Documentation ¶
Overview ¶
Package layers provides decoding layers for many common protocols.
The layers package contains decode implementations for a number of different types of packet layers. Users of gopacket will almost always want to also use layers to actually decode packet data into useful pieces. To see the set of protocols that gopacket/layers is currently able to decode, look at the set of LayerTypes defined in the Variables sections. The layers package also defines endpoints for many of the common packet layers that have source/destination addresses associated with them, for example IPv4/6 (IPs) and TCP/UDP (ports). Finally, layers contains a number of useful enumerations (IPProtocol, EthernetType, LinkType, PPPType, etc...). Many of these implement the gopacket.Decoder interface, so they can be passed into gopacket as decoders.
Most common protocol layers are named using acronyms or other industry-common names (IPv4, TCP, PPP). Some of the less common ones have their names expanded (CiscoDiscoveryProtocol). For certain protocols, sub-parts of the protocol are split out into their own layers (SCTP, for example). This is done mostly in cases where portions of the protocol may fulfill the capabilities of interesting layers (SCTPData implements ApplicationLayer, while base SCTP implements TransportLayer), or possibly because splitting a protocol into a few layers makes decoding easier.
This package is meant to be used with its parent, http://github.com/Doridian/gopacket.
Port Types ¶
Instead of using raw uint16 or uint8 values for ports, we use a different port type for every protocol, for example TCPPort and UDPPort. This allows us to override string behavior for each port, which we do by setting up port name maps (TCPPortNames, UDPPortNames, etc...). Well-known ports are annotated with their protocol names, and their String function displays these names:
p := TCPPort(80) fmt.Printf("Number: %d String: %v", p, p) // Prints: "Number: 80 String: 80(http)"
Modifying Decode Behavior ¶
layers links together decoding through its enumerations. For example, after decoding layer type Ethernet, it uses Ethernet.EthernetType as its next decoder. All enumerations that act as decoders, like EthernetType, can be modified by users depending on their preferences. For example, if you have a spiffy new IPv4 decoder that works way better than the one built into layers, you can do this:
var mySpiffyIPv4Decoder gopacket.Decoder = ... layers.EthernetTypeMetadata[EthernetTypeIPv4].DecodeWith = mySpiffyIPv4Decoder
This will make all future ethernet packets use your new decoder to decode IPv4 packets, instead of the built-in decoder used by gopacket.
Index ¶
- Constants
- Variables
- func FuzzLayer(data []byte) int
- func GetLCMLayerType(fingerprint LCMFingerprint) gopacket.LayerType
- func NewIPEndpoint(a net.IP) gopacket.Endpoint
- func NewMACEndpoint(a net.HardwareAddr) gopacket.Endpoint
- func NewRUDPPortEndpoint(p RUDPPort) gopacket.Endpoint
- func NewSCTPPortEndpoint(p SCTPPort) gopacket.Endpoint
- func NewTCPPortEndpoint(p TCPPort) gopacket.Endpoint
- func NewUDPLitePortEndpoint(p UDPLitePort) gopacket.Endpoint
- func NewUDPPortEndpoint(p UDPPort) gopacket.Endpoint
- func RegisterASFLayerType(a ASFDataIdentifier, l gopacket.LayerType)
- func RegisterLCMLayerType(num int, name string, fingerprint LCMFingerprint, decoder gopacket.Decoder) gopacket.LayerType
- func RegisterRMCPLayerType(c RMCPClass, l gopacket.LayerType)
- func RegisterTCPPortLayerType(port TCPPort, layerType gopacket.LayerType)
- func RegisterUDPPortLayerType(port UDPPort, layerType gopacket.LayerType)
- type ARP
- func (arp *ARP) CanDecode() gopacket.LayerClass
- func (arp *ARP) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (arp *ARP) LayerType() gopacket.LayerType
- func (arp *ARP) NextLayerType() gopacket.LayerType
- func (arp *ARP) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type ASExternalLSA
- type ASExternalLSAV2
- type ASF
- func (a *ASF) CanDecode() gopacket.LayerClass
- func (a *ASF) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (*ASF) LayerType() gopacket.LayerType
- func (a *ASF) NextLayerType() gopacket.LayerType
- func (a *ASF) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type ASFDataIdentifier
- type ASFEntity
- type ASFInteraction
- type ASFPresencePong
- func (a *ASFPresencePong) CanDecode() gopacket.LayerClass
- func (a *ASFPresencePong) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (*ASFPresencePong) LayerType() gopacket.LayerType
- func (a *ASFPresencePong) NextLayerType() gopacket.LayerType
- func (a *ASFPresencePong) SerializeTo(b gopacket.SerializeBuffer, _ gopacket.SerializeOptions) error
- func (a *ASFPresencePong) SupportsDCMI() bool
- type BFD
- func (d *BFD) CanDecode() gopacket.LayerClass
- func (d *BFD) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (d *BFD) LayerType() gopacket.LayerType
- func (d *BFD) Length() int
- func (d *BFD) NextLayerType() gopacket.LayerType
- func (d *BFD) Payload() []byte
- func (d *BFD) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type BFDAuthData
- type BFDAuthHeader
- type BFDAuthKeyID
- type BFDAuthSequenceNumber
- type BFDAuthType
- type BFDDetectMultiplier
- type BFDDiagnostic
- type BFDDiscriminator
- type BFDState
- type BFDTimeInterval
- type BFDVersion
- type BaseLayer
- type CDPAddressType
- type CDPCapabilities
- type CDPCapability
- type CDPEnergyWise
- type CDPEnergyWiseSubtype
- type CDPHello
- type CDPLocation
- type CDPPowerDialogue
- type CDPSparePairPoE
- type CDPTLVType
- type CDPVLANDialogue
- type CiscoDiscovery
- type CiscoDiscoveryInfo
- type CiscoDiscoveryValue
- type DHCPMsgType
- type DHCPOp
- type DHCPOpt
- type DHCPOption
- type DHCPOptions
- type DHCPv4
- func (d *DHCPv4) CanDecode() gopacket.LayerClass
- func (d *DHCPv4) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (d *DHCPv4) LayerType() gopacket.LayerType
- func (d *DHCPv4) Len() uint16
- func (d *DHCPv4) NextLayerType() gopacket.LayerType
- func (d *DHCPv4) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type DHCPv4Error
- type DHCPv6
- func (d *DHCPv6) CanDecode() gopacket.LayerClass
- func (d *DHCPv6) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (d *DHCPv6) LayerType() gopacket.LayerType
- func (d *DHCPv6) Len() int
- func (d *DHCPv6) NextLayerType() gopacket.LayerType
- func (d *DHCPv6) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type DHCPv6DUID
- type DHCPv6DUIDType
- type DHCPv6MsgType
- type DHCPv6Opt
- type DHCPv6Option
- type DHCPv6Options
- type DHCPv6StatusCode
- type DNS
- func (d *DNS) CanDecode() gopacket.LayerClass
- func (d *DNS) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (d *DNS) LayerType() gopacket.LayerType
- func (d *DNS) NextLayerType() gopacket.LayerType
- func (d *DNS) Payload() []byte
- func (d *DNS) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type DNSClass
- type DNSMX
- type DNSOPT
- type DNSOpCode
- type DNSOptionCode
- type DNSQuestion
- type DNSResourceRecord
- type DNSResponseCode
- type DNSSOA
- type DNSSRV
- type DNSType
- type DNSURI
- type DbDescPkg
- type Dot11
- func (m *Dot11) CanDecode() gopacket.LayerClass
- func (m *Dot11) ChecksumValid() bool
- func (m *Dot11) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (m *Dot11) LayerType() gopacket.LayerType
- func (m *Dot11) NextLayerType() gopacket.LayerType
- func (m Dot11) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type Dot11ASEL
- type Dot11AckPolicy
- type Dot11Algorithm
- type Dot11CodingType
- type Dot11Ctrl
- type Dot11CtrlAck
- type Dot11CtrlBlockAck
- type Dot11CtrlBlockAckReq
- type Dot11CtrlCFEnd
- type Dot11CtrlCFEndAck
- type Dot11CtrlCTS
- type Dot11CtrlPowersavePoll
- type Dot11CtrlRTS
- type Dot11Data
- type Dot11DataCFAck
- type Dot11DataCFAckNoData
- type Dot11DataCFAckPoll
- type Dot11DataCFAckPollNoData
- type Dot11DataCFPoll
- type Dot11DataCFPollNoData
- type Dot11DataNull
- type Dot11DataQOS
- type Dot11DataQOSCFAckPollNoData
- type Dot11DataQOSCFPollNoData
- type Dot11DataQOSData
- type Dot11DataQOSDataCFAck
- type Dot11DataQOSDataCFAckPoll
- type Dot11DataQOSDataCFPoll
- type Dot11DataQOSNull
- type Dot11Flags
- func (d Dot11Flags) FromDS() bool
- func (d Dot11Flags) MD() bool
- func (d Dot11Flags) MF() bool
- func (d Dot11Flags) Order() bool
- func (d Dot11Flags) PowerManagement() bool
- func (d Dot11Flags) Retry() bool
- func (a Dot11Flags) String() string
- func (d Dot11Flags) ToDS() bool
- func (d Dot11Flags) WEP() bool
- type Dot11HTControl
- type Dot11HTControlHT
- type Dot11HTControlMFB
- type Dot11HTControlVHT
- type Dot11InformationElement
- func (m *Dot11InformationElement) CanDecode() gopacket.LayerClass
- func (m *Dot11InformationElement) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (m *Dot11InformationElement) LayerType() gopacket.LayerType
- func (m *Dot11InformationElement) NextLayerType() gopacket.LayerType
- func (m Dot11InformationElement) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- func (d *Dot11InformationElement) String() string
- type Dot11InformationElementID
- type Dot11LinkAdapationControl
- type Dot11Mgmt
- type Dot11MgmtATIM
- type Dot11MgmtAction
- type Dot11MgmtActionNoAck
- type Dot11MgmtArubaWLAN
- type Dot11MgmtAssociationReq
- func (m *Dot11MgmtAssociationReq) CanDecode() gopacket.LayerClass
- func (m *Dot11MgmtAssociationReq) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (m *Dot11MgmtAssociationReq) LayerType() gopacket.LayerType
- func (m *Dot11MgmtAssociationReq) NextLayerType() gopacket.LayerType
- func (m Dot11MgmtAssociationReq) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type Dot11MgmtAssociationResp
- func (m *Dot11MgmtAssociationResp) CanDecode() gopacket.LayerClass
- func (m *Dot11MgmtAssociationResp) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (m *Dot11MgmtAssociationResp) LayerType() gopacket.LayerType
- func (m *Dot11MgmtAssociationResp) NextLayerType() gopacket.LayerType
- func (m Dot11MgmtAssociationResp) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type Dot11MgmtAuthentication
- func (m *Dot11MgmtAuthentication) CanDecode() gopacket.LayerClass
- func (m *Dot11MgmtAuthentication) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (m *Dot11MgmtAuthentication) LayerType() gopacket.LayerType
- func (m *Dot11MgmtAuthentication) NextLayerType() gopacket.LayerType
- func (m Dot11MgmtAuthentication) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type Dot11MgmtBeacon
- func (m *Dot11MgmtBeacon) CanDecode() gopacket.LayerClass
- func (m *Dot11MgmtBeacon) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (m *Dot11MgmtBeacon) LayerType() gopacket.LayerType
- func (m *Dot11MgmtBeacon) NextLayerType() gopacket.LayerType
- func (m Dot11MgmtBeacon) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type Dot11MgmtDeauthentication
- func (m *Dot11MgmtDeauthentication) CanDecode() gopacket.LayerClass
- func (m *Dot11MgmtDeauthentication) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (m *Dot11MgmtDeauthentication) LayerType() gopacket.LayerType
- func (m Dot11MgmtDeauthentication) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type Dot11MgmtDisassociation
- func (m *Dot11MgmtDisassociation) CanDecode() gopacket.LayerClass
- func (m *Dot11MgmtDisassociation) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (m *Dot11MgmtDisassociation) LayerType() gopacket.LayerType
- func (m Dot11MgmtDisassociation) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type Dot11MgmtMeasurementPilot
- type Dot11MgmtProbeReq
- type Dot11MgmtProbeResp
- func (m *Dot11MgmtProbeResp) CanDecode() gopacket.LayerClass
- func (m *Dot11MgmtProbeResp) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (m *Dot11MgmtProbeResp) LayerType() gopacket.LayerType
- func (m *Dot11MgmtProbeResp) NextLayerType() gopacket.LayerType
- func (m Dot11MgmtProbeResp) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type Dot11MgmtReassociationReq
- func (m *Dot11MgmtReassociationReq) CanDecode() gopacket.LayerClass
- func (m *Dot11MgmtReassociationReq) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (m *Dot11MgmtReassociationReq) LayerType() gopacket.LayerType
- func (m *Dot11MgmtReassociationReq) NextLayerType() gopacket.LayerType
- func (m Dot11MgmtReassociationReq) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type Dot11MgmtReassociationResp
- type Dot11QOS
- type Dot11Reason
- type Dot11Status
- type Dot11Type
- type Dot11WEP
- type Dot1Q
- func (d *Dot1Q) CanDecode() gopacket.LayerClass
- func (d *Dot1Q) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (d *Dot1Q) LayerType() gopacket.LayerType
- func (d *Dot1Q) NextLayerType() gopacket.LayerType
- func (d *Dot1Q) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type EAP
- func (e *EAP) CanDecode() gopacket.LayerClass
- func (e *EAP) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (e *EAP) LayerType() gopacket.LayerType
- func (e *EAP) NextLayerType() gopacket.LayerType
- func (e *EAP) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type EAPCode
- type EAPOL
- func (e *EAPOL) CanDecode() gopacket.LayerClass
- func (e *EAPOL) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (e *EAPOL) LayerType() gopacket.LayerType
- func (e *EAPOL) NextLayerType() gopacket.LayerType
- func (e *EAPOL) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type EAPOLKey
- func (ek *EAPOLKey) CanDecode() gopacket.LayerType
- func (ek *EAPOLKey) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (ek *EAPOLKey) LayerType() gopacket.LayerType
- func (ek *EAPOLKey) NextLayerType() gopacket.LayerType
- func (ek *EAPOLKey) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type EAPOLKeyDescriptorType
- type EAPOLKeyDescriptorVersion
- type EAPOLKeyType
- type EAPOLType
- type EAPType
- type ERSPANII
- func (erspan2 *ERSPANII) CanDecode() gopacket.LayerClass
- func (erspan2 *ERSPANII) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (erspan2 *ERSPANII) LayerType() gopacket.LayerType
- func (erspan2 *ERSPANII) NextLayerType() gopacket.LayerType
- func (erspan2 *ERSPANII) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type EnumMetadata
- type EtherIP
- type Ethernet
- func (eth *Ethernet) CanDecode() gopacket.LayerClass
- func (eth *Ethernet) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (e *Ethernet) LayerType() gopacket.LayerType
- func (e *Ethernet) LinkFlow() gopacket.Flow
- func (eth *Ethernet) NextLayerType() gopacket.LayerType
- func (eth *Ethernet) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type EthernetCTP
- type EthernetCTPForwardData
- type EthernetCTPFunction
- type EthernetCTPReply
- type EthernetType
- type FDDI
- type FDDIFrameControl
- type GRE
- func (g *GRE) CanDecode() gopacket.LayerClass
- func (g *GRE) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (g *GRE) LayerType() gopacket.LayerType
- func (g *GRE) NextLayerType() gopacket.LayerType
- func (g *GRE) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type GRERouting
- type GTPExtensionHeader
- type GTPv1U
- func (g *GTPv1U) CanDecode() gopacket.LayerClass
- func (g *GTPv1U) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (g *GTPv1U) LayerType() gopacket.LayerType
- func (g *GTPv1U) NextLayerType() gopacket.LayerType
- func (g *GTPv1U) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type Geneve
- type GeneveOption
- type HelloPkg
- type HelloPkgV2
- type IANAAddressFamily
- type ICMPv4
- func (i *ICMPv4) CanDecode() gopacket.LayerClass
- func (i *ICMPv4) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (i *ICMPv4) LayerType() gopacket.LayerType
- func (i *ICMPv4) NextLayerType() gopacket.LayerType
- func (i *ICMPv4) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type ICMPv4TypeCode
- type ICMPv6
- func (i *ICMPv6) CanDecode() gopacket.LayerClass
- func (i *ICMPv6) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (i *ICMPv6) LayerType() gopacket.LayerType
- func (i *ICMPv6) NextLayerType() gopacket.LayerType
- func (i *ICMPv6) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- func (i *ICMPv6) SetNetworkLayerForChecksum(l gopacket.NetworkLayer) error
- type ICMPv6Echo
- func (i *ICMPv6Echo) CanDecode() gopacket.LayerClass
- func (i *ICMPv6Echo) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (i *ICMPv6Echo) LayerType() gopacket.LayerType
- func (i *ICMPv6Echo) NextLayerType() gopacket.LayerType
- func (i *ICMPv6Echo) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type ICMPv6NeighborAdvertisement
- func (i *ICMPv6NeighborAdvertisement) CanDecode() gopacket.LayerClass
- func (i *ICMPv6NeighborAdvertisement) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (i *ICMPv6NeighborAdvertisement) LayerType() gopacket.LayerType
- func (i *ICMPv6NeighborAdvertisement) NextLayerType() gopacket.LayerType
- func (i *ICMPv6NeighborAdvertisement) Override() bool
- func (i *ICMPv6NeighborAdvertisement) Router() bool
- func (i *ICMPv6NeighborAdvertisement) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- func (i *ICMPv6NeighborAdvertisement) Solicited() bool
- type ICMPv6NeighborSolicitation
- func (i *ICMPv6NeighborSolicitation) CanDecode() gopacket.LayerClass
- func (i *ICMPv6NeighborSolicitation) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (i *ICMPv6NeighborSolicitation) LayerType() gopacket.LayerType
- func (i *ICMPv6NeighborSolicitation) NextLayerType() gopacket.LayerType
- func (i *ICMPv6NeighborSolicitation) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type ICMPv6Opt
- type ICMPv6Option
- type ICMPv6Options
- type ICMPv6Redirect
- func (i *ICMPv6Redirect) CanDecode() gopacket.LayerClass
- func (i *ICMPv6Redirect) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (i *ICMPv6Redirect) LayerType() gopacket.LayerType
- func (i *ICMPv6Redirect) NextLayerType() gopacket.LayerType
- func (i *ICMPv6Redirect) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type ICMPv6RouterAdvertisement
- func (i *ICMPv6RouterAdvertisement) CanDecode() gopacket.LayerClass
- func (i *ICMPv6RouterAdvertisement) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (i *ICMPv6RouterAdvertisement) LayerType() gopacket.LayerType
- func (i *ICMPv6RouterAdvertisement) ManagedAddressConfig() bool
- func (i *ICMPv6RouterAdvertisement) NextLayerType() gopacket.LayerType
- func (i *ICMPv6RouterAdvertisement) OtherConfig() bool
- func (i *ICMPv6RouterAdvertisement) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type ICMPv6RouterSolicitation
- func (i *ICMPv6RouterSolicitation) CanDecode() gopacket.LayerClass
- func (i *ICMPv6RouterSolicitation) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (i *ICMPv6RouterSolicitation) LayerType() gopacket.LayerType
- func (i *ICMPv6RouterSolicitation) NextLayerType() gopacket.LayerType
- func (i *ICMPv6RouterSolicitation) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type ICMPv6TypeCode
- type IEEEOUI
- type IGMP
- type IGMPType
- type IGMPv1or2
- type IGMPv3GroupRecord
- type IGMPv3GroupRecordType
- type IPProtocol
- type IPSecAH
- type IPSecESP
- type IPv4
- func (ip *IPv4) AddressTo4() error
- func (i *IPv4) CanDecode() gopacket.LayerClass
- func (ip *IPv4) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (i *IPv4) LayerType() gopacket.LayerType
- func (i *IPv4) NetworkFlow() gopacket.Flow
- func (i *IPv4) NextLayerType() gopacket.LayerType
- func (ip *IPv4) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type IPv4Flag
- type IPv4Option
- type IPv6
- func (ipv6 *IPv6) AddressTo16() error
- func (ipv6 *IPv6) CanDecode() gopacket.LayerClass
- func (ipv6 *IPv6) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (ipv6 *IPv6) LayerType() gopacket.LayerType
- func (ipv6 *IPv6) NetworkFlow() gopacket.Flow
- func (ipv6 *IPv6) NextLayerType() gopacket.LayerType
- func (ipv6 *IPv6) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type IPv6Destination
- type IPv6DestinationOption
- type IPv6ExtensionSkipper
- type IPv6Fragment
- type IPv6HopByHop
- type IPv6HopByHopOption
- type IPv6Routing
- type InterAreaPrefixLSA
- type InterAreaRouterLSA
- type IntraAreaPrefixLSA
- type LCM
- func (lcm LCM) CanDecode() gopacket.LayerClass
- func (lcm *LCM) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (lcm LCM) Fingerprint() LCMFingerprint
- func (lcm LCM) LayerContents() []byte
- func (lcm LCM) LayerPayload() []byte
- func (lcm LCM) LayerType() gopacket.LayerType
- func (lcm LCM) NextLayerType() gopacket.LayerType
- func (lcm LCM) Payload() []byte
- type LCMFingerprint
- type LLC
- func (l *LLC) CanDecode() gopacket.LayerClass
- func (l *LLC) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (l *LLC) LayerType() gopacket.LayerType
- func (l *LLC) NextLayerType() gopacket.LayerType
- func (l *LLC) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type LLDPApplicationType
- type LLDPCapabilities
- type LLDPChassisID
- type LLDPChassisIDSubType
- type LLDPCisco2Subtype
- type LLDPEVBCapabilities
- type LLDPEVBSettings
- type LLDPInfo8021
- type LLDPInfo8021Qbg
- type LLDPInfo8023
- type LLDPInfoCisco2
- type LLDPInfoMedia
- type LLDPInfoProfinet
- type LLDPInterfaceSubtype
- type LLDPLinkAggregation
- type LLDPLocation
- type LLDPLocationAddress
- type LLDPLocationAddressLine
- type LLDPLocationAddressType
- type LLDPLocationAddressWhat
- type LLDPLocationCoordinate
- type LLDPLocationECS
- type LLDPLocationFormat
- type LLDPMACPHYConfigStatus
- type LLDPMediaCapabilities
- type LLDPMediaClass
- type LLDPMediaSubtype
- type LLDPMgmtAddress
- type LLDPNetworkPolicy
- type LLDPOrgSpecificTLV
- type LLDPPNIODelay
- type LLDPPNIOMRPPortStatus
- type LLDPPNIOPTCPStatus
- type LLDPPNIOPortStatus
- type LLDPPortID
- type LLDPPortIDSubType
- type LLDPPowerPriority
- type LLDPPowerSource
- type LLDPPowerType
- type LLDPPowerViaMDI
- type LLDPPowerViaMDI8023
- type LLDPProfinetSubtype
- type LLDPSysCapabilities
- type LLDPTLVType
- type LSA
- type LSAheader
- type LSReq
- type LSUpdate
- type LinkLSA
- type LinkLayerDiscovery
- type LinkLayerDiscoveryInfo
- func (l *LinkLayerDiscoveryInfo) Decode8021() (info LLDPInfo8021, err error)
- func (l *LinkLayerDiscoveryInfo) Decode8021Qbg() (info LLDPInfo8021Qbg, err error)
- func (l *LinkLayerDiscoveryInfo) Decode8023() (info LLDPInfo8023, err error)
- func (l *LinkLayerDiscoveryInfo) DecodeCisco2() (info LLDPInfoCisco2, err error)
- func (l *LinkLayerDiscoveryInfo) DecodeMedia() (info LLDPInfoMedia, err error)
- func (l *LinkLayerDiscoveryInfo) DecodeProfinet() (info LLDPInfoProfinet, err error)
- func (c *LinkLayerDiscoveryInfo) LayerType() gopacket.LayerType
- type LinkLayerDiscoveryValue
- type LinkType
- type LinuxSLL
- type LinuxSLLPacketType
- type Loopback
- func (l *Loopback) CanDecode() gopacket.LayerClass
- func (l *Loopback) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (l *Loopback) LayerType() gopacket.LayerType
- func (l *Loopback) NextLayerType() gopacket.LayerType
- func (l *Loopback) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type MLDv1Message
- type MLDv1MulticastListenerDoneMessage
- type MLDv1MulticastListenerQueryMessage
- func (*MLDv1MulticastListenerQueryMessage) CanDecode() gopacket.LayerClass
- func (m *MLDv1MulticastListenerQueryMessage) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (m *MLDv1MulticastListenerQueryMessage) IsGeneralQuery() bool
- func (m *MLDv1MulticastListenerQueryMessage) IsSpecificQuery() bool
- func (*MLDv1MulticastListenerQueryMessage) LayerType() gopacket.LayerType
- type MLDv1MulticastListenerReportMessage
- type MLDv2MulticastAddressRecord
- type MLDv2MulticastAddressRecordType
- type MLDv2MulticastListenerQueryMessage
- func (*MLDv2MulticastListenerQueryMessage) CanDecode() gopacket.LayerClass
- func (m *MLDv2MulticastListenerQueryMessage) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (*MLDv2MulticastListenerQueryMessage) LayerType() gopacket.LayerType
- func (m *MLDv2MulticastListenerQueryMessage) MaximumResponseDelay() time.Duration
- func (*MLDv2MulticastListenerQueryMessage) NextLayerType() gopacket.LayerType
- func (m *MLDv2MulticastListenerQueryMessage) QQI() time.Duration
- func (m *MLDv2MulticastListenerQueryMessage) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- func (m *MLDv2MulticastListenerQueryMessage) SetMLDv2MaximumResponseDelay(d time.Duration) error
- func (m *MLDv2MulticastListenerQueryMessage) SetQQI(d time.Duration) error
- func (m *MLDv2MulticastListenerQueryMessage) String() string
- type MLDv2MulticastListenerReportMessage
- func (*MLDv2MulticastListenerReportMessage) CanDecode() gopacket.LayerClass
- func (m *MLDv2MulticastListenerReportMessage) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (*MLDv2MulticastListenerReportMessage) LayerType() gopacket.LayerType
- func (*MLDv2MulticastListenerReportMessage) NextLayerType() gopacket.LayerType
- func (m *MLDv2MulticastListenerReportMessage) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- func (m *MLDv2MulticastListenerReportMessage) String() string
- type MPLS
- type ModbusProtocol
- type ModbusTCP
- type NDPBackplaneType
- type NDPChassisType
- type NDPState
- type NTP
- func (d *NTP) CanDecode() gopacket.LayerClass
- func (d *NTP) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (d *NTP) LayerType() gopacket.LayerType
- func (d *NTP) NextLayerType() gopacket.LayerType
- func (d *NTP) Payload() []byte
- func (d *NTP) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type NTPFixed16Seconds
- type NTPLeapIndicator
- type NTPLog2Seconds
- type NTPMode
- type NTPReferenceID
- type NTPStratum
- type NTPTimestamp
- type NTPVersion
- type NetworkLSA
- type NetworkLSAV2
- type NortelDiscovery
- type OSPF
- type OSPFType
- type OSPFv2
- type OSPFv3
- type PFDirection
- type PFLog
- type PPP
- type PPPType
- type PPPoE
- type PPPoECode
- type PortProtocolVLANID
- type Prefix
- type PrismDID
- type PrismHeader
- type PrismValue
- type ProtocolFamily
- type ProtocolGuessingDecoder
- type ProtocolIdentity
- type RADIUS
- func (radius *RADIUS) CanDecode() gopacket.LayerClass
- func (radius *RADIUS) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (radius *RADIUS) LayerType() gopacket.LayerType
- func (radius *RADIUS) Len() (int, error)
- func (radius *RADIUS) NextLayerType() gopacket.LayerType
- func (radius *RADIUS) Payload() []byte
- func (radius *RADIUS) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type RADIUSAttribute
- type RADIUSAttributeLength
- type RADIUSAttributeType
- type RADIUSAttributeValue
- type RADIUSAuthenticator
- type RADIUSCode
- type RADIUSIdentifier
- type RADIUSLength
- type RMCP
- func (r *RMCP) CanDecode() gopacket.LayerClass
- func (r *RMCP) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (*RMCP) LayerType() gopacket.LayerType
- func (r *RMCP) NextLayerType() gopacket.LayerType
- func (r *RMCP) Payload() []byte
- func (r *RMCP) SerializeTo(b gopacket.SerializeBuffer, _ gopacket.SerializeOptions) error
- type RMCPClass
- type RUDP
- type RUDPHeaderEACK
- type RUDPHeaderSYN
- type RUDPPort
- type RadioTap
- func (m *RadioTap) CanDecode() gopacket.LayerClass
- func (m *RadioTap) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (m *RadioTap) LayerType() gopacket.LayerType
- func (m *RadioTap) NextLayerType() gopacket.LayerType
- func (m RadioTap) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type RadioTapAMPDUStatus
- type RadioTapAMPDUStatusFlags
- func (self RadioTapAMPDUStatusFlags) DelimCRCErr() bool
- func (self RadioTapAMPDUStatusFlags) DelimCRCKnown() bool
- func (self RadioTapAMPDUStatusFlags) IsLast() bool
- func (self RadioTapAMPDUStatusFlags) IsZerolen() bool
- func (self RadioTapAMPDUStatusFlags) LastKnown() bool
- func (self RadioTapAMPDUStatusFlags) ReportZerolen() bool
- type RadioTapChannelFlags
- func (r RadioTapChannelFlags) CCK() bool
- func (r RadioTapChannelFlags) Dynamic() bool
- func (r RadioTapChannelFlags) GFSK() bool
- func (r RadioTapChannelFlags) Ghz2() bool
- func (r RadioTapChannelFlags) Ghz5() bool
- func (r RadioTapChannelFlags) OFDM() bool
- func (r RadioTapChannelFlags) Passive() bool
- func (a RadioTapChannelFlags) String() string
- func (r RadioTapChannelFlags) Turbo() bool
- type RadioTapChannelFrequency
- type RadioTapFlags
- func (r RadioTapFlags) BadFCS() bool
- func (r RadioTapFlags) CFP() bool
- func (r RadioTapFlags) Datapad() bool
- func (r RadioTapFlags) FCS() bool
- func (r RadioTapFlags) Frag() bool
- func (r RadioTapFlags) ShortGI() bool
- func (r RadioTapFlags) ShortPreamble() bool
- func (a RadioTapFlags) String() string
- func (r RadioTapFlags) WEP() bool
- type RadioTapMCS
- type RadioTapMCSFlags
- type RadioTapMCSKnown
- func (self RadioTapMCSKnown) Bandwidth() bool
- func (self RadioTapMCSKnown) FECType() bool
- func (self RadioTapMCSKnown) GuardInterval() bool
- func (self RadioTapMCSKnown) HTFormat() bool
- func (self RadioTapMCSKnown) MCSIndex() bool
- func (self RadioTapMCSKnown) NESS() bool
- func (self RadioTapMCSKnown) NESS1() bool
- func (self RadioTapMCSKnown) STBC() bool
- type RadioTapPresent
- func (r RadioTapPresent) AMPDUStatus() bool
- func (r RadioTapPresent) Antenna() bool
- func (r RadioTapPresent) Channel() bool
- func (r RadioTapPresent) DBAntennaNoise() bool
- func (r RadioTapPresent) DBAntennaSignal() bool
- func (r RadioTapPresent) DBMAntennaNoise() bool
- func (r RadioTapPresent) DBMAntennaSignal() bool
- func (r RadioTapPresent) DBMTxPower() bool
- func (r RadioTapPresent) DBTxAttenuation() bool
- func (r RadioTapPresent) DataRetries() bool
- func (r RadioTapPresent) EXT() bool
- func (r RadioTapPresent) FHSS() bool
- func (r RadioTapPresent) Flags() bool
- func (r RadioTapPresent) LockQuality() bool
- func (r RadioTapPresent) MCS() bool
- func (r RadioTapPresent) Rate() bool
- func (r RadioTapPresent) RtsRetries() bool
- func (r RadioTapPresent) RxFlags() bool
- func (r RadioTapPresent) TSFT() bool
- func (r RadioTapPresent) TxAttenuation() bool
- func (r RadioTapPresent) TxFlags() bool
- func (r RadioTapPresent) VHT() bool
- type RadioTapRate
- type RadioTapRxFlags
- type RadioTapTxFlags
- type RadioTapVHT
- type RadioTapVHTFlags
- type RadioTapVHTKnown
- func (self RadioTapVHTKnown) Bandwidth() bool
- func (self RadioTapVHTKnown) Beamformed() bool
- func (self RadioTapVHTKnown) GI() bool
- func (self RadioTapVHTKnown) GroupId() bool
- func (self RadioTapVHTKnown) LDPCExtraOFDMSymbol() bool
- func (self RadioTapVHTKnown) PartialAID() bool
- func (self RadioTapVHTKnown) SGINSYMDisambiguation() bool
- func (self RadioTapVHTKnown) STBC() bool
- func (self RadioTapVHTKnown) TXOPPSNotAllowed() bool
- type RadioTapVHTMCSNSS
- type Router
- type RouterLSA
- type RouterLSAV2
- type RouterV2
- type SCTP
- func (t *SCTP) CanDecode() gopacket.LayerClass
- func (sctp *SCTP) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (s *SCTP) LayerType() gopacket.LayerType
- func (t *SCTP) NextLayerType() gopacket.LayerType
- func (s SCTP) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- func (s *SCTP) TransportFlow() gopacket.Flow
- type SCTPChunk
- type SCTPChunkType
- type SCTPCookieEcho
- type SCTPData
- type SCTPEmptyLayer
- type SCTPError
- type SCTPErrorParameter
- type SCTPHeartbeat
- type SCTPHeartbeatParameter
- type SCTPInit
- type SCTPInitParameter
- type SCTPParameter
- type SCTPPayloadProtocol
- type SCTPPort
- type SCTPSack
- type SCTPShutdown
- type SCTPShutdownAck
- type SCTPUnknownChunkType
- type SFLLACPPortState
- type SFlowASDestination
- type SFlowASPathType
- type SFlowAppresourcesCounters
- type SFlowBaseCounterRecord
- type SFlowBaseFlowRecord
- type SFlowCharSet
- type SFlowCounterDataFormat
- type SFlowCounterRecordType
- type SFlowCounterSample
- type SFlowDataFormat
- type SFlowDataSource
- type SFlowDataSourceExpanded
- type SFlowDatagram
- type SFlowEnterpriseID
- type SFlowEthernetCounters
- type SFlowEthernetFrameFlowRecord
- type SFlowExtendedDecapsulateEgressRecord
- type SFlowExtendedDecapsulateIngressRecord
- type SFlowExtendedGatewayFlowRecord
- type SFlowExtendedIpv4TunnelEgressRecord
- type SFlowExtendedIpv4TunnelIngressRecord
- type SFlowExtendedIpv6TunnelEgressRecord
- type SFlowExtendedIpv6TunnelIngressRecord
- type SFlowExtendedRouterFlowRecord
- type SFlowExtendedSwitchFlowRecord
- type SFlowExtendedURLRecord
- type SFlowExtendedUserFlow
- type SFlowExtendedVniEgressRecord
- type SFlowExtendedVniIngressRecord
- type SFlowFlowDataFormat
- type SFlowFlowRecordType
- type SFlowFlowSample
- type SFlowGenericInterfaceCounters
- type SFlowIPType
- type SFlowIpv4Record
- type SFlowIpv6Record
- type SFlowLACPCounters
- type SFlowOVSDPCounters
- type SFlowOpenflowPortCounters
- type SFlowPORTNAME
- type SFlowProcessorCounters
- type SFlowRawHeaderProtocol
- type SFlowRawPacketFlowRecord
- type SFlowRecord
- type SFlowSampleType
- type SFlowSourceFormat
- type SFlowSourceValue
- type SFlowURLDirection
- type SFlowVLANCounters
- type SIP
- func (s *SIP) CanDecode() gopacket.LayerClass
- func (s *SIP) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (s *SIP) GetAllHeaders() map[string][]string
- func (s *SIP) GetAuthorization() string
- func (s *SIP) GetCSeq() int64
- func (s *SIP) GetCallID() string
- func (s *SIP) GetContact() string
- func (s *SIP) GetContentLength() int64
- func (s *SIP) GetFirstHeader(headerName string) string
- func (s *SIP) GetFrom() string
- func (s *SIP) GetHeader(headerName string) []string
- func (s *SIP) GetTo() string
- func (s *SIP) GetUserAgent() string
- func (s *SIP) LayerType() gopacket.LayerType
- func (s *SIP) NextLayerType() gopacket.LayerType
- func (s *SIP) ParseFirstLine(firstLine []byte) error
- func (s *SIP) ParseHeader(header []byte) (err error)
- func (s *SIP) ParseSpecificHeaders(headerName string, headerValue string) (err error)
- func (s *SIP) Payload() []byte
- type SIPMethod
- type SIPVersion
- type SNAP
- func (s *SNAP) CanDecode() gopacket.LayerClass
- func (s *SNAP) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (s *SNAP) LayerType() gopacket.LayerType
- func (s *SNAP) NextLayerType() gopacket.LayerType
- func (s *SNAP) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type STP
- func (s *STP) CanDecode() gopacket.LayerClass
- func (stp *STP) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (s *STP) LayerType() gopacket.LayerType
- func (stp *STP) NextLayerType() gopacket.LayerType
- func (s *STP) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type STPSwitchID
- type TCP
- func (t *TCP) CanDecode() gopacket.LayerClass
- func (t *TCP) ComputeChecksum() (uint16, error)
- func (tcp *TCP) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (t *TCP) LayerType() gopacket.LayerType
- func (t *TCP) NextLayerType() gopacket.LayerType
- func (t *TCP) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- func (t *TCP) SetInternalPortsForTesting()
- func (i *TCP) SetNetworkLayerForChecksum(l gopacket.NetworkLayer) error
- func (t *TCP) TransportFlow() gopacket.Flow
- type TCPOption
- type TCPOptionKind
- type TCPPort
- type TLS
- func (t *TLS) CanDecode() gopacket.LayerClass
- func (t *TLS) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (t *TLS) LayerType() gopacket.LayerType
- func (t *TLS) NextLayerType() gopacket.LayerType
- func (t *TLS) Payload() []byte
- func (t *TLS) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- type TLSAlertDescr
- type TLSAlertLevel
- type TLSAlertRecord
- type TLSAppDataRecord
- type TLSChangeCipherSpecRecord
- type TLSHandshakeRecord
- type TLSRecordHeader
- type TLSType
- type TLSVersion
- type TLSchangeCipherSpec
- type UDP
- func (u *UDP) CanDecode() gopacket.LayerClass
- func (udp *UDP) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (u *UDP) LayerType() gopacket.LayerType
- func (u *UDP) NextLayerType() gopacket.LayerType
- func (u *UDP) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- func (u *UDP) SetInternalPortsForTesting()
- func (i *UDP) SetNetworkLayerForChecksum(l gopacket.NetworkLayer) error
- func (u *UDP) TransportFlow() gopacket.Flow
- type UDPLite
- type UDPLitePort
- type UDPPort
- type USB
- type USBBulk
- type USBControl
- type USBDirectionType
- type USBEventType
- type USBInterrupt
- type USBRequestBlockSetup
- type USBRequestBlockSetupRequest
- type USBTransportType
- type VLANName
- type VRRPv2
- type VRRPv2AuthType
- type VRRPv2Type
- type VXLAN
- func (vx *VXLAN) CanDecode() gopacket.LayerClass
- func (vx *VXLAN) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
- func (vx *VXLAN) LayerType() gopacket.LayerType
- func (vx *VXLAN) NextLayerType() gopacket.LayerType
- func (vx *VXLAN) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
- Bugs
Constants ¶
const ( ARPRequest = 1 ARPReply = 2 )
Potential values for ARP.Operation.
