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Added: Win64 compatibility

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Fixed: XML persist reader creating sections
Fixed: new MIME implementation for XMLDataBindingUtils
This commit is contained in:
Mark van Renswoude 2014-03-16 08:42:46 +00:00
parent 4d9a76cb35
commit a212dbd74c
4 changed files with 329 additions and 222 deletions
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46
Packages/DXE2/X2Utils.dproj
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@ -9,8 +9,8 @@
<ProjectVersion>13.4</ProjectVersion>
<Base>True</Base>
<Config Condition="'$(Config)'==''">Debug</Config>
<Platform Condition="'$(Platform)'==''">Win32</Platform>
<TargetedPlatforms>1</TargetedPlatforms>
<Platform Condition="'$(Platform)'==''">Win64</Platform>
<TargetedPlatforms>3</TargetedPlatforms>
<AppType>Package</AppType>
</PropertyGroup>
<PropertyGroup Condition="'$(Config)'=='Base' or '$(Base)'!=''">
@ -31,11 +31,29 @@
<CfgParent>Base</CfgParent>
<Base>true</Base>
</PropertyGroup>
<PropertyGroup Condition="('$(Platform)'=='Win64' and '$(Cfg_1)'=='true') or '$(Cfg_1_Win64)'!=''">
<Cfg_1_Win64>true</Cfg_1_Win64>
<CfgParent>Cfg_1</CfgParent>
<Cfg_1>true</Cfg_1>
<Base>true</Base>
</PropertyGroup>
<PropertyGroup Condition="('$(Platform)'=='Win32' and '$(Cfg_1)'=='true') or '$(Cfg_1_Win32)'!=''">
<Cfg_1_Win32>true</Cfg_1_Win32>
<CfgParent>Cfg_1</CfgParent>
<Cfg_1>true</Cfg_1>
<Base>true</Base>
</PropertyGroup>
<PropertyGroup Condition="'$(Config)'=='Debug' or '$(Cfg_2)'!=''">
<Cfg_2>true</Cfg_2>
<CfgParent>Base</CfgParent>
<Base>true</Base>
</PropertyGroup>
<PropertyGroup Condition="('$(Platform)'=='Win64' and '$(Cfg_2)'=='true') or '$(Cfg_2_Win64)'!=''">
<Cfg_2_Win64>true</Cfg_2_Win64>
<CfgParent>Cfg_2</CfgParent>
<Cfg_2>true</Cfg_2>
<Base>true</Base>
</PropertyGroup>
<PropertyGroup Condition="('$(Platform)'=='Win32' and '$(Cfg_2)'=='true') or '$(Cfg_2_Win32)'!=''">
<Cfg_2_Win32>true</Cfg_2_Win32>
<CfgParent>Cfg_2</CfgParent>
@ -57,14 +75,20 @@
<DCC_GenerateStackFrames>true</DCC_GenerateStackFrames>
</PropertyGroup>
<PropertyGroup Condition="'$(Base_Win64)'!=''">
<DCC_Namespace>Data.Win;Datasnap.Win;Web.Win;Soap.Win;Xml.Win;$(DCC_Namespace)</DCC_Namespace>
<DCC_BplOutput>$(DELPHIBIN64)</DCC_BplOutput>
<VerInfo_Locale>1033</VerInfo_Locale>
<DCC_DcpOutput>$(DELPHIBIN64)</DCC_DcpOutput>
<DCC_DcuOutput>$(DELPHILIB64)</DCC_DcuOutput>
<Icon_MainIcon>X2Utils_Icon.ico</Icon_MainIcon>
</PropertyGroup>
<PropertyGroup Condition="'$(Base_Win32)'!=''">
<DCC_BplOutput>$(DELPHIBIN)</DCC_BplOutput>
<DCC_DcuOutput>$(DELPHILIB)</DCC_DcuOutput>
<DCC_DcpOutput>$(DELPHIBIN)</DCC_DcpOutput>
<Icon_MainIcon>X2Utils_Icon.ico</Icon_MainIcon>
<DCC_Namespace>Data.Win;Datasnap.Win;Web.Win;Soap.Win;Xml.Win;Bde;$(DCC_Namespace)</DCC_Namespace>
<VerInfo_IncludeVerInfo>true</VerInfo_IncludeVerInfo>
<VerInfo_Locale>1033</VerInfo_Locale>
<VerInfo_Keys>CompanyName=;FileDescription=;FileVersion=1.0.0.0;InternalName=;LegalCopyright=;LegalTrademarks=;OriginalFilename=;ProductName=;ProductVersion=1.0.0.0;Comments=</VerInfo_Keys>
</PropertyGroup>
<PropertyGroup Condition="'$(Cfg_1)'!=''">
<Version>7.0</Version>
@ -75,15 +99,21 @@
<DCC_SymbolReferenceInfo>0</DCC_SymbolReferenceInfo>
