singrdk/base/Libraries/System.Net.IP/IPAddressUtils.cs

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///////////////////////////////////////////////////////////////////////////////
//
// Microsoft Research Singularity
//
// Copyright (c) Microsoft Corporation. All rights reserved.
//
// File: IPAddressUtils.cs
//
using System;
#if !SINGULARITY
using System.Net;
using System.Net.Sockets;
#endif
namespace System.Net.IP
{
public sealed class IncompatibleAddressFamiliesException : SystemException
{
public IncompatibleAddressFamiliesException()
: base("Attempting operation on addresses from incompatible "
+ "families.")
{
}
}
public sealed class IPAddressBitwise
{
/// <summary>
/// Perform the bitwise AND operation on two IPAddress
/// objects and return a new IPAddress containing the
/// result.
///
/// <exception cref="IncompatibleAddressFamiliesException"></exception>
/// </summary>
public static IPAddress And(IPAddress l, IPAddress r)
{
if (l.AddressFamily != r.AddressFamily)
throw new IncompatibleAddressFamiliesException();
byte [] bl = l.GetAddressBytes();
byte [] br = r.GetAddressBytes();
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if (l.AddressFamily == AddressFamily.InterNetwork) {
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bl[0] &= br[0];
bl[1] &= br[1];
bl[2] &= br[2];
bl[3] &= br[3];
int tmp = (bl[0] << 24) | (bl[1] << 16) | (bl[2] << 8) | bl[3];
return new IPAddress(((long)tmp) & 0xffffffff);
}
bl[0] &= br[0];
bl[1] &= br[1];
bl[2] &= br[2];
bl[3] &= br[3];
bl[4] &= br[4];
bl[5] &= br[5];
bl[6] &= br[6];
bl[7] &= br[7];
bl[8] &= br[8];
bl[9] &= br[9];
bl[10] &= br[10];
bl[11] &= br[11];
bl[12] &= br[12];
bl[13] &= br[13];
bl[14] &= br[14];
bl[15] &= br[15];
return new IPAddress(bl);
}
/// <summary>
/// Perform the bitwise OR operation on two
/// IPAddress objects and return a new IPAddress
/// containing the result.
///
/// <exception cref="IncompatibleAddressFamiliesException"></exception>
/// </summary>
public static IPAddress Or(IPAddress l, IPAddress r)
{
if (l.AddressFamily != r.AddressFamily)
throw new IncompatibleAddressFamiliesException();
byte [] bl = l.GetAddressBytes();
byte [] br = r.GetAddressBytes();
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if (l.AddressFamily == AddressFamily.InterNetwork) {
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bl[0] |= br[0];
bl[1] |= br[1];
bl[2] |= br[2];
bl[3] |= br[3];
int tmp = (bl[0] << 24) | (bl[1] << 16) | (bl[2] << 8) | bl[3];
return new IPAddress(((long)tmp) & 0xffffffff);
}
bl[0] |= br[0];
bl[1] |= br[1];
bl[2] |= br[2];
bl[3] |= br[3];
bl[4] |= br[4];
bl[5] |= br[5];
bl[6] |= br[6];
bl[7] |= br[7];
bl[8] |= br[8];
bl[9] |= br[9];
bl[10] |= br[10];
bl[11] |= br[11];
bl[12] |= br[12];
bl[13] |= br[13];
bl[14] |= br[14];
bl[15] |= br[15];
return new IPAddress(bl);
}
/// <summary>
/// Perform the bitwise eXclusive-OR operation on two
/// IPAddress objects and return a new IPAddress
/// containing the result.
///
/// <exception cref="IncompatibleAddressFamiliesException"></exception>
/// </summary>
public static IPAddress Xor(IPAddress l, IPAddress r)
{
if (l.AddressFamily != r.AddressFamily)
throw new IncompatibleAddressFamiliesException();
byte [] bl = l.GetAddressBytes();
byte [] br = r.GetAddressBytes();
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if (l.AddressFamily == AddressFamily.InterNetwork) {
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bl[0] ^= br[0];
bl[1] ^= br[1];
bl[2] ^= br[2];
bl[3] ^= br[3];
int tmp = (bl[0] << 24) | (bl[1] << 16) | (bl[2] << 8) | bl[3];
return new IPAddress(((long)tmp) & 0xffffffff);
}
bl[0] ^= br[0];
bl[1] ^= br[1];
bl[2] ^= br[2];
bl[3] ^= br[3];
bl[4] ^= br[4];
bl[5] ^= br[5];
bl[6] ^= br[6];
bl[7] ^= br[7];
bl[8] ^= br[8];
bl[9] ^= br[9];
bl[10] ^= br[10];
bl[11] ^= br[11];
bl[12] ^= br[12];
bl[13] ^= br[13];
bl[14] ^= br[14];
bl[15] ^= br[15];
return new IPAddress(bl);
}
/// <summary>
/// Perform the bitwise NOT operation on an IPAddress
/// and return a new IPAddress containing the result.