const ( // ASFDCMIEnterprise is the IANA-assigned Enterprise Number of the Data // Center Manageability Interface Forum. The Presence Pong response's // Enterprise field being set to this value indicates support for DCMI. The // DCMI spec regards the OEM field as reserved, so these should be null. ASFDCMIEnterprise uint32 = 36465 // ASFPresencePongEntityIPMI ANDs with Presence Pong's supported entities // field if the managed system supports IPMI. ASFPresencePongEntityIPMI ASFEntity = 1 << 7 // ASFPresencePongEntityASFv1 ANDs with Presence Pong's supported entities // field if the managed system supports ASF v1.0. ASFPresencePongEntityASFv1 ASFEntity = 1 // ASFPresencePongInteractionSecurityExtensions ANDs with Presence Pong's // supported interactions field if the managed system supports RMCP v2.0 // security extensions. See section 3.2.3. ASFPresencePongInteractionSecurityExtensions ASFInteraction = 1 << 7 // ASFPresencePongInteractionDASH ANDs with Presence Pong's supported // interactions field if the managed system supports DMTF DASH. See // https://www.dmtf.org/standards/dash. ASFPresencePongInteractionDASH ASFInteraction = 1 << 5 )
const ( CDPPoEFourWire byte = 0x01 CDPPoEPDArch byte = 0x02 CDPPoEPDRequest byte = 0x04 CDPPoEPSE byte = 0x08 )
CDP Power-over-Ethernet values.
const ( CDPProtocolTypeNLPID byte = 1 CDPProtocolType802_2 byte = 2 )
CDP Protocol Types
const ( // DecOptionNotEnoughData is returned when there is not enough data during option's decode process DecOptionNotEnoughData = DHCPv4Error("Not enough data to decode") // DecOptionMalformed is returned when the option is malformed DecOptionMalformed = DHCPv4Error("Option is malformed") // InvalidMagicCookie is returned when Magic cookie is missing into BOOTP header InvalidMagicCookie = DHCPv4Error("Bad DHCP header") )
const ( Dot11CodingTypeBCC = 0 Dot11CodingTypeLDPC = 1 )
const ( EAPCodeRequest EAPCode = 1 EAPCodeResponse EAPCode = 2 EAPCodeSuccess EAPCode = 3 EAPCodeFailure EAPCode = 4 // EAPTypeNone means that this EAP layer has no Type or TypeData. // Success and Failure EAPs will have this set. EAPTypeNone EAPType = 0 EAPTypeIdentity EAPType = 1 EAPTypeNotification EAPType = 2 EAPTypeNACK EAPType = 3 EAPTypeOTP EAPType = 4 EAPTypeTokenCard EAPType = 5 )
const ( //ERSPANIIVersionObsolete - The obsolete value for the version field ERSPANIIVersionObsolete = 0x0 // ERSPANIIVersion - The current value for the version field ERSPANIIVersion = 0x1 )
const ( ICMPv4TypeEchoReply = 0 ICMPv4TypeDestinationUnreachable = 3 ICMPv4TypeSourceQuench = 4 ICMPv4TypeRedirect = 5 ICMPv4TypeEchoRequest = 8 ICMPv4TypeRouterAdvertisement = 9 ICMPv4TypeRouterSolicitation = 10 ICMPv4TypeTimeExceeded = 11 ICMPv4TypeParameterProblem = 12 ICMPv4TypeTimestampRequest = 13 ICMPv4TypeTimestampReply = 14 ICMPv4TypeInfoRequest = 15 ICMPv4TypeInfoReply = 16 ICMPv4TypeAddressMaskRequest = 17 ICMPv4TypeAddressMaskReply = 18 )
const ( // DestinationUnreachable ICMPv4CodeNet = 0 ICMPv4CodeHost = 1 ICMPv4CodeProtocol = 2 ICMPv4CodePort = 3 ICMPv4CodeFragmentationNeeded = 4 ICMPv4CodeSourceRoutingFailed = 5 ICMPv4CodeNetUnknown = 6 ICMPv4CodeHostUnknown = 7 ICMPv4CodeSourceIsolated = 8 ICMPv4CodeNetAdminProhibited = 9 ICMPv4CodeHostAdminProhibited = 10 ICMPv4CodeNetTOS = 11 ICMPv4CodeHostTOS = 12 ICMPv4CodeCommAdminProhibited = 13 ICMPv4CodeHostPrecedence = 14 ICMPv4CodePrecedenceCutoff = 15 // TimeExceeded ICMPv4CodeTTLExceeded = 0 ICMPv4CodeFragmentReassemblyTimeExceeded = 1 // ParameterProblem ICMPv4CodePointerIndicatesError = 0 ICMPv4CodeMissingOption = 1 ICMPv4CodeBadLength = 2 // Redirect // ICMPv4CodeNet = same as for DestinationUnreachable // ICMPv4CodeHost = same as for DestinationUnreachable ICMPv4CodeTOSNet = 2 ICMPv4CodeTOSHost = 3 )
const ( // The following are from RFC 4443 ICMPv6TypeDestinationUnreachable = 1 ICMPv6TypePacketTooBig = 2 ICMPv6TypeTimeExceeded = 3 ICMPv6TypeParameterProblem = 4 ICMPv6TypeEchoRequest = 128 ICMPv6TypeEchoReply = 129 // The following are from RFC 4861 ICMPv6TypeRouterSolicitation = 133 ICMPv6TypeRouterAdvertisement = 134 ICMPv6TypeNeighborSolicitation = 135 ICMPv6TypeNeighborAdvertisement = 136 ICMPv6TypeRedirect = 137 // The following are from RFC 2710 ICMPv6TypeMLDv1MulticastListenerQueryMessage = 130 ICMPv6TypeMLDv1MulticastListenerReportMessage = 131 ICMPv6TypeMLDv1MulticastListenerDoneMessage = 132 // The following are from RFC 3810 ICMPv6TypeMLDv2MulticastListenerReportMessageV2 = 143 )
const ( // DestinationUnreachable ICMPv6CodeNoRouteToDst = 0 ICMPv6CodeAdminProhibited = 1 ICMPv6CodeBeyondScopeOfSrc = 2 ICMPv6CodeAddressUnreachable = 3 ICMPv6CodePortUnreachable = 4 ICMPv6CodeSrcAddressFailedPolicy = 5 ICMPv6CodeRejectRouteToDst = 6 // TimeExceeded ICMPv6CodeHopLimitExceeded = 0 ICMPv6CodeFragmentReassemblyTimeExceeded = 1 // ParameterProblem ICMPv6CodeErroneousHeaderField = 0 ICMPv6CodeUnrecognizedNextHeader = 1 ICMPv6CodeUnrecognizedIPv6Option = 2 )
const ( // LCMShortHeaderMagic is the LCM small message header magic number LCMShortHeaderMagic uint32 = 0x4c433032 // LCMFragmentedHeaderMagic is the LCM fragmented message header magic number LCMFragmentedHeaderMagic uint32 = 0x4c433033 )
const ( LLDPCapsOther uint16 = 1 << 0 LLDPCapsRepeater uint16 = 1 << 1 LLDPCapsBridge uint16 = 1 << 2 LLDPCapsWLANAP uint16 = 1 << 3 LLDPCapsRouter uint16 = 1 << 4 LLDPCapsPhone uint16 = 1 << 5 LLDPCapsDocSis uint16 = 1 << 6 LLDPCapsStationOnly uint16 = 1 << 7 LLDPCapsCVLAN uint16 = 1 << 8 LLDPCapsSVLAN uint16 = 1 << 9 LLDPCapsTmpr uint16 = 1 << 10 )
LLDPCapabilities Types
const ( LLDP8021SubtypePortVLANID uint8 = 1 LLDP8021SubtypeProtocolVLANID uint8 = 2 LLDP8021SubtypeVLANName uint8 = 3 LLDP8021SubtypeProtocolIdentity uint8 = 4 LLDP8021SubtypeVDIUsageDigest uint8 = 5 LLDP8021SubtypeManagementVID uint8 = 6 LLDP8021SubtypeLinkAggregation uint8 = 7 )
/ IEEE 802.1 TLV Subtypes
const ( LLDPProtocolVLANIDCapability byte = 1 << 1 LLDPProtocolVLANIDStatus byte = 1 << 2 )
VLAN Port Protocol ID options
const ( LLDPAggregationCapability byte = 1 << 0 LLDPAggregationStatus byte = 1 << 1 )
LACP options
const ( LLDP8023SubtypeMACPHY uint8 = 1 LLDP8023SubtypeMDIPower uint8 = 2 LLDP8023SubtypeLinkAggregation uint8 = 3 LLDP8023SubtypeMTU uint8 = 4 )
IEEE 802.3 TLV Subtypes
const ( LLDPMACPHYCapability byte = 1 << 0 LLDPMACPHYStatus byte = 1 << 1 )
MACPHY options
const ( LLDPMAUTypeUnknown uint16 = 0 LLDPMAUTypeAUI uint16 = 1 LLDPMAUType10Base5 uint16 = 2 LLDPMAUTypeFOIRL uint16 = 3 LLDPMAUType10Base2 uint16 = 4 LLDPMAUType10BaseT uint16 = 5 LLDPMAUType10BaseFP uint16 = 6 LLDPMAUType10BaseFB uint16 = 7 LLDPMAUType10BaseFL uint16 = 8 LLDPMAUType10BROAD36 uint16 = 9 LLDPMAUType10BaseT_HD uint16 = 10 LLDPMAUType10BaseT_FD uint16 = 11 LLDPMAUType10BaseFL_HD uint16 = 12 LLDPMAUType10BaseFL_FD uint16 = 13 LLDPMAUType100BaseT4 uint16 = 14 LLDPMAUType100BaseTX_HD uint16 = 15 LLDPMAUType100BaseTX_FD uint16 = 16 LLDPMAUType100BaseFX_HD uint16 = 17 LLDPMAUType100BaseFX_FD uint16 = 18 LLDPMAUType100BaseT2_HD uint16 = 19 LLDPMAUType100BaseT2_FD uint16 = 20 LLDPMAUType1000BaseX_HD uint16 = 21 LLDPMAUType1000BaseX_FD uint16 = 22 LLDPMAUType1000BaseLX_HD uint16 = 23 LLDPMAUType1000BaseLX_FD uint16 = 24 LLDPMAUType1000BaseSX_HD uint16 = 25 LLDPMAUType1000BaseSX_FD uint16 = 26 LLDPMAUType1000BaseCX_HD uint16 = 27 LLDPMAUType1000BaseCX_FD uint16 = 28 LLDPMAUType1000BaseT_HD uint16 = 29 LLDPMAUType1000BaseT_FD uint16 = 30 LLDPMAUType10GBaseX uint16 = 31 LLDPMAUType10GBaseLX4 uint16 = 32 LLDPMAUType10GBaseR uint16 = 33 LLDPMAUType10GBaseER uint16 = 34 LLDPMAUType10GBaseLR uint16 = 35 LLDPMAUType10GBaseSR uint16 = 36 LLDPMAUType10GBaseW uint16 = 37 LLDPMAUType10GBaseEW uint16 = 38 LLDPMAUType10GBaseLW uint16 = 39 LLDPMAUType10GBaseSW uint16 = 40 LLDPMAUType10GBaseCX4 uint16 = 41 LLDPMAUType2BaseTL uint16 = 42 LLDPMAUType10PASS_TS uint16 = 43 LLDPMAUType100BaseBX10D uint16 = 44 LLDPMAUType100BaseBX10U uint16 = 45 LLDPMAUType100BaseLX10 uint16 = 46 LLDPMAUType1000BaseBX10D uint16 = 47 LLDPMAUType1000BaseBX10U uint16 = 48 LLDPMAUType1000BaseLX10 uint16 = 49 LLDPMAUType1000BasePX10D uint16 = 50 LLDPMAUType1000BasePX10U uint16 = 51 LLDPMAUType1000BasePX20D uint16 = 52 LLDPMAUType1000BasePX20U uint16 = 53 LLDPMAUType10GBaseT uint16 = 54 LLDPMAUType10GBaseLRM uint16 = 55 LLDPMAUType1000BaseKX uint16 = 56 LLDPMAUType10GBaseKX4 uint16 = 57 LLDPMAUType10GBaseKR uint16 = 58 LLDPMAUType10_1GBasePRX_D1 uint16 = 59 LLDPMAUType10_1GBasePRX_D2 uint16 = 60 LLDPMAUType10_1GBasePRX_D3 uint16 = 61 LLDPMAUType10_1GBasePRX_U1 uint16 = 62 LLDPMAUType10_1GBasePRX_U2 uint16 = 63 LLDPMAUType10_1GBasePRX_U3 uint16 = 64 LLDPMAUType10GBasePR_D1 uint16 = 65 LLDPMAUType10GBasePR_D2 uint16 = 66 LLDPMAUType10GBasePR_D3 uint16 = 67 LLDPMAUType10GBasePR_U1 uint16 = 68 LLDPMAUType10GBasePR_U3 uint16 = 69 )
From IANA-MAU-MIB (introduced by RFC 4836) - dot3MauType
const ( LLDPMAUPMDOther uint16 = 1 << 15 LLDPMAUPMD10BaseT uint16 = 1 << 14 LLDPMAUPMD10BaseT_FD uint16 = 1 << 13 LLDPMAUPMD100BaseT4 uint16 = 1 << 12 LLDPMAUPMD100BaseTX uint16 = 1 << 11 LLDPMAUPMD100BaseTX_FD uint16 = 1 << 10 LLDPMAUPMD100BaseT2 uint16 = 1 << 9 LLDPMAUPMD100BaseT2_FD uint16 = 1 << 8 LLDPMAUPMDFDXPAUSE uint16 = 1 << 7 LLDPMAUPMDFDXAPAUSE uint16 = 1 << 6 LLDPMAUPMDFDXSPAUSE uint16 = 1 << 5 LLDPMAUPMDFDXBPAUSE uint16 = 1 << 4 LLDPMAUPMD1000BaseX uint16 = 1 << 3 LLDPMAUPMD1000BaseX_FD uint16 = 1 << 2 LLDPMAUPMD1000BaseT uint16 = 1 << 1 LLDPMAUPMD1000BaseT_FD uint16 = 1 << 0 )
From RFC 3636 - ifMauAutoNegCapAdvertisedBits
const ( LLDPMAUPMDOtherInv uint16 = 1 << 0 LLDPMAUPMD10BaseTInv uint16 = 1 << 1 LLDPMAUPMD10BaseT_FDInv uint16 = 1 << 2 LLDPMAUPMD100BaseT4Inv uint16 = 1 << 3 LLDPMAUPMD100BaseTXInv uint16 = 1 << 4 LLDPMAUPMD100BaseTX_FDInv uint16 = 1 << 5 LLDPMAUPMD100BaseT2Inv uint16 = 1 << 6 LLDPMAUPMD100BaseT2_FDInv uint16 = 1 << 7 LLDPMAUPMDFDXPAUSEInv uint16 = 1 << 8 LLDPMAUPMDFDXAPAUSEInv uint16 = 1 << 9 LLDPMAUPMDFDXSPAUSEInv uint16 = 1 << 10 LLDPMAUPMDFDXBPAUSEInv uint16 = 1 << 11 LLDPMAUPMD1000BaseXInv uint16 = 1 << 12 LLDPMAUPMD1000BaseX_FDInv uint16 = 1 << 13 LLDPMAUPMD1000BaseTInv uint16 = 1 << 14 LLDPMAUPMD1000BaseT_FDInv uint16 = 1 << 15 )
Inverted ifMauAutoNegCapAdvertisedBits if required (Some manufacturers misinterpreted the spec - see https://bugs.wireshark.org/bugzilla/show_bug.cgi?id=1455)
const ( LLDPMDIPowerPortClass byte = 1 << 0 LLDPMDIPowerCapability byte = 1 << 1 LLDPMDIPowerStatus byte = 1 << 2 LLDPMDIPowerPairsAbility byte = 1 << 3 )
MDI Power options
const ( LLDP8021QbgEVB uint8 = 0 LLDP8021QbgCDCP uint8 = 1 LLDP8021QbgVDP uint8 = 2 LLDP8021QbgEVB22 uint8 = 13 )
IEEE 802.1Qbg TLV Subtypes
const ( LLDPEVBCapsSTD uint16 = 1 << 7 LLDPEVBCapsRR uint16 = 1 << 6 LLDPEVBCapsRTE uint16 = 1 << 2 LLDPEVBCapsECP uint16 = 1 << 1 LLDPEVBCapsVDP uint16 = 1 << 0 )
LLDPEVBCapabilities Types
const ( LLDPMediaCapsLLDP uint16 = 1 << 0 LLDPMediaCapsNetwork uint16 = 1 << 1 LLDPMediaCapsLocation uint16 = 1 << 2 LLDPMediaCapsPowerPSE uint16 = 1 << 3 LLDPMediaCapsPowerPD uint16 = 1 << 4 LLDPMediaCapsInventory uint16 = 1 << 5 )
LLDPMediaCapabilities Types
const ( LLDPCiscoPSESupport uint8 = 1 << 0 LLDPCiscoPDSparePair uint8 = 1 << 2 LLDPCiscoPSESparePair uint8 = 1 << 3 )
const ( RouterLSAtypeV2 = 0x1 RouterLSAtype = 0x2001 NetworkLSAtypeV2 = 0x2 NetworkLSAtype = 0x2002 SummaryLSANetworktypeV2 = 0x3 InterAreaPrefixLSAtype = 0x2003 SummaryLSAASBRtypeV2 = 0x4 InterAreaRouterLSAtype = 0x2004 ASExternalLSAtypeV2 = 0x5 ASExternalLSAtype = 0x4005 NSSALSAtype = 0x2007 NSSALSAtypeV2 = 0x7 LinkLSAtype = 0x0008 IntraAreaPrefixLSAtype = 0x2009 )
LSA Function Codes for LSAheader.LSType
const ( PrismType1MessageCode uint16 = 0x00000044 PrismType2MessageCode uint16 = 0x00000041 )
const ( RadioTapMCSFlagsBandwidthMask RadioTapMCSFlags = 0x03 RadioTapMCSFlagsShortGI = 0x04 RadioTapMCSFlagsGreenfield = 0x08 RadioTapMCSFlagsFECLDPC = 0x10 RadioTapMCSFlagsSTBCMask = 0x60 RadioTapMCSFlagsNESS0 = 0x80 )
const ( // RMCPVersion1 identifies RMCP v1.0 in the Version header field. Lower // values are considered legacy, while higher values are reserved by the // specification. RMCPVersion1 uint8 = 0x06 // RMCPNormal indicates a "normal" message, i.e. not an acknowledgement. RMCPNormal uint8 = 0 // RMCPAck indicates a message is acknowledging a received normal message. RMCPAck uint8 = 1 << 7 // RMCPClassASF identifies an RMCP message as containing an ASF-RMCP // payload. RMCPClassASF RMCPClass = 0x06 // RMCPClassIPMI identifies an RMCP message as containing an IPMI payload. RMCPClassIPMI RMCPClass = 0x07 // RMCPClassOEM identifies an RMCP message as containing an OEM-defined // payload. RMCPClassOEM RMCPClass = 0x08 )
const ( SCTPProtocolReserved SCTPPayloadProtocol = 0 SCTPPayloadUIA = 1 SCTPPayloadM2UA = 2 SCTPPayloadM3UA = 3 SCTPPayloadSUA = 4 SCTPPayloadM2PA = 5 SCTPPayloadV5UA = 6 SCTPPayloadH248 = 7 SCTPPayloadBICC = 8 SCTPPayloadTALI = 9 SCTPPayloadDUA = 10 SCTPPayloadASAP = 11 SCTPPayloadENRP = 12 SCTPPayloadH323 = 13 SCTPPayloadQIPC = 14 SCTPPayloadSIMCO = 15 SCTPPayloadDDPSegment = 16 SCTPPayloadDDPStream = 17 SCTPPayloadS1AP = 18 )
SCTPPayloadProtocol constonts from http://www.iana.org/assignments/sctp-parameters/sctp-parameters.xhtml
const ( TCPOptionKindEndList = 0 TCPOptionKindNop = 1 TCPOptionKindMSS = 2 // len = 4 TCPOptionKindWindowScale = 3 // len = 3 TCPOptionKindSACKPermitted = 4 // len = 2 TCPOptionKindSACK = 5 // len = n TCPOptionKindEcho = 6 // len = 6, obsolete TCPOptionKindEchoReply = 7 // len = 6, obsolete TCPOptionKindTimestamps = 8 // len = 10 TCPOptionKindPartialOrderConnectionPermitted = 9 // len = 2, obsolete TCPOptionKindPartialOrderServiceProfile = 10 // len = 3, obsolete TCPOptionKindCC = 11 // obsolete TCPOptionKindCCNew = 12 // obsolete TCPOptionKindCCEcho = 13 // obsolete TCPOptionKindAltChecksum = 14 // len = 3, obsolete TCPOptionKindAltChecksumData = 15 // len = n, obsolete )
const ( TLSAlertWarning TLSAlertLevel = 1 TLSAlertFatal TLSAlertLevel = 2 TLSAlertUnknownLevel TLSAlertLevel = 255 TLSAlertCloseNotify TLSAlertDescr = 0 TLSAlertUnexpectedMessage TLSAlertDescr = 10 TLSAlertBadRecordMac TLSAlertDescr = 20 TLSAlertDecryptionFailedRESERVED TLSAlertDescr = 21 TLSAlertRecordOverflow TLSAlertDescr = 22 TLSAlertDecompressionFailure TLSAlertDescr = 30 TLSAlertHandshakeFailure TLSAlertDescr = 40 TLSAlertNoCertificateRESERVED TLSAlertDescr = 41 TLSAlertBadCertificate TLSAlertDescr = 42 TLSAlertUnsupportedCertificate TLSAlertDescr = 43 TLSAlertCertificateRevoked TLSAlertDescr = 44 TLSAlertCertificateExpired TLSAlertDescr = 45 TLSAlertCertificateUnknown TLSAlertDescr = 46 TLSAlertIllegalParameter TLSAlertDescr = 47 TLSAlertUnknownCa TLSAlertDescr = 48 TLSAlertAccessDenied TLSAlertDescr = 49 TLSAlertDecodeError TLSAlertDescr = 50 TLSAlertDecryptError TLSAlertDescr = 51 TLSAlertExportRestrictionRESERVED TLSAlertDescr = 60 TLSAlertProtocolVersion TLSAlertDescr = 70 TLSAlertInsufficientSecurity TLSAlertDescr = 71 TLSAlertInternalError TLSAlertDescr = 80 TLSAlertUserCanceled TLSAlertDescr = 90 TLSAlertNoRenegotiation TLSAlertDescr = 100 TLSAlertUnsupportedExtension TLSAlertDescr = 110 TLSAlertUnknownDescription TLSAlertDescr = 255 )
const ( // ASFRMCPEnterprise is the IANA-assigned Enterprise Number of the ASF-RMCP. ASFRMCPEnterprise uint32 = 4542 )
const (
// IPv6HopByHopOptionJumbogram code as defined in RFC 2675
IPv6HopByHopOptionJumbogram = 0xC2
)
Variables ¶
var ( // ASFDataIdentifierPresencePong is the message type of the response to a // Presence Ping message. It indicates the sender is ASF-RMCP-aware. ASFDataIdentifierPresencePong = ASFDataIdentifier{ Enterprise: ASFRMCPEnterprise, Type: 0x40, } // ASFDataIdentifierPresencePing is a message type sent to a managed client // to solicit a Presence Pong response. Clients may ignore this if the RMCP // version is unsupported. Sending this message with a sequence number <255 // is the recommended way of finding out whether an implementation sends // RMCP ACKs (e.g. iDRAC does, Super Micro does not). // // Systems implementing IPMI must respond to this ping to conform to the // spec, so it is a good substitute for an ICMP ping. ASFDataIdentifierPresencePing = ASFDataIdentifier{ Enterprise: ASFRMCPEnterprise, Type: 0x80, } )
var ( // We use two different endpoint types for IPv4 vs IPv6 addresses, so that // ordering with endpointA.LessThan(endpointB) sanely groups all IPv4 // addresses and all IPv6 addresses, such that IPv6 > IPv4 for all addresses. EndpointIPv4 = gopacket.RegisterEndpointType(1, gopacket.EndpointTypeMetadata{Name: "IPv4", Formatter: func(b []byte) string { return net.IP(b).String() }}) EndpointIPv6 = gopacket.RegisterEndpointType(2, gopacket.EndpointTypeMetadata{Name: "IPv6", Formatter: func(b []byte) string { return net.IP(b).String() }}) EndpointMAC = gopacket.RegisterEndpointType(3, gopacket.EndpointTypeMetadata{Name: "MAC", Formatter: func(b []byte) string { return net.HardwareAddr(b).String() }}) EndpointTCPPort = gopacket.RegisterEndpointType(4, gopacket.EndpointTypeMetadata{Name: "TCP", Formatter: func(b []byte) string { return strconv.Itoa(int(binary.BigEndian.Uint16(b))) }}) EndpointUDPPort = gopacket.RegisterEndpointType(5, gopacket.EndpointTypeMetadata{Name: "UDP", Formatter: func(b []byte) string { return strconv.Itoa(int(binary.BigEndian.Uint16(b))) }}) EndpointSCTPPort = gopacket.RegisterEndpointType(6, gopacket.EndpointTypeMetadata{Name: "SCTP", Formatter: func(b []byte) string { return strconv.Itoa(int(binary.BigEndian.Uint16(b))) }}) EndpointRUDPPort = gopacket.RegisterEndpointType(7, gopacket.EndpointTypeMetadata{Name: "RUDP", Formatter: func(b []byte) string { return strconv.Itoa(int(b[0])) }}) EndpointUDPLitePort = gopacket.RegisterEndpointType(8, gopacket.EndpointTypeMetadata{Name: "UDPLite", Formatter: func(b []byte) string { return strconv.Itoa(int(binary.BigEndian.Uint16(b))) }}) EndpointPPP = gopacket.RegisterEndpointType(9, gopacket.EndpointTypeMetadata{Name: "PPP", Formatter: func([]byte) string { return "point" }}) )
var ( LayerTypeARP = gopacket.RegisterLayerType(10, gopacket.LayerTypeMetadata{Name: "ARP", Decoder: gopacket.DecodeFunc(decodeARP)}) LayerTypeCiscoDiscovery = gopacket.RegisterLayerType(11, gopacket.LayerTypeMetadata{Name: "CiscoDiscovery", Decoder: gopacket.DecodeFunc(decodeCiscoDiscovery)}) LayerTypeEthernetCTP = gopacket.RegisterLayerType(12, gopacket.LayerTypeMetadata{Name: "EthernetCTP", Decoder: gopacket.DecodeFunc(decodeEthernetCTP)}) LayerTypeEthernetCTPForwardData = gopacket.RegisterLayerType(13, gopacket.LayerTypeMetadata{Name: "EthernetCTPForwardData", Decoder: nil}) LayerTypeEthernetCTPReply = gopacket.RegisterLayerType(14, gopacket.LayerTypeMetadata{Name: "EthernetCTPReply", Decoder: nil}) LayerTypeDot1Q = gopacket.RegisterLayerType(15, gopacket.LayerTypeMetadata{Name: "Dot1Q", Decoder: gopacket.DecodeFunc(decodeDot1Q)}) LayerTypeEtherIP = gopacket.RegisterLayerType(16, gopacket.LayerTypeMetadata{Name: "EtherIP", Decoder: gopacket.DecodeFunc(decodeEtherIP)}) LayerTypeEthernet = gopacket.RegisterLayerType(17, gopacket.LayerTypeMetadata{Name: "Ethernet", Decoder: gopacket.DecodeFunc(decodeEthernet)}) LayerTypeGRE = gopacket.RegisterLayerType(18, gopacket.LayerTypeMetadata{Name: "GRE", Decoder: gopacket.DecodeFunc(decodeGRE)}) LayerTypeICMPv4 = gopacket.RegisterLayerType(19, gopacket.LayerTypeMetadata{Name: "ICMPv4", Decoder: gopacket.DecodeFunc(decodeICMPv4)}) LayerTypeIPv4 = gopacket.RegisterLayerType(20, gopacket.LayerTypeMetadata{Name: "IPv4", Decoder: gopacket.DecodeFunc(decodeIPv4)}) LayerTypeIPv6 = gopacket.RegisterLayerType(21, gopacket.LayerTypeMetadata{Name: "IPv6", Decoder: gopacket.DecodeFunc(decodeIPv6)}) LayerTypeLLC = gopacket.RegisterLayerType(22, gopacket.LayerTypeMetadata{Name: "LLC", Decoder: gopacket.DecodeFunc(decodeLLC)}) LayerTypeSNAP = gopacket.RegisterLayerType(23, gopacket.LayerTypeMetadata{Name: "SNAP", Decoder: gopacket.DecodeFunc(decodeSNAP)}) LayerTypeMPLS = gopacket.RegisterLayerType(24, gopacket.LayerTypeMetadata{Name: "MPLS", Decoder: gopacket.DecodeFunc(decodeMPLS)}) LayerTypePPP = gopacket.RegisterLayerType(25, gopacket.LayerTypeMetadata{Name: "PPP", Decoder: gopacket.DecodeFunc(decodePPP)}) LayerTypePPPoE = gopacket.RegisterLayerType(26, gopacket.LayerTypeMetadata{Name: "PPPoE", Decoder: gopacket.DecodeFunc(decodePPPoE)}) LayerTypeRUDP = gopacket.RegisterLayerType(27, gopacket.LayerTypeMetadata{Name: "RUDP", Decoder: gopacket.DecodeFunc(decodeRUDP)}) LayerTypeSCTP = gopacket.RegisterLayerType(28, gopacket.LayerTypeMetadata{Name: "SCTP", Decoder: gopacket.DecodeFunc(decodeSCTP)}) LayerTypeSCTPUnknownChunkType = gopacket.RegisterLayerType(29, gopacket.LayerTypeMetadata{Name: "SCTPUnknownChunkType", Decoder: nil}) LayerTypeSCTPData = gopacket.RegisterLayerType(30, gopacket.LayerTypeMetadata{Name: "SCTPData", Decoder: nil}) LayerTypeSCTPInit = gopacket.RegisterLayerType(31, gopacket.LayerTypeMetadata{Name: "SCTPInit", Decoder: nil}) LayerTypeSCTPSack = gopacket.RegisterLayerType(32, gopacket.LayerTypeMetadata{Name: "SCTPSack", Decoder: nil}) LayerTypeSCTPHeartbeat = gopacket.RegisterLayerType(33, gopacket.LayerTypeMetadata{Name: "SCTPHeartbeat", Decoder: nil}) LayerTypeSCTPError = gopacket.RegisterLayerType(34, gopacket.LayerTypeMetadata{Name: "SCTPError", Decoder: nil}) LayerTypeSCTPShutdown = gopacket.RegisterLayerType(35, gopacket.LayerTypeMetadata{Name: "SCTPShutdown", Decoder: nil}) LayerTypeSCTPShutdownAck = gopacket.RegisterLayerType(36, gopacket.LayerTypeMetadata{Name: "SCTPShutdownAck", Decoder: nil}) LayerTypeSCTPCookieEcho = gopacket.RegisterLayerType(37, gopacket.LayerTypeMetadata{Name: "SCTPCookieEcho", Decoder: nil}) LayerTypeSCTPEmptyLayer = gopacket.RegisterLayerType(38, gopacket.LayerTypeMetadata{Name: "SCTPEmptyLayer", Decoder: nil}) LayerTypeSCTPInitAck = gopacket.RegisterLayerType(39, gopacket.LayerTypeMetadata{Name: "SCTPInitAck", Decoder: nil}) LayerTypeSCTPHeartbeatAck = gopacket.RegisterLayerType(40, gopacket.LayerTypeMetadata{Name: "SCTPHeartbeatAck", Decoder: nil}) LayerTypeSCTPAbort = gopacket.RegisterLayerType(41, gopacket.LayerTypeMetadata{Name: "SCTPAbort", Decoder: nil}) LayerTypeSCTPShutdownComplete = gopacket.RegisterLayerType(42, gopacket.LayerTypeMetadata{Name: "SCTPShutdownComplete", Decoder: nil}) LayerTypeSCTPCookieAck = gopacket.RegisterLayerType(43, gopacket.LayerTypeMetadata{Name: "SCTPCookieAck", Decoder: nil}) LayerTypeTCP = gopacket.RegisterLayerType(44, gopacket.LayerTypeMetadata{Name: "TCP", Decoder: gopacket.DecodeFunc(decodeTCP)}) LayerTypeUDP = gopacket.RegisterLayerType(45, gopacket.LayerTypeMetadata{Name: "UDP", Decoder: gopacket.DecodeFunc(decodeUDP)}) LayerTypeIPv6HopByHop = gopacket.RegisterLayerType(46, gopacket.LayerTypeMetadata{Name: "IPv6HopByHop", Decoder: gopacket.DecodeFunc(decodeIPv6HopByHop)}) LayerTypeIPv6Routing = gopacket.RegisterLayerType(47, gopacket.LayerTypeMetadata{Name: "IPv6Routing", Decoder: gopacket.DecodeFunc(decodeIPv6Routing)}) LayerTypeIPv6Fragment = gopacket.RegisterLayerType(48, gopacket.LayerTypeMetadata{Name: "IPv6Fragment", Decoder: gopacket.DecodeFunc(decodeIPv6Fragment)}) LayerTypeIPv6Destination = gopacket.RegisterLayerType(49, gopacket.LayerTypeMetadata{Name: "IPv6Destination", Decoder: gopacket.DecodeFunc(decodeIPv6Destination)}) LayerTypeIPSecAH = gopacket.RegisterLayerType(50, gopacket.LayerTypeMetadata{Name: "IPSecAH", Decoder: gopacket.DecodeFunc(decodeIPSecAH)}) LayerTypeIPSecESP = gopacket.RegisterLayerType(51, gopacket.LayerTypeMetadata{Name: "IPSecESP", Decoder: gopacket.DecodeFunc(decodeIPSecESP)}) LayerTypeUDPLite = gopacket.RegisterLayerType(52, gopacket.LayerTypeMetadata{Name: "UDPLite", Decoder: gopacket.DecodeFunc(decodeUDPLite)}) LayerTypeFDDI = gopacket.RegisterLayerType(53, gopacket.LayerTypeMetadata{Name: "FDDI", Decoder: gopacket.DecodeFunc(decodeFDDI)}) LayerTypeLoopback = gopacket.RegisterLayerType(54, gopacket.LayerTypeMetadata{Name: "Loopback", Decoder: gopacket.DecodeFunc(decodeLoopback)}) LayerTypeEAP = gopacket.RegisterLayerType(55, gopacket.LayerTypeMetadata{Name: "EAP", Decoder: gopacket.DecodeFunc(decodeEAP)}) LayerTypeEAPOL = gopacket.RegisterLayerType(56, gopacket.LayerTypeMetadata{Name: "EAPOL", Decoder: gopacket.DecodeFunc(decodeEAPOL)}) LayerTypeICMPv6 = gopacket.RegisterLayerType(57, gopacket.LayerTypeMetadata{Name: "ICMPv6", Decoder: gopacket.DecodeFunc(decodeICMPv6)}) LayerTypeLinkLayerDiscovery = gopacket.RegisterLayerType(58, gopacket.LayerTypeMetadata{Name: "LinkLayerDiscovery", Decoder: gopacket.DecodeFunc(decodeLinkLayerDiscovery)}) LayerTypeCiscoDiscoveryInfo = gopacket.RegisterLayerType(59, gopacket.LayerTypeMetadata{Name: "CiscoDiscoveryInfo", Decoder: gopacket.DecodeFunc(decodeCiscoDiscoveryInfo)}) LayerTypeLinkLayerDiscoveryInfo = gopacket.RegisterLayerType(60, gopacket.LayerTypeMetadata{Name: "LinkLayerDiscoveryInfo", Decoder: nil}) LayerTypeNortelDiscovery = gopacket.RegisterLayerType(61, gopacket.LayerTypeMetadata{Name: "NortelDiscovery", Decoder: gopacket.DecodeFunc(decodeNortelDiscovery)}) LayerTypeIGMP = gopacket.RegisterLayerType(62, gopacket.LayerTypeMetadata{Name: "IGMP", Decoder: gopacket.DecodeFunc(decodeIGMP)}) LayerTypePFLog = gopacket.RegisterLayerType(63, gopacket.LayerTypeMetadata{Name: "PFLog", Decoder: gopacket.DecodeFunc(decodePFLog)}) LayerTypeRadioTap = gopacket.RegisterLayerType(64, gopacket.LayerTypeMetadata{Name: "RadioTap", Decoder: gopacket.DecodeFunc(decodeRadioTap)}) LayerTypeDot11 = gopacket.RegisterLayerType(65, gopacket.LayerTypeMetadata{Name: "Dot11", Decoder: gopacket.DecodeFunc(decodeDot11)}) LayerTypeDot11Ctrl = gopacket.RegisterLayerType(66, gopacket.LayerTypeMetadata{Name: "Dot11Ctrl", Decoder: gopacket.DecodeFunc(decodeDot11Ctrl)}) LayerTypeDot11Data = gopacket.RegisterLayerType(67, gopacket.LayerTypeMetadata{Name: "Dot11Data", Decoder: gopacket.DecodeFunc(decodeDot11Data)}) LayerTypeDot11DataCFAck = gopacket.RegisterLayerType(68, gopacket.LayerTypeMetadata{Name: "Dot11DataCFAck", Decoder: gopacket.DecodeFunc(decodeDot11DataCFAck)}) LayerTypeDot11DataCFPoll = gopacket.RegisterLayerType(69, gopacket.LayerTypeMetadata{Name: "Dot11DataCFPoll", Decoder: gopacket.DecodeFunc(decodeDot11DataCFPoll)}) LayerTypeDot11DataCFAckPoll = gopacket.RegisterLayerType(70, gopacket.LayerTypeMetadata{Name: "Dot11DataCFAckPoll", Decoder: gopacket.DecodeFunc(decodeDot11DataCFAckPoll)}) LayerTypeDot11DataNull = gopacket.RegisterLayerType(71, gopacket.LayerTypeMetadata{Name: "Dot11DataNull", Decoder: gopacket.DecodeFunc(decodeDot11DataNull)}) LayerTypeDot11DataCFAckNoData = gopacket.RegisterLayerType(72, gopacket.LayerTypeMetadata{Name: "Dot11DataCFAck", Decoder: gopacket.DecodeFunc(decodeDot11DataCFAck)}) LayerTypeDot11DataCFPollNoData = gopacket.RegisterLayerType(73, gopacket.LayerTypeMetadata{Name: "Dot11DataCFPoll", Decoder: gopacket.DecodeFunc(decodeDot11DataCFPoll)}) LayerTypeDot11DataCFAckPollNoData = gopacket.RegisterLayerType(74, gopacket.LayerTypeMetadata{Name: "Dot11DataCFAckPoll", Decoder: gopacket.DecodeFunc(decodeDot11DataCFAckPoll)}) LayerTypeDot11DataQOSData = gopacket.RegisterLayerType(75, gopacket.LayerTypeMetadata{Name: "Dot11DataQOSData", Decoder: gopacket.DecodeFunc(decodeDot11DataQOSData)}) LayerTypeDot11DataQOSDataCFAck = gopacket.RegisterLayerType(76, gopacket.LayerTypeMetadata{Name: "Dot11DataQOSDataCFAck", Decoder: gopacket.DecodeFunc(decodeDot11DataQOSDataCFAck)}) LayerTypeDot11DataQOSDataCFPoll = gopacket.RegisterLayerType(77, gopacket.LayerTypeMetadata{Name: "Dot11DataQOSDataCFPoll", Decoder: gopacket.DecodeFunc(decodeDot11DataQOSDataCFPoll)}) LayerTypeDot11DataQOSDataCFAckPoll = gopacket.RegisterLayerType(78, gopacket.LayerTypeMetadata{Name: "Dot11DataQOSDataCFAckPoll", Decoder: gopacket.DecodeFunc(decodeDot11DataQOSDataCFAckPoll)}) LayerTypeDot11DataQOSNull = gopacket.RegisterLayerType(79, gopacket.LayerTypeMetadata{Name: "Dot11DataQOSNull", Decoder: gopacket.DecodeFunc(decodeDot11DataQOSNull)}) LayerTypeDot11DataQOSCFPollNoData = gopacket.RegisterLayerType(80, gopacket.LayerTypeMetadata{Name: "Dot11DataQOSCFPoll", Decoder: gopacket.DecodeFunc(decodeDot11DataQOSCFPollNoData)}) LayerTypeDot11DataQOSCFAckPollNoData = gopacket.RegisterLayerType(81, gopacket.LayerTypeMetadata{Name: "Dot11DataQOSCFAckPoll", Decoder: gopacket.DecodeFunc(decodeDot11DataQOSCFAckPollNoData)}) LayerTypeDot11InformationElement = gopacket.RegisterLayerType(82, gopacket.LayerTypeMetadata{Name: "Dot11InformationElement", Decoder: gopacket.DecodeFunc(decodeDot11InformationElement)}) LayerTypeDot11CtrlCTS = gopacket.RegisterLayerType(83, gopacket.LayerTypeMetadata{Name: "Dot11CtrlCTS", Decoder: gopacket.DecodeFunc(decodeDot11CtrlCTS)}) LayerTypeDot11CtrlRTS = gopacket.RegisterLayerType(84, gopacket.LayerTypeMetadata{Name: "Dot11CtrlRTS", Decoder: gopacket.DecodeFunc(decodeDot11CtrlRTS)}) LayerTypeDot11CtrlBlockAckReq = gopacket.RegisterLayerType(85, gopacket.LayerTypeMetadata{Name: "Dot11CtrlBlockAckReq", Decoder: gopacket.DecodeFunc(decodeDot11CtrlBlockAckReq)}) LayerTypeDot11CtrlBlockAck = gopacket.RegisterLayerType(86, gopacket.LayerTypeMetadata{Name: "Dot11CtrlBlockAck", Decoder: gopacket.DecodeFunc(decodeDot11CtrlBlockAck)}) LayerTypeDot11CtrlPowersavePoll = gopacket.RegisterLayerType(87, gopacket.LayerTypeMetadata{Name: "Dot11CtrlPowersavePoll", Decoder: gopacket.DecodeFunc(decodeDot11CtrlPowersavePoll)}) LayerTypeDot11CtrlAck = gopacket.RegisterLayerType(88, gopacket.LayerTypeMetadata{Name: "Dot11CtrlAck", Decoder: gopacket.DecodeFunc(decodeDot11CtrlAck)}) LayerTypeDot11CtrlCFEnd = gopacket.RegisterLayerType(89, gopacket.LayerTypeMetadata{Name: "Dot11CtrlCFEnd", Decoder: gopacket.DecodeFunc(decodeDot11CtrlCFEnd)}) LayerTypeDot11CtrlCFEndAck = gopacket.RegisterLayerType(90, gopacket.LayerTypeMetadata{Name: "Dot11CtrlCFEndAck", Decoder: gopacket.DecodeFunc(decodeDot11CtrlCFEndAck)}) LayerTypeDot11MgmtAssociationReq = gopacket.RegisterLayerType(91, gopacket.LayerTypeMetadata{Name: "Dot11MgmtAssociationReq", Decoder: gopacket.DecodeFunc(decodeDot11MgmtAssociationReq)}) LayerTypeDot11MgmtAssociationResp = gopacket.RegisterLayerType(92, gopacket.LayerTypeMetadata{Name: "Dot11MgmtAssociationResp", Decoder: gopacket.DecodeFunc(decodeDot11MgmtAssociationResp)}) LayerTypeDot11MgmtReassociationReq = gopacket.RegisterLayerType(93, gopacket.LayerTypeMetadata{Name: "Dot11MgmtReassociationReq", Decoder: gopacket.DecodeFunc(decodeDot11MgmtReassociationReq)}) LayerTypeDot11MgmtReassociationResp = gopacket.RegisterLayerType(94, gopacket.LayerTypeMetadata{Name: "Dot11MgmtReassociationResp", Decoder: gopacket.DecodeFunc(decodeDot11MgmtReassociationResp)}) LayerTypeDot11MgmtProbeReq = gopacket.RegisterLayerType(95, gopacket.LayerTypeMetadata{Name: "Dot11MgmtProbeReq", Decoder: gopacket.DecodeFunc(decodeDot11MgmtProbeReq)}) LayerTypeDot11MgmtProbeResp = gopacket.RegisterLayerType(96, gopacket.LayerTypeMetadata{Name: "Dot11MgmtProbeResp", Decoder: gopacket.DecodeFunc(decodeDot11MgmtProbeResp)}) LayerTypeDot11MgmtMeasurementPilot = gopacket.RegisterLayerType(97, gopacket.LayerTypeMetadata{Name: "Dot11MgmtMeasurementPilot", Decoder: gopacket.DecodeFunc(decodeDot11MgmtMeasurementPilot)}) LayerTypeDot11MgmtBeacon = gopacket.RegisterLayerType(98, gopacket.LayerTypeMetadata{Name: "Dot11MgmtBeacon", Decoder: gopacket.DecodeFunc(decodeDot11MgmtBeacon)}) LayerTypeDot11MgmtATIM = gopacket.RegisterLayerType(99, gopacket.LayerTypeMetadata{Name: "Dot11MgmtATIM", Decoder: gopacket.DecodeFunc(decodeDot11MgmtATIM)}) LayerTypeDot11MgmtDisassociation = gopacket.RegisterLayerType(100, gopacket.LayerTypeMetadata{Name: "Dot11MgmtDisassociation", Decoder: gopacket.DecodeFunc(decodeDot11MgmtDisassociation)}) LayerTypeDot11MgmtAuthentication = gopacket.RegisterLayerType(101, gopacket.LayerTypeMetadata{Name: "Dot11MgmtAuthentication", Decoder: gopacket.DecodeFunc(decodeDot11MgmtAuthentication)}) LayerTypeDot11MgmtDeauthentication = gopacket.RegisterLayerType(102, gopacket.LayerTypeMetadata{Name: "Dot11MgmtDeauthentication", Decoder: gopacket.DecodeFunc(decodeDot11MgmtDeauthentication)}) LayerTypeDot11MgmtAction = gopacket.RegisterLayerType(103, gopacket.LayerTypeMetadata{Name: "Dot11MgmtAction", Decoder: gopacket.DecodeFunc(decodeDot11MgmtAction)}) LayerTypeDot11MgmtActionNoAck = gopacket.RegisterLayerType(104, gopacket.LayerTypeMetadata{Name: "Dot11MgmtActionNoAck", Decoder: gopacket.DecodeFunc(decodeDot11MgmtActionNoAck)}) LayerTypeDot11MgmtArubaWLAN = gopacket.RegisterLayerType(105, gopacket.LayerTypeMetadata{Name: "Dot11MgmtArubaWLAN", Decoder: gopacket.DecodeFunc(decodeDot11MgmtArubaWLAN)}) LayerTypeDot11WEP = gopacket.RegisterLayerType(106, gopacket.LayerTypeMetadata{Name: "Dot11WEP", Decoder: gopacket.DecodeFunc(decodeDot11WEP)}) LayerTypeDNS = gopacket.RegisterLayerType(107, gopacket.LayerTypeMetadata{Name: "DNS", Decoder: gopacket.DecodeFunc(decodeDNS)}) LayerTypeUSB = gopacket.RegisterLayerType(108, gopacket.LayerTypeMetadata{Name: "USB", Decoder: gopacket.DecodeFunc(decodeUSB)}) LayerTypeUSBRequestBlockSetup = gopacket.RegisterLayerType(109, gopacket.LayerTypeMetadata{Name: "USBRequestBlockSetup", Decoder: gopacket.DecodeFunc(decodeUSBRequestBlockSetup)}) LayerTypeUSBControl = gopacket.RegisterLayerType(110, gopacket.LayerTypeMetadata{Name: "USBControl", Decoder: gopacket.DecodeFunc(decodeUSBControl)}) LayerTypeUSBInterrupt = gopacket.RegisterLayerType(111, gopacket.LayerTypeMetadata{Name: "USBInterrupt", Decoder: gopacket.DecodeFunc(decodeUSBInterrupt)}) LayerTypeUSBBulk = gopacket.RegisterLayerType(112, gopacket.LayerTypeMetadata{Name: "USBBulk", Decoder: gopacket.DecodeFunc(decodeUSBBulk)}) LayerTypeLinuxSLL = gopacket.RegisterLayerType(113, gopacket.LayerTypeMetadata{Name: "Linux SLL", Decoder: gopacket.DecodeFunc(decodeLinuxSLL)}) LayerTypeSFlow = gopacket.RegisterLayerType(114, gopacket.LayerTypeMetadata{Name: "SFlow", Decoder: gopacket.DecodeFunc(decodeSFlow)}) LayerTypePrismHeader = gopacket.RegisterLayerType(115, gopacket.LayerTypeMetadata{Name: "Prism monitor mode header", Decoder: gopacket.DecodeFunc(decodePrismHeader)}) LayerTypeVXLAN = gopacket.RegisterLayerType(116, gopacket.LayerTypeMetadata{Name: "VXLAN", Decoder: gopacket.DecodeFunc(decodeVXLAN)}) LayerTypeNTP = gopacket.RegisterLayerType(117, gopacket.LayerTypeMetadata{Name: "NTP", Decoder: gopacket.DecodeFunc(decodeNTP)}) LayerTypeDHCPv4 = gopacket.RegisterLayerType(118, gopacket.LayerTypeMetadata{Name: "DHCPv4", Decoder: gopacket.DecodeFunc(decodeDHCPv4)}) LayerTypeVRRP = gopacket.RegisterLayerType(119, gopacket.LayerTypeMetadata{Name: "VRRP", Decoder: gopacket.DecodeFunc(decodeVRRP)}) LayerTypeGeneve = gopacket.RegisterLayerType(120, gopacket.LayerTypeMetadata{Name: "Geneve", Decoder: gopacket.DecodeFunc(decodeGeneve)}) LayerTypeSTP = gopacket.RegisterLayerType(121, gopacket.LayerTypeMetadata{Name: "STP", Decoder: gopacket.DecodeFunc(decodeSTP)}) LayerTypeBFD = gopacket.RegisterLayerType(122, gopacket.LayerTypeMetadata{Name: "BFD", Decoder: gopacket.DecodeFunc(decodeBFD)}) LayerTypeOSPF = gopacket.RegisterLayerType(123, gopacket.LayerTypeMetadata{Name: "OSPF", Decoder: gopacket.DecodeFunc(decodeOSPF)}) LayerTypeICMPv6RouterSolicitation = gopacket.RegisterLayerType(124, gopacket.LayerTypeMetadata{Name: "ICMPv6RouterSolicitation", Decoder: gopacket.DecodeFunc(decodeICMPv6RouterSolicitation)}) LayerTypeICMPv6RouterAdvertisement = gopacket.RegisterLayerType(125, gopacket.LayerTypeMetadata{Name: "ICMPv6RouterAdvertisement", Decoder: gopacket.DecodeFunc(decodeICMPv6RouterAdvertisement)}) LayerTypeICMPv6NeighborSolicitation = gopacket.RegisterLayerType(126, gopacket.LayerTypeMetadata{Name: "ICMPv6NeighborSolicitation", Decoder: gopacket.DecodeFunc(decodeICMPv6NeighborSolicitation)}) LayerTypeICMPv6NeighborAdvertisement = gopacket.RegisterLayerType(127, gopacket.LayerTypeMetadata{Name: "ICMPv6NeighborAdvertisement", Decoder: gopacket.DecodeFunc(decodeICMPv6NeighborAdvertisement)}) LayerTypeICMPv6Redirect = gopacket.RegisterLayerType(128, gopacket.LayerTypeMetadata{Name: "ICMPv6Redirect", Decoder: gopacket.DecodeFunc(decodeICMPv6Redirect)}) LayerTypeGTPv1U = gopacket.RegisterLayerType(129, gopacket.LayerTypeMetadata{Name: "GTPv1U", Decoder: gopacket.DecodeFunc(decodeGTPv1u)}) LayerTypeEAPOLKey = gopacket.RegisterLayerType(130, gopacket.LayerTypeMetadata{Name: "EAPOLKey", Decoder: gopacket.DecodeFunc(decodeEAPOLKey)}) LayerTypeLCM = gopacket.RegisterLayerType(131, gopacket.LayerTypeMetadata{Name: "LCM", Decoder: gopacket.DecodeFunc(decodeLCM)}) LayerTypeICMPv6Echo = gopacket.RegisterLayerType(132, gopacket.LayerTypeMetadata{Name: "ICMPv6Echo", Decoder: gopacket.DecodeFunc(decodeICMPv6Echo)}) LayerTypeSIP = gopacket.RegisterLayerType(133, gopacket.LayerTypeMetadata{Name: "SIP", Decoder: gopacket.DecodeFunc(decodeSIP)}) LayerTypeDHCPv6 = gopacket.RegisterLayerType(134, gopacket.LayerTypeMetadata{Name: "DHCPv6", Decoder: gopacket.DecodeFunc(decodeDHCPv6)}) LayerTypeMLDv1MulticastListenerReport = gopacket.RegisterLayerType(135, gopacket.LayerTypeMetadata{Name: "MLDv1MulticastListenerReport", Decoder: gopacket.DecodeFunc(decodeMLDv1MulticastListenerReport)}) LayerTypeMLDv1MulticastListenerDone = gopacket.RegisterLayerType(136, gopacket.LayerTypeMetadata{Name: "MLDv1MulticastListenerDone", Decoder: gopacket.DecodeFunc(decodeMLDv1MulticastListenerDone)}) LayerTypeMLDv1MulticastListenerQuery = gopacket.RegisterLayerType(137, gopacket.LayerTypeMetadata{Name: "MLDv1MulticastListenerQuery", Decoder: gopacket.DecodeFunc(decodeMLDv1MulticastListenerQuery)}) LayerTypeMLDv2MulticastListenerReport = gopacket.RegisterLayerType(138, gopacket.LayerTypeMetadata{Name: "MLDv2MulticastListenerReport", Decoder: gopacket.DecodeFunc(decodeMLDv2MulticastListenerReport)}) LayerTypeMLDv2MulticastListenerQuery = gopacket.RegisterLayerType(139, gopacket.LayerTypeMetadata{Name: "MLDv2MulticastListenerQuery", Decoder: gopacket.DecodeFunc(decodeMLDv2MulticastListenerQuery)}) LayerTypeTLS = gopacket.RegisterLayerType(140, gopacket.LayerTypeMetadata{Name: "TLS", Decoder: gopacket.DecodeFunc(decodeTLS)}) LayerTypeModbusTCP = gopacket.RegisterLayerType(141, gopacket.LayerTypeMetadata{Name: "ModbusTCP", Decoder: gopacket.DecodeFunc(decodeModbusTCP)}) LayerTypeRMCP = gopacket.RegisterLayerType(142, gopacket.LayerTypeMetadata{Name: "RMCP", Decoder: gopacket.DecodeFunc(decodeRMCP)}) LayerTypeASF = gopacket.RegisterLayerType(143, gopacket.LayerTypeMetadata{Name: "ASF", Decoder: gopacket.DecodeFunc(decodeASF)}) LayerTypeASFPresencePong = gopacket.RegisterLayerType(144, gopacket.LayerTypeMetadata{Name: "ASFPresencePong", Decoder: gopacket.DecodeFunc(decodeASFPresencePong)}) LayerTypeERSPANII = gopacket.RegisterLayerType(145, gopacket.LayerTypeMetadata{Name: "ERSPAN Type II", Decoder: gopacket.DecodeFunc(decodeERSPANII)}) LayerTypeRADIUS = gopacket.RegisterLayerType(146, gopacket.LayerTypeMetadata{Name: "RADIUS", Decoder: gopacket.DecodeFunc(decodeRADIUS)}) )
var ( // LayerClassIPNetwork contains TCP/IP network layer types. LayerClassIPNetwork = gopacket.NewLayerClass([]gopacket.LayerType{ LayerTypeIPv4, LayerTypeIPv6, }) // LayerClassIPTransport contains TCP/IP transport layer types. LayerClassIPTransport = gopacket.NewLayerClass([]gopacket.LayerType{ LayerTypeTCP, LayerTypeUDP, LayerTypeSCTP, }) // LayerClassIPControl contains TCP/IP control protocols. LayerClassIPControl = gopacket.NewLayerClass([]gopacket.LayerType{ LayerTypeICMPv4, LayerTypeICMPv6, }) // LayerClassSCTPChunk contains SCTP chunk types (not the top-level SCTP // layer). LayerClassSCTPChunk = gopacket.NewLayerClass([]gopacket.LayerType{ LayerTypeSCTPUnknownChunkType, LayerTypeSCTPData, LayerTypeSCTPInit, LayerTypeSCTPSack, LayerTypeSCTPHeartbeat, LayerTypeSCTPError, LayerTypeSCTPShutdown, LayerTypeSCTPShutdownAck, LayerTypeSCTPCookieEcho, LayerTypeSCTPEmptyLayer, LayerTypeSCTPInitAck, LayerTypeSCTPHeartbeatAck, LayerTypeSCTPAbort, LayerTypeSCTPShutdownComplete, LayerTypeSCTPCookieAck, }) // LayerClassIPv6Extension contains IPv6 extension headers. LayerClassIPv6Extension = gopacket.NewLayerClass([]gopacket.LayerType{ LayerTypeIPv6HopByHop, LayerTypeIPv6Routing, LayerTypeIPv6Fragment, LayerTypeIPv6Destination, }) LayerClassIPSec = gopacket.NewLayerClass([]gopacket.LayerType{ LayerTypeIPSecAH, LayerTypeIPSecESP, }) // LayerClassICMPv6NDP contains ICMPv6 neighbor discovery protocol // messages. LayerClassICMPv6NDP = gopacket.NewLayerClass([]gopacket.LayerType{ LayerTypeICMPv6RouterSolicitation, LayerTypeICMPv6RouterAdvertisement, LayerTypeICMPv6NeighborSolicitation, LayerTypeICMPv6NeighborAdvertisement, LayerTypeICMPv6Redirect, }) // LayerClassMLDv1 contains multicast listener discovery protocol LayerClassMLDv1 = gopacket.NewLayerClass([]gopacket.LayerType{ LayerTypeMLDv1MulticastListenerQuery, LayerTypeMLDv1MulticastListenerReport, LayerTypeMLDv1MulticastListenerDone, }) // LayerClassMLDv2 contains multicast listener discovery protocol v2 LayerClassMLDv2 = gopacket.NewLayerClass([]gopacket.LayerType{ LayerTypeMLDv1MulticastListenerReport, LayerTypeMLDv1MulticastListenerDone, LayerTypeMLDv2MulticastListenerReport, LayerTypeMLDv1MulticastListenerQuery, LayerTypeMLDv2MulticastListenerQuery, }) )
var DHCPMagic uint32 = 0x63825363
DHCPMagic is the RFC 2131 "magic cooke" for DHCP.
var Dot11TypeMetadata [256]EnumMetadata
var EAPOLTypeMetadata [256]EnumMetadata
var ErrPrismExpectedMoreData = errors.New("Expected more data.")
var ErrPrismInvalidCode = errors.New("Invalid header code.")
var EthernetBroadcast = net.HardwareAddr{0xff, 0xff, 0xff, 0xff, 0xff, 0xff}
EthernetBroadcast is the broadcast MAC address used by Ethernet.
var EthernetTypeMetadata [65536]EnumMetadata
var FDDIFrameControlMetadata [256]EnumMetadata
var IPProtocolMetadata [256]EnumMetadata
var LinkTypeMetadata [256]EnumMetadata
var MPLSPayloadDecoder gopacket.Decoder = ProtocolGuessingDecoder{}
MPLSPayloadDecoder is the decoder used to data encapsulated by each MPLS layer. MPLS contains no type information, so we have to explicitly decide which decoder to use. This is initially set to ProtocolGuessingDecoder, our simple attempt at guessing protocols based on the first few bytes of data available to us. However, if you know that in your environment MPLS always encapsulates a specific protocol, you may reset this.
var PPPEndpoint = gopacket.NewEndpoint(EndpointPPP, nil)
PPPEndpoint is a singleton endpoint for PPP. Since there is no actual addressing for the two ends of a PPP connection, we use a singleton value named 'point' for each endpoint.
var PPPFlow = gopacket.NewFlow(EndpointPPP, nil, nil)
PPPFlow is a singleton flow for PPP. Since there is no actual addressing for the two ends of a PPP connection, we use a singleton value to represent the flow for all PPP connections.
var PPPTypeMetadata [65536]EnumMetadata
var PPPoECodeMetadata [256]EnumMetadata
var ProtocolFamilyMetadata [256]EnumMetadata
var RUDPPortNames = map[RUDPPort]string{}
RUDPPortNames contains the string names for all RUDP ports.
var SCTPChunkTypeMetadata [256]EnumMetadata
var SCTPPortNames = sctpPortNames
SCTPPortNames contains the port names for all SCTP ports.
var TCPPortNames = tcpPortNames
TCPPortNames contains the port names for all TCP ports.
var UDPLitePortNames = map[UDPLitePort]string{}
UDPLitePortNames contains the string names for all UDPLite ports.
var UDPPortNames = udpPortNames
UDPPortNames contains the port names for all UDP ports.
var USBTransportTypeMetadata [256]EnumMetadata
Functions ¶
func FuzzLayer ¶
FuzzLayer is a fuzz target for the layers package of gopacket A fuzz target is a function processing a binary blob (byte slice) The process here is to interpret this data as a packet, and print the layers contents. The decoding options and the starting layer are encoded in the first bytes. The function returns 1 if this is a valid packet (no error layer)
func GetLCMLayerType ¶
func GetLCMLayerType(fingerprint LCMFingerprint) gopacket.LayerType
GetLCMLayerType returns the underlying LCM message's LayerType. This LayerType has to be registered by using RegisterLCMLayerType.
func NewIPEndpoint ¶
NewIPEndpoint creates a new IP (v4 or v6) endpoint from a net.IP address. It returns gopacket.InvalidEndpoint if the IP address is invalid.
func NewMACEndpoint ¶
func NewMACEndpoint(a net.HardwareAddr) gopacket.Endpoint
NewMACEndpoint returns a new MAC address endpoint.
func NewRUDPPortEndpoint ¶
NewRUDPPortEndpoint returns an endpoint based on a RUDP port.
func NewSCTPPortEndpoint ¶
NewSCTPPortEndpoint returns an endpoint based on a SCTP port.
func NewTCPPortEndpoint ¶
NewTCPPortEndpoint returns an endpoint based on a TCP port.
func NewUDPLitePortEndpoint ¶
func NewUDPLitePortEndpoint(p UDPLitePort) gopacket.Endpoint
NewUDPLitePortEndpoint returns an endpoint based on a UDPLite port.
func NewUDPPortEndpoint ¶
NewUDPPortEndpoint returns an endpoint based on a UDP port.
func RegisterASFLayerType ¶
func RegisterASFLayerType(a ASFDataIdentifier, l gopacket.LayerType)
RegisterASFLayerType allows specifying that the data block of ASF packets with a given enterprise number and type should be processed by a given layer type. This overrides any existing registrations, including defaults.
func RegisterLCMLayerType ¶
func RegisterLCMLayerType(num int, name string, fingerprint LCMFingerprint, decoder gopacket.Decoder) gopacket.LayerType
RegisterLCMLayerType allows users to register decoders for the underlying LCM payload. This is done based on the fingerprint that every LCM message contains and which identifies it uniquely. If num is not the zero value it will be used when registering with RegisterLayerType towards gopacket, otherwise an incremental value starting from 1001 will be used.
func RegisterRMCPLayerType ¶
RegisterRMCPLayerType allows specifying that the payload of a RMCP packet of a certain class should processed by the provided layer type. This overrides any existing registrations, including defaults.
func RegisterTCPPortLayerType ¶
RegisterTCPPortLayerType creates a new mapping between a TCPPort and an underlaying LayerType.
func RegisterUDPPortLayerType ¶
RegisterUDPPortLayerType creates a new mapping between a UDPPort and an underlaying LayerType.
Types ¶
type ARP ¶
type ARP struct { BaseLayer AddrType LinkType Protocol EthernetType HwAddressSize uint8 ProtAddressSize uint8 Operation uint16 SourceHwAddress []byte SourceProtAddress []byte DstHwAddress []byte DstProtAddress []byte }
ARP is a ARP packet header.
func (*ARP) CanDecode ¶
func (arp *ARP) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*ARP) DecodeFromBytes ¶
func (arp *ARP) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*ARP) NextLayerType ¶
NextLayerType returns the layer type contained by this DecodingLayer.
func (*ARP) SerializeTo ¶
func (arp *ARP) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type ASExternalLSA ¶
type ASExternalLSA struct { Flags uint8 Metric uint32 PrefixLength uint8 PrefixOptions uint8 RefLSType uint16 AddressPrefix []byte ForwardingAddress []byte ExternalRouteTag uint32 RefLinkStateID uint32 }
ASExternalLSA is the struct from RFC 5340 A.4.7.
type ASExternalLSAV2 ¶
type ASExternalLSAV2 struct { NetworkMask uint32 ExternalBit uint8 Metric uint32 ForwardingAddress uint32 ExternalRouteTag uint32 }
ASExternalLSAV2 is the struct from RFC 2328 A.4.5.
type ASF ¶
type ASF struct { BaseLayer ASFDataIdentifier // Tag is used to match request/response pairs. The tag of a response is set // to that of the message it is responding to. If a message is // unidirectional, i.e. not part of a request/response pair, this is set to // 255. Tag uint8 // Length is the length of this layer's payload in bytes. Length uint8 }
ASF defines ASF's generic RMCP message Data block format. See section 3.2.2.3.
func (*ASF) CanDecode ¶
func (a *ASF) CanDecode() gopacket.LayerClass
CanDecode returns LayerTypeASF. It partially satisfies DecodingLayer.
func (*ASF) DecodeFromBytes ¶
func (a *ASF) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes makes the layer represent the provided bytes. It partially satisfies DecodingLayer.
func (*ASF) LayerType ¶
LayerType returns LayerTypeASF. It partially satisfies Layer and SerializableLayer.
func (*ASF) NextLayerType ¶
NextLayerType returns the layer type corresponding to the message type of this ASF data layer. This partially satisfies DecodingLayer.
func (*ASF) SerializeTo ¶
func (a *ASF) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized fom of this layer into the SerializeBuffer, partially satisfying SerializableLayer.
type ASFDataIdentifier ¶
type ASFDataIdentifier struct { // Enterprise is the IANA Enterprise Number associated with the entity that // defines the message type. A list can be found at // https://www.iana.org/assignments/enterprise-numbers/enterprise-numbers. // This can be thought of as the namespace for the message type. Enterprise uint32 // Type is the message type, defined by the entity associated with the // enterprise above. No pressure, but in the context of EN 4542, 1 byte is // the difference between sending a ping and telling a machine to do an // unconditional power down (0x80 and 0x12 respectively). Type uint8 }
ASFDataIdentifier encapsulates fields used to uniquely identify the format of the data block.