<DCC_Define>RELEASE;$(DCC_Define)</DCC_Define>
</PropertyGroup>
<PropertyGroup Condition="'$(Cfg_1_Win64)'!=''">
<VerInfo_Locale>1033</VerInfo_Locale>
</PropertyGroup>
<PropertyGroup Condition="'$(Cfg_1_Win32)'!=''">
<VerInfo_Locale>1033</VerInfo_Locale>
</PropertyGroup>
<PropertyGroup Condition="'$(Cfg_2)'!=''">
<Version>7.0</Version>
<DCC_WriteableConstants>True</DCC_WriteableConstants>
<DCC_GenerateStackFrames>True</DCC_GenerateStackFrames>
<DCC_DcuOutput>$(DELPHILIB)</DCC_DcuOutput>
<DCC_ObjOutput>$(DELPHILIB)</DCC_ObjOutput>
<DCC_HppOutput>$(DELPHILIB)</DCC_HppOutput>
<DCC_BplOutput>$(DELPHIBIN)</DCC_BplOutput>
<DCC_DcpOutput>$(DELPHIBIN)</DCC_DcpOutput>
</PropertyGroup>
<PropertyGroup Condition="'$(Cfg_2_Win64)'!=''">
<VerInfo_Locale>1033</VerInfo_Locale>
</PropertyGroup>
<PropertyGroup Condition="'$(Cfg_2_Win32)'!=''">
<DllSuffix>XE2</DllSuffix>
@ -135,7 +165,7 @@
</Excluded_Packages>
</Delphi.Personality>
<Platforms>
<Platform value="Win64">False</Platform>
<Platform value="Win64">True</Platform>
<Platform value="Win32">True</Platform>
</Platforms>
</BorlandProject>

BIN
Packages/DXE2/X2Utils.res
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Binary file not shown.

5
X2UtPersistXML.pas
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@ -35,6 +35,7 @@ type
private
FFileName: String;
FConfiguration: IXMLConfiguration;
FIsReader: Boolean;
FSection: IXMLSection;
FSectionStack: TInterfaceList;
protected
@ -71,6 +72,7 @@ type
property Configuration: IXMLConfiguration read FConfiguration;
property IsReader: Boolean read FIsReader;
property Section: IXMLSection read FSection;
property SectionStack: TInterfaceList read FSectionStack;
property FileName: String read FFileName;
@ -132,6 +134,7 @@ begin
FSectionStack := TInterfaceList.Create;
FFileName := AFileName;
FIsReader := AIsReader;
if AIsReader then
FConfiguration := LoadConfiguration(AFileName)
@ -170,7 +173,7 @@ begin
end;
end;
if not Result then
if (not Result) and (not IsReader) then
begin
FSection := Section.section.Add;
FSection.name := AName;

496
XMLDataBindingUtils.pas
View File

@ -148,12 +148,6 @@ type
function MimeDecodeString(const S: AnsiString): AnsiString; forward;
procedure MimeEncodeStream(const InputStream: TStream; const OutputStream: TStream); forward;
procedure MimeDecodeStream(const InputStream: TStream; const OutputStream: TStream); forward;
function MimeEncodedSize(const I: Cardinal): Cardinal; forward;
function MimeDecodedSize(const I: Cardinal): Cardinal; forward;
procedure MimeEncode(var InputBuffer; const InputByteCount: Cardinal; var OutputBuffer); forward;
function MimeDecode(var InputBuffer; const InputBytesCount: Cardinal; var OutputBuffer): Cardinal; forward;
function MimeDecodePartial(var InputBuffer; const InputBytesCount: Cardinal; var OutputBuffer; var ByteBuffer: Cardinal; var ByteBufferSpace: Cardinal): Cardinal; forward;
function MimeDecodePartialEnd(var OutputBuffer; const ByteBuffer: Cardinal; const ByteBufferSpace: Cardinal): Cardinal; forward;
@ -590,45 +584,65 @@ end;
{ --- JclMime implementation from here. }
// Caution: For MimeEncodeStream and all other kinds of multi-buffered
// Mime encodings (i.e. Files etc.), BufferSize must be set to a multiple of 3.
