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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 1.8 10/26/2004 8:12:30 PM JPMugaas
Now uses TIdStrings and TIdStringList for portability.
Rev 1.7 6/11/2004 8:28:56 AM DSiders
Added "Do not Localize" comments.
Rev 1.6 5/14/2004 12:14:50 PM BGooijen
Fix for weird dotnet bug when querying the local binding
Rev 1.5 4/18/04 2:45:54 PM RLebeau
Conversion support for Int64 values
Rev 1.4 2004.03.07 11:45:26 AM czhower
Flushbuffer fix + other minor ones found
Rev 1.3 3/6/2004 5:16:30 PM JPMugaas
Bug 67 fixes. Do not write to const values.
Rev 1.2 2/10/2004 7:33:26 PM JPMugaas
I had to move the wrapper exception here for DotNET stack because Borland's
update 1 does not permit unlisted units from being put into a package. That
now would report an error and I didn't want to move IdExceptionCore into the
System package.
Rev 1.1 2/4/2004 8:48:30 AM JPMugaas
Should compile.
Rev 1.0 2004.02.03 3:14:46 PM czhower
Move and updates
Rev 1.32 2/1/2004 6:10:54 PM JPMugaas
GetSockOpt.
Rev 1.31 2/1/2004 3:28:32 AM JPMugaas
Changed WSGetLocalAddress to GetLocalAddress and moved into IdStack since
that will work the same in the DotNET as elsewhere. This is required to
reenable IPWatch.
Rev 1.30 1/31/2004 1:12:54 PM JPMugaas
Minor stack changes required as DotNET does support getting all IP addresses
just like the other stacks.
Rev 1.29 2004.01.22 2:46:52 PM czhower
Warning fixed.
Rev 1.28 12/4/2003 3:14:54 PM BGooijen
Added HostByAddress
Rev 1.27 1/3/2004 12:22:14 AM BGooijen
Added function SupportsIPv6
Rev 1.26 1/2/2004 4:24:08 PM BGooijen
This time both IPv4 and IPv6 work
Rev 1.25 02/01/2004 15:58:00 HHariri
fix for bind
Rev 1.24 12/31/2003 9:52:00 PM BGooijen
Added IPv6 support
Rev 1.23 10/28/2003 10:12:36 PM BGooijen
DotNet
Rev 1.22 10/26/2003 10:31:16 PM BGooijen
oops, checked in debug version <g>, this is the right one
Rev 1.21 10/26/2003 5:04:26 PM BGooijen
UDP Server and Client
Rev 1.20 10/21/2003 11:03:50 PM BGooijen
More SendTo, ReceiveFrom
Rev 1.19 10/21/2003 9:24:32 PM BGooijen
Started on SendTo, ReceiveFrom
Rev 1.18 10/19/2003 5:21:30 PM BGooijen
SetSocketOption
Rev 1.17 10/11/2003 4:16:40 PM BGooijen
Compiles again
Rev 1.16 10/5/2003 9:55:28 PM BGooijen
TIdTCPServer works on D7 and DotNet now
Rev 1.15 10/5/2003 3:10:42 PM BGooijen
forgot to clone the Sockets list in some Select methods, + added Listen and
Accept
Rev 1.14 10/5/2003 1:52:14 AM BGooijen
Added typecasts with network ordering calls, there are required for some
reason
Rev 1.13 10/4/2003 10:39:38 PM BGooijen
Renamed WSXXX functions in implementation section too
Rev 1.12 04/10/2003 22:32:00 HHariri
moving of WSNXXX method to IdStack and renaming of the DotNet ones
Rev 1.11 04/10/2003 21:28:42 HHariri
Netowkr ordering functions
Rev 1.10 10/3/2003 11:02:02 PM BGooijen
fixed calls to Socket.Select
Rev 1.9 10/3/2003 11:39:38 PM GGrieve
more work
Rev 1.8 10/3/2003 12:09:32 AM BGooijen
DotNet
Rev 1.7 10/2/2003 8:23:52 PM BGooijen
.net
Rev 1.6 10/2/2003 8:08:52 PM BGooijen
.Connect works not in .net
Rev 1.5 10/2/2003 7:31:20 PM BGooijen
.net
Rev 1.4 10/2/2003 6:12:36 PM GGrieve
work in progress (hardly started)
Rev 1.3 2003.10.01 9:11:24 PM czhower
.Net
Rev 1.2 2003.10.01 5:05:18 PM czhower
.Net
Rev 1.1 2003.10.01 1:12:40 AM czhower
.Net
Rev 1.0 2003.09.30 10:35:40 AM czhower
Initial Checkin
}
unit IdStackDotNet;
interface
{$i IdCompilerDefines.inc}
uses
Classes,
IdGlobal, IdStack, IdStackConsts,
System.Collections, System.IO, System.Net, System.Net.Sockets;
type
TIdSocketListDotNet = class(TIdSocketList)
protected
FSockets: ArrayList;
function GetItem(AIndex: Integer): TIdStackSocketHandle; override;
public
constructor Create; override;
destructor Destroy; override;
procedure Add(AHandle: TIdStackSocketHandle); override;
procedure Remove(AHandle: TIdStackSocketHandle); override;
function Count: Integer; override;
procedure Clear; override;
function Clone: TIdSocketList; override;
function ContainsSocket(AHandle: TIdStackSocketHandle): boolean; override;
class function Select(AReadList: TIdSocketList; AWriteList: TIdSocketList;
AExceptList: TIdSocketList; const ATimeout: Integer = IdTimeoutInfinite): Boolean; override;
function SelectRead(const ATimeout: Integer = IdTimeoutInfinite): Boolean; override;
function SelectReadList(var VSocketList: TIdSocketList;
const ATimeout: Integer = IdTimeoutInfinite): Boolean; override;
end;
TIdStackDotNet = class(TIdStack)
protected
//Stuff for ICMPv6
{$IFDEF DOTNET_2_OR_ABOVE}
procedure QueryRoute(s : TIdStackSocketHandle; const AIP: String;
const APort: TIdPort; var VSource, VDest : TIdBytes);
procedure WriteChecksumIPv6(s: TIdStackSocketHandle;
var VBuffer: TIdBytes; const AOffset: Integer; const AIP: String;
const APort: TIdPort);