While the enterprise number is almost always 4542 (ASF-RMCP), we support registering layers using structs of this type as a key in case any users are using OEM-extensions.
func (ASFDataIdentifier) LayerType ¶
func (a ASFDataIdentifier) LayerType() gopacket.LayerType
LayerType returns the payload layer type corresponding to an ASF message type.
type ASFEntity ¶
type ASFEntity uint8
ASFEntity is the type of individual entities that a Presence Pong response can indicate support of. The entities currently implemented by the spec are IPMI and ASFv1.
type ASFInteraction ¶
type ASFInteraction uint8
ASFInteraction is the type of individual interactions that a Presence Pong response can indicate support for. The interactions currently implemented by the spec are RMCP security extensions. Although not specified, IPMI uses this field to indicate support for DASH, which is supported as well.
type ASFPresencePong ¶
type ASFPresencePong struct { BaseLayer // Enterprise is the IANA Enterprise Number of an entity that has defined // OEM-specific capabilities for the managed client. If no such capabilities // exist, this is set to ASF's IANA Enterprise Number. Enterprise uint32 // OEM identifies OEM-specific capabilities. Its structure is defined by the // OEM. This is set to 0s if no OEM-specific capabilities exist. This // implementation does not change byte order from the wire for this field. OEM [4]byte // IPMI is true if IPMI is supported by the managed system. There is no // explicit version in the specification, however given the dates, this is // assumed to be IPMI v1.0. Support for IPMI is contained in the "supported // entities" field of the presence pong payload. IPMI bool // ASFv1 indicates support for ASF v1.0. This seems somewhat redundant as // ASF must be supported in order to receive a response. This is contained // in the "supported entities" field of the presence pong payload. ASFv1 bool // SecurityExtensions indicates support for RMCP Security Extensions, // specified in ASF v2.0. This will always be false for v1.x // implementations. This is contained in the "supported interactions" field // of the presence pong payload. This field is defined in ASF v1.0, but has // no useful value. SecurityExtensions bool // DASH is true if DMTF DASH is supported. This is not specified in ASF // v2.0, but in IPMI v2.0, however the former does not preclude it, so we // support it. DASH bool }
ASFPresencePong defines the structure of a Presence Pong message's payload. See section 3.2.4.3.
func (*ASFPresencePong) CanDecode ¶
func (a *ASFPresencePong) CanDecode() gopacket.LayerClass
CanDecode returns LayerTypeASFPresencePong. It partially satisfies DecodingLayer.
func (*ASFPresencePong) DecodeFromBytes ¶
func (a *ASFPresencePong) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes makes the layer represent the provided bytes. It partially satisfies DecodingLayer.
func (*ASFPresencePong) LayerType ¶
func (*ASFPresencePong) LayerType() gopacket.LayerType
LayerType returns LayerTypeASFPresencePong. It partially satisfies Layer and SerializableLayer.
func (*ASFPresencePong) NextLayerType ¶
func (a *ASFPresencePong) NextLayerType() gopacket.LayerType
NextLayerType returns LayerTypePayload, as there are no further layers to decode. This partially satisfies DecodingLayer.
func (*ASFPresencePong) SerializeTo ¶
func (a *ASFPresencePong) SerializeTo(b gopacket.SerializeBuffer, _ gopacket.SerializeOptions) error
SerializeTo writes the serialized fom of this layer into the SerializeBuffer, partially satisfying SerializableLayer.
func (*ASFPresencePong) SupportsDCMI ¶
func (a *ASFPresencePong) SupportsDCMI() bool
SupportsDCMI returns whether the Presence Pong message indicates support for the Data Center Management Interface, which is an extension of IPMI v2.0.
type BFD ¶
type BFD struct { BaseLayer // Stores the packet bytes and payload bytes. Version BFDVersion // Version of the BFD protocol. Diagnostic BFDDiagnostic // Diagnostic code for last state change State BFDState // Current state Poll bool // Requesting verification Final bool // Responding to a received BFD Control packet that had the Poll (P) bit set. ControlPlaneIndependent bool // BFD implementation does not share fate with its control plane AuthPresent bool // Authentication Section is present and the session is to be authenticated Demand bool // Demand mode is active Multipoint bool // For future point-to-multipoint extensions. Must always be zero DetectMultiplier BFDDetectMultiplier // Detection time multiplier MyDiscriminator BFDDiscriminator // A unique, nonzero discriminator value YourDiscriminator BFDDiscriminator // discriminator received from the remote system. DesiredMinTxInterval BFDTimeInterval // Minimum interval, in microseconds, the local system would like to use when transmitting BFD Control packets RequiredMinRxInterval BFDTimeInterval // Minimum interval, in microseconds, between received BFD Control packets that this system is capable of supporting RequiredMinEchoRxInterval BFDTimeInterval // Minimum interval, in microseconds, between received BFD Echo packets that this system is capable of supporting AuthHeader *BFDAuthHeader // Authentication data, variable length. }
BFD represents a BFD control message packet whose payload contains the control information required to for a BFD session.
References ----------
Wikipedia's BFD entry:
https://en.wikipedia.org/wiki/Bidirectional_Forwarding_Detection This is the best place to get an overview of BFD.
RFC 5880 "Bidirectional Forwarding Detection (BFD)" (2010)
https://tools.ietf.org/html/rfc5880 This is the original BFD specification.
RFC 5881 "Bidirectional Forwarding Detection (BFD) for IPv4 and IPv6 (Single Hop)" (2010)
https://tools.ietf.org/html/rfc5881 Describes the use of the Bidirectional Forwarding Detection (BFD) protocol over IPv4 and IPv6 for single IP hops.
func (*BFD) CanDecode ¶
func (d *BFD) CanDecode() gopacket.LayerClass
CanDecode returns a set of layers that BFD objects can decode. As BFD objects can only decide the BFD layer, we can return just that layer. Apparently a single layer type implements LayerClass.
func (*BFD) DecodeFromBytes ¶
func (d *BFD) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes analyses a byte slice and attempts to decode it as a BFD control packet.
Upon succeeds, it loads the BFD object with information about the packet and returns nil. Upon failure, it returns an error (non nil).
func (*BFD) Length ¶
Length returns the data length of a BFD Control message which changes based on the presence and type of authentication contained in the message
func (*BFD) NextLayerType ¶
NextLayerType specifies the next layer that GoPacket should attempt to analyse after this (BFD) layer. As BFD packets do not contain any payload bytes, there are no further layers to analyse.
func (*BFD) SerializeTo ¶
func (d *BFD) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type BFDAuthHeader ¶
type BFDAuthHeader struct { AuthType BFDAuthType KeyID BFDAuthKeyID SequenceNumber BFDAuthSequenceNumber Data BFDAuthData }
BFDAuthHeader represents authentication data used in the BFD session
func (*BFDAuthHeader) Length ¶
func (h *BFDAuthHeader) Length() int
Length returns the data length of the BFDAuthHeader based on the authentication type
type BFDAuthKeyID ¶
type BFDAuthKeyID uint8
BFDAuthKeyID represents the authentication key ID in use for this packet. This allows multiple keys to be active simultaneously.
type BFDAuthSequenceNumber ¶
type BFDAuthSequenceNumber uint32
BFDAuthSequenceNumber represents the sequence number for this packet. For Keyed Authentication, this value is incremented occasionally. For Meticulous Keyed Authentication, this value is incremented for each successive packet transmitted for a session. This provides protection against replay attacks.
type BFDAuthType ¶
type BFDAuthType uint8
BFDAuthType represents the authentication used in the BFD session
const ( BFDAuthTypeNone BFDAuthType = 0 // No Auth BFDAuthTypePassword BFDAuthType = 1 // Simple Password BFDAuthTypeKeyedMD5 BFDAuthType = 2 // Keyed MD5 BFDAuthTypeMeticulousKeyedMD5 BFDAuthType = 3 // Meticulous Keyed MD5 BFDAuthTypeKeyedSHA1 BFDAuthType = 4 // Keyed SHA1 BFDAuthTypeMeticulousKeyedSHA1 BFDAuthType = 5 // Meticulous Keyed SHA1 )
constants that define the BFDAuthType
func (BFDAuthType) String ¶
func (at BFDAuthType) String() string
String returns a string version of BFDAuthType
type BFDDetectMultiplier ¶
type BFDDetectMultiplier uint8
BFDDetectMultiplier represents the negotiated transmit interval, multiplied by this value, provides the Detection Time for the receiving system in Asynchronous mode.
type BFDDiagnostic ¶
type BFDDiagnostic uint8
BFDDiagnostic represents diagnostic infomation about a BFD session
const ( BFDDiagnosticNone BFDDiagnostic = 0 // No Diagnostic BFDDiagnosticTimeExpired BFDDiagnostic = 1 // Control Detection Time Expired BFDDiagnosticEchoFailed BFDDiagnostic = 2 // Echo Function Failed BFDDiagnosticNeighborSignalDown BFDDiagnostic = 3 // Neighbor Signaled Session Down BFDDiagnosticForwardPlaneReset BFDDiagnostic = 4 // Forwarding Plane Reset BFDDiagnosticPathDown BFDDiagnostic = 5 // Path Down BFDDiagnosticConcatPathDown BFDDiagnostic = 6 // Concatenated Path Down BFDDiagnosticAdminDown BFDDiagnostic = 7 // Administratively Down BFDDiagnosticRevConcatPathDown BFDDiagnostic = 8 // Reverse Concatenated Path Dow )
constants that define BFDDiagnostic flags
func (BFDDiagnostic) String ¶
func (bd BFDDiagnostic) String() string
String returns a string version of BFDDiagnostic
type BFDDiscriminator ¶
type BFDDiscriminator uint32
BFDDiscriminator is a unique, nonzero discriminator value used to demultiplex multiple BFD sessions between the same pair of systems.
type BFDState ¶
type BFDState uint8
BFDState represents the state of a BFD session
type BFDTimeInterval ¶
type BFDTimeInterval uint32
BFDTimeInterval represents a time interval in microseconds
type BFDVersion ¶
type BFDVersion uint8
BFDVersion represents the version as decoded from the BFD control message
type BaseLayer ¶
type BaseLayer struct { // Contents is the set of bytes that make up this layer. IE: for an // Ethernet packet, this would be the set of bytes making up the // Ethernet frame. Contents []byte // Payload is the set of bytes contained by (but not part of) this // Layer. Again, to take Ethernet as an example, this would be the // set of bytes encapsulated by the Ethernet protocol. Payload []byte }
BaseLayer is a convenience struct which implements the LayerData and LayerPayload functions of the Layer interface.
func (*BaseLayer) LayerContents ¶
LayerContents returns the bytes of the packet layer.
func (*BaseLayer) LayerPayload ¶
LayerPayload returns the bytes contained within the packet layer.
type CDPAddressType ¶
type CDPAddressType uint64
CDPAddressType is used to define TLV values within CDP addresses.
const ( CDPAddressTypeCLNP CDPAddressType = 0x81 CDPAddressTypeIPV4 CDPAddressType = 0xcc CDPAddressTypeIPV6 CDPAddressType = 0xaaaa030000000800 CDPAddressTypeDECNET CDPAddressType = 0xaaaa030000006003 CDPAddressTypeAPPLETALK CDPAddressType = 0xaaaa03000000809b CDPAddressTypeIPX CDPAddressType = 0xaaaa030000008137 CDPAddressTypeVINES CDPAddressType = 0xaaaa0300000080c4 CDPAddressTypeXNS CDPAddressType = 0xaaaa030000000600 CDPAddressTypeAPOLLO CDPAddressType = 0xaaaa030000008019 )
CDP Address types.
func (CDPAddressType) String ¶
func (a CDPAddressType) String() (s string)
type CDPCapabilities ¶
type CDPCapabilities struct { L3Router bool TBBridge bool SPBridge bool L2Switch bool IsHost bool IGMPFilter bool L1Repeater bool IsPhone bool RemotelyManaged bool }
CDPCapabilities represents the capabilities of a device
type CDPCapability ¶
type CDPCapability uint32
CDPCapability is the set of capabilities advertised by a CDP device.
const ( CDPCapMaskRouter CDPCapability = 0x0001 CDPCapMaskTBBridge CDPCapability = 0x0002 CDPCapMaskSPBridge CDPCapability = 0x0004 CDPCapMaskSwitch CDPCapability = 0x0008 CDPCapMaskHost CDPCapability = 0x0010 CDPCapMaskIGMPFilter CDPCapability = 0x0020 CDPCapMaskRepeater CDPCapability = 0x0040 CDPCapMaskPhone CDPCapability = 0x0080 CDPCapMaskRemote CDPCapability = 0x0100 )
CDPCapability values.
type CDPEnergyWise ¶
type CDPEnergyWise struct { EncryptedData []byte Unknown1 uint32 SequenceNumber uint32 ModelNumber string Unknown2 uint16 HardwareID string SerialNum string Unknown3 []byte Role string Domain string Name string ReplyUnknown1 []byte ReplyPort []byte ReplyAddress []byte ReplyUnknown2 []byte ReplyUnknown3 []byte }
CDPEnergyWise is used by CDP to monitor and control power usage.
type CDPEnergyWiseSubtype ¶
type CDPEnergyWiseSubtype uint32
CDPEnergyWiseSubtype is used within CDP to define TLV values.
const ( CDPEnergyWiseRole CDPEnergyWiseSubtype = 0x00000007 CDPEnergyWiseDomain CDPEnergyWiseSubtype = 0x00000008 CDPEnergyWiseName CDPEnergyWiseSubtype = 0x00000009 CDPEnergyWiseReplyTo CDPEnergyWiseSubtype = 0x00000017 )
CDPEnergyWiseSubtype values.
func (CDPEnergyWiseSubtype) String ¶
func (t CDPEnergyWiseSubtype) String() (s string)
type CDPHello ¶
type CDPHello struct { OUI []byte ProtocolID uint16 ClusterMaster net.IP Unknown1 net.IP Version byte SubVersion byte Status byte Unknown2 byte ClusterCommander net.HardwareAddr SwitchMAC net.HardwareAddr Unknown3 byte ManagementVLAN uint16 }
CDPHello is a Cisco Hello message (undocumented, hence the "Unknown" fields)
type CDPLocation ¶
CDPLocation provides location information for a CDP device.
type CDPPowerDialogue ¶
CDPPowerDialogue encapsulates a Power Query/Reply
type CDPSparePairPoE ¶
type CDPSparePairPoE struct { PSEFourWire bool // Supported / Not supported PDRequestOn bool // On / Off PSEOn bool // On / Off }
CDPSparePairPoE provides information on PoE.
type CDPTLVType ¶
type CDPTLVType uint16
CDPTLVType is the type of each TLV value in a CiscoDiscovery packet.
const ( CDPTLVDevID CDPTLVType = 0x0001 CDPTLVAddress CDPTLVType = 0x0002 CDPTLVPortID CDPTLVType = 0x0003 CDPTLVCapabilities CDPTLVType = 0x0004 CDPTLVVersion CDPTLVType = 0x0005 CDPTLVPlatform CDPTLVType = 0x0006 CDPTLVIPPrefix CDPTLVType = 0x0007 CDPTLVHello CDPTLVType = 0x0008 CDPTLVVTPDomain CDPTLVType = 0x0009 CDPTLVNativeVLAN CDPTLVType = 0x000a CDPTLVFullDuplex CDPTLVType = 0x000b CDPTLVVLANReply CDPTLVType = 0x000e CDPTLVVLANQuery CDPTLVType = 0x000f CDPTLVPower CDPTLVType = 0x0010 CDPTLVMTU CDPTLVType = 0x0011 CDPTLVExtendedTrust CDPTLVType = 0x0012 CDPTLVUntrustedCOS CDPTLVType = 0x0013 CDPTLVSysName CDPTLVType = 0x0014 CDPTLVSysOID CDPTLVType = 0x0015 CDPTLVMgmtAddresses CDPTLVType = 0x0016 CDPTLVLocation CDPTLVType = 0x0017 CDPTLVExternalPortID CDPTLVType = 0x0018 CDPTLVPowerRequested CDPTLVType = 0x0019 CDPTLVPowerAvailable CDPTLVType = 0x001a CDPTLVPortUnidirectional CDPTLVType = 0x001b CDPTLVEnergyWise CDPTLVType = 0x001d CDPTLVSparePairPOE CDPTLVType = 0x001f )
CDPTLVType values.
func (CDPTLVType) String ¶
func (t CDPTLVType) String() (s string)
type CDPVLANDialogue ¶
CDPVLANDialogue encapsulates a VLAN Query/Reply
type CiscoDiscovery ¶
type CiscoDiscovery struct { BaseLayer Version byte TTL byte Checksum uint16 Values []CiscoDiscoveryValue }
CiscoDiscovery is a packet layer containing the Cisco Discovery Protocol. See http://www.cisco.com/univercd/cc/td/doc/product/lan/trsrb/frames.htm#31885
func (*CiscoDiscovery) LayerType ¶
func (c *CiscoDiscovery) LayerType() gopacket.LayerType
LayerType returns gopacket.LayerTypeCiscoDiscovery.
type CiscoDiscoveryInfo ¶
type CiscoDiscoveryInfo struct { BaseLayer CDPHello DeviceID string Addresses []net.IP PortID string Capabilities CDPCapabilities Version string Platform string IPPrefixes []net.IPNet VTPDomain string NativeVLAN uint16 FullDuplex bool VLANReply CDPVLANDialogue VLANQuery CDPVLANDialogue PowerConsumption uint16 MTU uint32 ExtendedTrust uint8 UntrustedCOS uint8 SysName string SysOID string MgmtAddresses []net.IP Location CDPLocation PowerRequest CDPPowerDialogue PowerAvailable CDPPowerDialogue SparePairPoe CDPSparePairPoE EnergyWise CDPEnergyWise Unknown []CiscoDiscoveryValue }
CiscoDiscoveryInfo represents the decoded details for a set of CiscoDiscoveryValues
func (*CiscoDiscoveryInfo) LayerType ¶
func (c *CiscoDiscoveryInfo) LayerType() gopacket.LayerType
LayerType returns gopacket.LayerTypeCiscoDiscoveryInfo.
type CiscoDiscoveryValue ¶
type CiscoDiscoveryValue struct { Type CDPTLVType Length uint16 Value []byte }
CiscoDiscoveryValue is a TLV value inside a CiscoDiscovery packet layer.
type DHCPMsgType ¶
type DHCPMsgType byte
DHCPMsgType represents a DHCP operation
const ( DHCPMsgTypeUnspecified DHCPMsgType = iota DHCPMsgTypeDiscover DHCPMsgTypeOffer DHCPMsgTypeRequest DHCPMsgTypeDecline DHCPMsgTypeAck DHCPMsgTypeNak DHCPMsgTypeRelease DHCPMsgTypeInform )
Constants that represent DHCP operations
func (DHCPMsgType) String ¶
func (o DHCPMsgType) String() string
String returns a string version of a DHCPMsgType.
type DHCPOpt ¶
type DHCPOpt byte
DHCPOpt represents a DHCP option or parameter from RFC-2132
const ( DHCPOptPad DHCPOpt = 0 DHCPOptSubnetMask DHCPOpt = 1 // 4, net.IP DHCPOptTimeOffset DHCPOpt = 2 // 4, int32 (signed seconds from UTC) DHCPOptRouter DHCPOpt = 3 // n*4, [n]net.IP DHCPOptTimeServer DHCPOpt = 4 // n*4, [n]net.IP DHCPOptNameServer DHCPOpt = 5 // n*4, [n]net.IP DHCPOptDNS DHCPOpt = 6 // n*4, [n]net.IP DHCPOptLogServer DHCPOpt = 7 // n*4, [n]net.IP DHCPOptCookieServer DHCPOpt = 8 // n*4, [n]net.IP DHCPOptLPRServer DHCPOpt = 9 // n*4, [n]net.IP DHCPOptImpressServer DHCPOpt = 10 // n*4, [n]net.IP DHCPOptResLocServer DHCPOpt = 11 // n*4, [n]net.IP DHCPOptHostname DHCPOpt = 12 // n, string DHCPOptBootfileSize DHCPOpt = 13 // 2, uint16 DHCPOptMeritDumpFile DHCPOpt = 14 // >1, string DHCPOptDomainName DHCPOpt = 15 // n, string DHCPOptSwapServer DHCPOpt = 16 // n*4, [n]net.IP DHCPOptRootPath DHCPOpt = 17 // n, string DHCPOptExtensionsPath DHCPOpt = 18 // n, string DHCPOptIPForwarding DHCPOpt = 19 // 1, bool DHCPOptSourceRouting DHCPOpt = 20 // 1, bool DHCPOptPolicyFilter DHCPOpt = 21 // 8*n, [n]{net.IP/net.IP} DHCPOptDatagramMTU DHCPOpt = 22 // 2, uint16 DHCPOptDefaultTTL DHCPOpt = 23 // 1, byte DHCPOptPathMTUAgingTimeout DHCPOpt = 24 // 4, uint32 DHCPOptPathPlateuTableOption DHCPOpt = 25 // 2*n, []uint16 DHCPOptInterfaceMTU DHCPOpt = 26 // 2, uint16 DHCPOptAllSubsLocal DHCPOpt = 27 // 1, bool DHCPOptBroadcastAddr DHCPOpt = 28 // 4, net.IP DHCPOptMaskDiscovery DHCPOpt = 29 // 1, bool DHCPOptMaskSupplier DHCPOpt = 30 // 1, bool DHCPOptRouterDiscovery DHCPOpt = 31 // 1, bool DHCPOptSolicitAddr DHCPOpt = 32 // 4, net.IP DHCPOptStaticRoute DHCPOpt = 33 // n*8, [n]{net.IP/net.IP} -- note the 2nd is router not mask DHCPOptARPTrailers DHCPOpt = 34 // 1, bool DHCPOptARPTimeout DHCPOpt = 35 // 4, uint32 DHCPOptEthernetEncap DHCPOpt = 36 // 1, bool DHCPOptTCPTTL DHCPOpt = 37 // 1, byte DHCPOptTCPKeepAliveInt DHCPOpt = 38 // 4, uint32 DHCPOptTCPKeepAliveGarbage DHCPOpt = 39 // 1, bool DHCPOptNISDomain DHCPOpt = 40 // n, string DHCPOptNISServers DHCPOpt = 41 // 4*n, [n]net.IP DHCPOptNTPServers DHCPOpt = 42 // 4*n, [n]net.IP DHCPOptVendorOption DHCPOpt = 43 // n, [n]byte // may be encapsulated. DHCPOptNetBIOSTCPNS DHCPOpt = 44 // 4*n, [n]net.IP DHCPOptNetBIOSTCPDDS DHCPOpt = 45 // 4*n, [n]net.IP DHCPOptNETBIOSTCPNodeType DHCPOpt = 46 // 1, magic byte DHCPOptNetBIOSTCPScope DHCPOpt = 47 // n, string DHCPOptXFontServer DHCPOpt = 48 // n, string DHCPOptXDisplayManager DHCPOpt = 49 // n, string DHCPOptRequestIP DHCPOpt = 50 // 4, net.IP DHCPOptLeaseTime DHCPOpt = 51 // 4, uint32 DHCPOptExtOptions DHCPOpt = 52 // 1, 1/2/3 DHCPOptMessageType DHCPOpt = 53 // 1, 1-7 DHCPOptServerID DHCPOpt = 54 // 4, net.IP DHCPOptParamsRequest DHCPOpt = 55 // n, []byte DHCPOptMessage DHCPOpt = 56 // n, 3 DHCPOptMaxMessageSize DHCPOpt = 57 // 2, uint16 DHCPOptT1 DHCPOpt = 58 // 4, uint32 DHCPOptT2 DHCPOpt = 59 // 4, uint32 DHCPOptClassID DHCPOpt = 60 // n, []byte DHCPOptClientID DHCPOpt = 61 // n >= 2, []byte DHCPOptDomainSearch DHCPOpt = 119 // n, string DHCPOptSIPServers DHCPOpt = 120 // n, url DHCPOptClasslessStaticRoute DHCPOpt = 121 // DHCPOptMUDURLV4 DHCPOpt = 161 // n, string DHCPOptEnd DHCPOpt = 255 )
Constants for the DHCPOpt options.
type DHCPOption ¶
DHCPOption rerpresents a DHCP option.
func NewDHCPOption ¶
func NewDHCPOption(t DHCPOpt, data []byte) DHCPOption
NewDHCPOption constructs a new DHCPOption with a given type and data.
func (DHCPOption) String ¶
func (o DHCPOption) String() string
String returns a string version of a DHCP Option.
type DHCPOptions ¶
type DHCPOptions []DHCPOption
DHCPOptions is used to get nicely printed option lists which would normally be cut off after 5 options.
func (DHCPOptions) String ¶
func (o DHCPOptions) String() string
String returns a string version of the options list.
type DHCPv4 ¶
type DHCPv4 struct { BaseLayer Operation DHCPOp HardwareType LinkType HardwareLen uint8 HardwareOpts uint8 Xid uint32 Secs uint16 Flags uint16 ClientIP net.IP YourClientIP net.IP NextServerIP net.IP RelayAgentIP net.IP ClientHWAddr net.HardwareAddr ServerName []byte File []byte Options DHCPOptions }
DHCPv4 contains data for a single DHCP packet.
func (*DHCPv4) CanDecode ¶
func (d *DHCPv4) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*DHCPv4) DecodeFromBytes ¶
func (d *DHCPv4) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*DHCPv4) NextLayerType ¶
NextLayerType returns the layer type contained by this DecodingLayer.
func (*DHCPv4) SerializeTo ¶
func (d *DHCPv4) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type DHCPv4Error ¶
type DHCPv4Error string
DHCPv4Error is used for constant errors for DHCPv4. It is needed for test asserts.
func (DHCPv4Error) Error ¶
func (d DHCPv4Error) Error() string
DHCPv4Error implements error interface.
type DHCPv6 ¶
type DHCPv6 struct { BaseLayer MsgType DHCPv6MsgType HopCount uint8 LinkAddr net.IP PeerAddr net.IP TransactionID []byte Options DHCPv6Options }
DHCPv6 contains data for a single DHCP packet.
func (*DHCPv6) CanDecode ¶
func (d *DHCPv6) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*DHCPv6) DecodeFromBytes ¶
func (d *DHCPv6) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*DHCPv6) NextLayerType ¶
NextLayerType returns the layer type contained by this DecodingLayer.
func (*DHCPv6) SerializeTo ¶
func (d *DHCPv6) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type DHCPv6DUID ¶
type DHCPv6DUID struct { Type DHCPv6DUIDType // LLT, LL HardwareType []byte // EN EnterpriseNumber []byte // LLT Time []byte // LLT, LL LinkLayerAddress net.HardwareAddr // EN Identifier []byte }
DHCPv6DUID means DHCP Unique Identifier as stated in RFC 3315, section 9 (https://tools.ietf.org/html/rfc3315#page-19)
func (*DHCPv6DUID) DecodeFromBytes ¶
func (d *DHCPv6DUID) DecodeFromBytes(data []byte) error
DecodeFromBytes decodes the given bytes into a DHCPv6DUID
func (*DHCPv6DUID) Encode ¶
func (d *DHCPv6DUID) Encode() []byte
Encode encodes the DHCPv6DUID in a slice of bytes
func (*DHCPv6DUID) Len ¶
func (d *DHCPv6DUID) Len() int
Len returns the length of the DHCPv6DUID, respecting the type
func (*DHCPv6DUID) String ¶
func (d *DHCPv6DUID) String() string
type DHCPv6DUIDType ¶
type DHCPv6DUIDType uint16
DHCPv6DUIDType represents a DHCP DUID - RFC-3315
const ( DHCPv6DUIDTypeLLT DHCPv6DUIDType = iota + 1 DHCPv6DUIDTypeEN DHCPv6DUIDTypeLL )
Constants for the DHCPv6DUIDType.
func (DHCPv6DUIDType) String ¶
func (o DHCPv6DUIDType) String() string
String returns a string version of a DHCPv6DUIDType.
type DHCPv6MsgType ¶
type DHCPv6MsgType byte
DHCPv6MsgType represents a DHCPv6 operation
const ( DHCPv6MsgTypeUnspecified DHCPv6MsgType = iota DHCPv6MsgTypeSolicit DHCPv6MsgTypeAdvertise DHCPv6MsgTypeRequest DHCPv6MsgTypeConfirm DHCPv6MsgTypeRenew DHCPv6MsgTypeRebind DHCPv6MsgTypeReply DHCPv6MsgTypeRelease DHCPv6MsgTypeDecline DHCPv6MsgTypeReconfigure DHCPv6MsgTypeInformationRequest DHCPv6MsgTypeRelayForward DHCPv6MsgTypeRelayReply )
Constants that represent DHCP operations
func (DHCPv6MsgType) String ¶
func (o DHCPv6MsgType) String() string
String returns a string version of a DHCPv6MsgType.
type DHCPv6Opt ¶
type DHCPv6Opt uint16
DHCPv6Opt represents a DHCP option or parameter from RFC-3315
const ( DHCPv6OptClientID DHCPv6Opt = 1 DHCPv6OptServerID DHCPv6Opt = 2 DHCPv6OptIANA DHCPv6Opt = 3 DHCPv6OptIATA DHCPv6Opt = 4 DHCPv6OptIAAddr DHCPv6Opt = 5 DHCPv6OptOro DHCPv6Opt = 6 DHCPv6OptPreference DHCPv6Opt = 7 DHCPv6OptElapsedTime DHCPv6Opt = 8 DHCPv6OptRelayMessage DHCPv6Opt = 9 DHCPv6OptAuth DHCPv6Opt = 11 DHCPv6OptUnicast DHCPv6Opt = 12 DHCPv6OptStatusCode DHCPv6Opt = 13 DHCPv6OptRapidCommit DHCPv6Opt = 14 DHCPv6OptUserClass DHCPv6Opt = 15 DHCPv6OptVendorClass DHCPv6Opt = 16 DHCPv6OptVendorOpts DHCPv6Opt = 17 DHCPv6OptInterfaceID DHCPv6Opt = 18 DHCPv6OptReconfigureMessage DHCPv6Opt = 19 DHCPv6OptReconfigureAccept DHCPv6Opt = 20 // RFC 3319 Session Initiation Protocol (SIP) DHCPv6OptSIPServersDomainList DHCPv6Opt = 21 DHCPv6OptSIPServersAddressList DHCPv6Opt = 22 // RFC 3646 DNS Configuration DHCPv6OptDNSServers DHCPv6Opt = 23 DHCPv6OptDomainList DHCPv6Opt = 24 // RFC 3633 Prefix Delegation DHCPv6OptIAPD DHCPv6Opt = 25 DHCPv6OptIAPrefix DHCPv6Opt = 26 // RFC 3898 Network Information Service (NIS) DHCPv6OptNISServers DHCPv6Opt = 27 DHCPv6OptNISPServers DHCPv6Opt = 28 DHCPv6OptNISDomainName DHCPv6Opt = 29 DHCPv6OptNISPDomainName DHCPv6Opt = 30 // RFC 4075 Simple Network Time Protocol (SNTP) DHCPv6OptSNTPServers DHCPv6Opt = 31 // RFC 4242 Information Refresh Time Option DHCPv6OptInformationRefreshTime DHCPv6Opt = 32 // RFC 4280 Broadcast and Multicast Control Servers DHCPv6OptBCMCSServerDomainNameList DHCPv6Opt = 33 DHCPv6OptBCMCSServerAddressList DHCPv6Opt = 34 // RFC 4776 Civic Address ConfigurationOption DHCPv6OptGeoconfCivic DHCPv6Opt = 36 // RFC 4649 Relay Agent Remote-ID DHCPv6OptRemoteID DHCPv6Opt = 37 // RFC 4580 Relay Agent Subscriber-ID DHCPv6OptSubscriberID DHCPv6Opt = 38 // RFC 4704 Client Full Qualified Domain Name (FQDN) DHCPv6OptClientFQDN DHCPv6Opt = 39 // RFC 5192 Protocol for Carrying Authentication for Network Access (PANA) DHCPv6OptPanaAgent DHCPv6Opt = 40 // RFC 4833 Timezone Options DHCPv6OptNewPOSIXTimezone DHCPv6Opt = 41 DHCPv6OptNewTZDBTimezone DHCPv6Opt = 42 // RFC 4994 Relay Agent Echo Request DHCPv6OptEchoRequestOption DHCPv6Opt = 43 // RFC 5007 Leasequery DHCPv6OptLQQuery DHCPv6Opt = 44 DHCPv6OptCLTTime DHCPv6Opt = 45 DHCPv6OptClientData DHCPv6Opt = 46 DHCPv6OptLQRelayData DHCPv6Opt = 47 DHCPv6OptLQClientLink DHCPv6Opt = 48 // RFC 6610 Home Information Discovery in Mobile IPv6 (MIPv6) DHCPv6OptMIP6HNIDF DHCPv6Opt = 49 DHCPv6OptMIP6VDINF DHCPv6Opt = 50 DHCPv6OptMIP6IDINF DHCPv6Opt = 69 DHCPv6OptMIP6UDINF DHCPv6Opt = 70 DHCPv6OptMIP6HNP DHCPv6Opt = 71 DHCPv6OptMIP6HAA DHCPv6Opt = 72 DHCPv6OptMIP6HAF DHCPv6Opt = 73 // RFC 5223 Discovering Location-to-Service Translation (LoST) Servers DHCPv6OptV6LOST DHCPv6Opt = 51 // RFC 5417 Control And Provisioning of Wireless Access Points (CAPWAP) DHCPv6OptCAPWAPACV6 DHCPv6Opt = 52 // RFC 5460 Bulk Leasequery DHCPv6OptRelayID DHCPv6Opt = 53 // RFC 5678 IEEE 802.21 Mobility Services (MoS) Discovery DHCPv6OptIPv6AddressMoS DHCPv6Opt = 54 DHCPv6OptIPv6FQDNMoS DHCPv6Opt = 55 // RFC 5908 NTP Server Option DHCPv6OptNTPServer DHCPv6Opt = 56 // RFC 5986 Discovering the Local Location Information Server (LIS) DHCPv6OptV6AccessDomain DHCPv6Opt = 57 // RFC 5986 SIP User Agent DHCPv6OptSIPUACSList DHCPv6Opt = 58 // RFC 5970 Options for Network Boot DHCPv6OptBootFileURL DHCPv6Opt = 59 DHCPv6OptBootFileParam DHCPv6Opt = 60 DHCPv6OptClientArchType DHCPv6Opt = 61 DHCPv6OptNII DHCPv6Opt = 62 // RFC 6225 Coordinate-Based Location Configuration Information DHCPv6OptGeolocation DHCPv6Opt = 63 // RFC 6334 Dual-Stack Lite DHCPv6OptAFTRName DHCPv6Opt = 64 // RFC 6440 EAP Re-authentication Protocol (ERP) DHCPv6OptERPLocalDomainName DHCPv6Opt = 65 // RFC 6422 Relay-Supplied DHCP Options DHCPv6OptRSOO DHCPv6Opt = 66 // RFC 6603 Prefix Exclude Option for DHCPv6-based Prefix Delegation DHCPv6OptPDExclude DHCPv6Opt = 67 // RFC 6607 Virtual Subnet Selection DHCPv6OptVSS DHCPv6Opt = 68 // RFC 6731 Improved Recursive DNS Server Selection for Multi-Interfaced Nodes DHCPv6OptRDNSSSelection DHCPv6Opt = 74 // RFC 6784 Kerberos Options for DHCPv6 DHCPv6OptKRBPrincipalName DHCPv6Opt = 75 DHCPv6OptKRBRealmName DHCPv6Opt = 76 DHCPv6OptKRBKDC DHCPv6Opt = 77 // RFC 6939 Client Link-Layer Address Option DHCPv6OptClientLinkLayerAddress DHCPv6Opt = 79 // RFC 6977 Triggering DHCPv6 Reconfiguration from Relay Agents DHCPv6OptLinkAddress DHCPv6Opt = 80 // RFC 7037 RADIUS Option for the DHCPv6 Relay Agent DHCPv6OptRADIUS DHCPv6Opt = 81 // RFC 7083 Modification to Default Values of SOL_MAX_RT and INF_MAX_RT DHCPv6OptSolMaxRt DHCPv6Opt = 82 DHCPv6OptInfMaxRt DHCPv6Opt = 83 // RFC 7078 Distributing Address Selection Policy DHCPv6OptAddrSel DHCPv6Opt = 84 DHCPv6OptAddrSelTable DHCPv6Opt = 85 // RFC 7291 DHCP Options for the Port Control Protocol (PCP) DHCPv6OptV6PCPServer DHCPv6Opt = 86 // RFC 7341 DHCPv4-over-DHCPv6 (DHCP 4o6) Transport DHCPv6OptDHCPv4Message DHCPv6Opt = 87 DHCPv6OptDHCPv4OverDHCPv6Server DHCPv6Opt = 88 // RFC 7598 Configuration of Softwire Address and Port-Mapped Clients DHCPv6OptS46Rule DHCPv6Opt = 89 DHCPv6OptS46BR DHCPv6Opt = 90 DHCPv6OptS46DMR DHCPv6Opt = 91 DHCPv6OptS46V4V4Bind DHCPv6Opt = 92 DHCPv6OptS46PortParameters DHCPv6Opt = 93 DHCPv6OptS46ContMAPE DHCPv6Opt = 94 DHCPv6OptS46ContMAPT DHCPv6Opt = 95 DHCPv6OptS46ContLW DHCPv6Opt = 96 // RFC 7600 IPv4 Residual Deployment via IPv6 DHCPv6Opt4RD DHCPv6Opt = 97 DHCPv6Opt4RDMapRule DHCPv6Opt = 98 DHCPv6Opt4RDNonMapRule DHCPv6Opt = 99 // RFC 7653 Active Leasequery DHCPv6OptLQBaseTime DHCPv6Opt = 100 DHCPv6OptLQStartTime DHCPv6Opt = 101 DHCPv6OptLQEndTime DHCPv6Opt = 102 // RFC 7710 Captive-Portal Identification DHCPv6OptCaptivePortal DHCPv6Opt = 103 // RFC 7774 Multicast Protocol for Low-Power and Lossy Networks (MPL) Parameter Configuration DHCPv6OptMPLParameters DHCPv6Opt = 104 // RFC 7839 Access-Network-Identifier (ANI) DHCPv6OptANIATT DHCPv6Opt = 105 DHCPv6OptANINetworkName DHCPv6Opt = 106 DHCPv6OptANIAPName DHCPv6Opt = 107 DHCPv6OptANIAPBSSID DHCPv6Opt = 108 DHCPv6OptANIOperatorID DHCPv6Opt = 109 DHCPv6OptANIOperatorRealm DHCPv6Opt = 110 // RFC 8026 Unified IPv4-in-IPv6 Softwire Customer Premises Equipment (CPE) DHCPv6OptS46Priority DHCPv6Opt = 111 // draft-ietf-opsawg-mud-25 Manufacturer Usage Description (MUD) DHCPv6OptMUDURLV6 DHCPv6Opt = 112 // RFC 8115 IPv4-Embedded Multicast and Unicast IPv6 Prefixes DHCPv6OptV6Prefix64 DHCPv6Opt = 113 // RFC 8156 DHCPv6 Failover Protocol DHCPv6OptFBindingStatus DHCPv6Opt = 114 DHCPv6OptFConnectFlags DHCPv6Opt = 115 DHCPv6OptFDNSRemovalInfo DHCPv6Opt = 116 DHCPv6OptFDNSHostName DHCPv6Opt = 117 DHCPv6OptFDNSZoneName DHCPv6Opt = 118 DHCPv6OptFDNSFlags DHCPv6Opt = 119 DHCPv6OptFExpirationTime DHCPv6Opt = 120 DHCPv6OptFMaxUnacknowledgedBNDUPD DHCPv6Opt = 121 DHCPv6OptFMCLT DHCPv6Opt = 122 DHCPv6OptFPartnerLifetime DHCPv6Opt = 123 DHCPv6OptFPartnerLifetimeSent DHCPv6Opt = 124 DHCPv6OptFPartnerDownTime DHCPv6Opt = 125 DHCPv6OptFPartnerRawCltTime DHCPv6Opt = 126 DHCPv6OptFProtocolVersion DHCPv6Opt = 127 DHCPv6OptFKeepaliveTime DHCPv6Opt = 128 DHCPv6OptFReconfigureData DHCPv6Opt = 129 DHCPv6OptFRelationshipName DHCPv6Opt = 130 DHCPv6OptFServerFlags DHCPv6Opt = 131 DHCPv6OptFServerState DHCPv6Opt = 132 DHCPv6OptFStartTimeOfState DHCPv6Opt = 133 DHCPv6OptFStateExpirationTime DHCPv6Opt = 134 // RFC 8357 Generalized UDP Source Port for DHCP Relay DHCPv6OptRelayPort DHCPv6Opt = 135 // draft-ietf-netconf-zerotouch-25 Zero Touch Provisioning for Networking Devices DHCPv6OptV6ZeroTouchRedirect DHCPv6Opt = 136 // RFC 6153 Access Network Discovery and Selection Function (ANDSF) Discovery DHCPv6OptIPV6AddressANDSF DHCPv6Opt = 143 )
Constants for the DHCPv6Opt options.