// Even though the implementation of the Mime decoding routines below
// do not require a particular buffer size, they work fastest with sizes of
// multiples of four. The chosen size is a multiple of 3 and of 4 as well.
// The following numbers are, in addition, also divisible by 1024:
// $2400, $3000, $3C00, $4800, $5400, $6000, $6C00.
type
{$IFDEF WIN64}
SizeInt = NativeInt;
TJclAddr = UInt64;
{$ELSE}
SizeInt = Integer;
TJclAddr = Cardinal;
{$ENDIF}
PByte4 = ^TByte4;
TByte4 = packed record
B1: Byte;
B2: Byte;
B3: Byte;
B4: Byte;
end;
PByte3 = ^TByte3;
TByte3 = packed record
B1: Byte;
B2: Byte;
B3: Byte;
end;
const
BUFFER_SIZE = $3000;
EqualSign = Byte('=');
MIME_ENCODED_LINE_BREAK = 76;
MIME_DECODED_LINE_BREAK = MIME_ENCODED_LINE_BREAK div 4 * 3;
MIME_BUFFER_SIZE = MIME_DECODED_LINE_BREAK * 3 * 4 * 4;
MIME_ENCODE_TABLE: array [0..63] of Byte = (
65, 66, 67, 68, 69, 70, 71, 72, // 00 - 07
73, 74, 75, 76, 77, 78, 79, 80, // 08 - 15
81, 82, 83, 84, 85, 86, 87, 88, // 16 - 23
89, 90, 97, 98, 99, 100, 101, 102, // 24 - 31
065, 066, 067, 068, 069, 070, 071, 072, // 00 - 07
073, 074, 075, 076, 077, 078, 079, 080, // 08 - 15
081, 082, 083, 084, 085, 086, 087, 088, // 16 - 23
089, 090, 097, 098, 099, 100, 101, 102, // 24 - 31
103, 104, 105, 106, 107, 108, 109, 110, // 32 - 39
111, 112, 113, 114, 115, 116, 117, 118, // 40 - 47
119, 120, 121, 122, 48, 49, 50, 51, // 48 - 55
52, 53, 54, 55, 56, 57, 43, 47); // 56 - 63
119, 120, 121, 122, 048, 049, 050, 051, // 48 - 55
052, 053, 054, 055, 056, 057, 043, 047); // 56 - 63
MIME_DECODE_TABLE: array [Byte] of Cardinal = (
255, 255, 255, 255, 255, 255, 255, 255, // 00 - 07
255, 255, 255, 255, 255, 255, 255, 255, // 08 - 15
MIME_PAD_CHAR = Byte('=');
MIME_DECODE_TABLE: array [Byte] of Byte = (
255, 255, 255, 255, 255, 255, 255, 255, // 0 - 7
255, 255, 255, 255, 255, 255, 255, 255, // 8 - 15
255, 255, 255, 255, 255, 255, 255, 255, // 16 - 23
255, 255, 255, 255, 255, 255, 255, 255, // 24 - 31
255, 255, 255, 255, 255, 255, 255, 255, // 32 - 39
255, 255, 255, 62, 255, 255, 255, 63, // 40 - 47
52, 53, 54, 55, 56, 57, 58, 59, // 48 - 55
60, 61, 255, 255, 255, 255, 255, 255, // 56 - 63
255, 0, 1, 2, 3, 4, 5, 6, // 64 - 71
7, 8, 9, 10, 11, 12, 13, 14, // 72 - 79
15, 16, 17, 18, 19, 20, 21, 22, // 80 - 87
23, 24, 25, 255, 255, 255, 255, 255, // 88 - 95
255, 26, 27, 28, 29, 30, 31, 32, // 96 - 103
33, 34, 35, 36, 37, 38, 39, 40, // 104 - 111
41, 42, 43, 44, 45, 46, 47, 48, // 112 - 119
49, 50, 51, 255, 255, 255, 255, 255, // 120 - 127
255, 255, 255, 062, 255, 255, 255, 063, // 40 - 47
052, 053, 054, 055, 056, 057, 058, 059, // 48 - 55
060, 061, 255, 255, 255, 255, 255, 255, // 56 - 63
255, 000, 001, 002, 003, 004, 005, 006, // 64 - 71
007, 008, 009, 010, 011, 012, 013, 014, // 72 - 79
015, 016, 017, 018, 019, 020, 021, 022, // 80 - 87
023, 024, 025, 255, 255, 255, 255, 255, // 88 - 95
255, 026, 027, 028, 029, 030, 031, 032, // 96 - 103