{$ENDIF}
function ReadHostName: string; override;
function HostByName(const AHostName: string;
const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION): string; override;
//internal IP Mutlicasting membership stuff
procedure MembershipSockOpt(AHandle: TIdStackSocketHandle;
const AGroupIP, ALocalIP : String; const ASockOpt : TIdSocketOption;
const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION);
public
[ThreadStatic]
LastSocketError: Integer; //static;
constructor Create; override;
destructor Destroy; override;
procedure Bind(ASocket: TIdStackSocketHandle; const AIP: string; const APort: TIdPort;
const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION ); override;
procedure Connect(const ASocket: TIdStackSocketHandle; const AIP: string;
const APort: TIdPort; const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION); override;
procedure Disconnect(ASocket: TIdStackSocketHandle); override;
procedure GetPeerName(ASocket: TIdStackSocketHandle; var VIP: string;
var VPort: TIdPort; var VIPVersion: TIdIPVersion); override;
procedure GetSocketName(ASocket: TIdStackSocketHandle; var VIP: string;
var VPort: TIdPort; var VIPVersion: TIdIPVersion); override;
function WSGetLastError: Integer; override;
procedure WSSetLastError(const AErr : Integer); override;
function NewSocketHandle(const ASocketType: TIdSocketType;
const AProtocol: TIdSocketProtocol;
const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION;
const AOverlapped: Boolean = False) : TIdStackSocketHandle; override;
// Result:
// > 0: Number of bytes received
// 0: Connection closed gracefully
// Will raise exceptions in other cases
function Receive(ASocket: TIdStackSocketHandle; var VBuffer: TIdBytes) : Integer; override;
function Send(ASocket: TIdStackSocketHandle; const ABuffer: TIdBytes;
const AOffset: Integer = 0; const ASize: Integer = -1): Integer; override;
function IOControl(const s: TIdStackSocketHandle; const cmd: UInt32;
var arg: UInt32): Integer; override;
function ReceiveFrom(ASocket: TIdStackSocketHandle; var VBuffer: TIdBytes;
var VIP: string; var VPort: TIdPort; var VIPVersion: TIdIPVersion): Integer; override;
function ReceiveMsg(ASocket: TIdStackSocketHandle; var VBuffer: TIdBytes;
APkt: TIdPacketInfo): UInt32; override;
function SendTo(ASocket: TIdStackSocketHandle; const ABuffer: TIdBytes;
const AOffset: Integer; const ASize: Integer; const AIP: string; const APort: TIdPort;
const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION): Integer; override;
function HostToNetwork(AValue: UInt16): UInt16; override;
function NetworkToHost(AValue: UInt16): UInt16; override;
function HostToNetwork(AValue: UInt32): UInt32; override;
function NetworkToHost(AValue: UInt32): UInt32; override;
function HostToNetwork(AValue: TIdUInt64): TIdUInt64; override;
function NetworkToHost(AValue: TIdUInt64): TIdUInt64; override;
function HostByAddress(const AAddress: string;
const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION): string; override;
procedure Listen(ASocket: TIdStackSocketHandle; ABackLog: Integer);override;
function Accept(ASocket: TIdStackSocketHandle; var VIP: string; var VPort: TIdPort;
var VIPVersion: TIdIPVersion): TIdStackSocketHandle; override;
procedure GetSocketOption(ASocket: TIdStackSocketHandle; ALevel: TIdSocketOptionLevel;
AOptName: TIdSocketOption; out AOptVal: Integer); override;
procedure SetSocketOption(ASocket: TIdStackSocketHandle; ALevel:TIdSocketOptionLevel;
AOptName: TIdSocketOption; AOptVal: Integer); overload; override;
function SupportsIPv6: Boolean; override;
//multicast stuff Kudzu permitted me to add here.
procedure SetMulticastTTL(AHandle: TIdStackSocketHandle; const AValue : Byte;
const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION); override;
procedure SetLoopBack(AHandle: TIdStackSocketHandle; const AValue: Boolean;
const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION); override;
procedure DropMulticastMembership(AHandle: TIdStackSocketHandle;
const AGroupIP, ALocalIP : String; const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION); override;
procedure AddMulticastMembership(AHandle: TIdStackSocketHandle;
const AGroupIP, ALocalIP : String; const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION); override;
procedure WriteChecksum(s : TIdStackSocketHandle; var VBuffer : TIdBytes;
const AOffset : Integer; const AIP : String; const APort : TIdPort;
const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION); override;
procedure GetLocalAddressList(AAddresses: TIdStackLocalAddressList); override;
procedure SetKeepAliveValues(ASocket: TIdStackSocketHandle;
const AEnabled: Boolean; const ATimeMS, AInterval: Integer); override;
end;
{$IFDEF DOTNET_1_1}
EIdNotSupportedInMicrosoftNET11 = class(EIdStackError);
