internal static void UpdateIcmpNode(TreeView treeView, ICMPPacket icmpPacket)
{
TreeNode icmpNode = treeView.Nodes["ICMP"];
if (icmpNode == null)
{
icmpNode = AddIcmpNode(treeView);
}
icmpNode.Text = String.Format("Internet Control Message Protocol: {0}", ICMPMessage.getDescription(icmpPacket.MessageKey));
icmpNode.Nodes["Type"].Text = String.Format("Type: {0}", icmpPacket.MessageType);
icmpNode.Nodes["Code"].Text = String.Format("Code: {0}", icmpPacket.MessageCode);
icmpNode.Nodes["Checksum"].Text = String.Format("Checksum: 0x{0:X4} ({1})", icmpPacket.ICMPChecksum, icmpPacket.ValidICMPChecksum ? "correct" : "incorrect");
if (icmpPacket.IsEchoRequestOrReply)
{
if (icmpNode.Nodes["Id"] == null)
{
icmpNode.Nodes.Add("Id", String.Empty);
icmpNode.Nodes.Add("SeqNumber", String.Empty);
}
icmpNode.Nodes["Id"].Text = String.Format("Identifier: {0}", icmpPacket.Id);
icmpNode.Nodes["SeqNumber"].Text = String.Format("Sequence number: {0}", icmpPacket.SequenceNumber);
}
else if (icmpNode.Nodes["Id"] != null)
{
icmpNode.Nodes["Id"].Remove();
icmpNode.Nodes["SeqNumber"].Remove();
}
}
/// <summary> Convert captured packet data into an object.</summary>
public static Packet dataToPacket(LinkLayers linkType, byte[] bytes, Timeval tv)
{
EthernetPacketType ethProtocol;
// retrieve the length of the headers associated with this link layer type.
// this length is the offset to the header embedded in the packet.
int byteOffsetToEthernetPayload = LinkLayer.LinkLayerLength(linkType);
// extract the protocol code for the type of header embedded in the
// link-layer of the packet
int offset = LinkLayer.ProtocolOffset(linkType);
if (offset == -1)
{
// if there is no embedded protocol, assume IpV4
ethProtocol = EthernetPacketType.IPv4;
}
else
{
ethProtocol = (EthernetPacketType)ArrayHelper.extractInteger(bytes, offset, EthernetFields_Fields.ETH_CODE_LEN);
}
string errorString;
Packet parsedPacket = null;
try
{
// try to recognize the ethernet type..
switch (ethProtocol)
{
// arp
case EthernetPacketType.ARP:
parsedPacket = new ARPPacket(byteOffsetToEthernetPayload, bytes, tv);
break;
case EthernetPacketType.IPv6:
case EthernetPacketType.IPv4:
try
{
// ethernet level code is recognized as IP, figure out what kind..
int ipProtocol = IPProtocol.extractProtocol(byteOffsetToEthernetPayload, bytes);
switch (ipProtocol)
{
case (int)IPProtocol.IPProtocolType.ICMP:
parsedPacket = new ICMPPacket(byteOffsetToEthernetPayload, bytes, tv);
break;
case (int)IPProtocol.IPProtocolType.IGMP:
parsedPacket = new IGMPPacket(byteOffsetToEthernetPayload, bytes, tv);
break;
case (int)IPProtocol.IPProtocolType.TCP:
parsedPacket = new TCPPacket(byteOffsetToEthernetPayload, bytes, tv);
break;
case (int)IPProtocol.IPProtocolType.UDP:
parsedPacket = new UDPPacket(byteOffsetToEthernetPayload, bytes, tv);
break;
// unidentified ip..
default:
parsedPacket = new IPPacket(byteOffsetToEthernetPayload, bytes, tv);
break;
}
// check that the parsed packet is valid
if (!parsedPacket.IsValid(out errorString))
{
throw new PcapException(errorString);
}
else
{
return parsedPacket;
}
}
catch
{
// error parsing the specific ip packet type, parse as a generic IPPacket
parsedPacket = new IPPacket(byteOffsetToEthernetPayload, bytes, tv);
// check that the parsed packet is valid
if (!parsedPacket.IsValid(out errorString))
{
throw new PcapException(errorString);
}
else
{
return parsedPacket;
}
}
// ethernet level code not recognized, default to anonymous packet..
default:
parsedPacket = new EthernetPacket(byteOffsetToEthernetPayload, bytes, tv);
break;
}
return parsedPacket;
}
catch
{
// we know we have at least an ethernet packet, so return that
return new EthernetPacket(byteOffsetToEthernetPayload, bytes, tv);
}
}
/// <summary> Convert captured packet data into an object.</summary>
public static Packet dataToPacket(LinkLayers linkType, byte[] bytes, Timeval tv)
{
EthernetPacketType ethProtocol;
// retrieve the length of the headers associated with this link layer type.
// this length is the offset to the header embedded in the packet.
int byteOffsetToEthernetPayload = LinkLayer.LinkLayerLength(linkType);
// extract the protocol code for the type of header embedded in the
// link-layer of the packet
int offset = LinkLayer.ProtocolOffset(linkType);
if (offset == -1)
{
// if there is no embedded protocol, assume IpV4
ethProtocol = EthernetPacketType.IPv4;
}
else
{
ethProtocol = (EthernetPacketType)ArrayHelper.extractInteger(bytes, offset, EthernetFields_Fields.ETH_CODE_LEN);
}
string errorString;
Packet parsedPacket = null;
try
{
// try to recognize the ethernet type..
switch (ethProtocol)
{
// arp
case EthernetPacketType.ARP:
parsedPacket = new ARPPacket(byteOffsetToEthernetPayload, bytes, tv);
break;
case EthernetPacketType.IPv6:
case EthernetPacketType.IPv4:
try
{
// ethernet level code is recognized as IP, figure out what kind..
int ipProtocol = IPProtocol.extractProtocol(byteOffsetToEthernetPayload, bytes);
switch (ipProtocol)
{
case (int)IPProtocol.IPProtocolType.ICMP:
parsedPacket = new ICMPPacket(byteOffsetToEthernetPayload, bytes, tv);
break;
case (int)IPProtocol.IPProtocolType.IGMP:
parsedPacket = new IGMPPacket(byteOffsetToEthernetPayload, bytes, tv);
break;
case (int)IPProtocol.IPProtocolType.TCP:
parsedPacket = new TCPPacket(byteOffsetToEthernetPayload, bytes, tv);
break;
case (int)IPProtocol.IPProtocolType.UDP:
parsedPacket = new UDPPacket(byteOffsetToEthernetPayload, bytes, tv);
break;
// unidentified ip..
default:
parsedPacket = new IPPacket(byteOffsetToEthernetPayload, bytes, tv);
break;
}
// check that the parsed packet is valid
if (!parsedPacket.IsValid(out errorString))
{
throw new PcapException(errorString);
}
else
{
return(parsedPacket);
}
}
catch
{
// error parsing the specific ip packet type, parse as a generic IPPacket
parsedPacket = new IPPacket(byteOffsetToEthernetPayload, bytes, tv);
// check that the parsed packet is valid
if (!parsedPacket.IsValid(out errorString))
{
throw new PcapException(errorString);
}
else
{
return(parsedPacket);
}
}
// ethernet level code not recognized, default to anonymous packet..
default:
parsedPacket = new EthernetPacket(byteOffsetToEthernetPayload, bytes, tv);
break;
}
return(parsedPacket);
}
catch
{
// we know we have at least an ethernet packet, so return that
return(new EthernetPacket(byteOffsetToEthernetPayload, bytes, tv));
}
}