033, 034, 035, 036, 037, 038, 039, 040, // 104 - 111
041, 042, 043, 044, 045, 046, 047, 048, // 112 - 119
049, 050, 051, 255, 255, 255, 255, 255, // 120 - 127
255, 255, 255, 255, 255, 255, 255, 255,
255, 255, 255, 255, 255, 255, 255, 255,
255, 255, 255, 255, 255, 255, 255, 255,
@ -646,259 +660,218 @@ const
255, 255, 255, 255, 255, 255, 255, 255,
255, 255, 255, 255, 255, 255, 255, 255);
type
PByte4 = ^TByte4;
TByte4 = packed record
B1: Byte;
B2: Byte;
B3: Byte;
B4: Byte;
end;
PByte3 = ^TByte3;
TByte3 = packed record
B1: Byte;
B2: Byte;
B3: Byte;
end;
//------------------------------------------------------------------------------
// Wrapper functions & procedures
//------------------------------------------------------------------------------
function MimeEncodeString(const S: AnsiString): AnsiString;
var
L: Cardinal;
function MimeEncodedSize(const InputSize: SizeInt): SizeInt;
begin
L := Length(S);
if L > 0 then
begin
SetLength(Result, MimeEncodedSize(L));
MimeEncode(PAnsiChar(S)^, L, PAnsiChar(Result)^);
end
if InputSize > 0 then
Result := (InputSize + 2) div 3 * 4 + (InputSize - 1) div MIME_DECODED_LINE_BREAK * 2
else
Result := '';
Result := InputSize;
end;
//------------------------------------------------------------------------------
function MimeDecodeString(const S: AnsiString): AnsiString;
var
ByteBuffer, ByteBufferSpace: Cardinal;
L: Cardinal;
begin
L := Length(S);
if L > 0 then
begin
SetLength(Result, MimeDecodedSize(L));
ByteBuffer := 0;
ByteBufferSpace := 4;
L := MimeDecodePartial(PAnsiChar(S)^, L, PAnsiChar(Result)^, ByteBuffer, ByteBufferSpace);
Inc(L, MimeDecodePartialEnd(PAnsiChar(Cardinal(Result) + L)^, ByteBuffer, ByteBufferSpace));
SetLength(Result, L);
end;
end;
//------------------------------------------------------------------------------
procedure MimeEncodeStream(const InputStream: TStream; const OutputStream: TStream);
var
InputBuffer: array [0..BUFFER_SIZE - 1] of Byte;
OutputBuffer: array [0..((BUFFER_SIZE + 2) div 3) * 4 - 1] of Byte;
BytesRead: Integer;
begin
BytesRead := InputStream.Read(InputBuffer, SizeOf(InputBuffer));
while BytesRead > 0 do
begin
MimeEncode(InputBuffer, BytesRead, OutputBuffer);
OutputStream.Write(OutputBuffer, MimeEncodedSize(BytesRead));
BytesRead := InputStream.Read(InputBuffer, SizeOf(InputBuffer));
end;
end;
//------------------------------------------------------------------------------
procedure MimeDecodeStream(const InputStream: TStream; const OutputStream: TStream);
var
ByteBuffer, ByteBufferSpace: Cardinal;
InputBuffer: array [0..(BUFFER_SIZE + 3) div 4 * 3 - 1] of Byte;
OutputBuffer: array [0..BUFFER_SIZE - 1] of Byte;
BytesRead: Integer;
begin
ByteBuffer := 0;
ByteBufferSpace := 4;
BytesRead := InputStream.Read(InputBuffer, SizeOf(InputBuffer));
while BytesRead > 0 do
begin
OutputStream.Write(OutputBuffer, MimeDecodePartial(InputBuffer, BytesRead, OutputBuffer, ByteBuffer, ByteBufferSpace));
BytesRead := InputStream.Read(InputBuffer, SizeOf(InputBuffer));