{$ENDIF}
var
GDotNETStack : TIdStackDotNet = nil;
implementation
uses
IdException, IdResourceStrings;
const
IdIPFamily : array[TIdIPVersion] of AddressFamily = (AddressFamily.InterNetwork, AddressFamily.InterNetworkV6);
{ TIdStackDotNet }
procedure DoRaiseException(AStack: TIdStackDotNet; AException: System.Exception);
var
LSocketError : System.Net.Sockets.SocketException;
E: EIdException;
begin
if AException is System.Net.Sockets.SocketException then
begin
LSocketError := AException as System.Net.Sockets.SocketException;
AStack.LastSocketError := LSocketError.ErrorCode;
E := EIdSocketError.CreateError(LSocketError.ErrorCode, LSocketError.Message)
end else begin
E := EIdWrapperException.Create(AException.Message, AException);
end;
IndyRaiseOuterException(E);
end;
{ TIdStackDotNet }
constructor TIdStackDotNet.Create;
begin
inherited Create;
GDotNETStack := Self;
end;
destructor TIdStackDotNet.Destroy;
begin
GDotNETStack := nil;
inherited Destroy;
end;
procedure TIdStackDotNet.Bind(ASocket: TIdStackSocketHandle; const AIP: string;
const APort: TIdPort; const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION);
var
LIPAddr : IPAddress;
LEndPoint : IPEndPoint;
LIP: String;
begin
try
if not (AIPVersion in [Id_IPv4, Id_IPv6]) then
begin
IPVersionUnsupported;
end;
LIP := AIP;
if LIP = '' then begin
if AIPVersion = Id_IPv4 then begin
LIPAddr := IPAddress.Any;
end else begin
LIPAddr := IPAddress.IPv6Any;
end;
end else begin
LIPAddr := IPAddress.Parse(LIP);
end;
LEndPoint := IPEndPoint.Create(LIPAddr, APort);
ASocket.Bind(LEndPoint);
except
on e: Exception do begin
DoRaiseException(Self, e);
end;
end;
end;
procedure TIdStackDotNet.Connect(const ASocket: TIdStackSocketHandle; const AIP: string;
const APort: TIdPort; const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION);
var
LEndPoint : IPEndPoint;
begin
try
LEndPoint := IPEndPoint.Create(IPAddress.Parse(AIP), APort);
ASocket.Connect(LEndPoint);
except
on e: Exception do begin
DoRaiseException(Self, e);
end;
end;
end;
procedure TIdStackDotNet.Disconnect(ASocket: TIdStackSocketHandle);
begin
try
ASocket.Close;
except
on e: Exception do begin
DoRaiseException(Self, e);
end;
end;
end;
procedure TIdStackDotNet.Listen(ASocket: TIdStackSocketHandle; ABackLog: Integer);
begin
try
ASocket.Listen(ABackLog);
except
on e: Exception do begin
DoRaiseException(Self, e);
end;
end;
end;
function TIdStackDotNet.Accept(ASocket: TIdStackSocketHandle;
var VIP: string; var VPort: TIdPort; var VIPVersion: TIdIPVersion): TIdStackSocketHandle;
var
LEndPoint: IPEndPoint;
begin
try
Result := ASocket.Accept();
LEndPoint := Result.RemoteEndPoint as IPEndPoint;
if (Result.AddressFamily = AddressFamily.InterNetwork) or
(Result.AddressFamily = AddressFamily.InterNetworkV6) then
begin
VIP := LEndPoint.Address.ToString();
VPort := LEndPoint.Port;
if Result.AddressFamily = AddressFamily.InterNetworkV6 then begin
VIPVersion := Id_IPv6;
end else begin
VIPVersion := Id_IPv4;
end;
end else
begin
Result := Id_INVALID_SOCKET;
IPVersionUnsupported;
end;
except
on e: Exception do begin
DoRaiseException(Self, e);
end;
end;
end;
procedure TIdStackDotNet.GetPeerName(ASocket: TIdStackSocketHandle; var VIP: string;
var VPort: TIdPort; var VIPVersion: TIdIPVersion);
var
LEndPoint : IPEndPoint;
begin
try
if (ASocket.AddressFamily = AddressFamily.InterNetwork) or
(ASocket.AddressFamily = AddressFamily.InterNetworkV6) then
begin
LEndPoint := ASocket.RemoteEndPoint as IPEndPoint;
VIP := LEndPoint.Address.ToString;
VPort := LEndPoint.Port;
if ASocket.AddressFamily = AddressFamily.InterNetworkV6 then begin
VIPVersion := Id_IPv6;
end else begin
VIPVersion := Id_IPv4;
end;
end else begin
IPVersionUnsupported;
end;
except
on e: Exception do begin
DoRaiseException(Self, e);
end;
end;
end;
procedure TIdStackDotNet.GetSocketName(ASocket: TIdStackSocketHandle; var VIP: string;
var VPort: TIdPort; var VIPVersion: TIdIPVersion);
var
LEndPoint : IPEndPoint;
begin
try
if (ASocket.AddressFamily = AddressFamily.InterNetwork) or
(ASocket.AddressFamily = AddressFamily.InterNetworkV6) then
begin
LEndPoint := ASocket.LocalEndPoint as IPEndPoint;
VIP := LEndPoint.Address.ToString;
VPort := LEndPoint.Port;
if ASocket.AddressFamily = AddressFamily.InterNetworkV6 then begin
VIPVersion := Id_IPv6;
end else begin
VIPVersion := Id_IPv4;
end;
end else begin
IPVersionUnsupported;
end;
except
on e: Exception do begin
DoRaiseException(Self, e);
end;
end;
end;
function TIdStackDotNet.HostByName(const AHostName: string;
const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION): string;
var
LIP: array of IPAddress;
a: Integer;
begin
try
{
[Warning] IdStackDotNet.pas(417): W1000 Symbol 'Resolve' is deprecated:
'Resolve is obsoleted for this type, please use GetHostEntry instead.
