本文整理汇总了C#中System.Random.NextPayloadLayer方法的典型用法代码示例。如果您正苦于以下问题:C# Random.NextPayloadLayer方法的具体用法?C# Random.NextPayloadLayer怎么用?C# Random.NextPayloadLayer使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类System.Random的用法示例。
在下文中一共展示了Random.NextPayloadLayer方法的14个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的C#代码示例。
示例1: PayloadLayerEqualsTest
public void PayloadLayerEqualsTest()
{
Random random = new Random();
for (int i = 0; i != 1000; ++i)
{
PayloadLayer layer = random.NextPayloadLayer(random.Next(100));
Assert.AreNotEqual(layer, null);
Assert.AreEqual(layer, new PayloadLayer
{
Data = layer.Data
});
Assert.AreNotEqual(layer, new PayloadLayer
{
Data = new Datagram(layer.Data.Concat<byte>(1).ToArray())
});
if (layer.Length > 1)
{
Assert.AreNotEqual(layer, new PayloadLayer
{
Data = random.NextDatagram(layer.Length)
});
}
}
}示例2: RandomUdpTest
public void RandomUdpTest()
{
EthernetLayer ethernetLayer = new EthernetLayer
{
Source = new MacAddress("00:01:02:03:04:05"),
Destination = new MacAddress("A0:A1:A2:A3:A4:A5")
};
int seed = new Random().Next();
Console.WriteLine("Seed: " + seed);
Random random = new Random(seed);
for (int i = 0; i != 1000; ++i)
{
IpV4Layer ipV4Layer = random.NextIpV4Layer(null);
ipV4Layer.HeaderChecksum = null;
IpV6Layer ipV6Layer = random.NextIpV6Layer(IpV4Protocol.Udp, false);
EthernetType ethernetType = random.NextBool() ? EthernetType.IpV4 : EthernetType.IpV6;
Layer ipLayer = (ethernetType == EthernetType.IpV4 ? (Layer)ipV4Layer : ipV6Layer);
UdpLayer udpLayer = random.NextUdpLayer();
udpLayer.Checksum = null;
PayloadLayer payloadLayer = random.NextPayloadLayer(random.Next(60000));
Packet packet = PacketBuilder.Build(DateTime.Now, ethernetLayer, ipLayer, udpLayer, payloadLayer);
Assert.IsTrue(packet.IsValid, "IsValid");
// Ethernet
ethernetLayer.EtherType = ethernetType;
Assert.AreEqual(ethernetLayer, packet.Ethernet.ExtractLayer(), "Ethernet Layer");
ethernetLayer.EtherType = EthernetType.None;
// Ip
if (ipLayer == ipV4Layer)
{
// IpV4.
ipV4Layer.Protocol = IpV4Protocol.Udp;
ipV4Layer.HeaderChecksum = ((IpV4Layer)packet.Ethernet.IpV4.ExtractLayer()).HeaderChecksum;
Assert.AreEqual(ipV4Layer, packet.Ethernet.IpV4.ExtractLayer(), "IP Layer");
ipV4Layer.HeaderChecksum = null;
}
else
{
// IpV6.
Assert.AreEqual(ipV6Layer, packet.Ethernet.IpV6.ExtractLayer(), "IP Layer");
}
// UDP
udpLayer.Checksum = packet.Ethernet.Ip.Udp.Checksum;
Assert.AreEqual(udpLayer, packet.Ethernet.Ip.Udp.ExtractLayer(), "UDP Layer");
Assert.AreEqual(UdpDatagram.HeaderLength + payloadLayer.Length, packet.Ethernet.Ip.Udp.TotalLength, "Total Length");
Assert.IsTrue(!udpLayer.CalculateChecksum && packet.Ethernet.Ip.Udp.Checksum == 0 ||
udpLayer.CalculateChecksum && packet.Ethernet.Ip.IsTransportChecksumCorrect, "IsTransportChecksumCorrect");
Assert.IsTrue(packet.Ethernet.Ip.Udp.IsChecksumOptional, "IsChecksumOptional");
Assert.AreEqual(payloadLayer.Data, packet.Ethernet.Ip.Udp.Payload, "Payload");
}
}示例3: RandomUdpTest
public void RandomUdpTest()
{
EthernetLayer ethernetLayer = new EthernetLayer
{
Source = new MacAddress("00:01:02:03:04:05"),
Destination = new MacAddress("A0:A1:A2:A3:A4:A5")
};
Random random = new Random();
IpV4Layer ipV4Layer = random.NextIpV4Layer(null);
ipV4Layer.HeaderChecksum = null;
for (int i = 0; i != 1000; ++i)
{
UdpLayer udpLayer = random.NextUdpLayer();
udpLayer.Checksum = null;
PayloadLayer payloadLayer = random.NextPayloadLayer(random.Next(60000));
Packet packet = PacketBuilder.Build(DateTime.Now, ethernetLayer, ipV4Layer, udpLayer, payloadLayer);
Assert.IsTrue(packet.IsValid, "IsValid");
// Ethernet
ethernetLayer.EtherType = EthernetType.IpV4;
Assert.AreEqual(ethernetLayer, packet.Ethernet.ExtractLayer(), "Ethernet Layer");
// IpV4
ipV4Layer.Protocol = IpV4Protocol.Udp;
ipV4Layer.HeaderChecksum = ((IpV4Layer)packet.Ethernet.IpV4.ExtractLayer()).HeaderChecksum;
Assert.AreEqual(ipV4Layer, packet.Ethernet.IpV4.ExtractLayer(), "IP Layer");
ipV4Layer.HeaderChecksum = null;
// UDP
udpLayer.Checksum = packet.Ethernet.IpV4.Udp.Checksum;
Assert.AreEqual(udpLayer, packet.Ethernet.IpV4.Udp.ExtractLayer(), "UDP Layer");
Assert.AreEqual(UdpDatagram.HeaderLength + payloadLayer.Length, packet.Ethernet.IpV4.Udp.TotalLength, "Total Length");
Assert.IsTrue(!udpLayer.CalculateChecksum && packet.Ethernet.IpV4.Udp.Checksum == 0 ||