type DHCPv6Option ¶
DHCPv6Option rerpresents a DHCP option.
func NewDHCPv6Option ¶
func NewDHCPv6Option(code DHCPv6Opt, data []byte) DHCPv6Option
NewDHCPv6Option constructs a new DHCPv6Option with a given type and data.
func (DHCPv6Option) String ¶
func (o DHCPv6Option) String() string
String returns a string version of a DHCP Option.
type DHCPv6Options ¶
type DHCPv6Options []DHCPv6Option
DHCPv6Options is used to get nicely printed option lists which would normally be cut off after 5 options.
func (DHCPv6Options) String ¶
func (o DHCPv6Options) String() string
String returns a string version of the options list.
type DHCPv6StatusCode ¶
type DHCPv6StatusCode uint16
DHCPv6StatusCode represents a DHCP status code - RFC-3315
const ( DHCPv6StatusCodeSuccess DHCPv6StatusCode = iota DHCPv6StatusCodeUnspecFail DHCPv6StatusCodeNoAddrsAvail DHCPv6StatusCodeNoBinding DHCPv6StatusCodeNotOnLink DHCPv6StatusCodeUseMulticast )
Constants for the DHCPv6StatusCode.
func (DHCPv6StatusCode) String ¶
func (o DHCPv6StatusCode) String() string
String returns a string version of a DHCPv6StatusCode.
type DNS ¶
type DNS struct { BaseLayer // Header fields ID uint16 QR bool OpCode DNSOpCode AA bool // Authoritative answer TC bool // Truncated RD bool // Recursion desired RA bool // Recursion available Z uint8 // Reserved for future use ResponseCode DNSResponseCode QDCount uint16 // Number of questions to expect ANCount uint16 // Number of answers to expect NSCount uint16 // Number of authorities to expect ARCount uint16 // Number of additional records to expect // Entries Questions []DNSQuestion Answers []DNSResourceRecord Authorities []DNSResourceRecord Additionals []DNSResourceRecord // contains filtered or unexported fields }
DNS contains data from a single Domain Name Service packet.
func (*DNS) CanDecode ¶
func (d *DNS) CanDecode() gopacket.LayerClass
CanDecode implements gopacket.DecodingLayer.
func (*DNS) DecodeFromBytes ¶
func (d *DNS) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the slice into the DNS struct.
func (*DNS) NextLayerType ¶
NextLayerType implements gopacket.DecodingLayer.
func (*DNS) SerializeTo ¶
func (d *DNS) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer.
type DNSClass ¶
type DNSClass uint16
DNSClass defines the class associated with a request/response. Different DNS classes can be thought of as an array of parallel namespace trees.
type DNSOPT ¶
type DNSOPT struct { Code DNSOptionCode Data []byte }
DNSOPT is a DNS Option, see RFC6891, section 6.1.2
type DNSOpCode ¶
type DNSOpCode uint8
DNSOpCode defines a set of different operation types.
type DNSOptionCode ¶
type DNSOptionCode uint16
DNSOptionCode represents the code of a DNS Option, see RFC6891, section 6.1.2
const ( DNSOptionCodeNSID DNSOptionCode = 3 DNSOptionCodeDAU DNSOptionCode = 5 DNSOptionCodeDHU DNSOptionCode = 6 DNSOptionCodeN3U DNSOptionCode = 7 DNSOptionCodeEDNSClientSubnet DNSOptionCode = 8 DNSOptionCodeEDNSExpire DNSOptionCode = 9 DNSOptionCodeCookie DNSOptionCode = 10 DNSOptionCodeEDNSKeepAlive DNSOptionCode = 11 DNSOptionCodePadding DNSOptionCode = 12 DNSOptionCodeChain DNSOptionCode = 13 DNSOptionCodeEDNSKeyTag DNSOptionCode = 14 DNSOptionCodeEDNSClientTag DNSOptionCode = 16 DNSOptionCodeEDNSServerTag DNSOptionCode = 17 DNSOptionCodeDeviceID DNSOptionCode = 26946 )
DNSOptionCode known values. See IANA
func (DNSOptionCode) String ¶
func (doc DNSOptionCode) String() string
type DNSQuestion ¶
DNSQuestion wraps a single request (question) within a DNS query.
type DNSResourceRecord ¶
type DNSResourceRecord struct { // Header Name []byte Type DNSType Class DNSClass TTL uint32 // RDATA Raw Values DataLength uint16 Data []byte // RDATA Decoded Values IP net.IP NS, CNAME, PTR []byte TXTs [][]byte SOA DNSSOA SRV DNSSRV MX DNSMX OPT []DNSOPT // See RFC 6891, section 6.1.2 URI DNSURI // Undecoded TXT for backward compatibility TXT []byte }
DNSResourceRecord wraps the data from a single DNS resource within a response.
func (*DNSResourceRecord) String ¶
func (rr *DNSResourceRecord) String() string
type DNSResponseCode ¶
type DNSResponseCode uint8
DNSResponseCode provides response codes for question answers.
const ( DNSResponseCodeNoErr DNSResponseCode = 0 // No error DNSResponseCodeFormErr DNSResponseCode = 1 // Format Error [RFC1035] DNSResponseCodeServFail DNSResponseCode = 2 // Server Failure [RFC1035] DNSResponseCodeNXDomain DNSResponseCode = 3 // Non-Existent Domain [RFC1035] DNSResponseCodeNotImp DNSResponseCode = 4 // Not Implemented [RFC1035] DNSResponseCodeRefused DNSResponseCode = 5 // Query Refused [RFC1035] DNSResponseCodeYXDomain DNSResponseCode = 6 // Name Exists when it should not [RFC2136] DNSResponseCodeYXRRSet DNSResponseCode = 7 // RR Set Exists when it should not [RFC2136] DNSResponseCodeNXRRSet DNSResponseCode = 8 // RR Set that should exist does not [RFC2136] DNSResponseCodeNotAuth DNSResponseCode = 9 // Server Not Authoritative for zone [RFC2136] DNSResponseCodeNotZone DNSResponseCode = 10 // Name not contained in zone [RFC2136] DNSResponseCodeBadVers DNSResponseCode = 16 // Bad OPT Version [RFC2671] DNSResponseCodeBadSig DNSResponseCode = 16 // TSIG Signature Failure [RFC2845] DNSResponseCodeBadKey DNSResponseCode = 17 // Key not recognized [RFC2845] DNSResponseCodeBadTime DNSResponseCode = 18 // Signature out of time window [RFC2845] DNSResponseCodeBadMode DNSResponseCode = 19 // Bad TKEY Mode [RFC2930] DNSResponseCodeBadName DNSResponseCode = 20 // Duplicate key name [RFC2930] DNSResponseCodeBadAlg DNSResponseCode = 21 // Algorithm not supported [RFC2930] DNSResponseCodeBadTruc DNSResponseCode = 22 // Bad Truncation [RFC4635] DNSResponseCodeBadCookie DNSResponseCode = 23 // Bad/missing Server Cookie [RFC7873] )
DNSResponseCode known values.
func (DNSResponseCode) String ¶
func (drc DNSResponseCode) String() string
type DNSSOA ¶
DNSSOA is a Start of Authority record. Each domain requires a SOA record at the cutover where a domain is delegated from its parent.
type DNSType ¶
type DNSType uint16
DNSType defines the type of data being requested/returned in a question/answer.
const ( DNSTypeA DNSType = 1 // a host address DNSTypeNS DNSType = 2 // an authoritative name server DNSTypeMD DNSType = 3 // a mail destination (Obsolete - use MX) DNSTypeMF DNSType = 4 // a mail forwarder (Obsolete - use MX) DNSTypeCNAME DNSType = 5 // the canonical name for an alias DNSTypeSOA DNSType = 6 // marks the start of a zone of authority DNSTypeMB DNSType = 7 // a mailbox domain name (EXPERIMENTAL) DNSTypeMG DNSType = 8 // a mail group member (EXPERIMENTAL) DNSTypeMR DNSType = 9 // a mail rename domain name (EXPERIMENTAL) DNSTypeNULL DNSType = 10 // a null RR (EXPERIMENTAL) DNSTypeWKS DNSType = 11 // a well known service description DNSTypePTR DNSType = 12 // a domain name pointer DNSTypeHINFO DNSType = 13 // host information DNSTypeMINFO DNSType = 14 // mailbox or mail list information DNSTypeMX DNSType = 15 // mail exchange DNSTypeTXT DNSType = 16 // text strings DNSTypeAAAA DNSType = 28 // a IPv6 host address [RFC3596] DNSTypeSRV DNSType = 33 // server discovery [RFC2782] [RFC6195] DNSTypeOPT DNSType = 41 // OPT Pseudo-RR [RFC6891] DNSTypeURI DNSType = 256 // URI RR [RFC7553] )
DNSType known values.
type DbDescPkg ¶
type DbDescPkg struct { Options uint32 InterfaceMTU uint16 Flags uint16 DDSeqNumber uint32 LSAinfo []LSAheader }
DbDescPkg is the struct from RFC 5340 A.3.3.
type Dot11 ¶
type Dot11 struct { BaseLayer Type Dot11Type Proto uint8 Flags Dot11Flags DurationID uint16 Address1 net.HardwareAddr Address2 net.HardwareAddr Address3 net.HardwareAddr Address4 net.HardwareAddr SequenceNumber uint16 FragmentNumber uint16 Checksum uint32 QOS *Dot11QOS HTControl *Dot11HTControl DataLayer gopacket.Layer }
Dot11 provides an IEEE 802.11 base packet header. See http://standards.ieee.org/findstds/standard/802.11-2012.html for excruciating detail.
func (*Dot11) CanDecode ¶
func (m *Dot11) CanDecode() gopacket.LayerClass
func (*Dot11) ChecksumValid ¶
func (*Dot11) DecodeFromBytes ¶
func (m *Dot11) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11) NextLayerType ¶
func (Dot11) SerializeTo ¶
func (m Dot11) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
type Dot11AckPolicy ¶
type Dot11AckPolicy uint8
const ( Dot11AckPolicyNormal Dot11AckPolicy = 0 Dot11AckPolicyNone Dot11AckPolicy = 1 Dot11AckPolicyNoExplicit Dot11AckPolicy = 2 Dot11AckPolicyBlock Dot11AckPolicy = 3 )
func (Dot11AckPolicy) String ¶
func (a Dot11AckPolicy) String() string
String provides a human readable string for Dot11AckPolicy. This string is possibly subject to change over time; if you're storing this persistently, you should probably store the Dot11AckPolicy value, not its string.
type Dot11Algorithm ¶
type Dot11Algorithm uint16
const ( Dot11AlgorithmOpen Dot11Algorithm = 0 )
func (Dot11Algorithm) String ¶
func (a Dot11Algorithm) String() string
String provides a human readable string for Dot11Algorithm. This string is possibly subject to change over time; if you're storing this persistently, you should probably store the Dot11Algorithm value, not its string.
type Dot11CodingType ¶
type Dot11CodingType uint8
func (Dot11CodingType) String ¶
func (a Dot11CodingType) String() string
type Dot11Ctrl ¶
type Dot11Ctrl struct {
BaseLayer
}
Dot11Ctrl is a base for all IEEE 802.11 control layers.
func (*Dot11Ctrl) CanDecode ¶
func (m *Dot11Ctrl) CanDecode() gopacket.LayerClass
func (*Dot11Ctrl) DecodeFromBytes ¶
func (m *Dot11Ctrl) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11Ctrl) NextLayerType ¶
type Dot11CtrlAck ¶
type Dot11CtrlAck struct {
Dot11Ctrl
}
func (*Dot11CtrlAck) CanDecode ¶
func (m *Dot11CtrlAck) CanDecode() gopacket.LayerClass
func (*Dot11CtrlAck) DecodeFromBytes ¶
func (m *Dot11CtrlAck) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11CtrlAck) LayerType ¶
func (m *Dot11CtrlAck) LayerType() gopacket.LayerType
type Dot11CtrlBlockAck ¶
type Dot11CtrlBlockAck struct {
Dot11Ctrl
}
func (*Dot11CtrlBlockAck) CanDecode ¶
func (m *Dot11CtrlBlockAck) CanDecode() gopacket.LayerClass
func (*Dot11CtrlBlockAck) DecodeFromBytes ¶
func (m *Dot11CtrlBlockAck) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11CtrlBlockAck) LayerType ¶
func (m *Dot11CtrlBlockAck) LayerType() gopacket.LayerType
type Dot11CtrlBlockAckReq ¶
type Dot11CtrlBlockAckReq struct {
Dot11Ctrl
}
func (*Dot11CtrlBlockAckReq) CanDecode ¶
func (m *Dot11CtrlBlockAckReq) CanDecode() gopacket.LayerClass
func (*Dot11CtrlBlockAckReq) DecodeFromBytes ¶
func (m *Dot11CtrlBlockAckReq) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11CtrlBlockAckReq) LayerType ¶
func (m *Dot11CtrlBlockAckReq) LayerType() gopacket.LayerType
type Dot11CtrlCFEnd ¶
type Dot11CtrlCFEnd struct {
Dot11Ctrl
}
func (*Dot11CtrlCFEnd) CanDecode ¶
func (m *Dot11CtrlCFEnd) CanDecode() gopacket.LayerClass
func (*Dot11CtrlCFEnd) DecodeFromBytes ¶
func (m *Dot11CtrlCFEnd) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11CtrlCFEnd) LayerType ¶
func (m *Dot11CtrlCFEnd) LayerType() gopacket.LayerType
type Dot11CtrlCFEndAck ¶
type Dot11CtrlCFEndAck struct {
Dot11Ctrl
}
func (*Dot11CtrlCFEndAck) CanDecode ¶
func (m *Dot11CtrlCFEndAck) CanDecode() gopacket.LayerClass
func (*Dot11CtrlCFEndAck) DecodeFromBytes ¶
func (m *Dot11CtrlCFEndAck) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11CtrlCFEndAck) LayerType ¶
func (m *Dot11CtrlCFEndAck) LayerType() gopacket.LayerType
type Dot11CtrlCTS ¶
type Dot11CtrlCTS struct {
Dot11Ctrl
}
func (*Dot11CtrlCTS) CanDecode ¶
func (m *Dot11CtrlCTS) CanDecode() gopacket.LayerClass
func (*Dot11CtrlCTS) DecodeFromBytes ¶
func (m *Dot11CtrlCTS) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11CtrlCTS) LayerType ¶
func (m *Dot11CtrlCTS) LayerType() gopacket.LayerType
type Dot11CtrlPowersavePoll ¶
type Dot11CtrlPowersavePoll struct {
Dot11Ctrl
}
func (*Dot11CtrlPowersavePoll) CanDecode ¶
func (m *Dot11CtrlPowersavePoll) CanDecode() gopacket.LayerClass
func (*Dot11CtrlPowersavePoll) DecodeFromBytes ¶
func (m *Dot11CtrlPowersavePoll) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11CtrlPowersavePoll) LayerType ¶
func (m *Dot11CtrlPowersavePoll) LayerType() gopacket.LayerType
type Dot11CtrlRTS ¶
type Dot11CtrlRTS struct {
Dot11Ctrl
}
func (*Dot11CtrlRTS) CanDecode ¶
func (m *Dot11CtrlRTS) CanDecode() gopacket.LayerClass
func (*Dot11CtrlRTS) DecodeFromBytes ¶
func (m *Dot11CtrlRTS) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11CtrlRTS) LayerType ¶
func (m *Dot11CtrlRTS) LayerType() gopacket.LayerType
type Dot11Data ¶
type Dot11Data struct {
BaseLayer
}
Dot11Data is a base for all IEEE 802.11 data layers.
func (*Dot11Data) CanDecode ¶
func (m *Dot11Data) CanDecode() gopacket.LayerClass
func (*Dot11Data) DecodeFromBytes ¶
func (m *Dot11Data) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11Data) NextLayerType ¶
type Dot11DataCFAck ¶
type Dot11DataCFAck struct {
Dot11Data
}
func (*Dot11DataCFAck) CanDecode ¶
func (m *Dot11DataCFAck) CanDecode() gopacket.LayerClass
func (*Dot11DataCFAck) DecodeFromBytes ¶
func (m *Dot11DataCFAck) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11DataCFAck) LayerType ¶
func (m *Dot11DataCFAck) LayerType() gopacket.LayerType
type Dot11DataCFAckNoData ¶
type Dot11DataCFAckNoData struct {
Dot11Data
}
func (*Dot11DataCFAckNoData) CanDecode ¶
func (m *Dot11DataCFAckNoData) CanDecode() gopacket.LayerClass
func (*Dot11DataCFAckNoData) DecodeFromBytes ¶
func (m *Dot11DataCFAckNoData) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11DataCFAckNoData) LayerType ¶
func (m *Dot11DataCFAckNoData) LayerType() gopacket.LayerType
type Dot11DataCFAckPoll ¶
type Dot11DataCFAckPoll struct {
Dot11Data
}
func (*Dot11DataCFAckPoll) CanDecode ¶
func (m *Dot11DataCFAckPoll) CanDecode() gopacket.LayerClass
func (*Dot11DataCFAckPoll) DecodeFromBytes ¶
func (m *Dot11DataCFAckPoll) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11DataCFAckPoll) LayerType ¶
func (m *Dot11DataCFAckPoll) LayerType() gopacket.LayerType
type Dot11DataCFAckPollNoData ¶
type Dot11DataCFAckPollNoData struct {
Dot11Data
}
func (*Dot11DataCFAckPollNoData) CanDecode ¶
func (m *Dot11DataCFAckPollNoData) CanDecode() gopacket.LayerClass
func (*Dot11DataCFAckPollNoData) DecodeFromBytes ¶
func (m *Dot11DataCFAckPollNoData) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11DataCFAckPollNoData) LayerType ¶
func (m *Dot11DataCFAckPollNoData) LayerType() gopacket.LayerType
type Dot11DataCFPoll ¶
type Dot11DataCFPoll struct {
Dot11Data
}
func (*Dot11DataCFPoll) CanDecode ¶
func (m *Dot11DataCFPoll) CanDecode() gopacket.LayerClass
func (*Dot11DataCFPoll) DecodeFromBytes ¶
func (m *Dot11DataCFPoll) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11DataCFPoll) LayerType ¶
func (m *Dot11DataCFPoll) LayerType() gopacket.LayerType
type Dot11DataCFPollNoData ¶
type Dot11DataCFPollNoData struct {
Dot11Data
}
func (*Dot11DataCFPollNoData) CanDecode ¶
func (m *Dot11DataCFPollNoData) CanDecode() gopacket.LayerClass
func (*Dot11DataCFPollNoData) DecodeFromBytes ¶
func (m *Dot11DataCFPollNoData) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11DataCFPollNoData) LayerType ¶
func (m *Dot11DataCFPollNoData) LayerType() gopacket.LayerType
type Dot11DataNull ¶
type Dot11DataNull struct {
Dot11Data
}
func (*Dot11DataNull) CanDecode ¶
func (m *Dot11DataNull) CanDecode() gopacket.LayerClass
func (*Dot11DataNull) DecodeFromBytes ¶
func (m *Dot11DataNull) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11DataNull) LayerType ¶
func (m *Dot11DataNull) LayerType() gopacket.LayerType
type Dot11DataQOS ¶
type Dot11DataQOS struct {
Dot11Ctrl
}
func (*Dot11DataQOS) DecodeFromBytes ¶
func (m *Dot11DataQOS) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
type Dot11DataQOSCFAckPollNoData ¶
type Dot11DataQOSCFAckPollNoData struct {
Dot11DataQOS
}
func (*Dot11DataQOSCFAckPollNoData) CanDecode ¶
func (m *Dot11DataQOSCFAckPollNoData) CanDecode() gopacket.LayerClass
func (*Dot11DataQOSCFAckPollNoData) LayerType ¶
func (m *Dot11DataQOSCFAckPollNoData) LayerType() gopacket.LayerType
func (*Dot11DataQOSCFAckPollNoData) NextLayerType ¶
func (m *Dot11DataQOSCFAckPollNoData) NextLayerType() gopacket.LayerType
type Dot11DataQOSCFPollNoData ¶
type Dot11DataQOSCFPollNoData struct {
Dot11DataQOS
}
func (*Dot11DataQOSCFPollNoData) CanDecode ¶
func (m *Dot11DataQOSCFPollNoData) CanDecode() gopacket.LayerClass
func (*Dot11DataQOSCFPollNoData) LayerType ¶
func (m *Dot11DataQOSCFPollNoData) LayerType() gopacket.LayerType
func (*Dot11DataQOSCFPollNoData) NextLayerType ¶
func (m *Dot11DataQOSCFPollNoData) NextLayerType() gopacket.LayerType
type Dot11DataQOSData ¶
type Dot11DataQOSData struct {
Dot11DataQOS
}
func (*Dot11DataQOSData) CanDecode ¶
func (m *Dot11DataQOSData) CanDecode() gopacket.LayerClass
func (*Dot11DataQOSData) LayerType ¶
func (m *Dot11DataQOSData) LayerType() gopacket.LayerType
func (*Dot11DataQOSData) NextLayerType ¶
func (m *Dot11DataQOSData) NextLayerType() gopacket.LayerType
type Dot11DataQOSDataCFAck ¶
type Dot11DataQOSDataCFAck struct {
Dot11DataQOS
}
func (*Dot11DataQOSDataCFAck) CanDecode ¶
func (m *Dot11DataQOSDataCFAck) CanDecode() gopacket.LayerClass
func (*Dot11DataQOSDataCFAck) LayerType ¶
func (m *Dot11DataQOSDataCFAck) LayerType() gopacket.LayerType
func (*Dot11DataQOSDataCFAck) NextLayerType ¶
func (m *Dot11DataQOSDataCFAck) NextLayerType() gopacket.LayerType
type Dot11DataQOSDataCFAckPoll ¶
type Dot11DataQOSDataCFAckPoll struct {
Dot11DataQOS
}
func (*Dot11DataQOSDataCFAckPoll) CanDecode ¶
func (m *Dot11DataQOSDataCFAckPoll) CanDecode() gopacket.LayerClass
func (*Dot11DataQOSDataCFAckPoll) LayerType ¶
func (m *Dot11DataQOSDataCFAckPoll) LayerType() gopacket.LayerType
func (*Dot11DataQOSDataCFAckPoll) NextLayerType ¶
func (m *Dot11DataQOSDataCFAckPoll) NextLayerType() gopacket.LayerType
type Dot11DataQOSDataCFPoll ¶
type Dot11DataQOSDataCFPoll struct {
Dot11DataQOS
}
func (*Dot11DataQOSDataCFPoll) CanDecode ¶
func (m *Dot11DataQOSDataCFPoll) CanDecode() gopacket.LayerClass
func (*Dot11DataQOSDataCFPoll) LayerType ¶
func (m *Dot11DataQOSDataCFPoll) LayerType() gopacket.LayerType
func (*Dot11DataQOSDataCFPoll) NextLayerType ¶
func (m *Dot11DataQOSDataCFPoll) NextLayerType() gopacket.LayerType
type Dot11DataQOSNull ¶
type Dot11DataQOSNull struct {
Dot11DataQOS
}
func (*Dot11DataQOSNull) CanDecode ¶
func (m *Dot11DataQOSNull) CanDecode() gopacket.LayerClass
func (*Dot11DataQOSNull) LayerType ¶
func (m *Dot11DataQOSNull) LayerType() gopacket.LayerType
func (*Dot11DataQOSNull) NextLayerType ¶
func (m *Dot11DataQOSNull) NextLayerType() gopacket.LayerType
type Dot11Flags ¶
type Dot11Flags uint8
Dot11Flags contains the set of 8 flags in the IEEE 802.11 frame control header, all in one place.
const ( Dot11FlagsToDS Dot11Flags = 1 << iota Dot11FlagsFromDS Dot11FlagsMF Dot11FlagsRetry Dot11FlagsPowerManagement Dot11FlagsMD Dot11FlagsWEP Dot11FlagsOrder )
func (Dot11Flags) FromDS ¶
func (d Dot11Flags) FromDS() bool
func (Dot11Flags) MD ¶
func (d Dot11Flags) MD() bool
func (Dot11Flags) MF ¶
func (d Dot11Flags) MF() bool
func (Dot11Flags) Order ¶
func (d Dot11Flags) Order() bool
func (Dot11Flags) PowerManagement ¶
func (d Dot11Flags) PowerManagement() bool
func (Dot11Flags) Retry ¶
func (d Dot11Flags) Retry() bool
func (Dot11Flags) String ¶
func (a Dot11Flags) String() string
String provides a human readable string for Dot11Flags. This string is possibly subject to change over time; if you're storing this persistently, you should probably store the Dot11Flags value, not its string.
func (Dot11Flags) ToDS ¶
func (d Dot11Flags) ToDS() bool
func (Dot11Flags) WEP ¶
func (d Dot11Flags) WEP() bool
type Dot11HTControl ¶
type Dot11HTControl struct { ACConstraint bool RDGMorePPDU bool VHT *Dot11HTControlVHT HT *Dot11HTControlHT }
type Dot11HTControlHT ¶
type Dot11HTControlMFB ¶
func (*Dot11HTControlMFB) NoFeedBackPresent ¶
func (m *Dot11HTControlMFB) NoFeedBackPresent() bool
type Dot11HTControlVHT ¶
type Dot11HTControlVHT struct { MRQ bool UnsolicitedMFB bool MSI *uint8 MFB Dot11HTControlMFB CompressedMSI *uint8 STBCIndication bool MFSI *uint8 GID *uint8 CodingType *Dot11CodingType FbTXBeamformed bool }
type Dot11InformationElement ¶
type Dot11InformationElement struct { BaseLayer ID Dot11InformationElementID Length uint8 OUI []byte Info []byte }
func (*Dot11InformationElement) CanDecode ¶
func (m *Dot11InformationElement) CanDecode() gopacket.LayerClass
func (*Dot11InformationElement) DecodeFromBytes ¶
func (m *Dot11InformationElement) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11InformationElement) LayerType ¶
func (m *Dot11InformationElement) LayerType() gopacket.LayerType
func (*Dot11InformationElement) NextLayerType ¶
func (m *Dot11InformationElement) NextLayerType() gopacket.LayerType
func (Dot11InformationElement) SerializeTo ¶
func (m Dot11InformationElement) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
func (*Dot11InformationElement) String ¶
func (d *Dot11InformationElement) String() string
type Dot11InformationElementID ¶
type Dot11InformationElementID uint8
const ( Dot11InformationElementIDSSID Dot11InformationElementID = 0 Dot11InformationElementIDRates Dot11InformationElementID = 1 Dot11InformationElementIDFHSet Dot11InformationElementID = 2 Dot11InformationElementIDDSSet Dot11InformationElementID = 3 Dot11InformationElementIDCFSet Dot11InformationElementID = 4 Dot11InformationElementIDTIM Dot11InformationElementID = 5 Dot11InformationElementIDIBSSSet Dot11InformationElementID = 6 Dot11InformationElementIDCountryInfo Dot11InformationElementID = 7 Dot11InformationElementIDHoppingPatternParam Dot11InformationElementID = 8 Dot11InformationElementIDHoppingPatternTable Dot11InformationElementID = 9 Dot11InformationElementIDRequest Dot11InformationElementID = 10 Dot11InformationElementIDQBSSLoadElem Dot11InformationElementID = 11 Dot11InformationElementIDEDCAParamSet Dot11InformationElementID = 12 Dot11InformationElementIDTrafficSpec Dot11InformationElementID = 13 Dot11InformationElementIDTrafficClass Dot11InformationElementID = 14 Dot11InformationElementIDSchedule Dot11InformationElementID = 15 Dot11InformationElementIDChallenge Dot11InformationElementID = 16 Dot11InformationElementIDPowerConst Dot11InformationElementID = 32 Dot11InformationElementIDPowerCapability Dot11InformationElementID = 33 Dot11InformationElementIDTPCRequest Dot11InformationElementID = 34 Dot11InformationElementIDTPCReport Dot11InformationElementID = 35 Dot11InformationElementIDSupportedChannels Dot11InformationElementID = 36 Dot11InformationElementIDSwitchChannelAnnounce Dot11InformationElementID = 37 Dot11InformationElementIDMeasureRequest Dot11InformationElementID = 38 Dot11InformationElementIDMeasureReport Dot11InformationElementID = 39 Dot11InformationElementIDQuiet Dot11InformationElementID = 40 Dot11InformationElementIDIBSSDFS Dot11InformationElementID = 41 Dot11InformationElementIDERPInfo Dot11InformationElementID = 42 Dot11InformationElementIDTSDelay Dot11InformationElementID = 43 Dot11InformationElementIDTCLASProcessing Dot11InformationElementID = 44 Dot11InformationElementIDHTCapabilities Dot11InformationElementID = 45 Dot11InformationElementIDQOSCapability Dot11InformationElementID = 46 Dot11InformationElementIDERPInfo2 Dot11InformationElementID = 47 Dot11InformationElementIDRSNInfo Dot11InformationElementID = 48 Dot11InformationElementIDESRates Dot11InformationElementID = 50 Dot11InformationElementIDAPChannelReport Dot11InformationElementID = 51 Dot11InformationElementIDNeighborReport Dot11InformationElementID = 52 Dot11InformationElementIDRCPI Dot11InformationElementID = 53 Dot11InformationElementIDMobilityDomain Dot11InformationElementID = 54 Dot11InformationElementIDFastBSSTrans Dot11InformationElementID = 55 Dot11InformationElementIDTimeoutInt Dot11InformationElementID = 56 Dot11InformationElementIDRICData Dot11InformationElementID = 57 Dot11InformationElementIDDSERegisteredLoc Dot11InformationElementID = 58 Dot11InformationElementIDSuppOperatingClass Dot11InformationElementID = 59 Dot11InformationElementIDExtChanSwitchAnnounce Dot11InformationElementID = 60 Dot11InformationElementIDHTInfo Dot11InformationElementID = 61 Dot11InformationElementIDSecChanOffset Dot11InformationElementID = 62 Dot11InformationElementIDBSSAverageAccessDelay Dot11InformationElementID = 63 Dot11InformationElementIDAntenna Dot11InformationElementID = 64 Dot11InformationElementIDRSNI Dot11InformationElementID = 65 Dot11InformationElementIDMeasurePilotTrans Dot11InformationElementID = 66 Dot11InformationElementIDBSSAvailAdmCapacity Dot11InformationElementID = 67 Dot11InformationElementIDBSSACAccDelayWAPIParam Dot11InformationElementID = 68 Dot11InformationElementIDTimeAdvertisement Dot11InformationElementID = 69 Dot11InformationElementIDRMEnabledCapabilities Dot11InformationElementID = 70 Dot11InformationElementIDMultipleBSSID Dot11InformationElementID = 71 Dot11InformationElementID2040BSSCoExist Dot11InformationElementID = 72 Dot11InformationElementID2040BSSIntChanReport Dot11InformationElementID = 73 Dot11InformationElementIDOverlapBSSScanParam Dot11InformationElementID = 74 Dot11InformationElementIDRICDescriptor Dot11InformationElementID = 75 Dot11InformationElementIDManagementMIC Dot11InformationElementID = 76 Dot11InformationElementIDEventRequest Dot11InformationElementID = 78 Dot11InformationElementIDEventReport Dot11InformationElementID = 79 Dot11InformationElementIDDiagnosticRequest Dot11InformationElementID = 80 Dot11InformationElementIDDiagnosticReport Dot11InformationElementID = 81 Dot11InformationElementIDLocationParam Dot11InformationElementID = 82 Dot11InformationElementIDNonTransBSSIDCapability Dot11InformationElementID = 83 Dot11InformationElementIDSSIDList Dot11InformationElementID = 84 Dot11InformationElementIDMultipleBSSIDIndex Dot11InformationElementID = 85 Dot11InformationElementIDFMSDescriptor Dot11InformationElementID = 86 Dot11InformationElementIDFMSRequest Dot11InformationElementID = 87 Dot11InformationElementIDFMSResponse Dot11InformationElementID = 88 Dot11InformationElementIDQOSTrafficCapability Dot11InformationElementID = 89 Dot11InformationElementIDBSSMaxIdlePeriod Dot11InformationElementID = 90 Dot11InformationElementIDTFSRequest Dot11InformationElementID = 91 Dot11InformationElementIDTFSResponse Dot11InformationElementID = 92 Dot11InformationElementIDWNMSleepMode Dot11InformationElementID = 93 Dot11InformationElementIDTIMBroadcastRequest Dot11InformationElementID = 94 Dot11InformationElementIDTIMBroadcastResponse Dot11InformationElementID = 95 Dot11InformationElementIDCollInterferenceReport Dot11InformationElementID = 96 Dot11InformationElementIDChannelUsage Dot11InformationElementID = 97 Dot11InformationElementIDTimeZone Dot11InformationElementID = 98 Dot11InformationElementIDDMSRequest Dot11InformationElementID = 99 Dot11InformationElementIDDMSResponse Dot11InformationElementID = 100 Dot11InformationElementIDLinkIdentifier Dot11InformationElementID = 101 Dot11InformationElementIDWakeupSchedule Dot11InformationElementID = 102 Dot11InformationElementIDChannelSwitchTiming Dot11InformationElementID = 104 Dot11InformationElementIDPTIControl Dot11InformationElementID = 105 Dot11InformationElementIDPUBufferStatus Dot11InformationElementID = 106 Dot11InformationElementIDInterworking Dot11InformationElementID = 107 Dot11InformationElementIDAdvertisementProtocol Dot11InformationElementID = 108 Dot11InformationElementIDExpBWRequest Dot11InformationElementID = 109 Dot11InformationElementIDQOSMapSet Dot11InformationElementID = 110 Dot11InformationElementIDRoamingConsortium Dot11InformationElementID = 111 Dot11InformationElementIDEmergencyAlertIdentifier Dot11InformationElementID = 112 Dot11InformationElementIDMeshConfiguration Dot11InformationElementID = 113 Dot11InformationElementIDMeshID Dot11InformationElementID = 114 Dot11InformationElementIDMeshLinkMetricReport Dot11InformationElementID = 115 Dot11InformationElementIDCongestionNotification Dot11InformationElementID = 116 Dot11InformationElementIDMeshPeeringManagement Dot11InformationElementID = 117 Dot11InformationElementIDMeshChannelSwitchParam Dot11InformationElementID = 118 Dot11InformationElementIDMeshAwakeWindows Dot11InformationElementID = 119 Dot11InformationElementIDBeaconTiming Dot11InformationElementID = 120 Dot11InformationElementIDMCCAOPSetupRequest Dot11InformationElementID = 121 Dot11InformationElementIDMCCAOPSetupReply Dot11InformationElementID = 122 Dot11InformationElementIDMCCAOPAdvertisement Dot11InformationElementID = 123 Dot11InformationElementIDMCCAOPTeardown Dot11InformationElementID = 124 Dot11InformationElementIDGateAnnouncement Dot11InformationElementID = 125 Dot11InformationElementIDRootAnnouncement Dot11InformationElementID = 126 Dot11InformationElementIDExtCapability Dot11InformationElementID = 127 Dot11InformationElementIDAgereProprietary Dot11InformationElementID = 128 Dot11InformationElementIDPathRequest Dot11InformationElementID = 130 Dot11InformationElementIDPathReply Dot11InformationElementID = 131 Dot11InformationElementIDPathError Dot11InformationElementID = 132 Dot11InformationElementIDCiscoCCX1CKIPDeviceName Dot11InformationElementID = 133 Dot11InformationElementIDCiscoCCX2 Dot11InformationElementID = 136 Dot11InformationElementIDProxyUpdate Dot11InformationElementID = 137 Dot11InformationElementIDProxyUpdateConfirmation Dot11InformationElementID = 138 Dot11InformationElementIDAuthMeshPerringExch Dot11InformationElementID = 139 Dot11InformationElementIDMIC Dot11InformationElementID = 140 Dot11InformationElementIDDestinationURI Dot11InformationElementID = 141 Dot11InformationElementIDUAPSDCoexistence Dot11InformationElementID = 142 Dot11InformationElementIDWakeupSchedule80211ad Dot11InformationElementID = 143 Dot11InformationElementIDExtendedSchedule Dot11InformationElementID = 144 Dot11InformationElementIDSTAAvailability Dot11InformationElementID = 145 Dot11InformationElementIDDMGTSPEC Dot11InformationElementID = 146 Dot11InformationElementIDNextDMGATI Dot11InformationElementID = 147 Dot11InformationElementIDDMSCapabilities Dot11InformationElementID = 148 Dot11InformationElementIDCiscoUnknown95 Dot11InformationElementID = 149 Dot11InformationElementIDVendor2 Dot11InformationElementID = 150 Dot11InformationElementIDDMGOperating Dot11InformationElementID = 151 Dot11InformationElementIDDMGBSSParamChange Dot11InformationElementID = 152 Dot11InformationElementIDDMGBeamRefinement Dot11InformationElementID = 153 Dot11InformationElementIDChannelMeasFeedback Dot11InformationElementID = 154 Dot11InformationElementIDAwakeWindow Dot11InformationElementID = 157 Dot11InformationElementIDMultiBand Dot11InformationElementID = 158 Dot11InformationElementIDADDBAExtension Dot11InformationElementID = 159 Dot11InformationElementIDNEXTPCPList Dot11InformationElementID = 160 Dot11InformationElementIDPCPHandover Dot11InformationElementID = 161 Dot11InformationElementIDDMGLinkMargin Dot11InformationElementID = 162 Dot11InformationElementIDSwitchingStream Dot11InformationElementID = 163 Dot11InformationElementIDSessionTransmission Dot11InformationElementID = 164 Dot11InformationElementIDDynamicTonePairReport Dot11InformationElementID = 165 Dot11InformationElementIDClusterReport Dot11InformationElementID = 166 Dot11InformationElementIDRelayCapabilities Dot11InformationElementID = 167 Dot11InformationElementIDRelayTransferParameter Dot11InformationElementID = 168 Dot11InformationElementIDBeamlinkMaintenance Dot11InformationElementID = 169 Dot11InformationElementIDMultipleMacSublayers Dot11InformationElementID = 170 Dot11InformationElementIDUPID Dot11InformationElementID = 171 Dot11InformationElementIDDMGLinkAdaptionAck Dot11InformationElementID = 172 Dot11InformationElementIDSymbolProprietary Dot11InformationElementID = 173 Dot11InformationElementIDMCCAOPAdvertOverview Dot11InformationElementID = 174 Dot11InformationElementIDQuietPeriodRequest Dot11InformationElementID = 175 Dot11InformationElementIDQuietPeriodResponse Dot11InformationElementID = 177 Dot11InformationElementIDECPACPolicy Dot11InformationElementID = 182 Dot11InformationElementIDClusterTimeOffset Dot11InformationElementID = 183 Dot11InformationElementIDAntennaSectorID Dot11InformationElementID = 190 Dot11InformationElementIDVHTCapabilities Dot11InformationElementID = 191 Dot11InformationElementIDVHTOperation Dot11InformationElementID = 192 Dot11InformationElementIDExtendedBSSLoad Dot11InformationElementID = 193 Dot11InformationElementIDWideBWChannelSwitch Dot11InformationElementID = 194 Dot11InformationElementIDVHTTxPowerEnvelope Dot11InformationElementID = 195 Dot11InformationElementIDChannelSwitchWrapper Dot11InformationElementID = 196 Dot11InformationElementIDOperatingModeNotification Dot11InformationElementID = 199 Dot11InformationElementIDUPSIM Dot11InformationElementID = 200 Dot11InformationElementIDReducedNeighborReport Dot11InformationElementID = 201 Dot11InformationElementIDTVHTOperation Dot11InformationElementID = 202 Dot11InformationElementIDDeviceLocation Dot11InformationElementID = 204 Dot11InformationElementIDWhiteSpaceMap Dot11InformationElementID = 205 Dot11InformationElementIDFineTuningMeasureParams Dot11InformationElementID = 206 Dot11InformationElementIDVendor Dot11InformationElementID = 221 )
func (Dot11InformationElementID) String ¶
func (a Dot11InformationElementID) String() string
String provides a human readable string for Dot11InformationElementID. This string is possibly subject to change over time; if you're storing this persistently, you should probably store the Dot11InformationElementID value, not its string.