end;
OutputStream.Write(OutputBuffer, MimeDecodePartialEnd(OutputBuffer, ByteBuffer, ByteBufferSpace));
end;
//------------------------------------------------------------------------------
// Helper functions
//------------------------------------------------------------------------------
function MimeEncodedSize(const I: Cardinal): Cardinal;
begin
Result := (I + 2) div 3 * 4;
end;
//------------------------------------------------------------------------------
function MimeDecodedSize(const I: Cardinal): Cardinal;
begin
Result := (I + 3) div 4 * 3;
end;
//------------------------------------------------------------------------------
// Primary functions & procedures
//------------------------------------------------------------------------------
procedure MimeEncode(var InputBuffer; const InputByteCount: Cardinal; var OutputBuffer);
procedure MimeEncodeFullLines(const InputBuffer; const InputByteCount: SizeInt; out OutputBuffer);
var
B: Cardinal;
InMax3: Cardinal;
InPtr, InLimitPtr: ^Byte;
InnerLimit, OuterLimit: TJclAddr;
InPtr: PByte3;
OutPtr: PByte4;
begin
if InputByteCount <= 0 then
{ Do we have enough input to encode a full line? }
if InputByteCount < MIME_DECODED_LINE_BREAK then
Exit;
InPtr := @InputBuffer;
InMax3 := InputByteCount div 3 * 3;
OutPTr := @OutputBuffer;
Cardinal(InLimitPtr) := Cardinal(InPtr) + InMax3;
OutPtr := @OutputBuffer;
while InPtr <> InLimitPtr do
InnerLimit := TJclAddr(InPtr);
Inc(InnerLimit, MIME_DECODED_LINE_BREAK);
OuterLimit := TJclAddr(InPtr);
Inc(OuterLimit, InputByteCount);
{ Multiple line loop. }
repeat
{ Single line loop. }
repeat
{ Read 3 bytes from InputBuffer. }
B := InPtr^.B1;
B := B shl 8;
B := B or InPtr^.B2;
B := B shl 8;
B := B or InPtr^.B3;
Inc(InPtr);
{ Write 4 bytes to OutputBuffer (in reverse order). }
OutPtr^.B4 := MIME_ENCODE_TABLE[B and $3F];
B := B shr 6;
OutPtr^.B3 := MIME_ENCODE_TABLE[B and $3F];
B := B shr 6;
OutPtr^.B2 := MIME_ENCODE_TABLE[B and $3F];
B := B shr 6;
OutPtr^.B1 := MIME_ENCODE_TABLE[B];
Inc(OutPtr);
until TJclAddr(InPtr) >= InnerLimit;
{ Write line break (CRLF). }
OutPtr^.B1 := 13;
OutPtr^.B2 := 10;
Inc(TJclAddr(OutPtr), 2);
Inc(InnerLimit, MIME_DECODED_LINE_BREAK);
until InnerLimit > OuterLimit;
end;
procedure MimeEncodeNoCRLF(const InputBuffer; const InputByteCount: SizeInt; out OutputBuffer);
var
B: Cardinal;
InnerLimit, OuterLimit: SizeInt;
InPtr: PByte3;
OutPtr: PByte4;
begin
B := InPtr^;
if InputByteCount = 0 then
Exit;
InPtr := @InputBuffer;
OutPtr := @OutputBuffer;
OuterLimit := InputByteCount div 3 * 3;
InnerLimit := TJclAddr(InPtr);
Inc(InnerLimit, OuterLimit);
{ Last line loop. }
while TJclAddr(InPtr) < TJclAddr(InnerLimit) do
begin
{ Read 3 bytes from InputBuffer. }
B := InPtr^.B1;
B := B shl 8;
Inc(InPtr);
B := B or InPtr^;
B := B or InPtr^.B2;
B := B shl 8;
B := B or InPtr^.B3;
Inc(InPtr);
B := B or InPtr^;
Inc(InPtr);
// Write 4 bytes to OutputBuffer (in reverse order).