udpLayer.CalculateChecksum && packet.Ethernet.IpV4.IsTransportChecksumCorrect, "IsTransportChecksumCorrect");
Assert.IsTrue(packet.Ethernet.IpV4.Udp.IsChecksumOptional, "IsChecksumOptional");
Assert.AreEqual(payloadLayer.Data, packet.Ethernet.IpV4.Udp.Payload, "Payload");
}
}示例4: RandomTcpTest
public void RandomTcpTest()
{
MacAddress ethernetSource = new MacAddress("00:01:02:03:04:05");
MacAddress ethernetDestination = new MacAddress("A0:A1:A2:A3:A4:A5");
EthernetLayer ethernetLayer = new EthernetLayer
{
Source = ethernetSource,
Destination = ethernetDestination
};
int seed = new Random().Next();
Console.WriteLine("Seed: " + seed);
Random random = new Random(seed);
for (int i = 0; i != 1000; ++i)
{
IpV4Layer ipV4Layer = random.NextIpV4Layer(null);
ipV4Layer.HeaderChecksum = null;
IpV6Layer ipV6Layer = random.NextIpV6Layer(IpV4Protocol.Tcp, false);
EthernetType ethernetType = random.NextBool() ? EthernetType.IpV4 : EthernetType.IpV6;
Layer ipLayer = (ethernetType == EthernetType.IpV4 ? (Layer)ipV4Layer : ipV6Layer);
TcpLayer tcpLayer = random.NextTcpLayer();
PayloadLayer payloadLayer = random.NextPayloadLayer(random.Next(60000));
Packet packet = PacketBuilder.Build(DateTime.Now, ethernetLayer, ipLayer, tcpLayer, payloadLayer);
Assert.IsTrue(packet.IsValid);
// Ethernet
ethernetLayer.EtherType = ethernetType;
Assert.AreEqual(ethernetLayer, packet.Ethernet.ExtractLayer(), "Ethernet Layer");
ethernetLayer.EtherType = EthernetType.None;
// Ip.
if (ipLayer == ipV4Layer)
{
// IpV4.
ipV4Layer.Protocol = IpV4Protocol.Tcp;
ipV4Layer.HeaderChecksum = ((IpV4Layer)packet.Ethernet.IpV4.ExtractLayer()).HeaderChecksum;
Assert.AreEqual(ipV4Layer, packet.Ethernet.IpV4.ExtractLayer(), "IPv4 Layer");
ipV4Layer.HeaderChecksum = null;
}
else
{
Assert.AreEqual(ipV6Layer, packet.Ethernet.IpV6.ExtractLayer(), "IPv6 Layer");
}
// TCP
tcpLayer.Checksum = packet.Ethernet.Ip.Tcp.Checksum;
Assert.AreEqual(tcpLayer, packet.Ethernet.Ip.Tcp.ExtractLayer(), "TCP Layer");
Assert.AreNotEqual(random.NextTcpLayer(), packet.Ethernet.Ip.Tcp.ExtractLayer(), "TCP Layer");
Assert.AreEqual(tcpLayer.GetHashCode(), packet.Ethernet.Ip.Tcp.ExtractLayer().GetHashCode(), "TCP Layer");
Assert.AreNotEqual(random.NextTcpLayer().GetHashCode(), packet.Ethernet.Ip.Tcp.ExtractLayer().GetHashCode(), "TCP Layer");
Assert.AreEqual((uint)(packet.Ethernet.Ip.Tcp.SequenceNumber + packet.Ethernet.Ip.Tcp.PayloadLength), packet.Ethernet.Ip.Tcp.NextSequenceNumber);
foreach (TcpOption option in packet.Ethernet.Ip.Tcp.Options.OptionsCollection)
{
Assert.AreEqual(option, option);
Assert.AreEqual(option.GetHashCode(), option.GetHashCode());
Assert.IsFalse(string.IsNullOrEmpty(option.ToString()));
Assert.IsFalse(option.Equals(null));
Assert.IsFalse(option.Equals(2));
}
Assert.AreEqual(tcpLayer.Options, packet.Ethernet.Ip.Tcp.Options, "Options");
Assert.AreEqual((tcpLayer.ControlBits & TcpControlBits.Acknowledgment) == TcpControlBits.Acknowledgment, packet.Ethernet.Ip.Tcp.IsAcknowledgment, "IsAcknowledgment");
Assert.AreEqual((tcpLayer.ControlBits & TcpControlBits.CongestionWindowReduced) == TcpControlBits.CongestionWindowReduced, packet.Ethernet.Ip.Tcp.IsCongestionWindowReduced, "IsCongestionWindowReduced");
Assert.AreEqual((tcpLayer.ControlBits & TcpControlBits.ExplicitCongestionNotificationEcho) == TcpControlBits.ExplicitCongestionNotificationEcho, packet.Ethernet.Ip.Tcp.IsExplicitCongestionNotificationEcho, "IsExplicitCongestionNotificationEcho");
Assert.AreEqual((tcpLayer.ControlBits & TcpControlBits.Fin) == TcpControlBits.Fin, packet.Ethernet.Ip.Tcp.IsFin, "IsFin");
Assert.AreEqual((tcpLayer.ControlBits & TcpControlBits.Push) == TcpControlBits.Push, packet.Ethernet.Ip.Tcp.IsPush, "IsPush");
Assert.AreEqual((tcpLayer.ControlBits & TcpControlBits.Reset) == TcpControlBits.Reset, packet.Ethernet.Ip.Tcp.IsReset, "IsReset");
Assert.AreEqual((tcpLayer.ControlBits & TcpControlBits.Synchronize) == TcpControlBits.Synchronize, packet.Ethernet.Ip.Tcp.IsSynchronize, "IsSynchronize");
Assert.AreEqual((tcpLayer.ControlBits & TcpControlBits.Urgent) == TcpControlBits.Urgent, packet.Ethernet.Ip.Tcp.IsUrgent, "IsUrgent");
Assert.AreEqual(0, packet.Ethernet.Ip.Tcp.Reserved);
Assert.IsFalse(packet.Ethernet.Ip.Tcp.IsChecksumOptional, "IsChecksumOptional");