type Dot11Mgmt ¶
type Dot11Mgmt struct {
BaseLayer
}
Dot11Mgmt is a base for all IEEE 802.11 management layers.
func (*Dot11Mgmt) DecodeFromBytes ¶
func (m *Dot11Mgmt) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11Mgmt) NextLayerType ¶
type Dot11MgmtATIM ¶
type Dot11MgmtATIM struct {
Dot11Mgmt
}
func (*Dot11MgmtATIM) CanDecode ¶
func (m *Dot11MgmtATIM) CanDecode() gopacket.LayerClass
func (*Dot11MgmtATIM) LayerType ¶
func (m *Dot11MgmtATIM) LayerType() gopacket.LayerType
type Dot11MgmtAction ¶
type Dot11MgmtAction struct {
Dot11Mgmt
}
func (*Dot11MgmtAction) CanDecode ¶
func (m *Dot11MgmtAction) CanDecode() gopacket.LayerClass
func (*Dot11MgmtAction) LayerType ¶
func (m *Dot11MgmtAction) LayerType() gopacket.LayerType
type Dot11MgmtActionNoAck ¶
type Dot11MgmtActionNoAck struct {
Dot11Mgmt
}
func (*Dot11MgmtActionNoAck) CanDecode ¶
func (m *Dot11MgmtActionNoAck) CanDecode() gopacket.LayerClass
func (*Dot11MgmtActionNoAck) LayerType ¶
func (m *Dot11MgmtActionNoAck) LayerType() gopacket.LayerType
type Dot11MgmtArubaWLAN ¶
type Dot11MgmtArubaWLAN struct {
Dot11Mgmt
}
func (*Dot11MgmtArubaWLAN) CanDecode ¶
func (m *Dot11MgmtArubaWLAN) CanDecode() gopacket.LayerClass
func (*Dot11MgmtArubaWLAN) LayerType ¶
func (m *Dot11MgmtArubaWLAN) LayerType() gopacket.LayerType
type Dot11MgmtAssociationReq ¶
func (*Dot11MgmtAssociationReq) CanDecode ¶
func (m *Dot11MgmtAssociationReq) CanDecode() gopacket.LayerClass
func (*Dot11MgmtAssociationReq) DecodeFromBytes ¶
func (m *Dot11MgmtAssociationReq) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11MgmtAssociationReq) LayerType ¶
func (m *Dot11MgmtAssociationReq) LayerType() gopacket.LayerType
func (*Dot11MgmtAssociationReq) NextLayerType ¶
func (m *Dot11MgmtAssociationReq) NextLayerType() gopacket.LayerType
func (Dot11MgmtAssociationReq) SerializeTo ¶
func (m Dot11MgmtAssociationReq) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
type Dot11MgmtAssociationResp ¶
type Dot11MgmtAssociationResp struct { Dot11Mgmt CapabilityInfo uint16 Status Dot11Status AID uint16 }
func (*Dot11MgmtAssociationResp) CanDecode ¶
func (m *Dot11MgmtAssociationResp) CanDecode() gopacket.LayerClass
func (*Dot11MgmtAssociationResp) DecodeFromBytes ¶
func (m *Dot11MgmtAssociationResp) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11MgmtAssociationResp) LayerType ¶
func (m *Dot11MgmtAssociationResp) LayerType() gopacket.LayerType
func (*Dot11MgmtAssociationResp) NextLayerType ¶
func (m *Dot11MgmtAssociationResp) NextLayerType() gopacket.LayerType
func (Dot11MgmtAssociationResp) SerializeTo ¶
func (m Dot11MgmtAssociationResp) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
type Dot11MgmtAuthentication ¶
type Dot11MgmtAuthentication struct { Dot11Mgmt Algorithm Dot11Algorithm Sequence uint16 Status Dot11Status }
func (*Dot11MgmtAuthentication) CanDecode ¶
func (m *Dot11MgmtAuthentication) CanDecode() gopacket.LayerClass
func (*Dot11MgmtAuthentication) DecodeFromBytes ¶
func (m *Dot11MgmtAuthentication) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11MgmtAuthentication) LayerType ¶
func (m *Dot11MgmtAuthentication) LayerType() gopacket.LayerType
func (*Dot11MgmtAuthentication) NextLayerType ¶
func (m *Dot11MgmtAuthentication) NextLayerType() gopacket.LayerType
func (Dot11MgmtAuthentication) SerializeTo ¶
func (m Dot11MgmtAuthentication) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
type Dot11MgmtBeacon ¶
func (*Dot11MgmtBeacon) CanDecode ¶
func (m *Dot11MgmtBeacon) CanDecode() gopacket.LayerClass
func (*Dot11MgmtBeacon) DecodeFromBytes ¶
func (m *Dot11MgmtBeacon) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11MgmtBeacon) LayerType ¶
func (m *Dot11MgmtBeacon) LayerType() gopacket.LayerType
func (*Dot11MgmtBeacon) NextLayerType ¶
func (m *Dot11MgmtBeacon) NextLayerType() gopacket.LayerType
func (Dot11MgmtBeacon) SerializeTo ¶
func (m Dot11MgmtBeacon) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
type Dot11MgmtDeauthentication ¶
type Dot11MgmtDeauthentication struct { Dot11Mgmt Reason Dot11Reason }
func (*Dot11MgmtDeauthentication) CanDecode ¶
func (m *Dot11MgmtDeauthentication) CanDecode() gopacket.LayerClass
func (*Dot11MgmtDeauthentication) DecodeFromBytes ¶
func (m *Dot11MgmtDeauthentication) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11MgmtDeauthentication) LayerType ¶
func (m *Dot11MgmtDeauthentication) LayerType() gopacket.LayerType
func (Dot11MgmtDeauthentication) SerializeTo ¶
func (m Dot11MgmtDeauthentication) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
type Dot11MgmtDisassociation ¶
type Dot11MgmtDisassociation struct { Dot11Mgmt Reason Dot11Reason }
func (*Dot11MgmtDisassociation) CanDecode ¶
func (m *Dot11MgmtDisassociation) CanDecode() gopacket.LayerClass
func (*Dot11MgmtDisassociation) DecodeFromBytes ¶
func (m *Dot11MgmtDisassociation) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11MgmtDisassociation) LayerType ¶
func (m *Dot11MgmtDisassociation) LayerType() gopacket.LayerType
func (Dot11MgmtDisassociation) SerializeTo ¶
func (m Dot11MgmtDisassociation) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
type Dot11MgmtMeasurementPilot ¶
type Dot11MgmtMeasurementPilot struct {
Dot11Mgmt
}
func (*Dot11MgmtMeasurementPilot) CanDecode ¶
func (m *Dot11MgmtMeasurementPilot) CanDecode() gopacket.LayerClass
func (*Dot11MgmtMeasurementPilot) LayerType ¶
func (m *Dot11MgmtMeasurementPilot) LayerType() gopacket.LayerType
type Dot11MgmtProbeReq ¶
type Dot11MgmtProbeReq struct {
Dot11Mgmt
}
func (*Dot11MgmtProbeReq) CanDecode ¶
func (m *Dot11MgmtProbeReq) CanDecode() gopacket.LayerClass
func (*Dot11MgmtProbeReq) LayerType ¶
func (m *Dot11MgmtProbeReq) LayerType() gopacket.LayerType
func (*Dot11MgmtProbeReq) NextLayerType ¶
func (m *Dot11MgmtProbeReq) NextLayerType() gopacket.LayerType
type Dot11MgmtProbeResp ¶
func (*Dot11MgmtProbeResp) CanDecode ¶
func (m *Dot11MgmtProbeResp) CanDecode() gopacket.LayerClass
func (*Dot11MgmtProbeResp) DecodeFromBytes ¶
func (m *Dot11MgmtProbeResp) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11MgmtProbeResp) LayerType ¶
func (m *Dot11MgmtProbeResp) LayerType() gopacket.LayerType
func (*Dot11MgmtProbeResp) NextLayerType ¶
func (m *Dot11MgmtProbeResp) NextLayerType() gopacket.LayerType
func (Dot11MgmtProbeResp) SerializeTo ¶
func (m Dot11MgmtProbeResp) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
type Dot11MgmtReassociationReq ¶
type Dot11MgmtReassociationReq struct { Dot11Mgmt CapabilityInfo uint16 ListenInterval uint16 CurrentApAddress net.HardwareAddr }
func (*Dot11MgmtReassociationReq) CanDecode ¶
func (m *Dot11MgmtReassociationReq) CanDecode() gopacket.LayerClass
func (*Dot11MgmtReassociationReq) DecodeFromBytes ¶
func (m *Dot11MgmtReassociationReq) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11MgmtReassociationReq) LayerType ¶
func (m *Dot11MgmtReassociationReq) LayerType() gopacket.LayerType
func (*Dot11MgmtReassociationReq) NextLayerType ¶
func (m *Dot11MgmtReassociationReq) NextLayerType() gopacket.LayerType
func (Dot11MgmtReassociationReq) SerializeTo ¶
func (m Dot11MgmtReassociationReq) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
type Dot11MgmtReassociationResp ¶
type Dot11MgmtReassociationResp struct {
Dot11Mgmt
}
func (*Dot11MgmtReassociationResp) CanDecode ¶
func (m *Dot11MgmtReassociationResp) CanDecode() gopacket.LayerClass
func (*Dot11MgmtReassociationResp) LayerType ¶
func (m *Dot11MgmtReassociationResp) LayerType() gopacket.LayerType
func (*Dot11MgmtReassociationResp) NextLayerType ¶
func (m *Dot11MgmtReassociationResp) NextLayerType() gopacket.LayerType
type Dot11QOS ¶
type Dot11QOS struct { TID uint8 /* Traffic IDentifier */ EOSP bool /* End of service period */ AckPolicy Dot11AckPolicy TXOP uint8 }
type Dot11Reason ¶
type Dot11Reason uint16
const ( Dot11ReasonReserved Dot11Reason = 1 Dot11ReasonUnspecified Dot11Reason = 2 Dot11ReasonAuthExpired Dot11Reason = 3 Dot11ReasonDeauthStLeaving Dot11Reason = 4 Dot11ReasonInactivity Dot11Reason = 5 Dot11ReasonApFull Dot11Reason = 6 Dot11ReasonClass2FromNonAuth Dot11Reason = 7 Dot11ReasonClass3FromNonAss Dot11Reason = 8 Dot11ReasonDisasStLeaving Dot11Reason = 9 Dot11ReasonStNotAuth Dot11Reason = 10 )
func (Dot11Reason) String ¶
func (a Dot11Reason) String() string
String provides a human readable string for Dot11Reason. This string is possibly subject to change over time; if you're storing this persistently, you should probably store the Dot11Reason value, not its string.
type Dot11Status ¶
type Dot11Status uint16
const ( Dot11StatusSuccess Dot11Status = 0 Dot11StatusFailure Dot11Status = 1 // Unspecified failure Dot11StatusCannotSupportAllCapabilities Dot11Status = 10 // Cannot support all requested capabilities in the Capability Information field Dot11StatusInabilityExistsAssociation Dot11Status = 11 // Reassociation denied due to inability to confirm that association exists Dot11StatusAssociationDenied Dot11Status = 12 // Association denied due to reason outside the scope of this standard Dot11StatusAlgorithmUnsupported Dot11Status = 13 // Responding station does not support the specified authentication algorithm Dot11StatusOufOfExpectedSequence Dot11Status = 14 // Received an Authentication frame with authentication transaction sequence number out of expected sequence Dot11StatusChallengeFailure Dot11Status = 15 // Authentication rejected because of challenge failure Dot11StatusTimeout Dot11Status = 16 // Authentication rejected due to timeout waiting for next frame in sequence Dot11StatusAPUnableToHandle Dot11Status = 17 // Association denied because AP is unable to handle additional associated stations Dot11StatusRateUnsupported Dot11Status = 18 // Association denied due to requesting station not supporting all of the data rates in the BSSBasicRateSet parameter )
func (Dot11Status) String ¶
func (a Dot11Status) String() string
String provides a human readable string for Dot11Status. This string is possibly subject to change over time; if you're storing this persistently, you should probably store the Dot11Status value, not its string.
type Dot11Type ¶
type Dot11Type uint8
Dot11Type is a combination of IEEE 802.11 frame's Type and Subtype fields. By combining these two fields together into a single type, we're able to provide a String function that correctly displays the subtype given the top-level type.
If you just care about the top-level type, use the MainType function.
const ( Dot11TypeMgmt Dot11Type = 0x00 Dot11TypeCtrl Dot11Type = 0x01 Dot11TypeData Dot11Type = 0x02 Dot11TypeReserved Dot11Type = 0x03 // Management Dot11TypeMgmtAssociationReq Dot11Type = 0x00 Dot11TypeMgmtAssociationResp Dot11Type = 0x04 Dot11TypeMgmtReassociationReq Dot11Type = 0x08 Dot11TypeMgmtReassociationResp Dot11Type = 0x0c Dot11TypeMgmtProbeReq Dot11Type = 0x10 Dot11TypeMgmtProbeResp Dot11Type = 0x14 Dot11TypeMgmtMeasurementPilot Dot11Type = 0x18 Dot11TypeMgmtBeacon Dot11Type = 0x20 Dot11TypeMgmtATIM Dot11Type = 0x24 Dot11TypeMgmtDisassociation Dot11Type = 0x28 Dot11TypeMgmtAuthentication Dot11Type = 0x2c Dot11TypeMgmtDeauthentication Dot11Type = 0x30 Dot11TypeMgmtAction Dot11Type = 0x34 Dot11TypeMgmtActionNoAck Dot11Type = 0x38 // Control Dot11TypeCtrlWrapper Dot11Type = 0x1d Dot11TypeCtrlBlockAckReq Dot11Type = 0x21 Dot11TypeCtrlBlockAck Dot11Type = 0x25 Dot11TypeCtrlPowersavePoll Dot11Type = 0x29 Dot11TypeCtrlRTS Dot11Type = 0x2d Dot11TypeCtrlCTS Dot11Type = 0x31 Dot11TypeCtrlAck Dot11Type = 0x35 Dot11TypeCtrlCFEnd Dot11Type = 0x39 Dot11TypeCtrlCFEndAck Dot11Type = 0x3d // Data Dot11TypeDataCFAck Dot11Type = 0x06 Dot11TypeDataCFPoll Dot11Type = 0x0a Dot11TypeDataCFAckPoll Dot11Type = 0x0e Dot11TypeDataNull Dot11Type = 0x12 Dot11TypeDataCFAckNoData Dot11Type = 0x16 Dot11TypeDataCFPollNoData Dot11Type = 0x1a Dot11TypeDataCFAckPollNoData Dot11Type = 0x1e Dot11TypeDataQOSData Dot11Type = 0x22 Dot11TypeDataQOSDataCFAck Dot11Type = 0x26 Dot11TypeDataQOSDataCFPoll Dot11Type = 0x2a Dot11TypeDataQOSDataCFAckPoll Dot11Type = 0x2e Dot11TypeDataQOSNull Dot11Type = 0x32 Dot11TypeDataQOSCFPollNoData Dot11Type = 0x3a Dot11TypeDataQOSCFAckPollNoData Dot11Type = 0x3e )
func (Dot11Type) Decode ¶
func (a Dot11Type) Decode(data []byte, p gopacket.PacketBuilder) error
Decoder calls Dot11TypeMetadata.DecodeWith's decoder.
type Dot11WEP ¶
type Dot11WEP struct {
BaseLayer
}
Dot11WEP contains WEP encrpted IEEE 802.11 data.
func (*Dot11WEP) CanDecode ¶
func (m *Dot11WEP) CanDecode() gopacket.LayerClass
func (*Dot11WEP) DecodeFromBytes ¶
func (m *Dot11WEP) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Dot11WEP) NextLayerType ¶
type Dot1Q ¶
type Dot1Q struct { BaseLayer Priority uint8 DropEligible bool VLANIdentifier uint16 Type EthernetType }
Dot1Q is the packet layer for 802.1Q VLAN headers.
func (*Dot1Q) CanDecode ¶
func (d *Dot1Q) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*Dot1Q) DecodeFromBytes ¶
func (d *Dot1Q) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*Dot1Q) NextLayerType ¶
NextLayerType returns the layer type contained by this DecodingLayer.
func (*Dot1Q) SerializeTo ¶
func (d *Dot1Q) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type EAP ¶
EAP defines an Extensible Authentication Protocol (rfc 3748) layer.
func (*EAP) CanDecode ¶
func (e *EAP) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*EAP) DecodeFromBytes ¶
func (e *EAP) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*EAP) NextLayerType ¶
NextLayerType returns the layer type contained by this DecodingLayer.
func (*EAP) SerializeTo ¶
func (e *EAP) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type EAPOL ¶
EAPOL defines an EAP over LAN (802.1x) layer.
func (*EAPOL) CanDecode ¶
func (e *EAPOL) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*EAPOL) DecodeFromBytes ¶
func (e *EAPOL) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*EAPOL) NextLayerType ¶
NextLayerType returns the layer type contained by this DecodingLayer.
func (*EAPOL) SerializeTo ¶
func (e *EAPOL) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer
type EAPOLKey ¶
type EAPOLKey struct { BaseLayer KeyDescriptorType EAPOLKeyDescriptorType KeyDescriptorVersion EAPOLKeyDescriptorVersion KeyType EAPOLKeyType KeyIndex uint8 Install bool KeyACK bool KeyMIC bool Secure bool MICError bool Request bool HasEncryptedKeyData bool SMKMessage bool KeyLength uint16 ReplayCounter uint64 Nonce []byte IV []byte RSC uint64 ID uint64 MIC []byte KeyDataLength uint16 EncryptedKeyData []byte }
EAPOLKey defines an EAPOL-Key frame for 802.1x authentication
func (*EAPOLKey) CanDecode ¶
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*EAPOLKey) DecodeFromBytes ¶
func (ek *EAPOLKey) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*EAPOLKey) NextLayerType ¶
NextLayerType returns layers.LayerTypeDot11InformationElement if the key data exists and is unencrypted, otherwise it does not expect a next layer.
func (*EAPOLKey) SerializeTo ¶
func (ek *EAPOLKey) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type EAPOLKeyDescriptorType ¶
type EAPOLKeyDescriptorType uint8
EAPOLKeyDescriptorType is an enumeration of key descriptor types as specified by 802.1x in the EAPOL-Key frame
const ( EAPOLKeyDescriptorTypeRC4 EAPOLKeyDescriptorType = 1 EAPOLKeyDescriptorTypeDot11 EAPOLKeyDescriptorType = 2 EAPOLKeyDescriptorTypeWPA EAPOLKeyDescriptorType = 254 )
Enumeration of EAPOLKeyDescriptorType
func (EAPOLKeyDescriptorType) String ¶
func (kdt EAPOLKeyDescriptorType) String() string
type EAPOLKeyDescriptorVersion ¶
type EAPOLKeyDescriptorVersion uint8
EAPOLKeyDescriptorVersion is an enumeration of versions specifying the encryption algorithm for the key data and the authentication for the message integrity code (MIC)
const ( EAPOLKeyDescriptorVersionOther EAPOLKeyDescriptorVersion = 0 EAPOLKeyDescriptorVersionRC4HMACMD5 EAPOLKeyDescriptorVersion = 1 EAPOLKeyDescriptorVersionAESHMACSHA1 EAPOLKeyDescriptorVersion = 2 EAPOLKeyDescriptorVersionAES128CMAC EAPOLKeyDescriptorVersion = 3 )
Enumeration of EAPOLKeyDescriptorVersion
func (EAPOLKeyDescriptorVersion) String ¶
func (v EAPOLKeyDescriptorVersion) String() string
type EAPOLKeyType ¶
type EAPOLKeyType uint8
EAPOLKeyType is an enumeration of key derivation types describing the purpose of the keys being derived.
const ( EAPOLKeyTypeGroupSMK EAPOLKeyType = 0 EAPOLKeyTypePairwise EAPOLKeyType = 1 )
Enumeration of EAPOLKeyType
func (EAPOLKeyType) String ¶
func (kt EAPOLKeyType) String() string
type EAPOLType ¶
type EAPOLType uint8
EAPOLType is an enumeration of EAPOL packet types.
func (EAPOLType) Decode ¶
func (a EAPOLType) Decode(data []byte, p gopacket.PacketBuilder) error
Decoder calls EAPOLTypeMetadata.DecodeWith's decoder.
type ERSPANII ¶
type ERSPANII struct { BaseLayer IsTruncated bool Version, CoS, TrunkEncap uint8 VLANIdentifier, SessionID, Reserved uint16 Index uint32 }
ERSPANII contains all of the fields found in an ERSPAN Type II header https://tools.ietf.org/html/draft-foschiano-erspan-03
func (*ERSPANII) CanDecode ¶
func (erspan2 *ERSPANII) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*ERSPANII) DecodeFromBytes ¶
func (erspan2 *ERSPANII) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*ERSPANII) NextLayerType ¶
NextLayerType returns the layer type contained by this DecodingLayer.
func (*ERSPANII) SerializeTo ¶
func (erspan2 *ERSPANII) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type EnumMetadata ¶
type EnumMetadata struct { // DecodeWith is the decoder to use to decode this protocol's data. DecodeWith gopacket.Decoder // Name is the name of the enumeration value. Name string // LayerType is the layer type implied by the given enum. LayerType gopacket.LayerType }
EnumMetadata keeps track of a set of metadata for each enumeration value for protocol enumerations.
type EtherIP ¶
EtherIP is the struct for storing RFC 3378 EtherIP packet headers.
func (*EtherIP) CanDecode ¶
func (e *EtherIP) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*EtherIP) DecodeFromBytes ¶
func (e *EtherIP) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*EtherIP) NextLayerType ¶
NextLayerType returns the layer type contained by this DecodingLayer.
type Ethernet ¶
type Ethernet struct { BaseLayer SrcMAC, DstMAC net.HardwareAddr EthernetType EthernetType // Length is only set if a length field exists within this header. Ethernet // headers follow two different standards, one that uses an EthernetType, the // other which defines a length the follows with a LLC header (802.3). If the // former is the case, we set EthernetType and Length stays 0. In the latter // case, we set Length and EthernetType = EthernetTypeLLC. Length uint16 }
Ethernet is the layer for Ethernet frame headers.
func (*Ethernet) CanDecode ¶
func (eth *Ethernet) CanDecode() gopacket.LayerClass
func (*Ethernet) DecodeFromBytes ¶
func (eth *Ethernet) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Ethernet) NextLayerType ¶
func (*Ethernet) SerializeTo ¶
func (eth *Ethernet) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type EthernetCTP ¶
EthernetCTP implements the EthernetCTP protocol, see http://www.mit.edu/people/jhawk/ctp.html. We split EthernetCTP up into the top-level EthernetCTP layer, followed by zero or more EthernetCTPForwardData layers, followed by a final EthernetCTPReply layer.
func (*EthernetCTP) LayerType ¶
func (c *EthernetCTP) LayerType() gopacket.LayerType
LayerType returns gopacket.LayerTypeEthernetCTP.
type EthernetCTPForwardData ¶
type EthernetCTPForwardData struct { BaseLayer Function EthernetCTPFunction ForwardAddress []byte }
EthernetCTPForwardData is the ForwardData layer inside EthernetCTP. See EthernetCTP's docs for more details.
func (*EthernetCTPForwardData) ForwardEndpoint ¶
func (c *EthernetCTPForwardData) ForwardEndpoint() gopacket.Endpoint
ForwardEndpoint returns the EthernetCTPForwardData ForwardAddress as an endpoint.
func (*EthernetCTPForwardData) LayerType ¶
func (c *EthernetCTPForwardData) LayerType() gopacket.LayerType
LayerType returns gopacket.LayerTypeEthernetCTPForwardData.
type EthernetCTPFunction ¶
type EthernetCTPFunction uint16
EthernetCTPFunction is the function code used by the EthernetCTP protocol to identify each EthernetCTP layer.
const ( EthernetCTPFunctionReply EthernetCTPFunction = 1 EthernetCTPFunctionForwardData EthernetCTPFunction = 2 )
EthernetCTPFunction values.
type EthernetCTPReply ¶
type EthernetCTPReply struct { BaseLayer Function EthernetCTPFunction ReceiptNumber uint16 Data []byte }
EthernetCTPReply is the Reply layer inside EthernetCTP. See EthernetCTP's docs for more details.
func (*EthernetCTPReply) LayerType ¶
func (c *EthernetCTPReply) LayerType() gopacket.LayerType
LayerType returns gopacket.LayerTypeEthernetCTPReply.
func (*EthernetCTPReply) Payload ¶
func (c *EthernetCTPReply) Payload() []byte
Payload returns the EthernetCTP reply's Data bytes.
type EthernetType ¶
type EthernetType uint16
EthernetType is an enumeration of ethernet type values, and acts as a decoder for any type it supports.
const ( // EthernetTypeLLC is not an actual ethernet type. It is instead a // placeholder we use in Ethernet frames that use the 802.3 standard of // srcmac|dstmac|length|LLC instead of srcmac|dstmac|ethertype. EthernetTypeLLC EthernetType = 0 EthernetTypeIPv4 EthernetType = 0x0800 EthernetTypeARP EthernetType = 0x0806 EthernetTypeIPv6 EthernetType = 0x86DD EthernetTypeCiscoDiscovery EthernetType = 0x2000 EthernetTypeNortelDiscovery EthernetType = 0x01a2 EthernetTypeTransparentEthernetBridging EthernetType = 0x6558 EthernetTypeDot1Q EthernetType = 0x8100 EthernetTypePPP EthernetType = 0x880b EthernetTypePPPoEDiscovery EthernetType = 0x8863 EthernetTypePPPoESession EthernetType = 0x8864 EthernetTypeMPLSUnicast EthernetType = 0x8847 EthernetTypeMPLSMulticast EthernetType = 0x8848 EthernetTypeEAPOL EthernetType = 0x888e EthernetTypeERSPAN EthernetType = 0x88be EthernetTypeQinQ EthernetType = 0x88a8 EthernetTypeLinkLayerDiscovery EthernetType = 0x88cc EthernetTypeEthernetCTP EthernetType = 0x9000 )
func (EthernetType) Decode ¶
func (a EthernetType) Decode(data []byte, p gopacket.PacketBuilder) error
Decoder calls EthernetTypeMetadata.DecodeWith's decoder.
func (EthernetType) LayerType ¶
func (a EthernetType) LayerType() gopacket.LayerType
LayerType returns EthernetTypeMetadata.LayerType.
func (EthernetType) String ¶
func (a EthernetType) String() string
String returns EthernetTypeMetadata.Name.
type FDDI ¶
type FDDI struct { BaseLayer FrameControl FDDIFrameControl Priority uint8 SrcMAC, DstMAC net.HardwareAddr }
FDDI contains the header for FDDI frames.
type FDDIFrameControl ¶
type FDDIFrameControl uint8
FDDIFrameControl is an enumeration of FDDI frame control bytes.
const (
FDDIFrameControlLLC FDDIFrameControl = 0x50
)
func (FDDIFrameControl) Decode ¶
func (a FDDIFrameControl) Decode(data []byte, p gopacket.PacketBuilder) error
Decoder calls FDDIFrameControlMetadata.DecodeWith's decoder.
func (FDDIFrameControl) LayerType ¶
func (a FDDIFrameControl) LayerType() gopacket.LayerType
LayerType returns FDDIFrameControlMetadata.LayerType.
func (FDDIFrameControl) String ¶
func (a FDDIFrameControl) String() string
String returns FDDIFrameControlMetadata.Name.
type GRE ¶
type GRE struct { BaseLayer ChecksumPresent, RoutingPresent, KeyPresent, SeqPresent, StrictSourceRoute, AckPresent bool RecursionControl, Flags, Version uint8 Protocol EthernetType Checksum, Offset uint16 Key, Seq, Ack uint32 *GRERouting }
GRE is a Generic Routing Encapsulation header.
func (*GRE) CanDecode ¶
func (g *GRE) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*GRE) DecodeFromBytes ¶
func (g *GRE) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*GRE) NextLayerType ¶
NextLayerType returns the layer type contained by this DecodingLayer.
func (*GRE) SerializeTo ¶
func (g *GRE) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type GRERouting ¶
type GRERouting struct { AddressFamily uint16 SREOffset, SRELength uint8 RoutingInformation []byte Next *GRERouting }
GRERouting is GRE routing information, present if the RoutingPresent flag is set.
type GTPExtensionHeader ¶
GTPExtensionHeader is used to carry extra data and enable future extensions of the GTP without the need to use another version number.
type GTPv1U ¶
type GTPv1U struct { BaseLayer Version uint8 ProtocolType uint8 Reserved uint8 ExtensionHeaderFlag bool SequenceNumberFlag bool NPDUFlag bool MessageType uint8 MessageLength uint16 TEID uint32 SequenceNumber uint16 NPDU uint8 GTPExtensionHeaders []GTPExtensionHeader }
GTPv1U protocol is used to exchange user data over GTP tunnels across the Sx interfaces. Defined in https://portal.3gpp.org/desktopmodules/Specifications/SpecificationDetails.aspx?specificationId=1595
func (*GTPv1U) CanDecode ¶
func (g *GTPv1U) CanDecode() gopacket.LayerClass
CanDecode returns a set of layers that GTP objects can decode.