OutPtr.B4 := MIME_ENCODE_TABLE[B and $3F];
{ Write 4 bytes to OutputBuffer (in reverse order). }
OutPtr^.B4 := MIME_ENCODE_TABLE[B and $3F];
B := B shr 6;
OutPtr.B3 := MIME_ENCODE_TABLE[B and $3F];
OutPtr^.B3 := MIME_ENCODE_TABLE[B and $3F];
B := B shr 6;
OutPtr.B2 := MIME_ENCODE_TABLE[B and $3F];
OutPtr^.B2 := MIME_ENCODE_TABLE[B and $3F];
B := B shr 6;
OutPtr.B1 := MIME_ENCODE_TABLE[B];
OutPtr^.B1 := MIME_ENCODE_TABLE[B];
Inc(OutPtr);
end;
case InputByteCount - InMax3 of
{ End of data & padding. }
case InputByteCount - OuterLimit of
1:
begin
B := InPtr^;
B := InPtr^.B1;
B := B shl 4;
OutPtr.B2 := MIME_ENCODE_TABLE[B and $3F];
B := B shr 6;
OutPtr.B1 := MIME_ENCODE_TABLE[B];
OutPtr.B3 := EqualSign; // Fill remaining 2 bytes.
OutPtr.B4 := EqualSign;
OutPtr.B3 := MIME_PAD_CHAR; { Pad remaining 2 bytes. }
OutPtr.B4 := MIME_PAD_CHAR;
end;
2:
begin
B := InPtr^;
Inc(InPtr);
B := InPtr^.B1;
B := B shl 8;
B := B or InPtr^;
B := B or InPtr^.B2;
B := B shl 2;
OutPtr.B3 := MIME_ENCODE_TABLE[B and $3F];
B := B shr 6;
OutPTr.b2 := MIME_ENCODE_TABLE[B and $3F];
OutPtr.B2 := MIME_ENCODE_TABLE[B and $3F];
B := B shr 6;
OutPtr.B1 := MIME_ENCODE_TABLE[B];
OutPtr.B4 := EqualSign; // Fill remaining byte.
OutPtr.B4 := MIME_PAD_CHAR; { Pad remaining byte. }
end;
end;
end;
//------------------------------------------------------------------------------
function MimeDecode(var InputBuffer; const InputBytesCount: Cardinal; var OutputBuffer): Cardinal;
procedure MimeEncode(const InputBuffer; const InputByteCount: SizeInt; out OutputBuffer);
var
ByteBuffer, ByteBufferSpace: Cardinal;
IDelta, ODelta: SizeInt;
I, O: PByte;
begin
ByteBuffer := 0;
ByteBufferSpace := 4;
Result := MimeDecodePartial(InputBuffer, InputBytesCount, OutputBuffer, ByteBuffer, ByteBufferSpace);
Inc(Result, MimeDecodePartialEnd(PAnsiChar(Cardinal(OutputBuffer) + Result)^, ByteBuffer, ByteBufferSpace));
MimeEncodeFullLines(InputBuffer, InputByteCount, OutputBuffer);
IDelta := InputByteCount div MIME_DECODED_LINE_BREAK; // Number of lines processed so far.