Assert.AreEqual(TcpDatagram.HeaderMinimumLength + tcpLayer.Options.BytesLength + payloadLayer.Length, packet.Ethernet.Ip.Tcp.Length, "Total Length");
Assert.IsTrue(packet.Ethernet.Ip.IsTransportChecksumCorrect, "IsTransportChecksumCorrect");
Assert.AreEqual(payloadLayer.Data, packet.Ethernet.Ip.Tcp.Payload, "Payload");
}
}示例5: RandomIpV4Test
public void RandomIpV4Test()
{
MacAddress ethernetSource = new MacAddress("00:01:02:03:04:05");
MacAddress ethernetDestination = new MacAddress("A0:A1:A2:A3:A4:A5");
const EthernetType EthernetType = EthernetType.IpV4;
EthernetLayer ethernetLayer = new EthernetLayer
{
Source = ethernetSource,
Destination = ethernetDestination,
EtherType = EthernetType
};
Random random = new Random();
for (int i = 0; i != 1000; ++i)
{
IpV4Layer ipV4Layer = random.NextIpV4Layer();
ipV4Layer.HeaderChecksum = null;
PayloadLayer payloadLayer = random.NextPayloadLayer(random.NextInt(0, 50 * 1024));
Packet packet = PacketBuilder.Build(DateTime.Now, ethernetLayer, ipV4Layer, payloadLayer);
Assert.IsTrue(ipV4Layer.Protocol == IpV4Protocol.Udp ||
ipV4Layer.Protocol == IpV4Protocol.Tcp ||
ipV4Layer.Protocol == IpV4Protocol.InternetGroupManagementProtocol ||
ipV4Layer.Protocol == IpV4Protocol.InternetControlMessageProtocol ||
ipV4Layer.Protocol == IpV4Protocol.Gre ||
packet.IsValid, "IsValid (" + ipV4Layer.Protocol + ")");
// Ethernet
Assert.AreEqual(packet.Length - EthernetDatagram.HeaderLengthValue, packet.Ethernet.PayloadLength, "PayloadLength");
Assert.AreEqual(ethernetLayer, packet.Ethernet.ExtractLayer(), "Ethernet Layer");
// IpV4
ipV4Layer.HeaderChecksum = ((IpV4Layer)packet.Ethernet.IpV4.ExtractLayer()).HeaderChecksum;
Assert.AreEqual(ipV4Layer, packet.Ethernet.IpV4.ExtractLayer(), "IP Layer");
Assert.AreEqual(ipV4Layer.Destination, packet.Ethernet.IpV4.Destination, "Destination");
Assert.AreNotEqual(ipV4Layer, null);
Assert.AreNotEqual(ipV4Layer, new PayloadLayer());
Assert.IsNotNull(ipV4Layer.ToString());
Assert.AreEqual(IpV4Datagram.HeaderMinimumLength + ipV4Layer.Options.BytesLength, packet.Ethernet.IpV4.HeaderLength, "IP HeaderLength");
Assert.AreEqual(packet.Length - EthernetDatagram.HeaderLengthValue, packet.Ethernet.IpV4.TotalLength, "IP TotalLength");
Assert.AreNotEqual(2, packet.Ethernet.IpV4.Fragmentation, "IP Fragmentation");
Assert.IsTrue(ipV4Layer.Fragmentation == packet.Ethernet.IpV4.Fragmentation, "IP Fragmentation");
Assert.IsFalse(ipV4Layer.Fragmentation != packet.Ethernet.IpV4.Fragmentation, "IP Fragmentation");
Assert.IsFalse(ipV4Layer.Fragmentation.Equals(0), "IP Fragmentation");
if (ipV4Layer.Fragmentation.Offset != 0)
Assert.AreNotEqual(ipV4Layer.Fragmentation, IpV4Fragmentation.None, "IP Fragmentation");
Assert.AreEqual(ipV4Layer.Fragmentation.GetHashCode(), packet.Ethernet.IpV4.Fragmentation.GetHashCode(), "IP Fragmentation");
Assert.AreEqual(ipV4Layer.Fragmentation.Options, packet.Ethernet.IpV4.Fragmentation.Options, "IP Fragmentation");
Assert.AreEqual(ipV4Layer.Fragmentation.Offset, packet.Ethernet.IpV4.Fragmentation.Offset, "IP Fragmentation");
if (ipV4Layer.Fragmentation.Equals(IpV4Fragmentation.None))
{
Assert.AreEqual(IpV4FragmentationOptions.None, packet.Ethernet.IpV4.Fragmentation.Options, "IP Fragmentation");
Assert.AreEqual(0, packet.Ethernet.IpV4.Fragmentation.Offset, "IP Fragmentation");
}
Assert.AreEqual(true, packet.Ethernet.IpV4.IsHeaderChecksumCorrect, "IP HeaderChecksumCorrect");
Assert.AreNotEqual(null, packet.Ethernet.IpV4.Options, "IP Options");
Assert.AreNotEqual(packet.Ethernet.IpV4.Options, null, "IP Options");
Assert.AreNotEqual(new IpV4Options(new IpV4OptionUnknown(0, new byte[35])), packet.Ethernet.IpV4.Options, "IP Options");
Assert.AreEqual(ipV4Layer.Options.GetHashCode(), packet.Ethernet.IpV4.Options.GetHashCode(), "IP Options HashCode");
Assert.IsNotNull(packet.Ethernet.IpV4.Options.ToString());
for (int optionIndex = 0; optionIndex != ipV4Layer.Options.Count; ++optionIndex)
{
IpV4Option option = ipV4Layer.Options[optionIndex];
Assert.AreEqual(option, packet.Ethernet.IpV4.Options[optionIndex]);
Assert.IsFalse(option.Equals(null));
}
if (packet.Ethernet.IpV4.Protocol == IpV4Protocol.Tcp)
Assert.IsInstanceOfType(packet.Ethernet.IpV4.Transport, typeof(TcpDatagram));
else if (packet.Ethernet.IpV4.Protocol == IpV4Protocol.Udp)
