restemplate/indy/Core/IdIPMCastClient.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 1.6 14/06/2004 21:38:28 CCostelloe
Converted StringToTIn4Addr call
Rev 1.5 09/06/2004 10:00:34 CCostelloe
Kylix 3 patch
Rev 1.4 2004.02.03 5:43:52 PM czhower
Name changes
Rev 1.3 1/21/2004 3:11:08 PM JPMugaas
InitComponent
Rev 1.2 10/26/2003 09:11:52 AM JPMugaas
Should now work in NET.
Rev 1.1 2003.10.12 4:03:56 PM czhower
compile todos
Rev 1.0 11/13/2002 07:55:22 AM JPMugaas
}
unit IdIPMCastClient;
interface
{$I IdCompilerDefines.inc}
//Put FPC into Delphi mode
uses
{$IFDEF VCL_2010_OR_ABOVE}
Classes, //here to facilitate inlining
{$ENDIF}
IdException,
IdGlobal,
IdIPMCastBase,
IdUDPBase,
IdComponent,
IdSocketHandle,
IdThread;
const
DEF_IMP_THREADEDEVENT = False;
type
TIPMCastReadEvent = procedure(Sender: TObject; const AData: TIdBytes; ABinding: TIdSocketHandle) of object;
TIdIPMCastClient = class;
TIdIPMCastListenerThread = class(TIdThread)
protected
IncomingData: TIdSocketHandle;
FAcceptWait: integer;
FBuffer: TIdBytes;
FBufferSize: integer;
procedure Run; override;
public
FServer: TIdIPMCastClient;
//
constructor Create(AOwner: TIdIPMCastClient); reintroduce;
destructor Destroy; override;
procedure IPMCastRead;
//
property AcceptWait: integer read FAcceptWait write FAcceptWait;
end;
TIdIPMCastClient = class(TIdIPMCastBase)
protected
FBindings: TIdSocketHandles;
FBufferSize: Integer;
FCurrentBinding: TIdSocketHandle;
FListenerThread: TIdIPMCastListenerThread;
FOnIPMCastRead: TIPMCastReadEvent;
FThreadedEvent: boolean;
//
procedure CloseBinding; override;
procedure DoIPMCastRead(const AData: TIdBytes; ABinding: TIdSocketHandle);virtual;
function GetActive: Boolean; override;
function GetBinding: TIdSocketHandle; override;
function GetDefaultPort: integer;
procedure PacketReceived(const AData: TIdBytes; ABinding: TIdSocketHandle);
procedure SetBindings(const Value: TIdSocketHandles);
procedure SetDefaultPort(const AValue: integer);
procedure InitComponent; override;
public
destructor Destroy; override;
//
published
property IPVersion;
property Active;
property Bindings: TIdSocketHandles read FBindings write SetBindings;
property BufferSize: Integer read FBufferSize write FBufferSize default ID_UDP_BUFFERSIZE;
property DefaultPort: integer read GetDefaultPort write SetDefaultPort;
property MulticastGroup;
property ReuseSocket;
property ThreadedEvent: boolean read FThreadedEvent write FThreadedEvent default DEF_IMP_THREADEDEVENT;
property OnIPMCastRead: TIPMCastReadEvent read FOnIPMCastRead write FOnIPMCastRead;
end;
implementation
uses
IdResourceStringsCore,
IdStack,
IdStackConsts,
SysUtils;
{ TIdIPMCastClient }
procedure TIdIPMCastClient.InitComponent;
begin
inherited InitComponent;
BufferSize := ID_UDP_BUFFERSIZE;
FThreadedEvent := DEF_IMP_THREADEDEVENT;
FBindings := TIdSocketHandles.Create(Self);
end;
procedure TIdIPMCastClient.CloseBinding;
var
i: integer;
begin
if Assigned(FCurrentBinding) then begin
// Necessary here - cancels the recvfrom in the listener thread
FListenerThread.Stop;
try
for i := 0 to Bindings.Count - 1 do begin
if Bindings[i].HandleAllocated then begin
// RLebeau: DropMulticastMembership() can raise an exception if
// the network cable has been pulled out...