ODelta := IDelta * (MIME_ENCODED_LINE_BREAK + 2);
IDelta := IDelta * MIME_DECODED_LINE_BREAK;
I := @InputBuffer;
Inc(I, IDelta);
O := @OutputBuffer;
Inc(O, ODelta);
MimeEncodeNoCRLF(I^, InputByteCount - IDelta, O^);
end;
//------------------------------------------------------------------------------
function MimeDecodePartial(var InputBuffer; const InputBytesCount: Cardinal;
var OutputBuffer; var ByteBuffer: Cardinal; var ByteBufferSpace: Cardinal): Cardinal;
function MimeDecodePartial(const InputBuffer; const InputByteCount: SizeInt; out OutputBuffer;
var ByteBuffer: Cardinal; var ByteBufferSpace: Cardinal): SizeInt;
var
lByteBuffer, lByteBufferSpace, C: Cardinal;
InPtr, InLimitPtr: ^Byte;
LByteBuffer, LByteBufferSpace, C: Cardinal;
InPtr, OuterLimit: PByte;
OutPtr: PByte3;
begin
if InputBytesCount > 0 then
if InputByteCount > 0 then
begin
InPtr := @InputBuffer;
Cardinal(InLimitPtr) := Cardinal(InPtr) + InputBytesCount;
OuterLimit := Pointer(TJclAddr(InPtr) + TJclAddr(InputByteCount));
OutPtr := @OutputBuffer;
lByteBuffer := ByteBuffer;
lByteBufferSpace := ByteBufferSpace;
while InPtr <> InLimitPtr do
LByteBuffer := ByteBuffer;
LByteBufferSpace := ByteBufferSpace;
while InPtr <> OuterLimit do
begin
C := MIME_DECODE_TABLE[InPtr^]; // Read from InputBuffer.
{ Read from InputBuffer. }
C := MIME_DECODE_TABLE[InPtr^];
Inc(InPtr);
if C = $FF then
Continue;
LByteBuffer := LByteBuffer shl 6;
LByteBuffer := LByteBuffer or C;
Dec(LByteBufferSpace);
{ Have we read 4 bytes from InputBuffer? }
if LByteBufferSpace <> 0 then
Continue;
lByteBuffer := lByteBuffer shl 6;
lByteBuffer := lByteBuffer or C;
Dec(lByteBufferSpace);
if lByteBufferSpace <> 0 then
Continue; // Read 4 bytes from InputBuffer?
OutPtr.B3 := Byte(lByteBuffer); // Write 3 bytes to OutputBuffer (in reverse order).
lByteBuffer := lByteBuffer shr 8;
OutPtr.B2 := Byte(lByteBuffer);
lByteBuffer := lByteBuffer shr 8;
OutPtr.B1 := Byte(lByteBuffer);
lByteBuffer := 0;
{ Write 3 bytes to OutputBuffer (in reverse order). }
OutPtr^.B3 := Byte(LByteBuffer);
LByteBuffer := LByteBuffer shr 8;
OutPtr^.B2 := Byte(LByteBuffer);
LByteBuffer := LByteBuffer shr 8;
OutPtr^.B1 := Byte(LByteBuffer);
LByteBuffer := 0;
Inc(OutPtr);
lByteBufferSpace := 4;
LByteBufferSpace := 4;
end;
ByteBuffer := lByteBuffer;
ByteBufferSpace := lByteBufferSpace;
Result := Cardinal(OutPtr) - Cardinal(@OutputBuffer);
ByteBuffer := LByteBuffer;
ByteBufferSpace := LByteBufferSpace;
Result := SizeInt(TJclAddr(OutPtr) - TJclAddr(@OutputBuffer));
end
else
Result := 0;
end;
//------------------------------------------------------------------------------
function MimeDecodePartialEnd(var OutputBuffer; const ByteBuffer: Cardinal;
const ByteBufferSpace: Cardinal): Cardinal;
function MimeDecodePartialEnd(out OutputBuffer; const ByteBuffer: Cardinal;
const ByteBufferSpace: Cardinal): SizeInt;
var
lByteBuffer: Cardinal;
LByteBuffer: Cardinal;
begin
case ByteBufferSpace of
1:
begin
lByteBuffer := ByteBuffer shr 2;
PByte3(@OutputBuffer).B2 := Byte(lByteBuffer);
lByteBuffer := lByteBuffer shr 8;
PByte3(@OutputBuffer).B1 := Byte(lByteBuffer);