///
/// <exception cref="IncompatibleAddressFamiliesException"></exception>
/// </summary>
public static IPAddress Not(IPAddress l)
{
byte [] bl = l.GetAddressBytes();
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if (l.AddressFamily == AddressFamily.InterNetwork) {
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bl[0] = (byte) ~bl[0];
bl[1] = (byte) ~bl[1];
bl[2] = (byte) ~bl[2];
bl[3] = (byte) ~bl[3];
int tmp = (bl[0] << 24) | (bl[1] << 16) | (bl[2] << 8) | bl[3];
return new IPAddress(((long)tmp) & 0xffffffff);
}
bl[0] = (byte) ~bl[0];
bl[1] = (byte) ~bl[1];
bl[2] = (byte) ~bl[2];
bl[3] = (byte) ~bl[3];
bl[4] = (byte) ~bl[4];
bl[5] = (byte) ~bl[5];
bl[6] = (byte) ~bl[6];
bl[7] = (byte) ~bl[7];
bl[8] = (byte) ~bl[8];
bl[9] = (byte) ~bl[9];
bl[10] = (byte) ~bl[10];
bl[11] = (byte) ~bl[11];
bl[12] = (byte) ~bl[12];
bl[13] = (byte) ~bl[13];
bl[14] = (byte) ~bl[14];
bl[15] = (byte) ~bl[15];
return new IPAddress(bl);
}
static IPAddressBitwise()
{
}
private IPAddressBitwise()
{
}
}
public sealed class IPAddressCompare
{
public static bool LessThan(IPAddress l, IPAddress r)
{
if (l.AddressFamily != r.AddressFamily)
throw new IncompatibleAddressFamiliesException();
byte [] bl = l.GetAddressBytes();
byte [] br = r.GetAddressBytes();
uint ul = 0;
uint ur = 0;
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for (int i = 0; i < bl.Length; i += 4) {
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ul = (uint)((bl[i + 0] << 24) | (bl[i + 1] << 16) |
(bl[i + 2] << 8) | (bl[i + 3]));
ur = (uint)((br[i + 0] << 24) | (br[i + 1] << 16) |
(br[i + 2] << 8) | (br[i + 3]));
if (ul > ur)
return false;
}
return ul < ur;
}
public static bool LessThanEqualTo(IPAddress l, IPAddress r)
{
if (l.AddressFamily != r.AddressFamily)
throw new IncompatibleAddressFamiliesException();
byte [] bl = l.GetAddressBytes();
byte [] br = r.GetAddressBytes();
uint ul = 0;
uint ur = 0;
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for (int i = 0; i < bl.Length; i += 4) {
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ul = (uint)((bl[i + 0] << 24) | (bl[i + 1] << 16) |
(bl[i + 2] << 8) | (bl[i + 3]));
ur = (uint)((br[i + 0] << 24) | (br[i + 1] << 16) |
(br[i + 2] << 8) | (br[i + 3]));
if (ul > ur)
return false;
}
return ul <= ur;
}
public static bool GreaterThan(IPAddress l, IPAddress r)
{
return !LessThanEqualTo(l, r);
}
public static bool GreaterThanEqualTo(IPAddress l, IPAddress r)
{
return !LessThan(l, r);
}
private IPAddressCompare()
{
}
}
#if TEST_IPADDRESS_UTILS
public class Test
{
static void Output(string format, params object[] args)
{
Console.Write(format, args);
}
static void Main()
{
IPAddress a = IPAddress.Parse("10.0.0.1");
IPAddress b = IPAddress.Parse("192.168.0.1");
IPAddress c = IPAddress.Parse("170.170.170.170");
IPAddress d = IPAddress.Parse("255.255.255.255");
IPAddress e = IPAddress.Parse("85.85.85.85");
IPAddress x = new IPAddress(IPAddress.IPv6Any.GetAddressBytes());
Output("Expect: a < b {0}\n",
IPAddressCompare.LessThan(a, b));
Output("Expect: a <= a {0}\n",
IPAddressCompare.LessThanEqualTo(a, a));
Output("c AND d == d {0}\n", IPAddressBitwise.And(c, d).Equals(c));
Output("c AND e == d {0}\n", IPAddressBitwise.Or(c, e).Equals(d));
Output("c XOR d == e {0}\n", IPAddressBitwise.Xor(c, e).Equals(d));
Output("c XOR d == 0 {0}\n", IPAddressBitwise.Xor(c, c).Equals(IPAddress.Any));
Output("NOT c == e {0}\n", IPAddressBitwise.Not(c).Equals(e));
}
}
#endif
} // namespace System.Net.IP