Assert.IsInstanceOfType(packet.Ethernet.IpV4.Transport, typeof(UdpDatagram));
else
Assert.IsNull(packet.Ethernet.IpV4.Transport);
Assert.AreEqual(payloadLayer.Data, packet.Ethernet.IpV4.Payload, "IP Payload");
}
}示例6: RandomGreTest
public void RandomGreTest()
{
EthernetLayer ethernetLayer = new EthernetLayer
{
Source = new MacAddress("00:01:02:03:04:05"),
Destination = new MacAddress("A0:A1:A2:A3:A4:A5")
};
Random random = new Random();
IpV4Layer ipV4Layer = random.NextIpV4Layer(null);
ipV4Layer.HeaderChecksum = null;
for (int i = 0; i != 200; ++i)
{
GreLayer greLayer = random.NextGreLayer();
PayloadLayer payloadLayer = random.NextPayloadLayer(random.Next(100));
PacketBuilder packetBuilder = new PacketBuilder(ethernetLayer, ipV4Layer, greLayer, payloadLayer);
Packet packet = packetBuilder.Build(DateTime.Now);
if (greLayer.Checksum == null &&
!new[] { EthernetType.IpV4, EthernetType.Arp, EthernetType.VLanTaggedFrame }.Contains(packet.Ethernet.IpV4.Gre.ProtocolType))
{
Assert.IsTrue(packet.IsValid, "IsValid, ProtocolType=" + packet.Ethernet.IpV4.Gre.ProtocolType);
}
// Ethernet
ethernetLayer.EtherType = EthernetType.IpV4;
Assert.AreEqual(ethernetLayer, packet.Ethernet.ExtractLayer(), "Ethernet Layer");
// IPv4
ipV4Layer.Protocol = IpV4Protocol.Gre;
ipV4Layer.HeaderChecksum = ((IpV4Layer)packet.Ethernet.IpV4.ExtractLayer()).HeaderChecksum;
Assert.AreEqual(ipV4Layer, packet.Ethernet.IpV4.ExtractLayer());
ipV4Layer.HeaderChecksum = null;
Assert.AreEqual(ipV4Layer.Length, packet.Ethernet.IpV4.HeaderLength);
Assert.IsTrue(packet.Ethernet.IpV4.IsHeaderChecksumCorrect);
Assert.AreEqual(ipV4Layer.Length + greLayer.Length + payloadLayer.Length,
packet.Ethernet.IpV4.TotalLength);
Assert.AreEqual(IpV4Datagram.DefaultVersion, packet.Ethernet.IpV4.Version);
// GRE
GreDatagram actualGre = packet.Ethernet.IpV4.Gre;
GreLayer actualGreLayer = (GreLayer)actualGre.ExtractLayer();
if (greLayer.ChecksumPresent && greLayer.Checksum == null)
{
Assert.IsTrue(actualGre.IsChecksumCorrect);
greLayer.Checksum = actualGre.Checksum;
}
Assert.AreEqual(greLayer, actualGreLayer, "Layer");
if (actualGreLayer.Key != null)
actualGreLayer.SetKey(actualGreLayer.KeyPayloadLength.Value, actualGreLayer.KeyCallId.Value);
else
{
Assert.IsNull(actualGreLayer.KeyPayloadLength);
Assert.IsNull(actualGreLayer.KeyCallId);
}
Assert.AreEqual(greLayer, actualGreLayer, "Layer");
if (actualGre.KeyPresent)
{
Assert.AreEqual(greLayer.KeyPayloadLength, actualGre.KeyPayloadLength, "KeyPayloadLength");
Assert.AreEqual(greLayer.KeyCallId, actualGre.KeyCallId, "KeyCallId");
}
Assert.AreNotEqual(random.NextGreLayer(), actualGreLayer, "Not Layer");
Assert.AreEqual(greLayer.Length, actualGre.HeaderLength);
Assert.IsTrue(actualGre.KeyPresent ^ (greLayer.Key == null));
MoreAssert.IsSmaller(8, actualGre.RecursionControl);
MoreAssert.IsSmaller(32, actualGre.FutureUseBits);
Assert.IsTrue(actualGre.RoutingPresent ^ (greLayer.Routing == null && greLayer.RoutingOffset == null));
Assert.IsTrue(actualGre.SequenceNumberPresent ^ (greLayer.SequenceNumber == null));
Assert.IsTrue(!actualGre.StrictSourceRoute || actualGre.RoutingPresent);
if (actualGre.RoutingPresent)
{
Assert.IsNotNull(actualGre.ActiveSourceRouteEntryIndex);
if (actualGre.ActiveSourceRouteEntryIndex < actualGre.Routing.Count)
Assert.IsNotNull(actualGre.ActiveSourceRouteEntry);
foreach (GreSourceRouteEntry entry in actualGre.Routing)
{
Assert.AreNotEqual(entry, 2);
Assert.AreEqual(entry.GetHashCode(), entry.GetHashCode());
switch (entry.AddressFamily)
{
case GreSourceRouteEntryAddressFamily.AsSourceRoute:
GreSourceRouteEntryAs asEntry = (GreSourceRouteEntryAs)entry;
MoreAssert.IsInRange(0, asEntry.AsNumbers.Count, asEntry.NextAsNumberIndex);
if (asEntry.NextAsNumberIndex != asEntry.AsNumbers.Count)
Assert.AreEqual(asEntry.AsNumbers[asEntry.NextAsNumberIndex], asEntry.NextAsNumber);
break;
case GreSourceRouteEntryAddressFamily.IpSourceRoute:
GreSourceRouteEntryIp ipEntry = (GreSourceRouteEntryIp)entry;
MoreAssert.IsInRange(0, ipEntry.Addresses.Count, ipEntry.NextAddressIndex);
if (ipEntry.NextAddressIndex != ipEntry.Addresses.Count)
Assert.AreEqual(ipEntry.Addresses[ipEntry.NextAddressIndex], ipEntry.NextAddress);
break;
default:
GreSourceRouteEntryUnknown unknownEntry = (GreSourceRouteEntryUnknown)entry;
//.........这里部分代码省略.........