// TODO: update DropMulticastMembership() to not raise an exception...
try
Bindings[i].DropMulticastMembership(FMulticastGroup);
except
end;
end;
Bindings[i].CloseSocket;
end;
finally
FListenerThread.WaitFor;
FreeAndNil(FListenerThread);
FCurrentBinding := nil;
end;
end;
end;
procedure TIdIPMCastClient.DoIPMCastRead(const AData: TIdBytes; ABinding: TIdSocketHandle);
begin
if Assigned(OnIPMCastRead) then begin
OnIPMCastRead(Self, AData, ABinding);
end;
end;
function TIdIPMCastClient.GetActive: Boolean;
begin
// inherited GetActive keeps track of design-time Active property
Result := inherited GetActive or
(Assigned(FCurrentBinding) and FCurrentBinding.HandleAllocated);
end;
function TIdIPMCastClient.GetBinding: TIdSocketHandle;
var
i: integer;
begin
if not Assigned(FCurrentBinding) then
begin
if Bindings.Count < 1 then begin
if DefaultPort > 0 then begin
Bindings.Add.IPVersion := FIPVersion;
end else begin
raise EIdMCastNoBindings.Create(RSNoBindingsSpecified);
end;
end;
for i := 0 to Bindings.Count - 1 do begin
Bindings[i].AllocateSocket(Id_SOCK_DGRAM);
// do not overwrite if the default. This allows ReuseSocket to be set per binding
if FReuseSocket <> rsOSDependent then begin
Bindings[i].ReuseSocket := FReuseSocket;
end;
Bindings[i].Bind;
Bindings[i].AddMulticastMembership(FMulticastGroup);
end;
FCurrentBinding := Bindings[0];
FListenerThread := TIdIPMCastListenerThread.Create(Self);
FListenerThread.Start;
end;
Result := FCurrentBinding;
end;
function TIdIPMCastClient.GetDefaultPort: integer;
begin
result := FBindings.DefaultPort;
end;
procedure TIdIPMCastClient.PacketReceived(const AData: TIdBytes; ABinding: TIdSocketHandle);
begin
FCurrentBinding := ABinding;
DoIPMCastRead(AData, ABinding);
end;
procedure TIdIPMCastClient.SetBindings(const Value: TIdSocketHandles);
begin
FBindings.Assign(Value);
end;
procedure TIdIPMCastClient.SetDefaultPort(const AValue: integer);
begin
if (FBindings.DefaultPort <> AValue) then begin
FBindings.DefaultPort := AValue;
FPort := AValue;
end;
end;
destructor TIdIPMCastClient.Destroy;
begin
Active := False;
FreeAndNil(FBindings);
inherited Destroy;
end;
{ TIdIPMCastListenerThread }
constructor TIdIPMCastListenerThread.Create(AOwner: TIdIPMCastClient);
begin
inherited Create(True);
FAcceptWait := 1000;
FBufferSize := AOwner.BufferSize;
FBuffer := nil;
FServer := AOwner;
end;
destructor TIdIPMCastListenerThread.Destroy;
begin
inherited Destroy;
end;
procedure TIdIPMCastListenerThread.Run;
var
PeerIP: string;
PeerPort: TIdPort;
PeerIPVersion: TIdIPVersion;
ByteCount: Integer;
LReadList: TIdSocketList;
i: Integer;
LBuffer : TIdBytes;
begin
SetLength(LBuffer, FBufferSize);
// create a socket list to select for read
LReadList := TIdSocketList.CreateSocketList;
try
// fill list of socket handles for reading
for i := 0 to FServer.Bindings.Count - 1 do
begin
LReadList.Add(FServer.Bindings[i].Handle);
end;
// select the handles for reading
LReadList.SelectRead(AcceptWait);
for i := 0 to LReadList.Count - 1 do
begin
// Doublecheck to see if we've been stopped
// Depending on timing - may not reach here
// if stopped the run method of the ancestor
if not Stopped then
begin
IncomingData := FServer.Bindings.BindingByHandle(TIdStackSocketHandle(LReadList[i]));
ByteCount := IncomingData.RecvFrom(LBuffer, PeerIP, PeerPort, PeerIPVersion);
if ByteCount <= 0 then
begin
raise EIdUDPReceiveErrorZeroBytes.Create(RSIPMCastReceiveError0);
end;
SetLength(FBuffer, ByteCount);
CopyTIdBytes(LBuffer, 0, FBuffer, 0, ByteCount);
IncomingData.SetPeer(PeerIP, PeerPort, PeerIPVersion);
if FServer.ThreadedEvent then begin
IPMCastRead;
end else begin
Synchronize(IPMCastRead);
end;
end;
end;
finally
LReadList.Free;
end;
end;
procedure TIdIPMCastListenerThread.IPMCastRead;
begin
FServer.PacketReceived(FBuffer, IncomingData);
end;
end.