func (*GTPv1U) DecodeFromBytes ¶
func (g *GTPv1U) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes analyses a byte slice and attempts to decode it as a GTPv1U packet
func (*GTPv1U) NextLayerType ¶
NextLayerType specifies the next layer that GoPacket should attempt to
func (*GTPv1U) SerializeTo ¶
func (g *GTPv1U) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type Geneve ¶
type Geneve struct { BaseLayer Version uint8 // 2 bits OptionsLength uint8 // 6 bits OAMPacket bool // 1 bits CriticalOption bool // 1 bits Protocol EthernetType // 16 bits VNI uint32 // 24bits Options []*GeneveOption }
Geneve is specifed here https://tools.ietf.org/html/draft-ietf-nvo3-geneve-03 Geneve Header: +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ |Ver| Opt Len |O|C| Rsvd. | Protocol Type | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Virtual Network Identifier (VNI) | Reserved | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Variable Length Options | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
func (*Geneve) DecodeFromBytes ¶
func (gn *Geneve) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*Geneve) NextLayerType ¶
func (*Geneve) SerializeTo ¶
func (gn *Geneve) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type GeneveOption ¶
type GeneveOption struct { Class uint16 // 16 bits Type uint8 // 8 bits Flags uint8 // 3 bits Length uint8 // 5 bits Data []byte }
Geneve Tunnel Options +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Option Class | Type |R|R|R| Length | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Variable Option Data | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
type HelloPkg ¶
type HelloPkg struct { InterfaceID uint32 RtrPriority uint8 Options uint32 HelloInterval uint16 RouterDeadInterval uint32 DesignatedRouterID uint32 BackupDesignatedRouterID uint32 NeighborID []uint32 }
HelloPkg is the struct from RFC 5340 A.3.2.
type HelloPkgV2 ¶
HelloPkgV2 extends the HelloPkg struct with OSPFv2 information
type IANAAddressFamily ¶
type IANAAddressFamily byte
const ( IANAAddressFamilyReserved IANAAddressFamily = 0 IANAAddressFamilyIPV4 IANAAddressFamily = 1 IANAAddressFamilyIPV6 IANAAddressFamily = 2 IANAAddressFamilyNSAP IANAAddressFamily = 3 IANAAddressFamilyHDLC IANAAddressFamily = 4 IANAAddressFamilyBBN1822 IANAAddressFamily = 5 IANAAddressFamily802 IANAAddressFamily = 6 IANAAddressFamilyE163 IANAAddressFamily = 7 IANAAddressFamilyE164 IANAAddressFamily = 8 IANAAddressFamilyF69 IANAAddressFamily = 9 IANAAddressFamilyX121 IANAAddressFamily = 10 IANAAddressFamilyIPX IANAAddressFamily = 11 IANAAddressFamilyAtalk IANAAddressFamily = 12 IANAAddressFamilyDecnet IANAAddressFamily = 13 IANAAddressFamilyBanyan IANAAddressFamily = 14 IANAAddressFamilyE164NSAP IANAAddressFamily = 15 IANAAddressFamilyDNS IANAAddressFamily = 16 IANAAddressFamilyDistname IANAAddressFamily = 17 IANAAddressFamilyASNumber IANAAddressFamily = 18 IANAAddressFamilyXTPIPV4 IANAAddressFamily = 19 IANAAddressFamilyXTPIPV6 IANAAddressFamily = 20 IANAAddressFamilyXTP IANAAddressFamily = 21 IANAAddressFamilyFcWWPN IANAAddressFamily = 22 IANAAddressFamilyFcWWNN IANAAddressFamily = 23 IANAAddressFamilyGWID IANAAddressFamily = 24 IANAAddressFamilyL2VPN IANAAddressFamily = 25 )
LLDP Management Address Subtypes http://www.iana.org/assignments/address-family-numbers/address-family-numbers.xml
func (IANAAddressFamily) String ¶
func (t IANAAddressFamily) String() (s string)
type ICMPv4 ¶
type ICMPv4 struct { BaseLayer TypeCode ICMPv4TypeCode Checksum uint16 Id uint16 Seq uint16 }
ICMPv4 is the layer for IPv4 ICMP packet data.
func (*ICMPv4) CanDecode ¶
func (i *ICMPv4) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*ICMPv4) DecodeFromBytes ¶
func (i *ICMPv4) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*ICMPv4) NextLayerType ¶
NextLayerType returns the layer type contained by this DecodingLayer.
func (*ICMPv4) SerializeTo ¶
func (i *ICMPv4) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type ICMPv4TypeCode ¶
type ICMPv4TypeCode uint16
func CreateICMPv4TypeCode ¶
func CreateICMPv4TypeCode(typ uint8, code uint8) ICMPv4TypeCode
CreateICMPv4TypeCode is a convenience function to create an ICMPv4TypeCode gopacket type from the ICMPv4 type and code values.
func (ICMPv4TypeCode) Code ¶
func (a ICMPv4TypeCode) Code() uint8
Code returns the ICMPv4 code field.
func (ICMPv4TypeCode) GoString ¶
func (a ICMPv4TypeCode) GoString() string
func (ICMPv4TypeCode) SerializeTo ¶
func (a ICMPv4TypeCode) SerializeTo(bytes []byte)
SerializeTo writes the ICMPv4TypeCode value to the 'bytes' buffer.
func (ICMPv4TypeCode) String ¶
func (a ICMPv4TypeCode) String() string
func (ICMPv4TypeCode) Type ¶
func (a ICMPv4TypeCode) Type() uint8
Type returns the ICMPv4 type field.
type ICMPv6 ¶
type ICMPv6 struct { BaseLayer TypeCode ICMPv6TypeCode Checksum uint16 // TypeBytes is deprecated and always nil. See the different ICMPv6 message types // instead (e.g. ICMPv6TypeRouterSolicitation). TypeBytes []byte // contains filtered or unexported fields }
ICMPv6 is the layer for IPv6 ICMP packet data
func (*ICMPv6) CanDecode ¶
func (i *ICMPv6) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*ICMPv6) DecodeFromBytes ¶
func (i *ICMPv6) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*ICMPv6) NextLayerType ¶
NextLayerType returns the layer type contained by this DecodingLayer.
func (*ICMPv6) SerializeTo ¶
func (i *ICMPv6) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
func (*ICMPv6) SetNetworkLayerForChecksum ¶
func (i *ICMPv6) SetNetworkLayerForChecksum(l gopacket.NetworkLayer) error
SetNetworkLayerForChecksum tells this layer which network layer is wrapping it. This is needed for computing the checksum when serializing, since TCP/IP transport layer checksums depends on fields in the IPv4 or IPv6 layer that contains it. The passed in layer must be an *IPv4 or *IPv6.
type ICMPv6Echo ¶
ICMPv6Echo represents the structure of a ping.
func (*ICMPv6Echo) CanDecode ¶
func (i *ICMPv6Echo) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*ICMPv6Echo) DecodeFromBytes ¶
func (i *ICMPv6Echo) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*ICMPv6Echo) LayerType ¶
func (i *ICMPv6Echo) LayerType() gopacket.LayerType
LayerType returns LayerTypeICMPv6Echo.
func (*ICMPv6Echo) NextLayerType ¶
func (i *ICMPv6Echo) NextLayerType() gopacket.LayerType
NextLayerType returns the layer type contained by this DecodingLayer.
func (*ICMPv6Echo) SerializeTo ¶
func (i *ICMPv6Echo) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type ICMPv6NeighborAdvertisement ¶
type ICMPv6NeighborAdvertisement struct { BaseLayer Flags uint8 TargetAddress net.IP Options ICMPv6Options }
ICMPv6NeighborAdvertisement is sent by nodes in response to Solicitation.
func (*ICMPv6NeighborAdvertisement) CanDecode ¶
func (i *ICMPv6NeighborAdvertisement) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*ICMPv6NeighborAdvertisement) DecodeFromBytes ¶
func (i *ICMPv6NeighborAdvertisement) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*ICMPv6NeighborAdvertisement) LayerType ¶
func (i *ICMPv6NeighborAdvertisement) LayerType() gopacket.LayerType
LayerType returns LayerTypeICMPv6NeighborAdvertisement.
func (*ICMPv6NeighborAdvertisement) NextLayerType ¶
func (i *ICMPv6NeighborAdvertisement) NextLayerType() gopacket.LayerType
NextLayerType returns the layer type contained by this DecodingLayer.
func (*ICMPv6NeighborAdvertisement) Override ¶
func (i *ICMPv6NeighborAdvertisement) Override() bool
Override indicates whether the advertisement should Override an existing cache entry.
func (*ICMPv6NeighborAdvertisement) Router ¶
func (i *ICMPv6NeighborAdvertisement) Router() bool
Router indicates whether the sender is a router or not.
func (*ICMPv6NeighborAdvertisement) SerializeTo ¶
func (i *ICMPv6NeighborAdvertisement) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
func (*ICMPv6NeighborAdvertisement) Solicited ¶
func (i *ICMPv6NeighborAdvertisement) Solicited() bool
Solicited indicates whether the advertisement was solicited or not.
type ICMPv6NeighborSolicitation ¶
type ICMPv6NeighborSolicitation struct { BaseLayer TargetAddress net.IP Options ICMPv6Options }
ICMPv6NeighborSolicitation is sent to request the link-layer address of a target node.
func (*ICMPv6NeighborSolicitation) CanDecode ¶
func (i *ICMPv6NeighborSolicitation) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*ICMPv6NeighborSolicitation) DecodeFromBytes ¶
func (i *ICMPv6NeighborSolicitation) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*ICMPv6NeighborSolicitation) LayerType ¶
func (i *ICMPv6NeighborSolicitation) LayerType() gopacket.LayerType
LayerType returns LayerTypeICMPv6NeighborSolicitation.
func (*ICMPv6NeighborSolicitation) NextLayerType ¶
func (i *ICMPv6NeighborSolicitation) NextLayerType() gopacket.LayerType
NextLayerType returns the layer type contained by this DecodingLayer.
func (*ICMPv6NeighborSolicitation) SerializeTo ¶
func (i *ICMPv6NeighborSolicitation) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type ICMPv6Opt ¶
type ICMPv6Opt uint8
ICMPv6Opt indicate how to decode the data associated with each ICMPv6Option.
const ( // ICMPv6OptSourceAddress contains the link-layer address of the sender of // the packet. It is used in the Neighbor Solicitation, Router // Solicitation, and Router Advertisement packets. Must be ignored for other // Neighbor discovery messages. ICMPv6OptSourceAddress ICMPv6Opt // ICMPv6OptTargetAddress contains the link-layer address of the target. It // is used in Neighbor Advertisement and Redirect packets. Must be ignored // for other Neighbor discovery messages. ICMPv6OptTargetAddress // ICMPv6OptPrefixInfo provides hosts with on-link prefixes and prefixes // for Address Autoconfiguration. The Prefix Information option appears in // Router Advertisement packets and MUST be silently ignored for other // messages. ICMPv6OptPrefixInfo // ICMPv6OptRedirectedHeader is used in Redirect messages and contains all // or part of the packet that is being redirected. ICMPv6OptRedirectedHeader // ICMPv6OptMTU is used in Router Advertisement messages to ensure that all // nodes on a link use the same MTU value in those cases where the link MTU // is not well known. This option MUST be silently ignored for other // Neighbor Discovery messages. ICMPv6OptMTU )
type ICMPv6Option ¶
ICMPv6Option contains the type and data for a single option.
func (ICMPv6Option) String ¶
func (i ICMPv6Option) String() string
type ICMPv6Options ¶
type ICMPv6Options []ICMPv6Option
ICMPv6Options is a slice of ICMPv6Option.
func (*ICMPv6Options) DecodeFromBytes ¶
func (i *ICMPv6Options) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*ICMPv6Options) SerializeTo ¶
func (i *ICMPv6Options) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type ICMPv6Redirect ¶
type ICMPv6Redirect struct { BaseLayer TargetAddress net.IP DestinationAddress net.IP Options ICMPv6Options }
ICMPv6Redirect is sent by routers to inform hosts of a better first-hop node on the path to a destination.
func (*ICMPv6Redirect) CanDecode ¶
func (i *ICMPv6Redirect) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*ICMPv6Redirect) DecodeFromBytes ¶
func (i *ICMPv6Redirect) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*ICMPv6Redirect) LayerType ¶
func (i *ICMPv6Redirect) LayerType() gopacket.LayerType
LayerType returns LayerTypeICMPv6Redirect.
func (*ICMPv6Redirect) NextLayerType ¶
func (i *ICMPv6Redirect) NextLayerType() gopacket.LayerType
NextLayerType returns the layer type contained by this DecodingLayer.
func (*ICMPv6Redirect) SerializeTo ¶
func (i *ICMPv6Redirect) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type ICMPv6RouterAdvertisement ¶
type ICMPv6RouterAdvertisement struct { BaseLayer HopLimit uint8 Flags uint8 RouterLifetime uint16 ReachableTime uint32 RetransTimer uint32 Options ICMPv6Options }
ICMPv6RouterAdvertisement is sent by routers in response to Solicitation.
func (*ICMPv6RouterAdvertisement) CanDecode ¶
func (i *ICMPv6RouterAdvertisement) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*ICMPv6RouterAdvertisement) DecodeFromBytes ¶
func (i *ICMPv6RouterAdvertisement) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*ICMPv6RouterAdvertisement) LayerType ¶
func (i *ICMPv6RouterAdvertisement) LayerType() gopacket.LayerType
LayerType returns LayerTypeICMPv6RouterAdvertisement.
func (*ICMPv6RouterAdvertisement) ManagedAddressConfig ¶
func (i *ICMPv6RouterAdvertisement) ManagedAddressConfig() bool
ManagedAddressConfig is true when addresses are available via DHCPv6. If set, the OtherConfig flag is redundant.
func (*ICMPv6RouterAdvertisement) NextLayerType ¶
func (i *ICMPv6RouterAdvertisement) NextLayerType() gopacket.LayerType
NextLayerType returns the layer type contained by this DecodingLayer.
func (*ICMPv6RouterAdvertisement) OtherConfig ¶
func (i *ICMPv6RouterAdvertisement) OtherConfig() bool
OtherConfig is true when there is other configuration information available via DHCPv6. For example, DNS-related information.
func (*ICMPv6RouterAdvertisement) SerializeTo ¶
func (i *ICMPv6RouterAdvertisement) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type ICMPv6RouterSolicitation ¶
type ICMPv6RouterSolicitation struct { BaseLayer Options ICMPv6Options }
ICMPv6RouterSolicitation is sent by hosts to find routers.
func (*ICMPv6RouterSolicitation) CanDecode ¶
func (i *ICMPv6RouterSolicitation) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*ICMPv6RouterSolicitation) DecodeFromBytes ¶
func (i *ICMPv6RouterSolicitation) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*ICMPv6RouterSolicitation) LayerType ¶
func (i *ICMPv6RouterSolicitation) LayerType() gopacket.LayerType
LayerType returns LayerTypeICMPv6.
func (*ICMPv6RouterSolicitation) NextLayerType ¶
func (i *ICMPv6RouterSolicitation) NextLayerType() gopacket.LayerType
NextLayerType returns the layer type contained by this DecodingLayer.
func (*ICMPv6RouterSolicitation) SerializeTo ¶
func (i *ICMPv6RouterSolicitation) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type ICMPv6TypeCode ¶
type ICMPv6TypeCode uint16
func CreateICMPv6TypeCode ¶
func CreateICMPv6TypeCode(typ uint8, code uint8) ICMPv6TypeCode
CreateICMPv6TypeCode is a convenience function to create an ICMPv6TypeCode gopacket type from the ICMPv6 type and code values.
func (ICMPv6TypeCode) Code ¶
func (a ICMPv6TypeCode) Code() uint8
Code returns the ICMPv6 code field.
func (ICMPv6TypeCode) GoString ¶
func (a ICMPv6TypeCode) GoString() string
func (ICMPv6TypeCode) SerializeTo ¶
func (a ICMPv6TypeCode) SerializeTo(bytes []byte)
SerializeTo writes the ICMPv6TypeCode value to the 'bytes' buffer.
func (ICMPv6TypeCode) String ¶
func (a ICMPv6TypeCode) String() string
func (ICMPv6TypeCode) Type ¶
func (a ICMPv6TypeCode) Type() uint8
Type returns the ICMPv6 type field.
type IEEEOUI ¶
type IEEEOUI uint32
type IGMP ¶
type IGMP struct { BaseLayer Type IGMPType MaxResponseTime time.Duration Checksum uint16 GroupAddress net.IP SupressRouterProcessing bool RobustnessValue uint8 IntervalTime time.Duration SourceAddresses []net.IP NumberOfGroupRecords uint16 NumberOfSources uint16 GroupRecords []IGMPv3GroupRecord Version uint8 // IGMP protocol version }
IGMP represents an IGMPv3 message.
func (*IGMP) CanDecode ¶
func (i *IGMP) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*IGMP) DecodeFromBytes ¶
func (i *IGMP) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*IGMP) NextLayerType ¶
NextLayerType returns the layer type contained by this DecodingLayer.
type IGMPType ¶
type IGMPType uint8
const ( IGMPMembershipQuery IGMPType = 0x11 // General or group specific query IGMPMembershipReportV1 IGMPType = 0x12 // Version 1 Membership Report IGMPMembershipReportV2 IGMPType = 0x16 // Version 2 Membership Report IGMPLeaveGroup IGMPType = 0x17 // Leave Group IGMPMembershipReportV3 IGMPType = 0x22 // Version 3 Membership Report )
type IGMPv1or2 ¶
type IGMPv1or2 struct { BaseLayer Type IGMPType // IGMP message type MaxResponseTime time.Duration // meaningful only in Membership Query messages Checksum uint16 // 16-bit checksum of entire ip payload GroupAddress net.IP // either 0 or an IP multicast address Version uint8 }
IGMPv1or2 stores header details for an IGMPv1 or IGMPv2 packet.
0 1 2 3 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Type | Max Resp Time | Checksum | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Group Address | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
func (*IGMPv1or2) CanDecode ¶
func (i *IGMPv1or2) CanDecode() gopacket.LayerClass
func (*IGMPv1or2) DecodeFromBytes ¶
func (i *IGMPv1or2) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*IGMPv1or2) NextLayerType ¶
type IGMPv3GroupRecord ¶
type IGMPv3GroupRecord struct { Type IGMPv3GroupRecordType AuxDataLen uint8 // this should always be 0 as per IGMPv3 spec. NumberOfSources uint16 MulticastAddress net.IP SourceAddresses []net.IP AuxData uint32 // NOT USED }
IGMPv3GroupRecord stores individual group records for a V3 Membership Report message.
type IGMPv3GroupRecordType ¶
type IGMPv3GroupRecordType uint8
const ( IGMPIsIn IGMPv3GroupRecordType = 0x01 // Type MODE_IS_INCLUDE, source addresses x IGMPIsEx IGMPv3GroupRecordType = 0x02 // Type MODE_IS_EXCLUDE, source addresses x IGMPToIn IGMPv3GroupRecordType = 0x03 // Type CHANGE_TO_INCLUDE_MODE, source addresses x IGMPToEx IGMPv3GroupRecordType = 0x04 // Type CHANGE_TO_EXCLUDE_MODE, source addresses x IGMPAllow IGMPv3GroupRecordType = 0x05 // Type ALLOW_NEW_SOURCES, source addresses x IGMPBlock IGMPv3GroupRecordType = 0x06 // Type BLOCK_OLD_SOURCES, source addresses x )
func (IGMPv3GroupRecordType) String ¶
func (i IGMPv3GroupRecordType) String() string
type IPProtocol ¶
type IPProtocol uint8
IPProtocol is an enumeration of IP protocol values, and acts as a decoder for any type it supports.
const ( IPProtocolIPv6HopByHop IPProtocol = 0 IPProtocolICMPv4 IPProtocol = 1 IPProtocolIGMP IPProtocol = 2 IPProtocolIPv4 IPProtocol = 4 IPProtocolTCP IPProtocol = 6 IPProtocolUDP IPProtocol = 17 IPProtocolRUDP IPProtocol = 27 IPProtocolIPv6 IPProtocol = 41 IPProtocolIPv6Routing IPProtocol = 43 IPProtocolIPv6Fragment IPProtocol = 44 IPProtocolGRE IPProtocol = 47 IPProtocolESP IPProtocol = 50 IPProtocolAH IPProtocol = 51 IPProtocolICMPv6 IPProtocol = 58 IPProtocolNoNextHeader IPProtocol = 59 IPProtocolIPv6Destination IPProtocol = 60 IPProtocolOSPF IPProtocol = 89 IPProtocolIPIP IPProtocol = 94 IPProtocolEtherIP IPProtocol = 97 IPProtocolVRRP IPProtocol = 112 IPProtocolSCTP IPProtocol = 132 IPProtocolUDPLite IPProtocol = 136 IPProtocolMPLSInIP IPProtocol = 137 )
func (IPProtocol) Decode ¶
func (a IPProtocol) Decode(data []byte, p gopacket.PacketBuilder) error
Decoder calls IPProtocolMetadata.DecodeWith's decoder.
func (IPProtocol) LayerType ¶
func (a IPProtocol) LayerType() gopacket.LayerType
LayerType returns IPProtocolMetadata.LayerType.
func (IPProtocol) String ¶
func (a IPProtocol) String() string
String returns IPProtocolMetadata.Name.
type IPSecAH ¶
type IPSecAH struct { Reserved uint16 SPI, Seq uint32 AuthenticationData []byte // contains filtered or unexported fields }
IPSecAH is the authentication header for IPv4/6 defined in http://tools.ietf.org/html/rfc2402
type IPSecESP ¶
type IPSecESP struct { BaseLayer SPI, Seq uint32 // Encrypted contains the encrypted set of bytes sent in an ESP Encrypted []byte }
IPSecESP is the encapsulating security payload defined in http://tools.ietf.org/html/rfc2406
type IPv4 ¶
type IPv4 struct { BaseLayer Version uint8 IHL uint8 TOS uint8 Length uint16 Id uint16 Flags IPv4Flag FragOffset uint16 TTL uint8 Protocol IPProtocol Checksum uint16 SrcIP net.IP DstIP net.IP Options []IPv4Option Padding []byte }
IPv4 is the header of an IP packet.
func (*IPv4) AddressTo4 ¶
func (*IPv4) CanDecode ¶
func (i *IPv4) CanDecode() gopacket.LayerClass
func (*IPv4) DecodeFromBytes ¶
func (ip *IPv4) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*IPv4) NetworkFlow ¶
func (*IPv4) NextLayerType ¶
func (*IPv4) SerializeTo ¶
func (ip *IPv4) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer.
type IPv4Flag ¶
type IPv4Flag uint8
const ( IPv4EvilBit IPv4Flag = 1 << 2 // http://tools.ietf.org/html/rfc3514 ;) IPv4DontFragment IPv4Flag = 1 << 1 IPv4MoreFragments IPv4Flag = 1 << 0 )
type IPv4Option ¶
func (IPv4Option) String ¶
func (i IPv4Option) String() string
type IPv6 ¶
type IPv6 struct { // http://www.networksorcery.com/enp/protocol/ipv6.htm BaseLayer Version uint8 TrafficClass uint8 FlowLabel uint32 Length uint16 NextHeader IPProtocol HopLimit uint8 SrcIP net.IP DstIP net.IP HopByHop *IPv6HopByHop // contains filtered or unexported fields }
IPv6 is the layer for the IPv6 header.
func (*IPv6) AddressTo16 ¶
AddressTo16 ensures IPv6.SrcIP and IPv6.DstIP are actually IPv6 addresses (i.e. 16 byte addresses)
func (*IPv6) CanDecode ¶
func (ipv6 *IPv6) CanDecode() gopacket.LayerClass
CanDecode implementation according to gopacket.DecodingLayer
func (*IPv6) DecodeFromBytes ¶
func (ipv6 *IPv6) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes implementation according to gopacket.DecodingLayer
func (*IPv6) NetworkFlow ¶
NetworkFlow returns this new Flow (EndpointIPv6, SrcIP, DstIP)
func (*IPv6) NextLayerType ¶
NextLayerType implementation according to gopacket.DecodingLayer
func (*IPv6) SerializeTo ¶
func (ipv6 *IPv6) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type IPv6Destination ¶
type IPv6Destination struct { Options []*IPv6DestinationOption // contains filtered or unexported fields }
IPv6Destination is the IPv6 destination options header.
func (*IPv6Destination) DecodeFromBytes ¶
func (i *IPv6Destination) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes implementation according to gopacket.DecodingLayer
func (*IPv6Destination) LayerType ¶
func (i *IPv6Destination) LayerType() gopacket.LayerType
LayerType returns LayerTypeIPv6Destination.
func (*IPv6Destination) SerializeTo ¶
func (i *IPv6Destination) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type IPv6DestinationOption ¶
type IPv6DestinationOption ipv6HeaderTLVOption
IPv6DestinationOption is a TLV option present in an IPv6 destination options extension.
type IPv6ExtensionSkipper ¶
type IPv6ExtensionSkipper struct { NextHeader IPProtocol BaseLayer }
IPv6ExtensionSkipper is a DecodingLayer which decodes and ignores v6 extensions. You can use it with a DecodingLayerParser to handle IPv6 stacks which may or may not have extensions.
func (*IPv6ExtensionSkipper) CanDecode ¶
func (i *IPv6ExtensionSkipper) CanDecode() gopacket.LayerClass
CanDecode implementation according to gopacket.DecodingLayer
func (*IPv6ExtensionSkipper) DecodeFromBytes ¶
func (i *IPv6ExtensionSkipper) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes implementation according to gopacket.DecodingLayer
func (*IPv6ExtensionSkipper) NextLayerType ¶
func (i *IPv6ExtensionSkipper) NextLayerType() gopacket.LayerType
NextLayerType implementation according to gopacket.DecodingLayer
type IPv6Fragment ¶
type IPv6Fragment struct { BaseLayer NextHeader IPProtocol // Reserved1 is bits [8-16), from least to most significant, 0-indexed Reserved1 uint8 FragmentOffset uint16 // Reserved2 is bits [29-31), from least to most significant, 0-indexed Reserved2 uint8 MoreFragments bool Identification uint32 }
IPv6Fragment is the IPv6 fragment header, used for packet fragmentation/defragmentation.
func (*IPv6Fragment) LayerType ¶
func (i *IPv6Fragment) LayerType() gopacket.LayerType
LayerType returns LayerTypeIPv6Fragment.
type IPv6HopByHop ¶
type IPv6HopByHop struct { Options []*IPv6HopByHopOption // contains filtered or unexported fields }
IPv6HopByHop is the IPv6 hop-by-hop extension.
func (*IPv6HopByHop) DecodeFromBytes ¶
func (i *IPv6HopByHop) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes implementation according to gopacket.DecodingLayer
func (*IPv6HopByHop) LayerType ¶
func (i *IPv6HopByHop) LayerType() gopacket.LayerType
LayerType returns LayerTypeIPv6HopByHop.
func (*IPv6HopByHop) SerializeTo ¶
func (i *IPv6HopByHop) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo implementation according to gopacket.SerializableLayer
type IPv6HopByHopOption ¶
type IPv6HopByHopOption ipv6HeaderTLVOption
IPv6HopByHopOption is a TLV option present in an IPv6 hop-by-hop extension.
func (*IPv6HopByHopOption) SetJumboLength ¶
func (o *IPv6HopByHopOption) SetJumboLength(len uint32)
SetJumboLength adds the IPv6HopByHopOptionJumbogram with the given length
type IPv6Routing ¶
type IPv6Routing struct { RoutingType uint8 SegmentsLeft uint8 // This segment is supposed to be zero according to RFC2460, the second set of // 4 bytes in the extension. Reserved []byte // SourceRoutingIPs is the set of IPv6 addresses requested for source routing, // set only if RoutingType == 0. SourceRoutingIPs []net.IP // contains filtered or unexported fields }
IPv6Routing is the IPv6 routing extension.
func (*IPv6Routing) LayerType ¶
func (i *IPv6Routing) LayerType() gopacket.LayerType
LayerType returns LayerTypeIPv6Routing.
type InterAreaPrefixLSA ¶
type InterAreaPrefixLSA struct { Metric uint32 PrefixLength uint8 PrefixOptions uint8 AddressPrefix []byte }
InterAreaPrefixLSA is the struct from RFC 5340 A.4.5.
type InterAreaRouterLSA ¶
InterAreaRouterLSA is the struct from RFC 5340 A.4.6.
type IntraAreaPrefixLSA ¶
type IntraAreaPrefixLSA struct { NumOfPrefixes uint16 RefLSType uint16 RefLinkStateID uint32 RefAdvRouter uint32 Prefixes []Prefix }
IntraAreaPrefixLSA is the struct from RFC 5340 A.4.10.
type LCM ¶
type LCM struct { // Common (short & fragmented header) fields Magic uint32 SequenceNumber uint32 // Fragmented header only fields PayloadSize uint32 FragmentOffset uint32 FragmentNumber uint16 TotalFragments uint16 // Common field ChannelName string // Gopacket helper fields Fragmented bool // contains filtered or unexported fields }
LCM (Lightweight Communications and Marshalling) is a set of libraries and tools for message passing and data marshalling, targeted at real-time systems where high-bandwidth and low latency are critical. It provides a publish/subscribe message passing model and automatic marshalling/unmarshalling code generation with bindings for applications in a variety of programming languages.
References
https://lcm-proj.github.io/ https://github.com/lcm-proj/lcm
func (LCM) CanDecode ¶
func (lcm LCM) CanDecode() gopacket.LayerClass
CanDecode returns a set of layers that LCM objects can decode. As LCM objects can only decode the LCM layer, we just return that layer.
func (*LCM) DecodeFromBytes ¶
func (lcm *LCM) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (LCM) Fingerprint ¶
func (lcm LCM) Fingerprint() LCMFingerprint
Fingerprint returns the LCM fingerprint of the underlying message.
func (LCM) LayerContents ¶
LayerContents returns the contents of the LCM header.
func (LCM) LayerPayload ¶
LayerPayload returns the payload following this LCM header.
func (LCM) NextLayerType ¶
NextLayerType specifies the LCM payload layer type following this header. As LCM packets are serialized structs with uniq fingerprints for each uniq combination of data types, lookup of correct layer type is based on that fingerprint.
type LCMFingerprint ¶
type LCMFingerprint uint64
LCMFingerprint is the type of a LCM fingerprint.
func SupportedLCMFingerprints ¶
func SupportedLCMFingerprints() []LCMFingerprint
SupportedLCMFingerprints returns a slice of all LCM fingerprints that has been registered so far.
type LLC ¶
type LLC struct { BaseLayer DSAP uint8 IG bool // true means group, false means individual SSAP uint8 CR bool // true means response, false means command Control uint16 }
LLC is the layer used for 802.2 Logical Link Control headers. See http://standards.ieee.org/getieee802/download/802.2-1998.pdf
func (*LLC) CanDecode ¶
func (l *LLC) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*LLC) DecodeFromBytes ¶
func (l *LLC) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*LLC) NextLayerType ¶
NextLayerType returns the layer type contained by this DecodingLayer.
func (*LLC) SerializeTo ¶
func (l *LLC) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type LLDPApplicationType ¶
type LLDPApplicationType uint8
const ( LLDPAppTypeReserved LLDPApplicationType = 0 LLDPAppTypeVoice LLDPApplicationType = 1 LLDPappTypeVoiceSignaling LLDPApplicationType = 2 LLDPappTypeGuestVoice LLDPApplicationType = 3 LLDPappTypeGuestVoiceSignaling LLDPApplicationType = 4 LLDPappTypeSoftphoneVoice LLDPApplicationType = 5 LLDPappTypeVideoConferencing LLDPApplicationType = 6 LLDPappTypeStreamingVideo LLDPApplicationType = 7 LLDPappTypeVideoSignaling LLDPApplicationType = 8 )
func (LLDPApplicationType) String ¶
func (t LLDPApplicationType) String() (s string)
type LLDPCapabilities ¶
type LLDPCapabilities struct { Other bool Repeater bool Bridge bool WLANAP bool Router bool Phone bool DocSis bool StationOnly bool CVLAN bool SVLAN bool TMPR bool }
LLDPCapabilities represents the capabilities of a device
type LLDPChassisID ¶
type LLDPChassisID struct { Subtype LLDPChassisIDSubType ID []byte }
type LLDPChassisIDSubType ¶
type LLDPChassisIDSubType byte
LLDPChassisIDSubType specifies the value type for a single LLDPChassisID.ID
const ( LLDPChassisIDSubTypeReserved LLDPChassisIDSubType = 0 LLDPChassisIDSubTypeChassisComp LLDPChassisIDSubType = 1 LLDPChassisIDSubtypeIfaceAlias LLDPChassisIDSubType = 2 LLDPChassisIDSubTypePortComp LLDPChassisIDSubType = 3 LLDPChassisIDSubTypeMACAddr LLDPChassisIDSubType = 4 LLDPChassisIDSubTypeNetworkAddr LLDPChassisIDSubType = 5 LLDPChassisIDSubtypeIfaceName LLDPChassisIDSubType = 6 LLDPChassisIDSubTypeLocal LLDPChassisIDSubType = 7 )
LLDP Chassis Types
func (LLDPChassisIDSubType) String ¶
func (t LLDPChassisIDSubType) String() (s string)
type LLDPCisco2Subtype ¶
type LLDPCisco2Subtype uint8
const (
LLDPCisco2PowerViaMDI LLDPCisco2Subtype = 1
)
Cisco2 TLV Subtypes
type LLDPEVBCapabilities ¶
type LLDPEVBCapabilities struct { StandardBridging bool ReflectiveRelay bool RetransmissionTimerExponent bool EdgeControlProtocol bool VSIDiscoveryProtocol bool }
LLDPEVBCapabilities represents the EVB capabilities of a device
type LLDPEVBSettings ¶
type LLDPEVBSettings struct { Supported LLDPEVBCapabilities Enabled LLDPEVBCapabilities SupportedVSIs uint16 ConfiguredVSIs uint16 RTEExponent uint8 }
type LLDPInfo8021 ¶
type LLDPInfo8021 struct { PVID uint16 PPVIDs []PortProtocolVLANID VLANNames []VLANName ProtocolIdentities []ProtocolIdentity VIDUsageDigest uint32 ManagementVID uint16 LinkAggregation LLDPLinkAggregation }
LLDPInfo8021 represents the information carried in 802.1 Org-specific TLVs
type LLDPInfo8021Qbg ¶
type LLDPInfo8021Qbg struct {
EVBSettings LLDPEVBSettings
}
LLDPInfo8021Qbg represents the information carried in 802.1Qbg Org-specific TLVs
type LLDPInfo8023 ¶
type LLDPInfo8023 struct { MACPHYConfigStatus LLDPMACPHYConfigStatus PowerViaMDI LLDPPowerViaMDI8023 LinkAggregation LLDPLinkAggregation MTU uint16 }
LLDPInfo8023 represents the information carried in 802.3 Org-specific TLVs
type LLDPInfoCisco2 ¶
type LLDPInfoCisco2 struct { PSEFourWirePoESupported bool PDRequestSparePairPoEOn bool PSESparePairPoEOn bool }
LLDPInfoCisco2 represents the information carried in Cisco Org-specific TLVs
type LLDPInfoMedia ¶
type LLDPInfoMedia struct { MediaCapabilities LLDPMediaCapabilities NetworkPolicy LLDPNetworkPolicy Location LLDPLocation PowerViaMDI LLDPPowerViaMDI HardwareRevision string FirmwareRevision string SoftwareRevision string SerialNumber string Manufacturer string Model string AssetID string }
LLDPInfoMedia represents the information carried in TR-41 Org-specific TLVs
type LLDPInfoProfinet ¶
type LLDPInfoProfinet struct { PNIODelay LLDPPNIODelay PNIOPortStatus LLDPPNIOPortStatus PNIOMRPPortStatus LLDPPNIOMRPPortStatus ChassisMAC []byte PNIOPTCPStatus LLDPPNIOPTCPStatus }
LLDPInfoProfinet represents the information carried in Profinet Org-specific TLVs
type LLDPInterfaceSubtype ¶
type LLDPInterfaceSubtype byte
const ( LLDPInterfaceSubtypeUnknown LLDPInterfaceSubtype = 1 LLDPInterfaceSubtypeifIndex LLDPInterfaceSubtype = 2 LLDPInterfaceSubtypeSysPort LLDPInterfaceSubtype = 3 )
LLDP Interface Subtypes
func (LLDPInterfaceSubtype) String ¶
func (t LLDPInterfaceSubtype) String() (s string)
type LLDPLinkAggregation ¶
IEEE 802 Link Aggregation parameters
type LLDPLocation ¶
type LLDPLocation struct { Format LLDPLocationFormat Coordinate LLDPLocationCoordinate Address LLDPLocationAddress ECS LLDPLocationECS }
LLDP represents a physical location. Only one of the embedded types will contain values, depending on Format.