http://go.microsoft.com/fwlink/?linkid=14202'
}
{$IFDEF DOTNET_2_OR_ABOVE}
LIP := Dns.GetHostEntry(AHostName).AddressList;
{$ENDIF}
{$IFDEF DOTNET_1_1}
LIP := Dns.Resolve(AHostName).AddressList;
{$ENDIF}
for a := Low(LIP) to High(LIP) do begin
if LIP[a].AddressFamily = IdIPFamily[AIPVersion] then begin
Result := LIP[a].ToString;
Exit;
end;
end;
raise System.Net.Sockets.SocketException.Create(11001);
except
on e: Exception do begin
DoRaiseException(Self, e);
end;
end;
end;
function TIdStackDotNet.HostByAddress(const AAddress: string;
const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION): string;
begin
try
{$IFDEF DOTNET_2_OR_ABOVE}
Result := Dns.GetHostEntry(AAddress).HostName;
{$ENDIF}
{$IFDEF DOTNET_1_1}
Result := Dns.GetHostByAddress(AAddress).HostName;
{$ENDIF}
except
on e: Exception do begin
DoRaiseException(Self, e);
end;
end;
end;
function TIdStackDotNet.WSGetLastError: Integer;
begin
Result := LastSocketError;
end;
procedure TIdStackDotNet.WSSetLastError(const AErr : Integer);
begin
LastSocketError := AErr;
end;
function TIdStackDotNet.NewSocketHandle(const ASocketType: TIdSocketType;
const AProtocol: TIdSocketProtocol; const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION;
const AOverlapped: Boolean = False): TIdStackSocketHandle;
begin
try
Result := Socket.Create(IdIPFamily[AIPVersion], ASocketType, AProtocol);
except
on E: Exception do begin
DoRaiseException(Self, E);
end;
end;
end;
function TIdStackDotNet.ReadHostName: string;
begin
try
Result := System.Net.DNS.GetHostName;
except
on E: Exception do begin
DoRaiseException(Self, e);
end;
end;
end;
function TIdStackDotNet.Receive(ASocket: TIdStackSocketHandle; var VBuffer: TIdBytes): Integer;
begin
try
Result := ASocket.Receive(VBuffer, Length(VBuffer), SocketFlags.None);
except
on e: Exception do begin
DoRaiseException(Self, e);
end;
end;
end;
function TIdStackDotNet.Send(ASocket: TIdStackSocketHandle; const ABuffer: TIdBytes;
const AOffset: Integer = 0; const ASize: Integer = -1): Integer;
var
Tmp: TIdBytes;
begin
Result := IndyLength(ABuffer, ASize, AOffset);
try
if Result > 0 then begin
Result := ASocket.Send(ABuffer, AOffset, Result, SocketFlags.None);
end else
begin
// RLebeau: this is to allow UDP sockets to send 0-length packets. Send()
// raises an exception if its buffer parameter is nil, and a 0-length byte
// array is nil...
//
// TODO: check the socket type and only allow this for UDP sockets...
//
SetLength(Tmp, 1);
Tmp[0] := $00;
Result := ASocket.Send(Tmp, 0, 0, SocketFlags.None);
end;
except
on E: Exception do begin
DoRaiseException(Self, E);
end;
end;
end;
function TIdStackDotNet.ReceiveFrom(ASocket: TIdStackSocketHandle; var VBuffer: TIdBytes;
var VIP: string; var VPort: TIdPort; var VIPVersion: TIdIPVersion): Integer;
var
LIPAddr : IPAddress;
LEndPoint : EndPoint;
begin
Result := 0; // to make the compiler happy
case ASocket.AddressFamily of
AddressFamily.InterNetwork: LIPAddr := IPAddress.Any;
AddressFamily.InterNetworkV6: LIPAddr := IPAddress.IPv6Any;
else
IPVersionUnsupported;
end;
LEndPoint := IPEndPoint.Create(LIPAddr, 0);
try
try
Result := ASocket.ReceiveFrom(VBuffer, SocketFlags.None, LEndPoint);
except
on e: Exception do begin
DoRaiseException(Self, e);
end;
end;
VIP := IPEndPoint(LEndPoint).Address.ToString;
VPort := IPEndPoint(LEndPoint).Port;
case IPEndPoint(LEndPoint).AddressFamily of
AddressFamily.InterNetwork: VIPVersion := Id_IPv4;
AddressFamily.InterNetworkV6: VIPVersion := Id_IPv6;
end;
finally
LEndPoint.Free;
end;
end;
function TIdStackDotNet.SendTo(ASocket: TIdStackSocketHandle; const ABuffer: TIdBytes;
const AOffset: Integer; const ASize: Integer; const AIP: string; const APort: TIdPort;
const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION): Integer;
var
LEndPoint : EndPoint;
Tmp: TIdBytes;
begin
Result := IndyLength(ABuffer, ASize, AOffset);
try
LEndPoint := IPEndPoint.Create(IPAddress.Parse(AIP), APort);
try
if Result > 0 then begin
Result := ASocket.SendTo(ABuffer, AOffset, Result, SocketFlags.None, LEndPoint);
end else
begin
// RLebeau: this is to allow UDP sockets to send 0-length packets. SendTo()
// raises an exception if its buffer parameter is nil, and a 0-length byte
// array is nil...
//
// TODO: check the socket type and only allow this for UDP sockets...
//
SetLength(Tmp, 1);
Tmp[0] := $00;
Result := ASocket.SendTo(Tmp, 0, 0, SocketFlags.None, LEndPoint);
end.
finally
LEndPoint.Free;
end;
except
on e: Exception do begin
DoRaiseException(Self, e);
end;
end;
end;
//////////////////////////////////////////////////////////////
constructor TIdSocketListDotNet.Create;
begin
inherited Create;
FSockets := ArrayList.Create;
end;
destructor TIdSocketListDotNet.Destroy;
begin
FSockets.Free;
inherited Destroy;
end;
procedure TIdSocketListDotNet.Add(AHandle: TIdStackSocketHandle);
begin
FSockets.Add(AHandle);
end;
procedure TIdSocketListDotNet.Clear;
begin
FSockets.Clear;
end;
function TIdSocketListDotNet.ContainsSocket(AHandle: TIdStackSocketHandle): Boolean;
begin
Result := FSockets.Contains(AHandle);
end;
function TIdSocketListDotNet.Count: Integer;
begin
Result := FSockets.Count;
end;
function TIdSocketListDotNet.GetItem(AIndex: Integer): TIdStackSocketHandle;
begin
Result := (FSockets.Item[AIndex]) as TIdStackSocketHandle;
end;
procedure TIdSocketListDotNet.Remove(AHandle: TIdStackSocketHandle);
begin
FSockets.Remove(AHandle);
end;
const
cMaxMSPerLoop = MaxInt div 1000; // max milliseconds per Socket.Select() call
function TIdSocketListDotNet.SelectRead(const ATimeout: Integer): Boolean;
var
LTimeout: Integer;
function DoSelect(const AInterval: Integer): Boolean;
var
LTemp: ArrayList;
begin
// DotNet updates this object on return, so we need to copy it each time we need it
LTemp := ArrayList(FSockets.Clone);
try
Socket.Select(LTemp, nil, nil, AInterval);
Result := LTemp.Count > 0;
finally
LTemp.Free;
end;
end;
begin
Result := False;
try
// RLebeau 8/27/2007: the .NET docs say that -1 is supposed to
// cause an infinite timeout, but it doesn't actually work!
