restemplate/indy/Protocols/IdCompressionIntercept.pas

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{
$Project$
$Workfile$
$Revision$
$DateUTC$
$Id$
This file is part of the Indy (Internet Direct) project, and is offered
under the dual-licensing agreement described on the Indy website.
(http://www.indyproject.org/)
Copyright:
(c) 1993-2005, Chad Z. Hower and the Indy Pit Crew. All rights reserved.
$Log$
Rev 1.10 2/22/2004 12:04:00 AM JPMugaas
Updated for file rename.
Rev 1.9 2/12/2004 11:28:04 PM JPMugaas
Modified compression intercept to use the ZLibEx unit.
Rev 1.8 2004.02.09 9:56:00 PM czhower
Fixed for lib changes.
Rev 1.7 5/12/2003 12:31:00 AM GGrieve
Get compiling again with DotNet Changes
Rev 1.6 10/12/2003 1:49:26 PM BGooijen
Changed comment of last checkin
Rev 1.5 10/12/2003 1:43:24 PM BGooijen
Changed IdCompilerDefines.inc to Core\IdCompilerDefines.inc
Rev 1.3 6/27/2003 2:38:04 PM BGooijen
Fixed bug where last part was not compressed/send
Rev 1.2 4/10/2003 4:12:42 PM BGooijen
Added TIdServerCompressionIntercept
Rev 1.1 4/3/2003 2:55:48 PM BGooijen
Now calls DeinitCompressors on disconnect
Rev 1.0 11/14/2002 02:15:50 PM JPMugaas
}
unit IdCompressionIntercept;
{ This file implements an Indy intercept component that compresses a data
stream using the open-source zlib compression library. In order for this
file to compile on Windows, the follow .obj files *must* be provided as
delivered with this file:
deflate.obj
inflate.obj
inftrees.obj
trees.obj
adler32.obj
infblock.obj
infcodes.obj
infutil.obj
inffast.obj
On Linux, the shared-object file libz.so.1 *must* be available on the
system. Most modern Linux distributions include this file.
Simply set the CompressionLevel property to a value between 1 and 9 to
enable compressing of the data stream. A setting of 0(zero) disables
compression and the component is dormant. The sender *and* received must
have compression enabled in order to properly decompress the data stream.
They do *not* have to use the same CompressionLevel as long as they are
both set to a value between 1 and 9.
Original Author: Allen Bauer
This source file is submitted to the Indy project on behalf of Borland
Sofware Corporation. No warranties, express or implied are given with
this source file.
}
interface
{$I IdCompilerDefines.inc}
uses
Classes,
IdException,
IdGlobal,
IdGlobalProtocols,
IdIntercept,
IdTCPClient,
IdTCPConnection,
IdZLibHeaders,
IdZLib;
type
EIdCompressionException = class(EIdException);
EIdCompressorInitFailure = class(EIdCompressionException);
EIdDecompressorInitFailure = class(EIdCompressionException);
EIdCompressionError = class(EIdCompressionException);
EIdDecompressionError = class(EIdCompressionException);
TIdCompressionLevel = 0..9;
TIdCompressionIntercept = class(TIdConnectionIntercept)
protected
FCompressionLevel: TIdCompressionLevel;
FCompressRec: TZStreamRec;
FDecompressRec: TZStreamRec;
FRecvBuf: TIdBytes;
FRecvCount, FRecvSize: UInt32;
FSendBuf: TIdBytes;
FSendCount, FSendSize: UInt32;
procedure SetCompressionLevel(Value: TIdCompressionLevel);
procedure InitCompressors;
procedure DeinitCompressors;
public
destructor Destroy; override;
procedure Disconnect; override;
procedure Receive(var VBuffer: TIdBytes); override;
procedure Send(var VBuffer: TIdBytes); override;
published
property CompressionLevel: TIdCompressionLevel read FCompressionLevel write SetCompressionLevel;
end;
TIdServerCompressionIntercept = class(TIdServerIntercept)
protected
FCompressionLevel: TIdCompressionLevel;
public
procedure Init; override;
function Accept(AConnection: TComponent): TIdConnectionIntercept; override;
published
property CompressionLevel: TIdCompressionLevel read FCompressionLevel write FCompressionLevel;
end;
implementation
uses
IdResourceStringsProtocols, IdExceptionCore;
{ TIdCompressionIntercept }
procedure TIdCompressionIntercept.DeinitCompressors;
begin
if Assigned(FCompressRec.zalloc) then begin
deflateEnd(FCompressRec);
FillChar(FCompressRec, SizeOf(FCompressRec), 0);
end;
if Assigned(FDecompressRec.zalloc) then
begin
inflateEnd(FDecompressRec);
FillChar(FDecompressRec, SizeOf(FDecompressRec), 0);
end;
end;
destructor TIdCompressionIntercept.Destroy;
begin
DeinitCompressors;
SetLength(FRecvBuf, 0);
SetLength(FSendBuf, 0);
inherited Destroy;
end;
procedure TIdCompressionIntercept.Disconnect;
