Example #1
0
    public IEnumerable <IpAddressNetworkV4> Split(byte maskIncrement = 1)
    {
        int newMaskInt = _mask + maskIncrement;

        if (newMaskInt <= _mask || newMaskInt > 32)
        {
            throw new ArgumentOutOfRangeException($"The increment ({maskIncrement}) must place the new mask between this networks mask ({_mask}) and 32", nameof(maskIncrement));
        }

        byte newMask = (byte)newMaskInt;

        // Determine last network
        // We use this to determine when to stop producing networks. Other approaches may lead to infinite loops (when running unchecked arithmetics)
        uint        networksBitmask = uint.MaxValue >> (32 - maskIncrement);
        IpAddressV4 lastNetwork     = new IpAddressV4(_networkAddress.Address | (networksBitmask << (32 - newMask)));

        // Create increment value
        uint        incrementVal = 1U << (32 - newMask);
        IpAddressV4 currentNet   = _networkAddress;

        // Ensure we can fail fast on the arguments
        IEnumerable <IpAddressNetworkV4> Enumerate()
        {
            // Produce networks as long as we're within our current network
            yield return(new IpAddressNetworkV4(currentNet, newMask));

            do
            {
                currentNet = new IpAddressV4(currentNet.Address + incrementVal);
                yield return(new IpAddressNetworkV4(currentNet, newMask));
            } while (currentNet != lastNetwork);
        }

        return(Enumerate());
    }
Example #2
0
 public void Setup()
 {
     _addressV4  = (IpAddressV4)"174.64.25.18";
     _networkV4  = (IpAddressNetworkV4)"174.64.25.18/24";
     _addressV6  = (IpAddressV6)"2001:0dff:44ff:0:1744:ffff";
     _networkV6  = (IpAddressNetworkV6)"2001:0dff:44ff:0:1744:ffff/64";
     _sb         = new StringBuilder();
     _charBuffer = new char[60];
 }
Example #3
0
    public void IPv4Endianness()
    {
        void Test(IpAddressV4 ip) => ip.Address.Should().Be(0xC0A80A40);

        // Tests that IP adresses are parsed to Big-endian order internally
        Test(new IpAddressV4(IPAddress.Parse("192.168.10.64")));
        Test(new IpAddressV4(0xC0A80A40));
        Test(new IpAddressV4(192, 168, 10, 64));
        Test(IpAddressV4.Parse("192.168.10.64"));
    }
    public void AddressToBytesTests(string networks, byte[] expected)
    {
        IpAddressV4 network = (IpAddressV4)networks;

        network.AddressToBytes().Should().Equal(expected);

        byte[] res = new byte[4];
        network.AddressToBytes(res);

        res.Should().Equal(expected);
    }
Example #5
0
    /// <inheritdoc cref="Docs.IIPAddressNetworkDocs{IpAddressNetworkV4}.ContainsOrEqual(IpAddressNetworkV4)"/>
    public bool ContainsOrEqual(IpAddressNetworkV4 other)
    {
        if (other.Mask < _mask)
        {
            return(false);
        }

        IpAddressV4 sharedNetwork = NetworkMask & other.NetworkAddress;

        return(sharedNetwork == _networkAddress);
    }
    public void ComparisonTests(string smallers, string largers)
    {
        IpAddressV4 smaller = (IpAddressV4)smallers;
        IpAddressV4 larger  = (IpAddressV4)largers;

        (smaller < larger).Should().BeTrue();
        (smaller <= larger).Should().BeTrue();
        (larger > smaller).Should().BeTrue();
        (larger >= smaller).Should().BeTrue();

        smaller.CompareTo(larger).Should().BeNegative();
        larger.CompareTo(smaller).Should().BePositive();
    }
    public void EqualTests(string lefts, string rights)
    {
        IpAddressV4 left  = (IpAddressV4)lefts;
        IpAddressV4 right = (IpAddressV4)rights;