// So loop manually instead until Microsoft fixes it...
if ATimeout = IdTimeoutInfinite then
begin
repeat
Result := DoSelect(MaxInt);
until Result;
end else
begin
// RLebeau: Select() accepts a timeout in microseconds, not
// milliseconds, so have to loop anyway to handle timeouts
// that are greater then 35 minutes...
LTimeout := ATimeout;
while LTimeout >= cMaxMSPerLoop do
begin
Result := DoSelect(cMaxMSPerLoop * 1000);
if Result then begin
Exit;
end;
Dec(LTimeout, cMaxMSPerLoop);
end;
if (not Result) and (LTimeout > 0) then begin
Result := DoSelect(LTimeout * 1000);
end;
end;
except
on e: ArgumentNullException do begin
Result := False;
end;
on e: Exception do begin
DoRaiseException(GDotNETStack, e);
end;
end;
end;
function TIdSocketListDotNet.SelectReadList(var VSocketList: TIdSocketList;
const ATimeout: Integer): Boolean;
var
LTemp: ArrayList;
LTimeout: Integer;
function DoSelect(const AInterval: Integer; var VList: ArrayList): Boolean;
var
LLTemp: ArrayList;
begin
// DotNet updates this object on return, so we need to copy it each time we need it
LLTemp := ArrayList(FSockets.Clone);
try
Socket.Select(LLTemp, nil, nil, AInterval);
Result := LLTemp.Count > 0;
if Result then
begin
VList := LLTemp;
LLTemp := nil;
end;
finally
LLTemp.Free;
end;
end;
begin
Result := False;
try
// RLebeau 8/27/2007: the .NET docs say that -1 is supposed to
// cause an infinite timeout, but it doesn't actually work!
// So loop manually instead until Microsoft fixes it...
if ATimeout = IdTimeoutInfinite then
begin
repeat
Result := DoSelect(MaxInt, LTemp);
until Result;
end else
begin
// RLebeau: Select() accepts a timeout in microseconds, not
// milliseconds, so have to loop anyway to handle timeouts
// that are greater then 35 minutes...
LTimeout := ATimeout;
while LTimeout >= cMaxMSPerLoop do
begin
Result := DoSelect(cMaxMSPerLoop * 1000, LTemp);
if Result then begin
Break;
end;
Dec(LTimeout, cMaxMSPerLoop);
end;
if (not Result) and (LTimeout > 0) then begin
Result := DoSelect(LTimeout * 1000, LTemp);
end;
end;
if Result then
begin
try
if VSocketList = nil then begin
VSocketList := TIdSocketList.CreateSocketList;
end;
TIdSocketListDotNet(VSocketList).FSockets.Free;
TIdSocketListDotNet(VSocketList).FSockets := LTemp;
except
LTemp.Free;
raise;
end;
end;
except
on e: ArgumentNullException do begin
Result := False;
end;
on e: Exception do begin
DoRaiseException(GDotNETStack, e);
end;
end;
end;
class function TIdSocketListDotNet.Select(AReadList, AWriteList, AExceptList: TIdSocketList;
const ATimeout: Integer): Boolean;
var
LTimeout: Integer;
LReadTemp, LWriteTemp, LExceptTemp: ArrayList;
function DoSelect(var VReadList, VWriteList, VExceptList: ArrayList;
const AInterval: Integer): Boolean;
var
LLReadTemp: ArrayList;
LLWriteTemp: ArrayList;
LLExceptTemp: ArrayList;
begin
LLReadTemp := nil;
LLWriteTemp := nil;
LLExceptTemp := nil;
VReadList := nil;
VWriteList := nil;
VExceptList := nil;
// DotNet updates these objects on return, so we need to copy them each time we need them
if Assigned(AReadList) and Assigned(TIdSocketListDotNet(AReadList).FSockets) then begin
LLReadTemp := ArrayList(TIdSocketListDotNet(AReadList).FSockets.Clone);
end;
try
if Assigned(AWriteList) and Assigned(TIdSocketListDotNet(AWriteList).FSockets) then begin
LLWriteTemp := ArrayList(TIdSocketListDotNet(AWriteList).FSockets.Clone);
end;
try
if Assigned(AExceptList) and Assigned(TIdSocketListDotNet(AExceptList).FSockets) then begin
LLExceptTemp := ArrayList(TIdSocketListDotNet(AExceptList).FSockets.Clone);
end;
try
Socket.Select(LLReadTemp, LLWriteTemp, LLExceptTemp, AInterval);
Result := (LLReadTemp.Count > 0) or
(LLWriteTemp.Count > 0) or
(LLExceptTemp.Count > 0);
if Result then
begin
VReadList := LLReadTemp;
LLReadTemp:= nil;
VWriteList := LLWriteTemp;
LLWriteTemp:= nil;
VExceptList := LLExceptTemp;
LLExceptTemp:= nil;
end;
finally
LLExceptTemp.Free;
end;
finally
LLWriteTemp.Free;
end;
finally
LLReadTemp.Free;
end;
end;
begin
Result := False;
try
// RLebeau 8/27/2007: the .NET docs say that -1 is supposed to
// cause an infinite timeout, but it doesn't actually work!
// So loop manually instead until Microsoft fixes it...
if ATimeout = IdTimeoutInfinite then
begin
repeat
Result := DoSelect(
LReadTemp, LWriteTemp, LExceptTemp,
MaxInt);
until Result;
end else
begin
// RLebeau: Select() accepts a timeout in microseconds, not
// milliseconds, so have to loop anyway to handle timeouts
// that are greater then 35 minutes...
