171 lines
4.8 KiB
Plaintext
171 lines
4.8 KiB
Plaintext
{
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$Project$
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$Workfile$
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$Revision$
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$DateUTC$
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$Id$
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This file is part of the Indy (Internet Direct) project, and is offered
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under the dual-licensing agreement described on the Indy website.
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(http://www.indyproject.org/)
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Copyright:
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(c) 1993-2005, Chad Z. Hower and the Indy Pit Crew. All rights reserved.
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}
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{
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$Log$
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}
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{
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Rev 1.7 2/10/2005 2:24:38 PM JPMugaas
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Minor Restructures for some new UnixTime Service components.
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Rev 1.6 2004.02.03 5:44:36 PM czhower
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Name changes
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Rev 1.5 1/21/2004 4:21:00 PM JPMugaas
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InitComponent
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Rev 1.4 1/3/2004 1:00:06 PM JPMugaas
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These should now compile with Kudzu's change in IdCoreGlobal.
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Rev 1.3 10/26/2003 5:16:52 PM BGooijen
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Works now, times in GetTickDiff were in wrong order
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Rev 1.2 10/22/2003 04:54:26 PM JPMugaas
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Attempted to get these to work.
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Rev 1.1 2003.10.12 6:36:46 PM czhower
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Now compiles.
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Rev 1.0 11/13/2002 08:03:24 AM JPMugaas
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}
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unit IdTimeUDP;
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interface
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{$i IdCompilerDefines.inc}
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uses
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{$IFDEF WORKAROUND_INLINE_CONSTRUCTORS}
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Classes,
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{$ENDIF}
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IdGlobal,
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IdAssignedNumbers, IdUDPBase, IdGlobalProtocols, IdUDPClient;
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type
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TIdCustomTimeUDP = class(TIdUDPClient)
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protected
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FBaseDate: TDateTime;
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FRoundTripDelay: UInt32;
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//
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function GetDateTimeCard: UInt32;
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function GetDateTime: TDateTime;
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procedure InitComponent; override;
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public
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{$IFDEF WORKAROUND_INLINE_CONSTRUCTORS}
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constructor Create(AOwner: TComponent); reintroduce; overload;
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{$ENDIF}
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{This synchronizes the local clock with the Time Server}
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function SyncTime: Boolean;
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{This is the number of seconds since 12:00 AM, 1900 - Jan-1}
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property DateTimeCard: UInt32 read GetDateTimeCard;
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{This is the current time according to the server. TimeZone and Time used
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to receive the data are accounted for}
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property DateTime: TDateTime read GetDateTime;
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{This is the time it took to receive the Time from the server. There is no
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need to use this to calculate the current time when using DateTime property
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as we have done that here}
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property RoundTripDelay: UInt32 read FRoundTripDelay;
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published
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end;
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TIdTimeUDP = class(TIdCustomTimeUDP)
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published
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{This property is used to set the Date that the Time server bases its
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calculations from. If both the server and client are based from the same
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date which is higher than the original date, you can extend it beyond the
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year 2035}
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property BaseDate: TDateTime read FBaseDate write FBaseDate;
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property Port default IdPORT_TIME;
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end;
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implementation
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uses
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{$IFDEF USE_VCL_POSIX}
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{$IFDEF DARWIN}
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Macapi.CoreServices,
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{$ENDIF}
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Posix.SysTime,
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{$ENDIF}
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IdStack, SysUtils; //Sysutils added to facilitate inlining.
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{ TIdCustomTimeUDP }
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{$IFDEF WORKAROUND_INLINE_CONSTRUCTORS}
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constructor TIdCustomTimeUDP.Create(AOwner: TComponent);
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begin
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inherited Create(AOwner);
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end;
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{$ENDIF}
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procedure TIdCustomTimeUDP.InitComponent;
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begin
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inherited;
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Port := IdPORT_TIME;
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{This indicates that the default date is Jan 1, 1900 which was specified
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by RFC 868.}
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FBaseDate := TIME_BASEDATE;
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end;
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function TIdCustomTimeUDP.GetDateTime: TDateTime;
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var
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BufCard: UInt32;
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begin
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BufCard := GetDateTimeCard;
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if BufCard <> 0 then begin
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{The formula is The Time cardinal we receive divided by (24 * 60*60 for days + RoundTrip divided by one-thousand since this is based on seconds
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- the Time Zone difference}
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Result := ( ((BufCard + (FRoundTripDelay div 1000))/ (24 * 60 * 60) ) + Int(fBaseDate))
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- TimeZoneBias;
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end else begin
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{ Somehow, I really doubt we are ever going to really get a time such as
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12/30/1899 12:00 am so use that as a failure test}
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Result := 0;
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end;
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end;
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function TIdCustomTimeUDP.GetDateTimeCard: UInt32;
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var
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LTimeBeforeRetrieve: TIdTicks;
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LBuffer : TIdBytes;
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begin
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//Important - This must send an empty UDP Datagram
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Send(''); {Do not Localize}
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LTimeBeforeRetrieve := Ticks64;
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SetLength(LBuffer,4);
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ReceiveBuffer(LBuffer);
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Result := BytesToUInt32(LBuffer);
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Result := GStack.NetworkToHost(Result);
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{Theoritically, it should take about 1/2 of the time to receive the data
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but in practice, it could be any portion depending upon network conditions. This is also
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as per RFC standard}
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{This is just in case the TickCount rolled back to zero}
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FRoundTripDelay := GetElapsedTicks(LTimeBeforeRetrieve) div 2;
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end;
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function TIdCustomTimeUDP.SyncTime: Boolean;
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var
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LBufTime: TDateTime;
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begin
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LBufTime := DateTime;
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Result := LBufTime <> 0;
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if Result then begin
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Result := IndySetLocalTime(LBufTime);
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end;
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end;
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end.
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