示例7: CreateRandomTcpPayload
private static void CreateRandomTcpPayload(Random random, TcpLayer tcpLayer, List<ILayer> layers)
{
if (random.NextBool(20))
{
// Finish with payload.
PayloadLayer payloadLayer = random.NextPayloadLayer(random.Next(100));
layers.Add(payloadLayer);
return;
}
HttpLayer httpLayer = random.NextHttpLayer();
layers.Add(httpLayer);
if (httpLayer.IsRequest)
tcpLayer.DestinationPort = 80;
else
tcpLayer.SourcePort = 80;
if (random.NextBool())
return;
HttpLayer httpLayer2 = httpLayer.IsRequest ? (HttpLayer)random.NextHttpRequestLayer() : random.NextHttpResponseLayer();
layers.Add(httpLayer2);
}示例8: CreateRandomUdpPayload
private static void CreateRandomUdpPayload(Random random, UdpLayer udpLayer, List<ILayer> layers)
{
if (random.NextBool(20))
{
// Finish with payload.
PayloadLayer payloadLayer = random.NextPayloadLayer(random.Next(100));
layers.Add(payloadLayer);
return;
}
DnsLayer dnsLayer = random.NextDnsLayer();
layers.Add(dnsLayer);
ushort specialPort = (ushort)(random.NextBool() ? 53 : 5355);
if (dnsLayer.IsQuery)
udpLayer.DestinationPort = specialPort;
else
udpLayer.SourcePort = specialPort;
}示例9: CreateRandomIpPayload
private static void CreateRandomIpPayload(Random random, Layer ipLayer, List<ILayer> layers)
{
IpV6Layer ipV6Layer = ipLayer as IpV6Layer;
if (ipV6Layer != null)
{
var headers = ipV6Layer.ExtensionHeaders.Headers;
if (headers.Any() && headers.Last().Protocol == IpV4Protocol.EncapsulatingSecurityPayload)
return;
}
if (ipV6Layer != null ? ipV6Layer.LastNextHeader != null : random.NextBool(20))
{
// Finish with payload.
PayloadLayer payloadLayer = random.NextPayloadLayer(random.Next(100));
layers.Add(payloadLayer);
return;
}
IpV4Layer ipV4Layer = ipLayer as IpV4Layer;
if (ipV4Layer != null)
{
ipV4Layer.Protocol = null;
if (random.NextBool())
ipV4Layer.Fragmentation = IpV4Fragmentation.None;
}
switch (random.Next(0, 11))
{
case 0: // IpV4.
case 1:
IpV4Layer innerIpV4Layer = random.NextIpV4Layer();
layers.Add(innerIpV4Layer);
CreateRandomIpPayload(random, innerIpV4Layer, layers);
return;
case 2: // IpV6.
case 3:
IpV6Layer innerIpV6Layer = random.NextIpV6Layer(random.NextBool(20));
layers.Add(innerIpV6Layer);
CreateRandomIpPayload(random, innerIpV6Layer, layers);
return;
case 4: // Igmp.
layers.Add(random.NextIgmpLayer());
return;
case 5: // Icmp.
IcmpLayer icmpLayer = random.NextIcmpLayer();
layers.Add(icmpLayer);
layers.AddRange(random.NextIcmpPayloadLayers(icmpLayer));
return;
case 6: // Gre.
GreLayer greLayer = random.NextGreLayer();
layers.Add(greLayer);
CreateRandomEthernetPayload(random, greLayer, layers);
return;
case 7: // Udp.
case 8:
UdpLayer udpLayer = random.NextUdpLayer();
layers.Add(udpLayer);
CreateRandomUdpPayload(random, udpLayer, layers);
return;
case 9: // Tcp.
case 10:
TcpLayer tcpLayer = random.NextTcpLayer();
layers.Add(tcpLayer);
CreateRandomTcpPayload(random, tcpLayer, layers);
return;
default:
throw new InvalidOperationException("Invalid value.");
}
}示例10: CreateRandomEthernetPayload
private static void CreateRandomEthernetPayload(Random random, EthernetBaseLayer ethernetBaseLayer, List<ILayer> layers)
{
if (random.NextBool(20))
{
// Finish with payload.
PayloadLayer payloadLayer = random.NextPayloadLayer(random.Next(100));
layers.Add(payloadLayer);
return;
}
ethernetBaseLayer.EtherType = EthernetType.None;
switch (random.NextInt(0, 7))
{
case 0: // VLanTaggedFrame.
case 1:
VLanTaggedFrameLayer vLanTaggedFrameLayer = random.NextVLanTaggedFrameLayer();
layers.Add(vLanTaggedFrameLayer);
CreateRandomEthernetPayload(random, vLanTaggedFrameLayer, layers);
return;
case 2: // ARP.
EthernetLayer ethernetLayer = (ethernetBaseLayer as EthernetLayer);
if (ethernetLayer != null)
ethernetLayer.Destination = MacAddress.Zero;
layers.Add(random.NextArpLayer());
return;
case 3: // IPv4.