        (left < right).Should().BeFalse();
        (left <= right).Should().BeTrue();
        (left == right).Should().BeTrue();
        (right > left).Should().BeFalse();
        (right >= left).Should().BeTrue();
        (right == left).Should().BeTrue();

        left.CompareTo(right).Should().Be(0);
        right.CompareTo(left).Should().Be(0);
    }
Example #8
0
    public IpAddressNetworkV4(uint address, byte mask)
    {
        if (mask > 32)
        {
            throw new ArgumentException("Mask cannot be greater than 32 bits", nameof(mask));
        }

        _mask = mask;
        if (mask == 0)
        {
            _networkAddress = IpAddressV4.Min;
        }
        else
        {
            _networkAddress = new IpAddressV4(address & (uint.MaxValue << (32 - _mask)));
        }
    }
    public static bool TryParse(ReadOnlySpan <char> value, out IpAddressV4 result)
    {
        Tokenizer tokenizer = new Tokenizer(value);

        if (!TryParse(ref tokenizer, out result))
        {
            return(false);
        }

        // We now expect the end
        ParsedToken token = tokenizer.ParseAndAdvance();

        if (token.Type != TokenType.None)
        {
            // Something other than EOF was found
            result = default;
            return(false);
        }

        return(true);
    }
Example #10
0
    /// <summary>
    /// Creates an instance of <see cref="IpAddressNetworkV4"/> from a network and broadcast address.
    /// </summary>
    /// <param name="networkAddress">The network address. Note that it must be a network start address such as 10.0.0.0</param>
    /// <param name="broadcastAddress">The broadcast address. Note that it must be a broadcast address such as 10.255.255.255</param>
    public IpAddressNetworkV4(uint networkAddress, uint broadcastAddress)
    {
        uint ip = networkAddress ^ broadcastAddress;

        //count the number of 0 bits set
        byte mask = 32;

        while (ip != 0)
        {
            ip >>= 1;
            mask--;
        }

        _mask = mask;

        if (mask == 0)
        {
            _networkAddress = IpAddressV4.Min;
        }
        else
        {
            _networkAddress = new IpAddressV4(networkAddress & (uint.MaxValue << (32 - _mask)));
        }
    }
    internal static bool TryParse(ref Tokenizer tokenizer, out IpAddressV4 result)
    {
        // Shortest IPv4 is 1 char (0)
        // Longest IPv4 is 15 chars (255.255.255.255)
        if (tokenizer.Length < 1 || tokenizer.Length > 15)
        {
            result = default;
            return(false);
        }

        uint ip = 0;

        ParsedToken token = default;

        // Parse the IP
        int i;

        for (i = 0; i < 4; i++)
        {
            token = tokenizer.ParseAndAdvance(false);

            // Read a dot, or break on slashes
            if (i > 0)
            {
                if (token.Type == TokenType.None)
                {
                    // We're at the end, and we could have parsed a number. To support partial IPv4's ("192.168"), we break here
                    break;
                }

                if (token.Type != TokenType.Dot)
                {
                    // We expected a dot, but we didn't get one
                    result = default;
                    return(false);
                }

                // Advance once more
                token = tokenizer.ParseAndAdvance(false);
            }

            // Read a number
            if (token.Type != TokenType.Number || token.Value > byte.MaxValue)
            {
                // We expected a 0..255 number, but we didn't get one
                result = default;
                return(false);
            }

            ip <<= 8;
            ip  += token.Value;
        }

        // Assume the remainder of the IP is 0's
        for (; i < 4; i++)
        {
            ip <<= 8;
        }

        result = new IpAddressV4(ip);
        return(true);
    }
 public static bool TryParse(string value, out IpAddressV4 result)
 {
     return(TryParse(value.AsSpan(), out result));
 }
    public void ToStringTests(string str, string expected)
    {
        IpAddressV4 network = (IpAddressV4)str;

        network.ToString().Should().Be(expected);
    }
 public bool TryGet(IpAddressV4 address, out IpAddressNetworkV4?foundNetwork, out TValue?value) => TryGet((IpAddressNetworkV4)address, out foundNetwork, out value);
Example #15
0
    public bool Contains(IpAddressV4 other)
    {
        IpAddressV4 mask = NetworkMask;

        return((mask & other) == NetworkAddress);
    }
Example #16
0
 public void IPv4Formats(string address)
 {
     Assert.True(IpAddressV4.TryParse(address, out _));
 }