6; ZlibFormat: Boolean=false): integer; /// in-memory ZLib INFLATE decompression using CloudFlare's fork // - returns Z_VERSION_ERROR (-6) if the CPU doesn't support SSE3 instructions // - by default, will use the deflate/.zip header-less format, but you may set // ZlibFormat=true to add an header, as expected by zlib (and pdf) function UnCompressMemSSE3(src, dst: pointer; srcLen, dstLen: integer; ZlibFormat: Boolean=false) : integer; /// in-memory to stream ZLib INFLATE decompression using CloudFlare's fork // - returns Z_VERSION_ERROR (-6) if the CPU doesn't support SSE3 instructions // - return the number of bytes written into the stream // - if checkCRC if not nil, it will contain the crc32; if aStream is nil, it // will only calculate the crc of the the uncompressed memory block // - by default, will use the deflate/.zip header-less format, but you may set // ZlibFormat=true to add an header, as expected by zlib (and pdf) function UnCompressStreamSSE3(src: pointer; srcLen: integer; aStream: TStream; checkCRC: PCardinal; tmpbuf: pointer; tmpsize: integer; ZlibFormat: Boolean=false): integer; implementation type ESynZLibSSE42 = class(ESynException); { CloudFlare zip uses uLong for total_in, total_out, adler and reserved } TZCRC = Int64; TZStream = record next_in: PAnsiChar; avail_in: cardinal; total_in: Int64; next_out: PAnsiChar; avail_out: cardinal; total_out: Int64; msg: PAnsiChar; state: pointer; zalloc: pointer; zfree: pointer; opaque: pointer; data_type: integer; adler: TZCRC; reserved: Int64; end; function adler32(adler: TZCRC; buf: PAnsiChar; len: cardinal): TZCRC; cdecl; external; function crc32(crc: TZCRC; buf: PAnsiChar; len: cardinal): TZCRC; cdecl; external; function deflateInit2_(var strm: TZStream; level, method, windowBits, memLevel, strategy: integer; version: PAnsiChar; stream_size: integer): integer; cdecl; external; function inflateInit2_(var strm: TZStream; windowBits: integer; version: PAnsiChar; stream_size: integer): integer; cdecl; external; function zlibVersion: PAnsiChar; cdecl; external; function deflate(var strm: TZStream; flush: integer): integer; cdecl; external; function deflateEnd(var strm: TZStream): integer; cdecl; external; function inflate(var strm: TZStream; flush: integer): integer; cdecl; external; function inflateEnd(var strm: TZStream): integer; cdecl; external; function malloc(size: cardinal): Pointer; cdecl; { always cdecl } {$ifdef FPC}public name{$ifdef CPU64}'malloc'{$else}'_malloc'{$endif};{$endif} begin GetMem(Result, size); end; procedure free(P: Pointer); cdecl; { always cdecl } {$ifdef FPC}public name{$ifdef CPU64}'free'{$else}'_free'{$endif};{$endif} begin FreeMem(P); end; procedure memcpy(dest, src: Pointer; count: integer); cdecl; {$ifdef FPC}public name{$ifdef CPU64}'memcpy'{$else}'memcpy'{$endif};{$endif} begin // will use fastcode if compiled within MoveFast(src^, dest^, count); end; procedure memset(dest: Pointer; val: Integer; count: integer); cdecl; {$ifdef FPC}public name{$ifdef CPU64}'memset'{$else}'memset'{$endif};{$endif} begin // will use fastcode if compiled within FillCharFast(dest^, count, val); end; {$ifdef FPC} {$ifdef WIN32} {.$linklib static\i386-win32\libkernel32.a} {.$linklib static\i386-win32\libgcc.a} {$L static\i386-win32\trees.o} {$L static\i386-win32\adler32.o} {$L static\i386-win32\crc32.o} {$L static\i386-win32\deflate.o} {$L static\i386-win32\zutil.o} {$L static\i386-win32\inffast.o} {$L static\i386-win32\inftrees.o} {$L static\i386-win32\inflate.o} {$endif} {$ifdef WIN64} {$L static\x86_64-win64\sse\trees.o} {$L static\x86_64-win64\sse\adler32.o} {$L static\x86_64-win64\sse\crc32.o} {$L static\x86_64-win64\sse\deflate.o} {$L static\x86_64-win64\sse\zutil.o} {$L static\x86_64-win64\sse\inffast.o} {$L static\x86_64-win64\sse\inftrees.o} {$L static\x86_64-win64\sse\inflate.o} {$endif} {$endif FPC} const ZLIB_VERSION = '1.2.8'; Z_NO_FLUSH = 0; Z_PARTIAL_FLUSH = 1; Z_SYNC_FLUSH = 2; Z_FULL_FLUSH = 3; Z_FINISH = 4; Z_OK = 0; Z_STREAM_END = 1; Z_NEED_DICT = 2; Z_ERRNO = -1; Z_STREAM_ERROR = -2; Z_DATA_ERROR = -3; Z_MEM_ERROR = -4; Z_BUF_ERROR = -5; Z_VERSION_ERROR = -6; Z_STORED = 0; Z_DEFLATED = 8; MAX_WBITS = 15; // 32K LZ77 window DEF_MEM_LEVEL = 8; Z_DEFAULT_STRATEGY = 0; Z_HUFFMAN_ONLY = 2; function DeflateInit(var Stream: TZStream; CompressionLevel: integer; ZlibFormat: Boolean): Boolean; var Bits: integer; begin if ZlibFormat then Bits := MAX_WBITS else Bits := -MAX_WBITS; result := deflateInit2_(Stream, CompressionLevel, Z_DEFLATED, Bits, DEF_MEM_LEVEL, Z_DEFAULT_STRATEGY, ZLIB_VERSION, sizeof(Stream))>=0 