case 4:
IpV4Layer ipV4Layer = random.NextIpV4Layer();
layers.Add(ipV4Layer);
CreateRandomIpPayload(random, ipV4Layer, layers);
return;
case 5: // IPv6
case 6:
IpV6Layer ipV6Layer = random.NextIpV6Layer(random.NextBool(20));
layers.Add(ipV6Layer);
CreateRandomIpPayload(random, ipV6Layer, layers);
return;
default:
throw new InvalidOperationException("Invalid value.");
}
}示例11: RandomIpV6Test
public void RandomIpV6Test()
{
MacAddress ethernetSource = new MacAddress("00:01:02:03:04:05");
MacAddress ethernetDestination = new MacAddress("A0:A1:A2:A3:A4:A5");
const EthernetType EthernetType = EthernetType.IpV6;
EthernetLayer ethernetLayer = new EthernetLayer
{
Source = ethernetSource,
Destination = ethernetDestination,
EtherType = EthernetType
};
int seed = new Random().Next();
Console.WriteLine("Seed: " + seed);
Random random = new Random(seed);
for (int i = 0; i != 1000; ++i)
{
IpV6Layer ipV6Layer = random.NextIpV6Layer(false);
PayloadLayer payloadLayer = random.NextPayloadLayer(random.NextInt(0, 50 * 1024));
List<ILayer> layers = new List<ILayer> {ethernetLayer, ipV6Layer};
if (ipV6Layer.ExtensionHeaders.LastHeader != IpV4Protocol.EncapsulatingSecurityPayload)
layers.Add(payloadLayer);
Packet packet = PacketBuilder.Build(DateTime.Now, layers);
Assert.IsTrue(ipV6Layer.LastNextHeader == IpV4Protocol.Ip ||
ipV6Layer.LastNextHeader == IpV4Protocol.IpV6||
ipV6Layer.LastNextHeader == IpV4Protocol.Udp ||
ipV6Layer.LastNextHeader == IpV4Protocol.Tcp ||
ipV6Layer.LastNextHeader == IpV4Protocol.InternetGroupManagementProtocol ||
ipV6Layer.LastNextHeader == IpV4Protocol.InternetControlMessageProtocol ||
ipV6Layer.LastNextHeader == IpV4Protocol.Gre ||
packet.IsValid, string.Format("IsValid ({0}...{1})", ipV6Layer.NextHeader, ipV6Layer.ExtensionHeaders.NextHeader));
// Ethernet
Assert.AreEqual(packet.Length - EthernetDatagram.HeaderLengthValue, packet.Ethernet.PayloadLength, "PayloadLength");
Assert.AreEqual(ethernetLayer, packet.Ethernet.ExtractLayer(), "Ethernet Layer");
// IpV6
Assert.AreEqual(ipV6Layer, packet.Ethernet.IpV6.ExtractLayer(), "IP Layer");
Assert.AreEqual(ipV6Layer.GetHashCode(), packet.Ethernet.IpV6.ExtractLayer().GetHashCode(), "IP Layer");
Assert.AreEqual(string.Format("{0} -> {1} ({2})", ipV6Layer.Source, ipV6Layer.CurrentDestination, ipV6Layer.NextHeader), ipV6Layer.ToString());
IEnumerator extensionHeadersEnumerator = ((IEnumerable)packet.Ethernet.IpV6.ExtensionHeaders).GetEnumerator();
for (int extensionHeaderIndex = 0; extensionHeaderIndex != packet.Ethernet.IpV6.ExtensionHeaders.Headers.Count; ++extensionHeaderIndex)
{
IpV6ExtensionHeader extensionHeader = packet.Ethernet.IpV6.ExtensionHeaders[extensionHeaderIndex];
Assert.IsTrue(extensionHeadersEnumerator.MoveNext());
Assert.AreEqual(extensionHeader, extensionHeadersEnumerator.Current);
IpV6ExtensionHeader layerExtensionheader = ipV6Layer.ExtensionHeaders[extensionHeaderIndex];
Assert.AreEqual(extensionHeader, layerExtensionheader);
Assert.AreEqual(extensionHeader.GetHashCode(), layerExtensionheader.GetHashCode());
IpV6ExtensionHeaderOptions extensionHeaderOptions = extensionHeader as IpV6ExtensionHeaderOptions;
if (extensionHeaderOptions != null)
{
foreach (IpV6Option option in extensionHeaderOptions.Options)
{
switch (option.OptionType)
{
case IpV6OptionType.SimplifiedMulticastForwardingDuplicatePacketDetection:
IpV6OptionSimplifiedMulticastForwardingDuplicatePacketDetection optionSimplifiedMulticastForwardingDuplicatePacketDetection = (IpV6OptionSimplifiedMulticastForwardingDuplicatePacketDetection)option;
Assert.AreEqual(optionSimplifiedMulticastForwardingDuplicatePacketDetection is IpV6OptionSimplifiedMulticastForwardingDuplicatePacketDetectionSequenceHashAssistValue, optionSimplifiedMulticastForwardingDuplicatePacketDetection.HashIndicator);
break;
case IpV6OptionType.QuickStart:
IpV6OptionQuickStart optionQuickStart = (IpV6OptionQuickStart)option;
MoreAssert.IsBiggerOrEqual(0, optionQuickStart.RateKbps);
break;
}
}
}
IpV6ExtensionHeaderMobility extensionHeaderMobility = extensionHeader as IpV6ExtensionHeaderMobility;
if (extensionHeaderMobility != null)
{
Assert.IsFalse(extensionHeaderMobility.Equals(2));
Assert.IsTrue(extensionHeaderMobility.Equals((object)extensionHeader));
Assert.AreEqual(extensionHeaderMobility.MobilityOptions, new IpV6MobilityOptions(extensionHeaderMobility.MobilityOptions).AsEnumerable());
foreach (IpV6MobilityOption option in extensionHeaderMobility.MobilityOptions)
{
switch (option.OptionType)
{
case IpV6MobilityOptionType.BindingIdentifier:
IpV6MobilityOptionBindingIdentifier optionBindingIdentifier = (IpV6MobilityOptionBindingIdentifier)option;
if (optionBindingIdentifier.IpV4CareOfAddress.HasValue)
Assert.AreEqual(optionBindingIdentifier.IpV4CareOfAddress.Value, optionBindingIdentifier.CareOfAddress);
else if (optionBindingIdentifier.IpV6CareOfAddress.HasValue)
Assert.AreEqual(optionBindingIdentifier.IpV6CareOfAddress.Value, optionBindingIdentifier.CareOfAddress);
else
Assert.IsNull(optionBindingIdentifier.CareOfAddress);
break;
case IpV6MobilityOptionType.AccessNetworkIdentifier:
IpV6MobilityOptionAccessNetworkIdentifier optionAccessNetworkIdentifier = (IpV6MobilityOptionAccessNetworkIdentifier)option;
foreach (IpV6AccessNetworkIdentifierSubOption subOption in optionAccessNetworkIdentifier.SubOptions)
{
switch (subOption.OptionType)
{
case IpV6AccessNetworkIdentifierSubOptionType.GeoLocation:
//.........这里部分代码省略.........
