Extension

To add support for a new protocol or custom abstraction the following steps need to be performed.

Protocol Buffer Definitions

First, a type definition of the new audit record type must be added to the AuditRecord protocol buffers definitions, as well as a Type enumeration following the naming convention with the NC prefix.

First, make sure you have code generator plugin(s) that NETCAP is using to accelerate the protocol buffer en- and decoding. Get the plugins with:

$ go get github.com/gogo/protobuf/...

The framework for this can be found here:

GitHub - gogo/protobuf: [Deprecated] Protocol Buffers for Go with GadgetsGitHub

Recompile the protocol buffers with:

$ zeus gen-proto-dev

This will create the type definitions for your new audit record in the types package.

Encoder Implementation

After recompiling the protocol buffers, a file for the new decoder named after the protocol must be created in the decoder package. The new file must contain a variable created with CreateLayerEncoder or CreateCustomEncoder depending on the desired decoder type.

Lets take a brief look at a very simple LayerEncoder, for example for the ARP protocol:

package decoder

import (
   "github.com/dreadl0ck/gopacket"
   "github.com/dreadl0ck/gopacket/layers"
   "github.com/dreadl0ck/netcap/types"
   "github.com/golang/protobuf/proto"
)

var arpEncoder = CreateLayerEncoder(
   types.Type_NC_ARP, 
   layers.LayerTypeARP, 
   func(layer gopacket.Layer, timestamp string) proto.Message {
      if arp, ok := layer.(*layers.ARP); ok {
         return &types.ARP{
            Timestamp:       timestamp,
            AddrType:        int32(arp.AddrType),
            Protocol:        int32(arp.Protocol),
            HwAddressSize:   int32(arp.HwAddressSize),
            ProtAddressSize: int32(arp.ProtAddressSize),
            Operation:       int32(arp.Operation),
            SrcHwAddress:    arp.SourceHwAddress,
            SrcProtAddress:  arp.SourceProtAddress,
            DstHwAddress:    arp.DstHwAddress,
            DstProtAddress:  arp.DstProtAddress,
         }
      }
      return nil
   },
)

�Since ARP can be decoded by gopacket already, all we have to do is check if the packet has the ARP layer, and if yes, convert it to the types.ARP audit record and return it.

The constructor for a LayerEncoder needs the type enumeration for the new audit record, as well as the gopacket.LayerType, followed by the actual decoder function. This function will be called for every network packet.

As you can see, LayerEncoders are tied to gopacket. If you want to implement custom decoding logic or support for a new protocol, you essentially have two options:

• implement protocol decoding in gopacket, then use a LayerEncoder in netcap

• implement protocol decoding in a CustomEncoder

A CustomEncoder works the same way but offers more flexibility for the implementation, like functions for initialisation and teardown. The CustomEncoder constructor signature looks as follows:

func CreateCustomEncoder(
    t types.Type, 
    name string, 
    postinit func(*CustomEncoder) error, 
    handler CustomEncoderHandler, 
    deinit func(*CustomEncoder) error
) *CustomEncoder

The CustomEncoderHandler will simply receive the raw gopacket.Packet and return a proto.Message:

CustomEncoderHandler = func(p gopacket.Packet) proto.Message

Depending on the choice of the decoder type, the new variable must be added to the customEncoderSlice in decoder/customEncoder.go or layerEncoderSlice in decoder/layerEncoder.go.

Audit Record Interface Implementation

Next, the interface for conversion to CSV and JSON and exporting metrics must be implemented in the types package, by creating a new file with the protocol name and implementing the types.AuditRecord interface:

// AuditRecord is the interface for basic operations with NETCAP audit records
// this includes dumping as CSV or JSON or prometheus metrics
// and provides access to the timestamp of the audit record
type AuditRecord interface {

   // returns CSV values
   CSVRecord() []string

   // returns CSV header fields
   CSVHeader() []string

   // used to retrieve the timestamp of the audit record for labeling
   Time() string

   // Src returns the source of an audit record
   // for Layer 2 records this shall be the MAC address
   // for Layer 3+ records this shall be the IP address
   Src() string

   // Dst returns the source of an audit record
   // for Layer 2 records this shall be the MAC address
   // for Layer 3+ records this shall be the IP address
   Dst() string

   // increments the metric for the audit record
   Inc()

   // returns the audit record as JSON
   JSON() (string, error)

   // can be implemented to set additional information for each audit record
   // important:
   //  - MUST be implemented on a pointer of an instance
   //  - the passed in packet context MUST be set on the Context field of the current audit record
   SetPacketContext(ctx *PacketContext)
}

If the new protocol contains sub-structures, functions to convert them to strings need to be implemented as well. Take a look at other decoders that have lots of substructures, for example DNS.

Add Initializer

Finally, the InitRecord(typ types.Type) (record proto.Message) function in netcap.go needs to be updated, to initialize the structure for the new type.