LTimeout := ATimeout;
while LTimeout >= cMaxMSPerLoop do
begin
Result := DoSelect(
LReadTemp, LWriteTemp, LExceptTemp,
cMaxMSPerLoop * 1000);
if Result then begin
Break;
end;
Dec(LTimeout, cMaxMSPerLoop);
end;
if (not Result) and (LTimeout > 0) then
begin
Result := DoSelect(
LReadTemp, LWriteTemp, LExceptTemp,
LTimeout * 1000);
end;
end;
// RLebeau: this method is meant to update the
// source lists inlined regardless of the Result...
if Assigned(AReadList) then
begin
TIdSocketListDotNet(AReadList).FSockets.Free;
TIdSocketListDotNet(AReadList).FSockets := LReadTemp;
end;
if Assigned(AWriteList) then
begin
TIdSocketListDotNet(AWriteList).FSockets.Free;
TIdSocketListDotNet(AWriteList).FSockets := LWriteTemp;
end;
if Assigned(AExceptList) then
begin
TIdSocketListDotNet(AExceptList).FSockets.Free;
TIdSocketListDotNet(AExceptList).FSockets := LExceptTemp;
end;
except
on e: ArgumentNullException do begin
Result := False;
end;
on e: Exception do begin
DoRaiseException(GDotNETStack, e);
end;
end;
end;
function TIdSocketListDotNet.Clone: TIdSocketList;
begin
Result := TIdSocketListDotNet.Create; //BGO: TODO: make prettier
TIdSocketListDotNet(Result).FSockets.Free;
TIdSocketListDotNet(Result).FSockets := ArrayList(FSockets.Clone);
end;
function TIdStackDotNet.HostToNetwork(AValue: UInt16): UInt16;
begin
Result := UInt16(IPAddress.HostToNetworkOrder(Int16(AValue)));
end;
function TIdStackDotNet.HostToNetwork(AValue: UInt32): UInt32;
begin
Result := UInt32(IPAddress.HostToNetworkOrder(Int32(AValue)));
end;
function TIdStackDotNet.HostToNetwork(AValue: TIdUInt64): TIdUInt64;
begin
Result := TIdUInt64(IPAddress.HostToNetworkOrder(Int64(AValue)));
end;
function TIdStackDotNet.NetworkToHost(AValue: UInt16): UInt16;
begin
Result := UInt16(IPAddress.NetworkToHostOrder(Int16(AValue)));
end;
function TIdStackDotNet.NetworkToHost(AValue: UInt32): UInt32;
begin
Result := UInt32(IPAddress.NetworkToHostOrder(Int32(AValue)));
end;
function TIdStackDotNet.NetworkToHost(AValue: TIdUInt64): TIdUInt64;
begin
Result := TIdUInt64(IPAddress.NetworkToHostOrder(Int64(AValue));
end;
procedure TIdStackDotNet.GetSocketOption(ASocket: TIdStackSocketHandle;
ALevel: TIdSocketOptionLevel; AOptName: TIdSocketOption; out AOptVal: Integer);
var
L : System.Object;
begin
L := ASocket.GetSocketOption(ALevel, AoptName);
AOptVal := Integer(L);
end;
procedure TIdStackDotNet.SetSocketOption(ASocket: TIdStackSocketHandle;
ALevel: TIdSocketOptionLevel; AOptName: TIdSocketOption; AOptVal: Integer);
begin
ASocket.SetSocketOption(ALevel, AOptName, AOptVal);
end;
function TIdStackDotNet.SupportsIPv6: Boolean;
begin
{
[Warning] IdStackDotNet.pas(734): W1000 Symbol 'SupportsIPv6' is deprecated:
'SupportsIPv6 is obsoleted for this type, please use OSSupportsIPv6 instead.
http://go.microsoft.com/fwlink/?linkid=14202'
}
{$IFDEF DOTNET_2_OR_ABOVE}
Result := Socket.OSSupportsIPv6;
{$ENDIF}
{$IFDEF DOTNET_1_1}
Result := Socket.SupportsIPv6;
{$ENDIF}
end;
procedure TIdStackDotNet.GetLocalAddressList(AAddresses: TIdStackLocalAddressList);
var
{$IFDEF DOTNET_1_1}
LAddr : IPAddress;
{$ENDIF}
LHost : IPHostEntry;
LIPAddresses: array of IPAddress;
LIPAddress: IPAddress;
i : Integer;
begin
{$IFDEF DOTNET_2_OR_ABOVE}
// TODO: use NetworkInterface.GetAllNetworkInterfaces() instead.
// See this article for an example:
// http://blogs.msdn.com/b/dgorti/archive/2005/10/04/477078.aspx
LHost := DNS.GetHostEntry(DNS.GetHostName);
{$ENDIF}
{$IFDEF DOTNET_1_1}
LAddr := IPAddress.Any;
LHost := DNS.GetHostByAddress(LAddr);
{$ENDIF}
LIPAddresses := LHost.AddressList;
if Length(LIPAddresses) > 0 then
begin
AAddresses.BeginUpdate;
try
for i := Low(LIPAddresses) to High(LIPAddresses) do
begin
LIPAddress := LIPAddresses[i];
//This may be returning various types of addresses.