示例12: RandomIgmpTest
public void RandomIgmpTest()
{
EthernetLayer ethernetLayer = new EthernetLayer
{
Source = new MacAddress("00:01:02:03:04:05"),
Destination = new MacAddress("A0:A1:A2:A3:A4:A5")
};
Random random = new Random();
IpV4Layer ipV4Layer = random.NextIpV4Layer(null);
ipV4Layer.HeaderChecksum = null;
for (int i = 0; i != 200; ++i)
{
IgmpLayer igmpLayer = random.NextIgmpLayer();
Packet packet = PacketBuilder.Build(DateTime.Now, ethernetLayer, ipV4Layer, igmpLayer);
Assert.IsTrue(packet.IsValid, "IsValid");
// Ethernet
ethernetLayer.EtherType = EthernetType.IpV4;
Assert.AreEqual(ethernetLayer, packet.Ethernet.ExtractLayer(), "Ethernet Layer");
// IPv4
ipV4Layer.Protocol = IpV4Protocol.InternetGroupManagementProtocol;
ipV4Layer.HeaderChecksum = ((IpV4Layer)packet.Ethernet.IpV4.ExtractLayer()).HeaderChecksum;
Assert.AreEqual(ipV4Layer, packet.Ethernet.IpV4.ExtractLayer(), "IPv4 Layer");
ipV4Layer.HeaderChecksum = null;
// IGMP
Assert.IsTrue(packet.Ethernet.IpV4.Igmp.IsChecksumCorrect);
Assert.AreEqual(igmpLayer, packet.Ethernet.IpV4.Igmp.ExtractLayer(), "IGMP Layer");
Assert.AreEqual(igmpLayer.GetHashCode(), packet.Ethernet.IpV4.Igmp.ExtractLayer().GetHashCode(), "IGMP Layer");
Assert.AreNotEqual(igmpLayer, null);
Assert.AreNotEqual(igmpLayer, random.NextPayloadLayer(igmpLayer.Length));
Assert.AreNotEqual(igmpLayer.GetHashCode(), random.NextPayloadLayer(igmpLayer.Length).GetHashCode());
if (packet.Ethernet.IpV4.Igmp.QueryVersion != IgmpQueryVersion.Version3)
MoreAssert.IsSmallerOrEqual(IgmpDatagram.MaxMaxResponseTime, packet.Ethernet.IpV4.Igmp.MaxResponseTime);
if (packet.Ethernet.IpV4.Igmp.MessageType != IgmpMessageType.MembershipQuery)
Assert.AreEqual(IgmpQueryVersion.None, packet.Ethernet.IpV4.Igmp.QueryVersion);
switch (igmpLayer.MessageType)
{
case IgmpMessageType.MembershipQuery:
switch (igmpLayer.QueryVersion)
{
case IgmpQueryVersion.Version1:
Assert.AreEqual(1, packet.Ethernet.IpV4.Igmp.Version);
break;
case IgmpQueryVersion.Version2:
Assert.AreEqual(2, packet.Ethernet.IpV4.Igmp.Version);
break;
case IgmpQueryVersion.Version3:
Assert.AreEqual(3, packet.Ethernet.IpV4.Igmp.Version);
break;
default:
Assert.Fail(igmpLayer.QueryVersion.ToString());
break;
}
break;
case IgmpMessageType.MembershipReportVersion1:
Assert.AreEqual(1, packet.Ethernet.IpV4.Igmp.Version);
break;
case IgmpMessageType.MembershipReportVersion2:
case IgmpMessageType.LeaveGroupVersion2:
Assert.AreEqual(2, packet.Ethernet.IpV4.Igmp.Version);
break;
case IgmpMessageType.MembershipReportVersion3:
Assert.AreEqual(3, packet.Ethernet.IpV4.Igmp.Version);
break;
default:
Assert.Fail(igmpLayer.MessageType.ToString());
break;
}
foreach (IgmpGroupRecordDatagram groupRecord in packet.Ethernet.IpV4.Igmp.GroupRecords)
Assert.IsNotNull(groupRecord.ToString());
}
}示例13: CreateRandomIpV4Payload
private static void CreateRandomIpV4Payload(Random random, IpV4Layer ipV4Layer, List<ILayer> layers)
{
if (random.NextBool(20))
{
// Finish with payload.
PayloadLayer payloadLayer = random.NextPayloadLayer(random.Next(100));
layers.Add(payloadLayer);
return;
}
ipV4Layer.Protocol = null;
if (random.NextBool())
ipV4Layer.Fragmentation = IpV4Fragmentation.None;
switch (random.Next(0, 9))
{
case 0: // IpV4.
case 1:
IpV4Layer innerIpV4Layer = random.NextIpV4Layer();
layers.Add(innerIpV4Layer);
CreateRandomIpV4Payload(random, innerIpV4Layer, layers);
return;
case 2: // Igmp.
layers.Add(random.NextIgmpLayer());
return;
case 3: // Icmp.
IcmpLayer icmpLayer = random.NextIcmpLayer();
layers.Add(icmpLayer);
layers.AddRange(random.NextIcmpPayloadLayers(icmpLayer));
return;
case 4: // Gre.
