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Simba/trunk/Units/Synapse/synaip.pas

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{==============================================================================|
| Project : Ararat Synapse | 001.002.000 |
|==============================================================================|
| Content: IP address support procedures and functions |
|==============================================================================|
| Copyright (c)2006-2009, Lukas Gebauer |
| All rights reserved. |
| |
| Redistribution and use in source and binary forms, with or without |
| modification, are permitted provided that the following conditions are met: |
| |
| Redistributions of source code must retain the above copyright notice, this |
| list of conditions and the following disclaimer. |
| |
| Redistributions in binary form must reproduce the above copyright notice, |
| this list of conditions and the following disclaimer in the documentation |
| and/or other materials provided with the distribution. |
| |
| Neither the name of Lukas Gebauer nor the names of its contributors may |
| be used to endorse or promote products derived from this software without |
| specific prior written permission. |
| |
| THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" |
| AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE |
| IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE |
| ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR |
| ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL |
| DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR |
| SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER |
| CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT |
| LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY |
| OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH |
| DAMAGE. |
|==============================================================================|
| The Initial Developer of the Original Code is Lukas Gebauer (Czech Republic).|
| Portions created by Lukas Gebauer are Copyright (c) 2006-2008. |
| All Rights Reserved. |
|==============================================================================|
| Contributor(s): |
|==============================================================================|
| History: see HISTORY.HTM from distribution package |
| (Found at URL: http://www.ararat.cz/synapse/) |
|==============================================================================}
{:@abstract(IP adress support procedures and functions)}
{$IFDEF FPC}
{$MODE DELPHI}
{$ENDIF}
{$Q-}
{$R-}
{$H+}
unit synaip;
interface
uses
SysUtils, SynaUtil;
type
{:binary form of IPv6 adress (for string conversion routines)}
TIp6Bytes = array [0..15] of Byte;
{:binary form of IPv6 adress (for string conversion routines)}
TIp6Words = array [0..7] of Word;
{:Returns @TRUE, if "Value" is a valid IPv4 address. Cannot be a symbolic Name!}
function IsIP(const Value: string): Boolean;
{:Returns @TRUE, if "Value" is a valid IPv6 address. Cannot be a symbolic Name!}
function IsIP6(const Value: string): Boolean;
{:Returns a string with the "Host" ip address converted to binary form.}
function IPToID(Host: string): Ansistring;
{:Convert IPv6 address from their string form to binary byte array.}
function StrToIp6(value: string): TIp6Bytes;
{:Convert IPv6 address from binary byte array to string form.}
function Ip6ToStr(value: TIp6Bytes): string;
{:Convert IPv4 address from their string form to binary.}
function StrToIp(value: string): integer;
{:Convert IPv4 address from binary to string form.}
function IpToStr(value: integer): string;
{:Convert IPv4 address to reverse form.}
function ReverseIP(Value: AnsiString): AnsiString;
{:Convert IPv6 address to reverse form.}
function ReverseIP6(Value: AnsiString): AnsiString;
{:Expand short form of IPv6 address to long form.}
function ExpandIP6(Value: AnsiString): AnsiString;
implementation
{==============================================================================}
function IsIP(const Value: string): Boolean;
var
TempIP: string;
function ByteIsOk(const Value: string): Boolean;
var
x, n: integer;
begin
x := StrToIntDef(Value, -1);
Result := (x >= 0) and (x < 256);
// X may be in correct range, but value still may not be correct value!
// i.e. "$80"
if Result then
for n := 1 to length(Value) do
if not (Value[n] in ['0'..'9']) then
begin
Result := False;
Break;
end;
end;
begin
TempIP := Value;
Result := False;
if not ByteIsOk(Fetch(TempIP, '.')) then
Exit;
if not ByteIsOk(Fetch(TempIP, '.')) then
Exit;
if not ByteIsOk(Fetch(TempIP, '.')) then
Exit;
if ByteIsOk(TempIP) then
Result := True;
end;
{==============================================================================}
function IsIP6(const Value: string): Boolean;
var
TempIP: string;
s,t: string;
x: integer;
partcount: integer;
zerocount: integer;
First: Boolean;
begin
TempIP := Value;