case LIPAddress.AddressFamily of
AddressFamily.InterNetwork: begin
TIdStackLocalAddressIPv4.Create(AAddresses, LIPAddress.ToString, ''); // TODO: SubNet
end;
AddressFamily.InterNetworkV6: begin
TIdStackLocalAddressIPv6.Create(AAddresses, LIPAddress.ToString);
end;
end;
end;
finally
AAddresses.EndUpdate;
end;
end;
end;
procedure TIdStackDotNet.SetLoopBack(AHandle: TIdStackSocketHandle;
const AValue: Boolean; const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION);
begin
//necessary because SetSocketOption only accepts an integer
//see: http://groups-beta.google.com/group/microsoft.public.dotnet.languages.csharp/browse_thread/thread/6a35c6d9052cfc2b/f01fea11f9a24508?q=SetSocketOption+DotNET&rnum=2&hl=en#f01fea11f9a24508
AHandle.SetSocketOption(SocketOptionLevel.IP, SocketOptionName.MulticastLoopback, iif(AValue, 1, 0));
end;
procedure TIdStackDotNet.DropMulticastMembership(AHandle: TIdStackSocketHandle;
const AGroupIP, ALocalIP: String; const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION);
begin
MembershipSockOpt(AHandle, AGroupIP, ALocalIP, SocketOptionName.DropMembership);
end;
procedure TIdStackDotNet.AddMulticastMembership(AHandle: TIdStackSocketHandle;
const AGroupIP, ALocalIP: String; const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION);
begin
MembershipSockOpt(AHandle, AGroupIP, ALocalIP, SocketOptionName.AddMembership);
end;
procedure TIdStackDotNet.SetMulticastTTL(AHandle: TIdStackSocketHandle;
const AValue: Byte; const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION);
begin
if AIPVersion = Id_IPv4 then begin
AHandle.SetSocketOption(SocketOptionLevel.IP, SocketOptionName.MulticastTimeToLive, AValue);
end else begin
AHandle.SetSocketOption(SocketOptionLevel.IPv6, SocketOptionName.MulticastTimeToLive, AValue);
end;
end;
procedure TIdStackDotNet.MembershipSockOpt(AHandle: TIdStackSocketHandle;
const AGroupIP, ALocalIP: String; const ASockOpt: TIdSocketOption;
const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION);
var
LM4 : MulticastOption;
LM6 : IPv6MulticastOption;
LGroupIP, LLocalIP : System.Net.IPAddress;
begin
LGroupIP := IPAddress.Parse(AGroupIP);
if LGroupIP.AddressFamily = AddressFamily.InterNetworkV6 then
begin
LM6 := IPv6MulticastOption.Create(LGroupIP);
AHandle.SetSocketOption(SocketOptionLevel.IPv6, ASockOpt, LM6);
end else
begin
if ALocalIP.Length = 0 then begin
LM4 := System.Net.Sockets.MulticastOption.Create(LGroupIP);
end else
begin
LLocalIP := IPAddress.Parse(ALocalIP);
LM4 := System.Net.Sockets.MulticastOption.Create(LGroupIP, LLocalIP);
end;
AHandle.SetSocketOption(SocketOptionLevel.IP, ASockOpt, LM4);
end;
end;
function TIdStackDotNet.ReceiveMsg(ASocket: TIdStackSocketHandle; var VBuffer: TIdBytes;
APkt: TIdPacketInfo): UInt32;
var
{$IFDEF DOTNET_1_1}
LIP : String;
LPort : TIdPort;
LIPVersion: TIdIPVersion;
{$ELSE}
LSF : SocketFlags;
LIPAddr : IPAddress;
LRemEP : EndPoint;
LPki : IPPacketInformation;
{$ENDIF}
begin
{$IFDEF DOTNET_1_1}
Result := ReceiveFrom(ASocket, VBuffer, LIP, LPort, LIPVersion);
APkt.Reset;
APkt.SourceIP := LIP;
APkt.SourcePort := LPort;
APkt.SourceIPVersion := LIPVersion;
APkt.DestIPVersion := LIPVersion;
{$ELSE}
LSF := SocketFlags.None;
{
The AddressFamily of the EndPoint used in ReceiveFrom needs to match the
AddressFamily of the EndPoint used in SendTo.
}
case ASocket.AddressFamily of
AddressFamily.InterNetwork: LIPAddr := IPAddress.Any;
AddressFamily.InterNetworkV6: LIPAddr := IPAddress.IPv6Any;
else
Result := 0; // keep the compiler happy
IPVersionUnsupported;
end;
LRemEP := IPEndPoint.Create(LIPAddr, 0);
Result := ASocket.ReceiveMessageFrom(VBuffer, 0, Length(VBUffer), LSF, LRemEP, lpki);
APkt.Reset;
APkt.SourceIP := IPEndPoint(LRemEP).Address.ToString;
APkt.SourcePort := IPEndPoint(LRemEP).Port;
case IPEndPoint(LRemEP).AddressFamily of
AddressFamily.InterNetwork: APkt.SourceIPVersion := Id_IPv4;
AddressFamily.InterNetworkV6: APkt.SourceIPVersion := Id_IPv6;
end;
APkt.DestIP := LPki.Address.ToString;
APkt.DestIF := LPki.&Interface;
APkt.DestIPVersion := APkt.SourceIPVersion;
{$ENDIF}
end;
{
This extracts an IP address as a series of bytes from a TIdBytes that contains
one SockAddress structure.
}
procedure SockAddrToIPBytes(const ASockAddr : TIdBytes; var VIPAddr : TIdBytes);
{$IFDEF USE_INLINE}inline;{$ENDIF}
begin
case BytesToUInt16(ASockAddr,0) of
23 : //AddressFamily.InterNetworkV6 :
begin
//16 = size of SOCKADDR_IN6.sin6_addr
SetLength(VIPAddr,16);
// 8 = offset of sin6_addr in SOCKADDR_IN6
// sin6_family : Smallint; // AF_INET6
// sin6_port : u_short; // Transport level port number
// sin6_flowinfo : u_long; // IPv6 flow information
System.array.Copy(ASockAddr,8, VIPAddr, 0, 16);
end;
2 : //AddressFamily.InterNetwork :
begin
//size of sockaddr_in.sin_addr
SetLength(VIPAddr,4);
// 4 = offset of sockaddr_in.sin_addr
// sin_family : u_short;
// sin_port : u_short;
System.array.Copy(ASockAddr,4, VIPAddr, 0, 4);
end;
end;
end;
procedure TIdStackDotNet.QueryRoute(s : TIdStackSocketHandle; const AIP: String;
const APort: TIdPort; var VSource, VDest : TIdBytes);
{$IFDEF DOTNET_2_OR_ABOVE}
const
SIO_ROUTING_INTERFACE_QUERY = 3355443220;
{$ENDIF}
var
LEP : IPEndPoint;
LDestIF : SocketAddress;
LIn, LOut : TBytes;
i : Integer;
begin
LEP := IPEndPoint.Create(IPAddress.Parse(AIP),APort);
LDestIf := LEP.Serialize;
{
The first 2 bytes of the underlying buffer are reserved for the AddressFamily
enumerated value. When the SocketAddress is used to store a serialized
IPEndPoint, the third and fourth bytes are used to store port number
information. The next bytes are used to store the IP address. You can access any
information within this underlying byte buffer by referring to its index
position; the byte buffer uses zero-based indexing. You can also use the Family
and Size properties to get the AddressFamily value and the buffer size,
respectively. To view any of this information as a string, use the ToString
method.