GreLayer greLayer = random.NextGreLayer();
layers.Add(greLayer);
CreateRandomEthernetPayload(random, greLayer, layers);
return;
case 5: // Udp.
case 6:
UdpLayer udpLayer = random.NextUdpLayer();
layers.Add(udpLayer);
CreateRandomUdpPayload(random, udpLayer, layers);
return;
case 7: // Tcp.
case 8:
TcpLayer tcpLayer = random.NextTcpLayer();
layers.Add(tcpLayer);
CreateRandomTcpPayload(random, tcpLayer, layers);
return;
default:
throw new InvalidOperationException("Invalid value.");
}
}示例14: RandomIgmpTest
public void RandomIgmpTest()
{
EthernetLayer ethernetLayer = new EthernetLayer
{
Source = new MacAddress("00:01:02:03:04:05"),
Destination = new MacAddress("A0:A1:A2:A3:A4:A5")
};
int seed = new Random().Next();
Console.WriteLine("Seed: " + seed);
Random random = new Random(seed);
for (int i = 0; i != 200; ++i)
{
IpV4Layer ipV4Layer = random.NextIpV4Layer(null);
ipV4Layer.HeaderChecksum = null;
Layer ipLayer = random.NextBool() ? (Layer)ipV4Layer : random.NextIpV6Layer(IpV4Protocol.InternetGroupManagementProtocol, false);
IgmpLayer igmpLayer = random.NextIgmpLayer();
Packet packet = PacketBuilder.Build(DateTime.Now, ethernetLayer, ipLayer, igmpLayer);
Assert.IsTrue(packet.IsValid, "IsValid");
// Ethernet
ethernetLayer.EtherType = ipLayer == ipV4Layer ? EthernetType.IpV4 : EthernetType.IpV6;
Assert.AreEqual(ethernetLayer, packet.Ethernet.ExtractLayer(), "Ethernet Layer");
ethernetLayer.EtherType = EthernetType.None;
// IP.
if (ipV4Layer == ipLayer)
{
// IPv4.
ipV4Layer.Protocol = IpV4Protocol.InternetGroupManagementProtocol;
ipV4Layer.HeaderChecksum = ((IpV4Layer)packet.Ethernet.IpV4.ExtractLayer()).HeaderChecksum;
Assert.AreEqual(ipV4Layer, packet.Ethernet.IpV4.ExtractLayer(), "IPv4 Layer");
ipV4Layer.HeaderChecksum = null;
}
else
{
// IPv6.
Assert.AreEqual(ipLayer, packet.Ethernet.IpV6.ExtractLayer(), "IPv6 Layer");
}
// IGMP
Assert.IsTrue(packet.Ethernet.Ip.Igmp.IsChecksumCorrect);
Assert.AreEqual(igmpLayer, packet.Ethernet.Ip.Igmp.ExtractLayer(), "IGMP Layer");
Assert.AreEqual(igmpLayer.GetHashCode(), packet.Ethernet.Ip.Igmp.ExtractLayer().GetHashCode(), "IGMP Layer");
Assert.AreNotEqual(igmpLayer, null);
Assert.AreNotEqual(igmpLayer, random.NextPayloadLayer(igmpLayer.Length));
Assert.AreNotEqual(igmpLayer.GetHashCode(), random.NextPayloadLayer(igmpLayer.Length).GetHashCode());
if (packet.Ethernet.Ip.Igmp.QueryVersion != IgmpQueryVersion.Version3)
MoreAssert.IsSmallerOrEqual(IgmpDatagram.MaxMaxResponseTime, packet.Ethernet.Ip.Igmp.MaxResponseTime);
if (packet.Ethernet.Ip.Igmp.MessageType != IgmpMessageType.MembershipQuery)
Assert.AreEqual(IgmpQueryVersion.None, packet.Ethernet.Ip.Igmp.QueryVersion);
switch (igmpLayer.MessageTypeValue)
{
case IgmpMessageType.CreateGroupRequestVersion0:
case IgmpMessageType.CreateGroupReplyVersion0:
case IgmpMessageType.JoinGroupRequestVersion0:
case IgmpMessageType.JoinGroupReplyVersion0:
case IgmpMessageType.LeaveGroupRequestVersion0:
case IgmpMessageType.LeaveGroupReplyVersion0:
case IgmpMessageType.ConfirmGroupRequestVersion0:
case IgmpMessageType.ConfirmGroupReplyVersion0:
Assert.AreEqual(0, packet.Ethernet.Ip.Igmp.Version);
IgmpVersion0Layer igmpVersion0Layer = (IgmpVersion0Layer)igmpLayer;
Assert.AreEqual(igmpVersion0Layer.IdentifierValue, packet.Ethernet.Ip.Igmp.Identifier);
Assert.AreEqual(igmpVersion0Layer.AccessKeyValue, packet.Ethernet.Ip.Igmp.AccessKey);
switch (igmpLayer.MessageTypeValue)
{
case IgmpMessageType.CreateGroupRequestVersion0:
Assert.AreEqual(((IgmpCreateGroupRequestVersion0Layer)igmpLayer).CreateGroupRequestCode, packet.Ethernet.Ip.Igmp.CreateGroupRequestCode);
break;
case IgmpMessageType.CreateGroupReplyVersion0:
case IgmpMessageType.JoinGroupReplyVersion0:
case IgmpMessageType.LeaveGroupReplyVersion0:
case IgmpMessageType.ConfirmGroupReplyVersion0:
IgmpReplyVersion0Layer igmpReplyVersion0Layer = (IgmpReplyVersion0Layer)igmpVersion0Layer;
Assert.AreEqual(igmpReplyVersion0Layer.Code, packet.Ethernet.Ip.Igmp.ReplyCode);
if (packet.Ethernet.Ip.Igmp.ReplyCode == IgmpVersion0ReplyCode.RequestPendingRetryInThisManySeconds)
Assert.AreEqual(igmpReplyVersion0Layer.RetryInThisManySeconds, packet.Ethernet.Ip.Igmp.RetryInThisManySeconds);
break;
}
break;
case IgmpMessageType.MembershipQuery:
switch (igmpLayer.QueryVersion)
{
case IgmpQueryVersion.Version1:
Assert.AreEqual(1, packet.Ethernet.Ip.Igmp.Version);
break;
case IgmpQueryVersion.Version2:
Assert.AreEqual(2, packet.Ethernet.Ip.Igmp.Version);
break;
//.........这里部分代码省略.........