end; function Check(const Code: Integer; const ValidCodes: array of Integer): integer; var i: Integer; begin if Code=Z_MEM_ERROR then OutOfMemoryError; result := code; for i := Low(ValidCodes) to High(ValidCodes) do if ValidCodes[i]=Code then exit; raise ESynZLibSSE42.CreateUTF8('Error % during zip/deflate process',[Code]); end; function CompressMemSSE42(src, dst: pointer; srcLen, dstLen: integer; CompressionLevel: integer=6; ZlibFormat: Boolean=false) : integer; var strm: TZStream; begin if not (cfSSE42 in CpuFeatures) then begin result := Z_VERSION_ERROR; exit; end; FillCharFast(strm,sizeof(strm),0); strm.next_in := src; strm.avail_in := srcLen; strm.next_out := dst; strm.avail_out := dstLen; if DeflateInit(strm,CompressionLevel,ZlibFormat) then try Check(deflate(strm,Z_FINISH),[Z_STREAM_END,Z_OK]); finally deflateEnd(strm); end; result := strm.total_out; end; function CompressStreamSSE42(src: pointer; srcLen: integer; aStream: TStream; tmpbuf: pointer; tmpsize: integer; CompressionLevel: integer=6; ZlibFormat: Boolean=false): integer; var strm: TZStream; code: integer; procedure FlushBuf; var Count: integer; begin Count := tmpsize - integer(strm.avail_out); if Count=0 then exit; aStream.WriteBuffer(tmpbuf^,Count); strm.next_out := tmpbuf; strm.avail_out := tmpsize; end; begin if not (cfSSE42 in CpuFeatures) then begin result := Z_VERSION_ERROR; exit; end; FillCharFast(strm,sizeof(strm),0); strm.next_in := src; strm.avail_in := srcLen; strm.next_out := tmpbuf; strm.avail_out := tmpsize; if DeflateInit(strm,CompressionLevel,ZlibFormat) then try repeat code := Check(deflate(strm, Z_FINISH),[Z_OK,Z_STREAM_END,Z_BUF_ERROR]); FlushBuf; until code=Z_STREAM_END; FlushBuf; finally deflateEnd(strm); end; result := strm.total_out; end; function UnCompressMemSSE3(src, dst: pointer; srcLen, dstLen: integer; ZlibFormat: Boolean) : integer; var strm: TZStream; Bits: integer; begin if not (cfSSE3 in CpuFeatures) then begin result := Z_VERSION_ERROR; exit; end; FillCharFast(strm,sizeof(strm),0); strm.next_in := src; strm.avail_in := srcLen; strm.next_out := dst; strm.avail_out := dstLen; if ZlibFormat then Bits := MAX_WBITS else Bits := -MAX_WBITS; // -MAX_WBITS -> no zLib header => .zip compatible ! if inflateInit2_(strm, Bits, ZLIB_VERSION, sizeof(strm))>=0 then try Check(inflate(strm, Z_FINISH),[Z_OK,Z_STREAM_END]); finally inflateEnd(strm); end; result := strm.total_out; end; function UnCompressStreamSSE3(src: pointer; srcLen: integer; aStream: TStream; checkCRC: PCardinal; tmpbuf: pointer; tmpsize: integer; ZlibFormat: Boolean): integer; var strm: TZStream; code: integer; Bits: integer; procedure FlushBuf; var Count: integer; begin Count := tmpsize - integer(strm.avail_out); if Count=0 then exit; if checkCRC<>nil then checkCRC^ := crc32(checkCRC^,tmpbuf,Count); if aStream<>nil then aStream.WriteBuffer(tmpbuf^,Count); strm.next_out := tmpbuf; strm.avail_out := tmpsize; end; begin if not (cfSSE3 in CpuFeatures) then begin result := Z_VERSION_ERROR; exit; end; FillCharFast(strm,sizeof(strm),0); strm.next_in := src; strm.avail_in := srcLen; strm.next_out := tmpbuf; strm.avail_out := tmpsize; if checkCRC<>nil then checkCRC^ := 0; if ZlibFormat then Bits := MAX_WBITS else Bits := -MAX_WBITS; // -MAX_WBITS -> no zLib header => .zip compatible ! if inflateInit2_(strm, Bits, ZLIB_VERSION, sizeof(strm))>=0 then try repeat code := Check(inflate(strm, Z_FINISH),[Z_OK,Z_STREAM_END,Z_BUF_ERROR]); FlushBuf; until code=Z_STREAM_END; FlushBuf; finally inflateEnd(strm); end; result := strm.total_out; end; { Some Numbers with FPC+Win64, without SynZLibSSE: - In memory compression: 12 assertions passed 168.06ms - GZIP format: 19 assertions passed 322.12ms - ZIP format: 76 assertions passed 1.34s - SynLZO: 3,006 assertions passed 67.82ms - SynLZ: 23,210 assertions passed 400.09ms Total failed: 0 / 26,323 - Compression PASSED 2.30s When enabling SynZLibSSE: - In memory compression: 12 assertions passed 75.69ms - GZIP format: 19 assertions passed 258.61ms - ZIP format: 76 assertions passed 1.02s - SynLZO: 3,006 assertions passed 68.70ms - SynLZ: 23,210 assertions passed 403.96ms Total failed: 0 / 26,323 - Compression PASSED 1.83s Win32, without SynZLibSSE: - In memory compression: 12 assertions passed 250.97ms - GZIP format: 19 assertions passed 481.25ms - ZIP format: 76 assertions passed 2.10s - SynLZO: 3,006 assertions passed 67.30ms - SynLZ: 30,217 assertions passed 483.62ms Total failed: 0 / 33,330 - Compression PASSED 3.38s } end.