Result := False;
if Value = '::' then
begin
Result := True;
Exit;
end;
partcount := 0;
zerocount := 0;
First := True;
while tempIP <> '' do
begin
s := fetch(TempIP, ':');
if not(First) and (s = '') then
Inc(zerocount);
First := False;
if zerocount > 1 then
break;
Inc(partCount);
if s = '' then
Continue;
if partCount > 8 then
break;
if tempIP = '' then
begin
t := SeparateRight(s, '%');
s := SeparateLeft(s, '%');
x := StrToIntDef('$' + t, -1);
if (x < 0) or (x > $ffff) then
break;
end;
x := StrToIntDef('$' + s, -1);
if (x < 0) or (x > $ffff) then
break;
if tempIP = '' then
if not((PartCount = 1) and (ZeroCount = 0)) then
Result := True;
end;
end;
{==============================================================================}
function IPToID(Host: string): Ansistring;
var
s: string;
i, x: Integer;
begin
Result := '';
for x := 0 to 3 do
begin
s := Fetch(Host, '.');
i := StrToIntDef(s, 0);
Result := Result + Chr(i);
end;
end;
{==============================================================================}
function StrToIp(value: string): integer;
var
s: string;
i, x: Integer;
begin
Result := 0;
for x := 0 to 3 do
begin
s := Fetch(value, '.');
i := StrToIntDef(s, 0);
Result := (256 * Result) + i;
end;
end;
{==============================================================================}
function IpToStr(value: integer): string;
var
x1, x2: word;
y1, y2: byte;
begin
Result := '';
x1 := value shr 16;
x2 := value and $FFFF;
y1 := x1 div $100;
y2 := x1 mod $100;
Result := inttostr(y1) + '.' + inttostr(y2) + '.';
y1 := x2 div $100;
y2 := x2 mod $100;
Result := Result + inttostr(y1) + '.' + inttostr(y2);
end;
{==============================================================================}
function ExpandIP6(Value: AnsiString): AnsiString;
var
n: integer;
s: ansistring;
x: integer;
begin
Result := '';
if value = '' then
exit;
x := countofchar(value, ':');
if x > 7 then
exit;
if value[1] = ':' then
value := '0' + value;
if value[length(value)] = ':' then
value := value + '0';
x := 8 - x;
s := '';
for n := 1 to x do
s := s + ':0';
s := s + ':';
Result := replacestring(value, '::', s);
end;
{==============================================================================}
function StrToIp6(Value: string): TIp6Bytes;
var
IPv6: TIp6Words;
Index: Integer;
n: integer;
b1, b2: byte;
s: string;
x: integer;
begin
for n := 0 to 15 do
Result[n] := 0;
for n := 0 to 7 do
Ipv6[n] := 0;
Index := 0;
Value := ExpandIP6(value);
if value = '' then
exit;
while Value <> '' do
begin
if Index > 7 then
Exit;
s := fetch(value, ':');
if s = '@' then
break;
if s = '' then
begin
IPv6[Index] := 0;
end
else
begin
x := StrToIntDef('$' + s, -1);
if (x > 65535) or (x < 0) then
Exit;
IPv6[Index] := x;
end;
Inc(Index);
end;
for n := 0 to 7 do
begin
b1 := ipv6[n] div 256;
b2 := ipv6[n] mod 256;
Result[n * 2] := b1;
Result[(n * 2) + 1] := b2;
end;
end;
{==============================================================================}
//based on routine by the Free Pascal development team
function Ip6ToStr(value: TIp6Bytes): string;
var
i, x: byte;
zr1,zr2: set of byte;
zc1,zc2: byte;
have_skipped: boolean;
ip6w: TIp6words;
begin
zr1 := [];
zr2 := [];
zc1 := 0;
zc2 := 0;
for i := 0 to 7 do
begin
x := i * 2;
ip6w[i] := value[x] * 256 + value[x + 1];
if ip6w[i] = 0 then
begin
include(zr2, i);
inc(zc2);
end
else
begin
if zc1 < zc2 then
begin
zc1 := zc2;
zr1 := zr2;
zc2 := 0;
zr2 := [];
end;
end;
end;
if zc1 < zc2 then
begin
zr1 := zr2;
end;
SetLength(Result, 8*5-1);
SetLength(Result, 0);
have_skipped := false;
for i := 0 to 7 do
begin
if not(i in zr1) then
begin
if have_skipped then
begin
if Result = '' then
Result := '::'
else
Result := Result + ':';
have_skipped := false;
end;
Result := Result + IntToHex(Ip6w[i], 1) + ':';
end
else
begin
have_skipped := true;
end;
end;
if have_skipped then
if Result = '' then
Result := '::0'
else
Result := Result + ':';
if Result = '' then
Result := '::0';
if not (7 in zr1) then
SetLength(Result, Length(Result)-1);
Result := LowerCase(result);
end;
{==============================================================================}
function ReverseIP(Value: AnsiString): AnsiString;
var
x: Integer;
begin
Result := '';
repeat
x := LastDelimiter('.', Value);
Result := Result + '.' + Copy(Value, x + 1, Length(Value) - x);
Delete(Value, x, Length(Value) - x + 1);
until x < 1;
if Length(Result) > 0 then
if Result[1] = '.' then
Delete(Result, 1, 1);
end;
{==============================================================================}
function ReverseIP6(Value: AnsiString): AnsiString;
var
ip6: TIp6bytes;
n: integer;
x, y: integer;
begin
ip6 := StrToIP6(Value);
x := ip6[15] div 16;
y := ip6[15] mod 16;
Result := IntToHex(y, 1) + '.' + IntToHex(x, 1);
for n := 14 downto 0 do
begin
x := ip6[n] div 16;
y := ip6[n] mod 16;
Result := Result + '.' + IntToHex(y, 1) + '.' + IntToHex(x, 1);
end;
end;
{==============================================================================}
end.