begin
inherited Disconnect;
DeinitCompressors;
end;
procedure TIdCompressionIntercept.InitCompressors;
begin
if not Assigned(FCompressRec.zalloc) then
begin
FCompressRec.zalloc := IdZLibHeaders.zlibAllocMem;
FCompressRec.zfree := IdZLibHeaders.zlibFreeMem;
if deflateInit_(FCompressRec, FCompressionLevel, zlib_Version, SizeOf(FCompressRec)) <> Z_OK then
begin
raise EIdCompressorInitFailure.Create(RSZLCompressorInitializeFailure);
end;
end;
if not Assigned(FDecompressRec.zalloc) then
begin
FDecompressRec.zalloc := IdZLibHeaders.zlibAllocMem;
FDecompressRec.zfree := IdZLibHeaders.zlibFreeMem;
if inflateInit_(FDecompressRec, zlib_Version, SizeOf(FDecompressRec)) <> Z_OK then
begin
raise EIdDecompressorInitFailure.Create(RSZLDecompressorInitializeFailure);
end;
end;
end;
procedure TIdCompressionIntercept.Receive(var VBuffer: TIdBytes);
var
LBuffer: TIdBytes;
LPos : integer;
nChars, C : UInt32;
StreamEnd: Boolean;
begin
// let the next Intercept in the chain decode its data first
inherited Receive(VBuffer);
SetLength(LBuffer, 2048);
if FCompressionLevel in [1..9] then
begin
InitCompressors;
StreamEnd := False;
LPos := 0;
repeat
nChars := IndyMin(Length(VBuffer) - LPos, Length(LBuffer));
if nChars = 0 then begin
Break;
end;
CopyTIdBytes(VBuffer, LPos, LBuffer, 0, nChars);
Inc(LPos, nChars);
FDecompressRec.next_in := PIdAnsiChar(@LBuffer[0]);
FDecompressRec.avail_in := nChars;
FDecompressRec.total_in := 0;
while FDecompressRec.avail_in > 0 do
begin
if FRecvCount = FRecvSize then begin
if FRecvSize = 0 then begin
FRecvSize := 2048;
end else begin
Inc(FRecvSize, 1024);
end;
SetLength(FRecvBuf, FRecvSize);
end;
FDecompressRec.next_out := PIdAnsiChar(@FRecvBuf[FRecvCount]);
C := FRecvSize - FRecvCount;
FDecompressRec.avail_out := C;
FDecompressRec.total_out := 0;
case inflate(FDecompressRec, Z_NO_FLUSH) of
Z_STREAM_END:
StreamEnd := True;
Z_STREAM_ERROR,
Z_DATA_ERROR,
Z_MEM_ERROR:
raise EIdDecompressionError.Create(RSZLDecompressionError);
end;
Inc(FRecvCount, C - FDecompressRec.avail_out);
end;
until StreamEnd;
SetLength(VBuffer, FRecvCount);
CopyTIdBytes(FRecvBuf, 0, VBuffer, 0, FRecvCount);
FRecvCount := 0;
end;
end;
procedure TIdCompressionIntercept.Send(var VBuffer: TIdBytes);
var
LBuffer: TIdBytes;
LLen, LSize: UInt32;
begin
LBuffer := nil;
if FCompressionLevel in [1..9] then
begin
InitCompressors;
// Make sure the Send buffer is large enough to hold the input data
LSize := Length(VBuffer);
if LSize > FSendSize then
begin
if LSize > 2048 then begin
FSendSize := LSize + (LSize + 1023) mod 1024;
end else begin
FSendSize := 2048;
end;
SetLength(FSendBuf, FSendSize);
end;
// Get the data from the input and save it off
// TODO: get rid of FSendBuf and use ABuffer directly
FSendCount := LSize;
CopyTIdBytes(VBuffer, 0, FSendBuf, 0, FSendCount);
FCompressRec.next_in := PIdAnsiChar(@FSendBuf[0]);
FCompressRec.avail_in := FSendCount;
FCompressRec.avail_out := 0;
// clear the output stream in preparation for compression
SetLength(VBuffer, 0);
SetLength(LBuffer, 1024);
// As long as data is being outputted, keep compressing
while FCompressRec.avail_out = 0 do
begin
FCompressRec.next_out := PIdAnsiChar(@LBuffer[0]);
FCompressRec.avail_out := Length(LBuffer);
case deflate(FCompressRec, Z_SYNC_FLUSH) of
Z_STREAM_ERROR,
Z_DATA_ERROR,
Z_MEM_ERROR: raise EIdCompressionError.Create(RSZLCompressionError);
end;
// Place the compressed data into the output stream
LLen := Length(VBuffer);
SetLength(VBuffer, LLen + UInt32(Length(LBuffer)) - FCompressRec.avail_out);
CopyTIdBytes(LBuffer, 0, VBuffer, LLen, UInt32(Length(LBuffer)) - FCompressRec.avail_out);
end;
end;
// let the next Intercept in the chain encode its data next
inherited Send(VBuffer);
end;
procedure TIdCompressionIntercept.SetCompressionLevel(Value: TIdCompressionLevel);
begin
if Value < 0 then begin
Value := 0;
end else if Value > 9 then begin
Value := 9;
end;
if Value <> FCompressionLevel then begin
DeinitCompressors;
FCompressionLevel := Value;
end;
end;
{ TIdServerCompressionIntercept }
procedure TIdServerCompressionIntercept.Init;
begin
end;
function TIdServerCompressionIntercept.Accept(AConnection: TComponent): TIdConnectionIntercept;
begin
Result := TIdCompressionIntercept.Create(nil);
TIdCompressionIntercept(Result).CompressionLevel := CompressionLevel;
end;
end.