}
SetLength(LIn,LDestIf.Size);
for i := 0 to LDestIf.Size - 1 do
begin
LIn[i] := LDestIf[i];
end;
SetLength(LOut,LDestIf.Size);
{
IMPORTANT!!!!
We can not do something like:
s.IOControl( IOControlCode.RoutingInterfaceQuery, LIn, LOut);
because to IOControlCode.RoutingInterfaceQuery has a value of -539371432
and that is not correct. I found that out the hard way.
}
s.IOControl(LongInt(SIO_ROUTING_INTERFACE_QUERY),Lin,LOut);
SockAddrToIPBytes(LOut,VSource);
SockAddrToIPBytes(LIn,VDest);
end;
procedure TIdStackDotNet.WriteChecksumIPv6(s: TIdStackSocketHandle;
var VBuffer: TIdBytes; const AOffset: Integer; const AIP: String;
const APort: TIdPort);
var
LSource : TIdBytes;
LDest : TIdBytes;
LTmp : TIdBytes;
LIdx : Integer;
LC : UInt32;
{
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
+ +
| |
+ Source Address +
| |
+ +
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| |
+ +
| |
+ Destination Address +
| |
+ +
| |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Upper-Layer Packet Length |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| zero | Next Header |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
}
begin
QueryRoute(s, AIP, APort, LSource, LDest);
SetLength(LTmp, 40+Length(VBuffer));
System.&Array.Clear(LTmp,0,Length(LTmp));
//16
CopyTIdBytes(LSource, 0, LTmp, 0, 16);
LIdx := 16;
//32
CopyTIdBytes(LDest, 0, LTmp,LIdx, 16);
Inc(LIdx, 16);
//use a word so you don't wind up using the wrong network byte order function
LC := Length(VBuffer);
CopyTIdUInt32(HostToNetwork(LC), LTmp, LIdx);
Inc(LIdx, 4);
//36
//zero the next three bytes
//done in the begging
Inc(LIdx, 3);
//next header (protocol type determines it
LTmp[LIdx] := Ord(Id_IPPROTO_ICMPv6);
Inc(LIdx);
//combine the two
CopyTIdBytes(VBuffer, 0, LTmp, LIdx, Length(VBuffer));
//zero out the checksum field
CopyTIdUInt16(0, LTmp, LIdx+AOffset);
CopyTIdUInt16(HostToLittleEndian(CalcCheckSum(LTmp)), VBuffer, AOffset);
end;
{$ENDIF}
procedure TIdStackDotNet.WriteChecksum(s: TIdStackSocketHandle;
var VBuffer: TIdBytes; const AOffset: Integer; const AIP: String;
const APort: TIdPort; const AIPVersion: TIdIPVersion);
begin
if AIPVersion = Id_IPv4 then begin
CopyTIdUInt16(CalcCheckSum(VBuffer), VBuffer, AOffset);
end else
begin
{$IFDEF DOTNET_1_1}
{This is a todo because to do a checksum for ICMPv6, you need to obtain
the address for the IP the packet will come from (query the network interfaces).
You then have to make a IPv6 pseudo header. About the only other alternative is
to have the kernel (or DotNET Framework) generate the checksum but we don't have
an API for it.
I'm not sure if we have an API for it at all. Even if we did, would it be worth
doing when you consider that Microsoft's NET Framework 1.1 does not support ICMPv6
in its enumerations.}
raise EIdNotSupportedInMicrosoftNET11.Create(RSNotSupportedInMicrosoftNET11);
{$ELSE}
WriteChecksumIPv6(s,VBuffer,AOffset,AIP,APort);
{$ENDIF}
end;
end;
function TIdStackDotNet.IOControl(const s: TIdStackSocketHandle;
const cmd: UInt32; var arg: UInt32): Integer;
var
LTmp : TIdBytes;
begin
LTmp := ToBytes(arg);
s.IOControl(cmd, ToBytes(arg), LTmp);
arg := BytesToUInt32(LTmp);
Result := 0;
end;
{$IFDEF DOTNET_2_OR_ABOVE}
function ServeFile(ASocket: TIdStackSocketHandle; const AFileName: string): Int64;
var
LFile : FileInfo;
begin
ASocket.SendFile(AFileName);
LFile := System.IO.FileInfo.Create(AFileName);
Result := LFile.Length;
end;
{$ENDIF}
procedure TIdStackDotNet.SetKeepAliveValues(ASocket: TIdStackSocketHandle;
const AEnabled: Boolean; const ATimeMS, AInterval: Integer);
{$IFNDEF DOTNET_2_OR_ABOVE}
const
SIO_KEEPALIVE_VALS = 2550136836;
{$ENDIF}
var
LBuf: TIdBytes;
begin
// SIO_KEEPALIVE_VALS is supported on Win2K+ only
if AEnabled and (System.OperatingSystem.Version.Major >= 5) then
begin
SetLength(LBuf, 12);
CopyTIdUInt32(1, LBuf, 0);
CopyTIdUInt32(ATimeMS, LBuf, 4);
CopyTIdUInt32(AInterval, LBuf, 8);
ASocket.IOControl(
{$IFDEF DOTNET_2_OR_ABOVE}IOControlCode.KeepAliveValues{$ELSE}SIO_KEEPALIVE_VALS{$ENDIF},
LBuf, nil);
end else begin
LBuf := nil;
ASocket.SetSocketOption(SocketOptionLevel.Socket, SocketOptionName.KeepAlive, iif(AEnabled, 1, 0));
end;
end;
initialization
GSocketListClass := TIdSocketListDotNet;
{$IFDEF DOTNET_2_OR_ABOVE}
GServeFileProc := ServeFile;
{$ENDIF}
end.
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