LByteBuffer := ByteBuffer shr 2;
PByte3(@OutputBuffer)^.B2 := Byte(LByteBuffer);
LByteBuffer := LByteBuffer shr 8;
PByte3(@OutputBuffer)^.B1 := Byte(LByteBuffer);
Result := 2;
end;
2:
begin
lByteBuffer := ByteBuffer shr 4;
PByte3(@OutputBuffer).B1 := Byte(lByteBuffer);
LByteBuffer := ByteBuffer shr 4;
PByte3(@OutputBuffer)^.B1 := Byte(LByteBuffer);
Result := 1;
end;
else
@ -906,5 +879,106 @@ begin
end;
end;
function MimeEncodeString(const S: AnsiString): AnsiString;
var
L: SizeInt;
begin
if S <> '' then
begin
L := Length(S);
SetLength(Result, MimeEncodedSize(L));
MimeEncode(PAnsiChar(S)^, L, PAnsiChar(Result)^);
end
else
Result := '';
end;
function MimeDecodedSize(const InputSize: SizeInt): SizeInt;
begin
Result := (InputSize + 3) div 4 * 3;
end;
function MimeDecodeString(const S: AnsiString): AnsiString;
var
ByteBuffer, ByteBufferSpace: Cardinal;
L: SizeInt;
P, R: PAnsiChar;
begin
if S <> '' then
begin
L := Length(S);
SetLength(Result, MimeDecodedSize(L));
ByteBuffer := 0;
ByteBufferSpace := 4;
P := PAnsiChar(S);
R := PAnsiChar(Result);
L := MimeDecodePartial(P^, L, R^, ByteBuffer, ByteBufferSpace);
Inc(R, L);
Inc(L, MimeDecodePartialEnd(R^, ByteBuffer, ByteBufferSpace));
SetLength(Result, L);
end
else
Result := '';
end;
procedure MimeEncodeStream(const InputStream: TStream; const OutputStream: TStream);
var
InputBuffer: array [0..MIME_BUFFER_SIZE - 1] of Byte;
OutputBuffer: array [0..(MIME_BUFFER_SIZE + 2) div 3 * 4 + MIME_BUFFER_SIZE div MIME_DECODED_LINE_BREAK * 2 - 1] of Byte;
BytesRead: SizeInt;
IDelta, ODelta: SizeInt;
I, O: PByte;
begin
InputBuffer[0] := 0;
BytesRead := InputStream.Read(InputBuffer, SizeOf(InputBuffer));
while BytesRead = Length(InputBuffer) do
begin
MimeEncodeFullLines(InputBuffer, Length(InputBuffer), OutputBuffer);
OutputStream.Write(OutputBuffer, Length(OutputBuffer));
BytesRead := InputStream.Read(InputBuffer, Length(InputBuffer));
end;
MimeEncodeFullLines(InputBuffer, BytesRead, OutputBuffer);
IDelta := BytesRead div MIME_DECODED_LINE_BREAK; // Number of lines processed.
ODelta := IDelta * (MIME_ENCODED_LINE_BREAK + 2);
IDelta := IDelta * MIME_DECODED_LINE_BREAK;
I := @InputBuffer;
Inc(I, IDelta);
O := @OutputBuffer;
Inc(O, ODelta);
MimeEncodeNoCRLF(I^, BytesRead - IDelta, O^);
OutputStream.Write(OutputBuffer, MimeEncodedSize(BytesRead));
end;
procedure MimeDecodeStream(const InputStream: TStream; const OutputStream: TStream);
var
ByteBuffer, ByteBufferSpace: Cardinal;
InputBuffer: array [0..MIME_BUFFER_SIZE - 1] of Byte;
OutputBuffer: array [0..(MIME_BUFFER_SIZE + 3) div 4 * 3 - 1] of Byte;
BytesRead: SizeInt;
begin
ByteBuffer := 0;
ByteBufferSpace := 4;
InputBuffer[0] := 0;
BytesRead := InputStream.Read(InputBuffer, SizeOf(InputBuffer));
while BytesRead > 0 do
begin
OutputStream.Write(OutputBuffer, MimeDecodePartial(InputBuffer, BytesRead, OutputBuffer, ByteBuffer, ByteBufferSpace));
BytesRead := InputStream.Read(InputBuffer, Length(InputBuffer));
end;
OutputStream.Write(OutputBuffer, MimeDecodePartialEnd(OutputBuffer, ByteBuffer, ByteBufferSpace));
end;
end.