type LLDPLocationAddress ¶
type LLDPLocationAddress struct { What LLDPLocationAddressWhat CountryCode string AddressLines []LLDPLocationAddressLine }
type LLDPLocationAddressLine ¶
type LLDPLocationAddressLine struct { Type LLDPLocationAddressType Value string }
type LLDPLocationAddressType ¶
type LLDPLocationAddressType uint8
const ( LLDPLocationAddressTypeLanguage LLDPLocationAddressType = 0 LLDPLocationAddressTypeNational LLDPLocationAddressType = 1 LLDPLocationAddressTypeCounty LLDPLocationAddressType = 2 LLDPLocationAddressTypeCity LLDPLocationAddressType = 3 LLDPLocationAddressTypeCityDivision LLDPLocationAddressType = 4 LLDPLocationAddressTypeNeighborhood LLDPLocationAddressType = 5 LLDPLocationAddressTypeStreet LLDPLocationAddressType = 6 LLDPLocationAddressTypeLeadingStreet LLDPLocationAddressType = 16 LLDPLocationAddressTypeTrailingStreet LLDPLocationAddressType = 17 LLDPLocationAddressTypeStreetSuffix LLDPLocationAddressType = 18 LLDPLocationAddressTypeHouseNum LLDPLocationAddressType = 19 LLDPLocationAddressTypeHouseSuffix LLDPLocationAddressType = 20 LLDPLocationAddressTypeLandmark LLDPLocationAddressType = 21 LLDPLocationAddressTypeAdditional LLDPLocationAddressType = 22 LLDPLocationAddressTypeName LLDPLocationAddressType = 23 LLDPLocationAddressTypePostal LLDPLocationAddressType = 24 LLDPLocationAddressTypeBuilding LLDPLocationAddressType = 25 LLDPLocationAddressTypeUnit LLDPLocationAddressType = 26 LLDPLocationAddressTypeFloor LLDPLocationAddressType = 27 LLDPLocationAddressTypeRoom LLDPLocationAddressType = 28 LLDPLocationAddressTypePlace LLDPLocationAddressType = 29 LLDPLocationAddressTypeScript LLDPLocationAddressType = 128 )
func (LLDPLocationAddressType) String ¶
func (t LLDPLocationAddressType) String() (s string)
type LLDPLocationAddressWhat ¶
type LLDPLocationAddressWhat uint8
const ( LLDPLocationAddressWhatDHCP LLDPLocationAddressWhat = 0 LLDPLocationAddressWhatNetwork LLDPLocationAddressWhat = 1 LLDPLocationAddressWhatClient LLDPLocationAddressWhat = 2 )
type LLDPLocationCoordinate ¶
type LLDPLocationECS ¶
type LLDPLocationECS struct {
ELIN string
}
type LLDPLocationFormat ¶
type LLDPLocationFormat uint8
const ( LLDPLocationFormatInvalid LLDPLocationFormat = 0 LLDPLocationFormatCoordinate LLDPLocationFormat = 1 LLDPLocationFormatAddress LLDPLocationFormat = 2 LLDPLocationFormatECS LLDPLocationFormat = 3 )
func (LLDPLocationFormat) String ¶
func (t LLDPLocationFormat) String() (s string)
type LLDPMACPHYConfigStatus ¶
type LLDPMediaCapabilities ¶
type LLDPMediaCapabilities struct { Capabilities bool NetworkPolicy bool Location bool PowerPSE bool PowerPD bool Inventory bool Class LLDPMediaClass }
LLDPMediaCapabilities represents the LLDP Media capabilities of a device
type LLDPMediaClass ¶
type LLDPMediaClass uint8
const ( LLDPMediaClassUndefined LLDPMediaClass = 0 LLDPMediaClassEndpointI LLDPMediaClass = 1 LLDPMediaClassEndpointII LLDPMediaClass = 2 LLDPMediaClassEndpointIII LLDPMediaClass = 3 LLDPMediaClassNetwork LLDPMediaClass = 4 )
Media Class Values
func (LLDPMediaClass) String ¶
func (t LLDPMediaClass) String() (s string)
type LLDPMediaSubtype ¶
type LLDPMediaSubtype uint8
const ( LLDPMediaTypeCapabilities LLDPMediaSubtype = 1 LLDPMediaTypeNetwork LLDPMediaSubtype = 2 LLDPMediaTypeLocation LLDPMediaSubtype = 3 LLDPMediaTypePower LLDPMediaSubtype = 4 LLDPMediaTypeHardware LLDPMediaSubtype = 5 LLDPMediaTypeFirmware LLDPMediaSubtype = 6 LLDPMediaTypeSoftware LLDPMediaSubtype = 7 LLDPMediaTypeSerial LLDPMediaSubtype = 8 LLDPMediaTypeManufacturer LLDPMediaSubtype = 9 LLDPMediaTypeModel LLDPMediaSubtype = 10 LLDPMediaTypeAssetID LLDPMediaSubtype = 11 )
Media TLV Subtypes
func (LLDPMediaSubtype) String ¶
func (t LLDPMediaSubtype) String() (s string)
type LLDPMgmtAddress ¶
type LLDPMgmtAddress struct { Subtype IANAAddressFamily Address []byte InterfaceSubtype LLDPInterfaceSubtype InterfaceNumber uint32 OID string }
type LLDPNetworkPolicy ¶
type LLDPOrgSpecificTLV ¶
LLDPOrgSpecificTLV is an Organisation-specific TLV
type LLDPPNIODelay ¶
type LLDPPNIOMRPPortStatus ¶
type LLDPPNIOPTCPStatus ¶
type LLDPPNIOPortStatus ¶
type LLDPPortID ¶
type LLDPPortID struct { Subtype LLDPPortIDSubType ID []byte }
type LLDPPortIDSubType ¶
type LLDPPortIDSubType byte
LLDPPortIDSubType specifies the value type for a single LLDPPortID.ID
const ( LLDPPortIDSubtypeReserved LLDPPortIDSubType = 0 LLDPPortIDSubtypeIfaceAlias LLDPPortIDSubType = 1 LLDPPortIDSubtypePortComp LLDPPortIDSubType = 2 LLDPPortIDSubtypeMACAddr LLDPPortIDSubType = 3 LLDPPortIDSubtypeNetworkAddr LLDPPortIDSubType = 4 LLDPPortIDSubtypeIfaceName LLDPPortIDSubType = 5 LLDPPortIDSubtypeAgentCircuitID LLDPPortIDSubType = 6 LLDPPortIDSubtypeLocal LLDPPortIDSubType = 7 )
LLDP PortID types
func (LLDPPortIDSubType) String ¶
func (t LLDPPortIDSubType) String() (s string)
type LLDPPowerPriority ¶
type LLDPPowerPriority byte
const ( LLDPPowerPriorityUnknown LLDPPowerPriority = 0 LLDPPowerPriorityMedium LLDPPowerPriority = 1 LLDPPowerPriorityHigh LLDPPowerPriority = 2 LLDPPowerPriorityLow LLDPPowerPriority = 3 )
func (LLDPPowerPriority) String ¶
func (t LLDPPowerPriority) String() (s string)
type LLDPPowerSource ¶
type LLDPPowerSource byte
func (LLDPPowerSource) String ¶
func (t LLDPPowerSource) String() (s string)
type LLDPPowerType ¶
type LLDPPowerType byte
func (LLDPPowerType) String ¶
func (t LLDPPowerType) String() (s string)
type LLDPPowerViaMDI ¶
type LLDPPowerViaMDI struct { Type LLDPPowerType Source LLDPPowerSource Priority LLDPPowerPriority Value uint16 }
type LLDPPowerViaMDI8023 ¶
type LLDPPowerViaMDI8023 struct { PortClassPSE bool // false = PD PSESupported bool PSEEnabled bool PSEPairsAbility bool PSEPowerPair uint8 PSEClass uint8 Type LLDPPowerType Source LLDPPowerSource Priority LLDPPowerPriority Requested uint16 // 1-510 Watts Allocated uint16 // 1-510 Watts }
type LLDPProfinetSubtype ¶
type LLDPProfinetSubtype uint8
Profinet Subtypes
const ( LLDPProfinetPNIODelay LLDPProfinetSubtype = 1 LLDPProfinetPNIOPortStatus LLDPProfinetSubtype = 2 LLDPProfinetPNIOMRPPortStatus LLDPProfinetSubtype = 4 LLDPProfinetPNIOChassisMAC LLDPProfinetSubtype = 5 LLDPProfinetPNIOPTCPStatus LLDPProfinetSubtype = 6 )
type LLDPSysCapabilities ¶
type LLDPSysCapabilities struct { SystemCap LLDPCapabilities EnabledCap LLDPCapabilities }
type LLDPTLVType ¶
type LLDPTLVType byte
LLDPTLVType is the type of each TLV value in a LinkLayerDiscovery packet.
const ( LLDPTLVEnd LLDPTLVType = 0 LLDPTLVChassisID LLDPTLVType = 1 LLDPTLVPortID LLDPTLVType = 2 LLDPTLVTTL LLDPTLVType = 3 LLDPTLVPortDescription LLDPTLVType = 4 LLDPTLVSysName LLDPTLVType = 5 LLDPTLVSysDescription LLDPTLVType = 6 LLDPTLVSysCapabilities LLDPTLVType = 7 LLDPTLVMgmtAddress LLDPTLVType = 8 LLDPTLVOrgSpecific LLDPTLVType = 127 )
func (LLDPTLVType) String ¶
func (t LLDPTLVType) String() (s string)
type LSA ¶
type LSA struct { LSAheader Content interface{} }
LSA links LSAheader with the structs from RFC 5340 A.4.
type LSAheader ¶
type LSAheader struct { LSAge uint16 LSType uint16 LinkStateID uint32 AdvRouter uint32 LSSeqNumber uint32 LSChecksum uint16 Length uint16 LSOptions uint8 }
LSAheader is the struct from RFC 5340 A.4.2 and RFC 2328 A.4.1.
type LinkLSA ¶
type LinkLSA struct { RtrPriority uint8 Options uint32 LinkLocalAddress []byte NumOfPrefixes uint32 Prefixes []Prefix }
LinkLSA is the struct from RFC 5340 A.4.9.
type LinkLayerDiscovery ¶
type LinkLayerDiscovery struct { BaseLayer ChassisID LLDPChassisID PortID LLDPPortID TTL uint16 Values []LinkLayerDiscoveryValue }
LinkLayerDiscovery is a packet layer containing the LinkLayer Discovery Protocol. See http:http://standards.ieee.org/getieee802/download/802.1AB-2009.pdf ChassisID, PortID and TTL are mandatory TLV's. Other values can be decoded with DecodeValues()
func (*LinkLayerDiscovery) LayerType ¶
func (c *LinkLayerDiscovery) LayerType() gopacket.LayerType
LayerType returns gopacket.LayerTypeLinkLayerDiscovery.
func (*LinkLayerDiscovery) SerializeTo ¶
func (c *LinkLayerDiscovery) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo serializes LLDP packet to bytes and writes on SerializeBuffer.
type LinkLayerDiscoveryInfo ¶
type LinkLayerDiscoveryInfo struct { BaseLayer PortDescription string SysName string SysDescription string SysCapabilities LLDPSysCapabilities MgmtAddress LLDPMgmtAddress OrgTLVs []LLDPOrgSpecificTLV // Private TLVs Unknown []LinkLayerDiscoveryValue // undecoded TLVs }
LinkLayerDiscoveryInfo represents the decoded details for a set of LinkLayerDiscoveryValues Organisation-specific TLV's can be decoded using the various Decode() methods
func (*LinkLayerDiscoveryInfo) Decode8021 ¶
func (l *LinkLayerDiscoveryInfo) Decode8021() (info LLDPInfo8021, err error)
func (*LinkLayerDiscoveryInfo) Decode8021Qbg ¶
func (l *LinkLayerDiscoveryInfo) Decode8021Qbg() (info LLDPInfo8021Qbg, err error)
func (*LinkLayerDiscoveryInfo) Decode8023 ¶
func (l *LinkLayerDiscoveryInfo) Decode8023() (info LLDPInfo8023, err error)
func (*LinkLayerDiscoveryInfo) DecodeCisco2 ¶
func (l *LinkLayerDiscoveryInfo) DecodeCisco2() (info LLDPInfoCisco2, err error)
func (*LinkLayerDiscoveryInfo) DecodeMedia ¶
func (l *LinkLayerDiscoveryInfo) DecodeMedia() (info LLDPInfoMedia, err error)
func (*LinkLayerDiscoveryInfo) DecodeProfinet ¶
func (l *LinkLayerDiscoveryInfo) DecodeProfinet() (info LLDPInfoProfinet, err error)
func (*LinkLayerDiscoveryInfo) LayerType ¶
func (c *LinkLayerDiscoveryInfo) LayerType() gopacket.LayerType
LayerType returns gopacket.LayerTypeLinkLayerDiscoveryInfo.
type LinkLayerDiscoveryValue ¶
type LinkLayerDiscoveryValue struct { Type LLDPTLVType Length uint16 Value []byte }
LinkLayerDiscoveryValue is a TLV value inside a LinkLayerDiscovery packet layer.
type LinkType ¶
type LinkType uint8
LinkType is an enumeration of link types, and acts as a decoder for any link type it supports.
const ( // According to pcap-linktype(7) and http://www.tcpdump.org/linktypes.html LinkTypeNull LinkType = 0 LinkTypeEthernet LinkType = 1 LinkTypeAX25 LinkType = 3 LinkTypeTokenRing LinkType = 6 LinkTypeArcNet LinkType = 7 LinkTypeSLIP LinkType = 8 LinkTypePPP LinkType = 9 LinkTypeFDDI LinkType = 10 LinkTypePPP_HDLC LinkType = 50 LinkTypePPPEthernet LinkType = 51 LinkTypeATM_RFC1483 LinkType = 100 LinkTypeRaw LinkType = 101 LinkTypeC_HDLC LinkType = 104 LinkTypeIEEE802_11 LinkType = 105 LinkTypeFRelay LinkType = 107 LinkTypeLoop LinkType = 108 LinkTypeLinuxSLL LinkType = 113 LinkTypeLTalk LinkType = 114 LinkTypePFLog LinkType = 117 LinkTypePrismHeader LinkType = 119 LinkTypeIPOverFC LinkType = 122 LinkTypeSunATM LinkType = 123 LinkTypeIEEE80211Radio LinkType = 127 LinkTypeARCNetLinux LinkType = 129 LinkTypeIPOver1394 LinkType = 138 LinkTypeMTP2Phdr LinkType = 139 LinkTypeMTP2 LinkType = 140 LinkTypeMTP3 LinkType = 141 LinkTypeSCCP LinkType = 142 LinkTypeDOCSIS LinkType = 143 LinkTypeLinuxIRDA LinkType = 144 LinkTypeLinuxLAPD LinkType = 177 LinkTypeLinuxUSB LinkType = 220 LinkTypeFC2 LinkType = 224 LinkTypeFC2Framed LinkType = 225 LinkTypeIPv4 LinkType = 228 LinkTypeIPv6 LinkType = 229 )
func (LinkType) Decode ¶
func (a LinkType) Decode(data []byte, p gopacket.PacketBuilder) error
Decoder calls LinkTypeMetadata.DecodeWith's decoder.
type LinuxSLL ¶
type LinuxSLL struct { BaseLayer PacketType LinuxSLLPacketType AddrLen uint16 Addr net.HardwareAddr EthernetType EthernetType AddrType uint16 }
func (*LinuxSLL) CanDecode ¶
func (sll *LinuxSLL) CanDecode() gopacket.LayerClass
func (*LinuxSLL) DecodeFromBytes ¶
func (sll *LinuxSLL) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*LinuxSLL) NextLayerType ¶
type LinuxSLLPacketType ¶
type LinuxSLLPacketType uint16
const ( LinuxSLLPacketTypeHost LinuxSLLPacketType = 0 // To us LinuxSLLPacketTypeBroadcast LinuxSLLPacketType = 1 // To all LinuxSLLPacketTypeMulticast LinuxSLLPacketType = 2 // To group LinuxSLLPacketTypeOtherhost LinuxSLLPacketType = 3 // To someone else LinuxSLLPacketTypeOutgoing LinuxSLLPacketType = 4 // Outgoing of any type // These ones are invisible by user level LinuxSLLPacketTypeLoopback LinuxSLLPacketType = 5 // MC/BRD frame looped back LinuxSLLPacketTypeFastroute LinuxSLLPacketType = 6 // Fastrouted frame )
func (LinuxSLLPacketType) String ¶
func (l LinuxSLLPacketType) String() string
type Loopback ¶
type Loopback struct { BaseLayer Family ProtocolFamily }
Loopback contains the header for loopback encapsulation. This header is used by both BSD and OpenBSD style loopback decoding (pcap's DLT_NULL and DLT_LOOP, respectively).
func (*Loopback) CanDecode ¶
func (l *Loopback) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*Loopback) DecodeFromBytes ¶
func (l *Loopback) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*Loopback) NextLayerType ¶
NextLayerType returns the layer type contained by this DecodingLayer.
func (*Loopback) SerializeTo ¶
func (l *Loopback) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer.
type MLDv1Message ¶
type MLDv1Message struct { BaseLayer // 3.4. Maximum Response Delay MaximumResponseDelay time.Duration // 3.6. Multicast Address // Zero in general query // Specific IPv6 multicast address otherwise MulticastAddress net.IP }
MLDv1Message represents the common structure of all MLDv1 messages
func (*MLDv1Message) DecodeFromBytes ¶
func (m *MLDv1Message) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*MLDv1Message) NextLayerType ¶
func (*MLDv1Message) NextLayerType() gopacket.LayerType
NextLayerType returns the layer type contained by this DecodingLayer.
func (*MLDv1Message) SerializeTo ¶
func (m *MLDv1Message) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
func (*MLDv1Message) String ¶
func (m *MLDv1Message) String() string
Sums this layer up nicely formatted
type MLDv1MulticastListenerDoneMessage ¶
type MLDv1MulticastListenerDoneMessage struct {
MLDv1Message
}
MLDv1MulticastListenerDoneMessage should be sent by a client when it ceases to listen to a multicast address on an interface. https://tools.ietf.org/html/rfc2710 Page 7
func (*MLDv1MulticastListenerDoneMessage) CanDecode ¶
func (*MLDv1MulticastListenerDoneMessage) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*MLDv1MulticastListenerDoneMessage) LayerType ¶
func (*MLDv1MulticastListenerDoneMessage) LayerType() gopacket.LayerType
LayerType returns LayerTypeMLDv1MulticastListenerDone.
type MLDv1MulticastListenerQueryMessage ¶
type MLDv1MulticastListenerQueryMessage struct {
MLDv1Message
}
MLDv1MulticastListenerQueryMessage are sent by the router to determine whether there are multicast listeners on the link. https://tools.ietf.org/html/rfc2710 Page 5
func (*MLDv1MulticastListenerQueryMessage) CanDecode ¶
func (*MLDv1MulticastListenerQueryMessage) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*MLDv1MulticastListenerQueryMessage) DecodeFromBytes ¶
func (m *MLDv1MulticastListenerQueryMessage) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*MLDv1MulticastListenerQueryMessage) IsGeneralQuery ¶
func (m *MLDv1MulticastListenerQueryMessage) IsGeneralQuery() bool
IsGeneralQuery is true when this is a general query. In a Query message, the Multicast Address field is set to zero when sending a General Query. https://tools.ietf.org/html/rfc2710#section-3.6
func (*MLDv1MulticastListenerQueryMessage) IsSpecificQuery ¶
func (m *MLDv1MulticastListenerQueryMessage) IsSpecificQuery() bool
IsSpecificQuery is true when this is not a general query. In a Query message, the Multicast Address field is set to a specific IPv6 multicast address when sending a Multicast-Address-Specific Query. https://tools.ietf.org/html/rfc2710#section-3.6
func (*MLDv1MulticastListenerQueryMessage) LayerType ¶
func (*MLDv1MulticastListenerQueryMessage) LayerType() gopacket.LayerType
LayerType returns LayerTypeMLDv1MulticastListenerQuery.
type MLDv1MulticastListenerReportMessage ¶
type MLDv1MulticastListenerReportMessage struct {
MLDv1Message
}
MLDv1MulticastListenerReportMessage is sent by a client listening on a specific multicast address to indicate that it is (still) listening on the specific multicast address. https://tools.ietf.org/html/rfc2710 Page 6
func (*MLDv1MulticastListenerReportMessage) CanDecode ¶
func (*MLDv1MulticastListenerReportMessage) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*MLDv1MulticastListenerReportMessage) LayerType ¶
func (*MLDv1MulticastListenerReportMessage) LayerType() gopacket.LayerType
LayerType returns LayerTypeMLDv1MulticastListenerReport.
type MLDv2MulticastAddressRecord ¶
type MLDv2MulticastAddressRecord struct { // 5.2.5. Record Type RecordType MLDv2MulticastAddressRecordType // 5.2.6. Auxiliary Data Length (number of 32-bit words) AuxDataLen uint8 // 5.2.7. Number Of Sources (N) N uint16 // 5.2.8. Multicast Address MulticastAddress net.IP // 5.2.9 Source Address [i] SourceAddresses []net.IP // 5.2.10 Auxiliary Data AuxiliaryData []byte }
MLDv2MulticastAddressRecord contains information on the sender listening to a single multicast address on the interface the report is sent. https://tools.ietf.org/html/rfc3810#section-5.2.4
func (*MLDv2MulticastAddressRecord) String ¶
func (m *MLDv2MulticastAddressRecord) String() string
String sums this layer up nicely formatted
type MLDv2MulticastAddressRecordType ¶
type MLDv2MulticastAddressRecordType uint8
MLDv2MulticastAddressRecordType holds the type of a Multicast Address Record, according to https://tools.ietf.org/html/rfc3810#section-5.2.5 and https://tools.ietf.org/html/rfc3810#section-5.2.12
const ( // MLDv2MulticastAddressRecordTypeModeIsIncluded stands for // MODE_IS_INCLUDE - indicates that the interface has a filter // mode of INCLUDE for the specified multicast address. MLDv2MulticastAddressRecordTypeModeIsIncluded MLDv2MulticastAddressRecordType = 1 // MLDv2MulticastAddressRecordTypeModeIsExcluded stands for // MODE_IS_EXCLUDE - indicates that the interface has a filter // mode of EXCLUDE for the specified multicast address. MLDv2MulticastAddressRecordTypeModeIsExcluded MLDv2MulticastAddressRecordType = 2 // MLDv2MulticastAddressRecordTypeChangeToIncludeMode stands for // CHANGE_TO_INCLUDE_MODE - indicates that the interface has // changed to INCLUDE filter mode for the specified multicast // address. MLDv2MulticastAddressRecordTypeChangeToIncludeMode MLDv2MulticastAddressRecordType = 3 // MLDv2MulticastAddressRecordTypeChangeToExcludeMode stands for // CHANGE_TO_EXCLUDE_MODE - indicates that the interface has // changed to EXCLUDE filter mode for the specified multicast // address MLDv2MulticastAddressRecordTypeChangeToExcludeMode MLDv2MulticastAddressRecordType = 4 // MLDv2MulticastAddressRecordTypeAllowNewSources stands for // ALLOW_NEW_SOURCES - indicates that the Source Address [i] // fields in this Multicast Address Record contain a list of // the additional sources that the node wishes to listen to, // for packets sent to the specified multicast address. MLDv2MulticastAddressRecordTypeAllowNewSources MLDv2MulticastAddressRecordType = 5 // MLDv2MulticastAddressRecordTypeBlockOldSources stands for // BLOCK_OLD_SOURCES - indicates that the Source Address [i] // fields in this Multicast Address Record contain a list of // the sources that the node no longer wishes to listen to, // for packets sent to the specified multicast address. MLDv2MulticastAddressRecordTypeBlockOldSources MLDv2MulticastAddressRecordType = 6 )
func (MLDv2MulticastAddressRecordType) String ¶
func (m MLDv2MulticastAddressRecordType) String() string
Human readable record types Naming follows https://tools.ietf.org/html/rfc3810#section-5.2.12
type MLDv2MulticastListenerQueryMessage ¶
type MLDv2MulticastListenerQueryMessage struct { BaseLayer // 5.1.3. Maximum Response Delay COde MaximumResponseCode uint16 // 5.1.5. Multicast Address // Zero in general query // Specific IPv6 multicast address otherwise MulticastAddress net.IP // 5.1.7. S Flag (Suppress Router-Side Processing) SuppressRoutersideProcessing bool // 5.1.8. QRV (Querier's Robustness Variable) QueriersRobustnessVariable uint8 // 5.1.9. QQIC (Querier's Query Interval Code) QueriersQueryIntervalCode uint8 // 5.1.10. Number of Sources (N) NumberOfSources uint16 // 5.1.11 Source Address [i] SourceAddresses []net.IP }
MLDv2MulticastListenerQueryMessage are sent by multicast routers to query the multicast listening state of neighboring interfaces. https://tools.ietf.org/html/rfc3810#section-5.1
Some information, like Maximum Response Code and Multicast Address are in the previous layer LayerTypeMLDv1MulticastListenerQuery
func (*MLDv2MulticastListenerQueryMessage) CanDecode ¶
func (*MLDv2MulticastListenerQueryMessage) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*MLDv2MulticastListenerQueryMessage) DecodeFromBytes ¶
func (m *MLDv2MulticastListenerQueryMessage) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*MLDv2MulticastListenerQueryMessage) LayerType ¶
func (*MLDv2MulticastListenerQueryMessage) LayerType() gopacket.LayerType
LayerType returns LayerTypeMLDv2MulticastListenerQuery.
func (*MLDv2MulticastListenerQueryMessage) MaximumResponseDelay ¶
func (m *MLDv2MulticastListenerQueryMessage) MaximumResponseDelay() time.Duration
MaximumResponseDelay returns the Maximum Response Delay based on the Maximum Response Code according to https://tools.ietf.org/html/rfc3810#section-5.1.3
func (*MLDv2MulticastListenerQueryMessage) NextLayerType ¶
func (*MLDv2MulticastListenerQueryMessage) NextLayerType() gopacket.LayerType
NextLayerType returns the layer type contained by this DecodingLayer.
func (*MLDv2MulticastListenerQueryMessage) QQI ¶
func (m *MLDv2MulticastListenerQueryMessage) QQI() time.Duration
QQI calculates the Querier's Query Interval based on the QQIC according to https://tools.ietf.org/html/rfc3810#section-5.1.9
func (*MLDv2MulticastListenerQueryMessage) SerializeTo ¶
func (m *MLDv2MulticastListenerQueryMessage) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
func (*MLDv2MulticastListenerQueryMessage) SetMLDv2MaximumResponseDelay ¶
func (m *MLDv2MulticastListenerQueryMessage) SetMLDv2MaximumResponseDelay(d time.Duration) error
SetMLDv2MaximumResponseDelay updates the Maximum Response Code according to https://tools.ietf.org/html/rfc3810#section-5.1.3
func (*MLDv2MulticastListenerQueryMessage) SetQQI ¶
func (m *MLDv2MulticastListenerQueryMessage) SetQQI(d time.Duration) error
SetQQI calculates and updates the Querier's Query Interval Code (QQIC) according to https://tools.ietf.org/html/rfc3810#section-5.1.9
func (*MLDv2MulticastListenerQueryMessage) String ¶
func (m *MLDv2MulticastListenerQueryMessage) String() string
String sums this layer up nicely formatted
type MLDv2MulticastListenerReportMessage ¶
type MLDv2MulticastListenerReportMessage struct { BaseLayer // 5.2.3. Nr of Mcast Address Records NumberOfMulticastAddressRecords uint16 // 5.2.4. Multicast Address Record [i] MulticastAddressRecords []MLDv2MulticastAddressRecord }
MLDv2MulticastListenerReportMessage is sent by an IP node to report the current multicast listening state, or changes therein. https://tools.ietf.org/html/rfc3810#section-5.2
func (*MLDv2MulticastListenerReportMessage) CanDecode ¶
func (*MLDv2MulticastListenerReportMessage) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*MLDv2MulticastListenerReportMessage) DecodeFromBytes ¶
func (m *MLDv2MulticastListenerReportMessage) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*MLDv2MulticastListenerReportMessage) LayerType ¶
func (*MLDv2MulticastListenerReportMessage) LayerType() gopacket.LayerType
LayerType returns LayerTypeMLDv2MulticastListenerQuery.
func (*MLDv2MulticastListenerReportMessage) NextLayerType ¶
func (*MLDv2MulticastListenerReportMessage) NextLayerType() gopacket.LayerType
NextLayerType returns the layer type contained by this DecodingLayer.
func (*MLDv2MulticastListenerReportMessage) SerializeTo ¶
func (m *MLDv2MulticastListenerReportMessage) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
func (*MLDv2MulticastListenerReportMessage) String ¶
func (m *MLDv2MulticastListenerReportMessage) String() string
Sums this layer up nicely formatted
type MPLS ¶
MPLS is the MPLS packet header.
func (*MPLS) SerializeTo ¶
func (m *MPLS) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type ModbusProtocol ¶
type ModbusProtocol uint16
ModbusProtocol type
const (
ModbusProtocolModbus ModbusProtocol = 0
)
ModbusProtocol known values.
func (ModbusProtocol) String ¶
func (mp ModbusProtocol) String() string
type ModbusTCP ¶
type ModbusTCP struct { BaseLayer // Stores the packet bytes and payload (Modbus PDU) bytes . TransactionIdentifier uint16 // Identification of a MODBUS Request/Response transaction ProtocolIdentifier ModbusProtocol // It is used for intra-system multiplexing Length uint16 // Number of following bytes (includes 1 byte for UnitIdentifier + Modbus data length UnitIdentifier uint8 // Identification of a remote slave connected on a serial line or on other buses }
ModbusTCP Type -------- Type ModbusTCP implements the DecodingLayer interface. Each ModbusTCP object represents in a structured form the MODBUS Application Protocol header (MBAP) record present as the TCP payload in an ModbusTCP TCP packet.
func (*ModbusTCP) CanDecode ¶
func (s *ModbusTCP) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode
func (*ModbusTCP) DecodeFromBytes ¶
func (d *ModbusTCP) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes analyses a byte slice and attempts to decode it as an ModbusTCP record of a TCP packet.
Upon succeeds, it loads the ModbusTCP object with information about the packet and returns nil. Upon failure, it returns an error (non nil).
func (*ModbusTCP) LayerType ¶
LayerType returns the layer type of the ModbusTCP object, which is LayerTypeModbusTCP.
func (*ModbusTCP) NextLayerType ¶
NextLayerType returns the layer type of the ModbusTCP payload, which is LayerTypePayload.
type NDPBackplaneType ¶
type NDPBackplaneType uint8
const ( NDPBackplaneOther NDPBackplaneType = 1 NDPBackplaneEthernet NDPBackplaneType = 2 NDPBackplaneEthernetTokenring NDPBackplaneType = 3 NDPBackplaneEthernetFDDI NDPBackplaneType = 4 NDPBackplaneEthernetTokenringFDDI NDPBackplaneType = 5 NDPBackplaneEthernetTokenringRedundantPower NDPBackplaneType = 6 NDPBackplaneEthernetTokenringFDDIRedundantPower NDPBackplaneType = 7 NDPBackplaneTokenRing NDPBackplaneType = 8 NDPBackplaneEthernetTokenringFastEthernet NDPBackplaneType = 9 NDPBackplaneEthernetFastEthernet NDPBackplaneType = 10 NDPBackplaneEthernetTokenringFastEthernetRedundantPower NDPBackplaneType = 11 NDPBackplaneEthernetFastEthernetGigabitEthernet NDPBackplaneType = 12 )
Nortel Backplane Types
func (NDPBackplaneType) String ¶
func (t NDPBackplaneType) String() (s string)
type NDPChassisType ¶
type NDPChassisType uint8
const ( NDPChassisother NDPChassisType = 1 NDPChassis3000 NDPChassisType = 2 NDPChassis3030 NDPChassisType = 3 NDPChassis2310 NDPChassisType = 4 NDPChassis2810 NDPChassisType = 5 NDPChassis2912 NDPChassisType = 6 NDPChassis2914 NDPChassisType = 7 NDPChassis271x NDPChassisType = 8 NDPChassis2813 NDPChassisType = 9 NDPChassis2814 NDPChassisType = 10 NDPChassis2915 NDPChassisType = 11 NDPChassis5000 NDPChassisType = 12 NDPChassis2813SA NDPChassisType = 13 NDPChassis2814SA NDPChassisType = 14 NDPChassis810M NDPChassisType = 15 NDPChassisEthercell NDPChassisType = 16 NDPChassis5005 NDPChassisType = 17 NDPChassisAlcatelEWC NDPChassisType = 18 NDPChassis2715SA NDPChassisType = 20 NDPChassis2486 NDPChassisType = 21 NDPChassis28000series NDPChassisType = 22 NDPChassis23000series NDPChassisType = 23 NDPChassis5DN00xseries NDPChassisType = 24 NDPChassisBayStackEthernet NDPChassisType = 25 NDPChassis23100series NDPChassisType = 26 NDPChassis100BaseTHub NDPChassisType = 27 NDPChassis3000FastEthernet NDPChassisType = 28 NDPChassisOrionSwitch NDPChassisType = 29 NDPChassisDDS NDPChassisType = 31 NDPChassisCentillion6slot NDPChassisType = 32 NDPChassisCentillion12slot NDPChassisType = 33 NDPChassisCentillion1slot NDPChassisType = 34 NDPChassisBayStack301 NDPChassisType = 35 NDPChassisBayStackTokenRingHub NDPChassisType = 36 NDPChassisFVCMultimediaSwitch NDPChassisType = 37 NDPChassisSwitchNode NDPChassisType = 38 NDPChassisBayStack302Switch NDPChassisType = 39 NDPChassisBayStack350Switch NDPChassisType = 40 NDPChassisBayStack150EthernetHub NDPChassisType = 41 NDPChassisCentillion50NSwitch NDPChassisType = 42 NDPChassisCentillion50TSwitch NDPChassisType = 43 NDPChassisBayStack303304Switches NDPChassisType = 44 NDPChassisBayStack200EthernetHub NDPChassisType = 45 NDPChassisBayStack25010100EthernetHub NDPChassisType = 46 NDPChassisBayStack450101001000Switches NDPChassisType = 48 NDPChassisBayStack41010100Switches NDPChassisType = 49 NDPChassisPassport1200L3Switch NDPChassisType = 50 NDPChassisPassport1250L3Switch NDPChassisType = 51 NDPChassisPassport1100L3Switch NDPChassisType = 52 NDPChassisPassport1150L3Switch NDPChassisType = 53 NDPChassisPassport1050L3Switch NDPChassisType = 54 NDPChassisPassport1051L3Switch NDPChassisType = 55 NDPChassisPassport8610L3Switch NDPChassisType = 56 NDPChassisPassport8606L3Switch NDPChassisType = 57 NDPChassisPassport8010 NDPChassisType = 58 NDPChassisPassport8006 NDPChassisType = 59 NDPChassisBayStack670wirelessaccesspoint NDPChassisType = 60 NDPChassisPassport740 NDPChassisType = 61 NDPChassisPassport750 NDPChassisType = 62 NDPChassisPassport790 NDPChassisType = 63 NDPChassisBusinessPolicySwitch200010100Switches NDPChassisType = 64 NDPChassisPassport8110L2Switch NDPChassisType = 65 NDPChassisPassport8106L2Switch NDPChassisType = 66 NDPChassisBayStack3580GigSwitch NDPChassisType = 67 NDPChassisBayStack10PowerSupplyUnit NDPChassisType = 68 NDPChassisBayStack42010100Switch NDPChassisType = 69 NDPChassisOPTeraMetro1200EthernetServiceModule NDPChassisType = 70 NDPChassisOPTera8010co NDPChassisType = 71 NDPChassisOPTera8610coL3Switch NDPChassisType = 72 NDPChassisOPTera8110coL2Switch NDPChassisType = 73 NDPChassisOPTera8003 NDPChassisType = 74 NDPChassisOPTera8603L3Switch NDPChassisType = 75 NDPChassisOPTera8103L2Switch NDPChassisType = 76 NDPChassisBayStack380101001000Switch NDPChassisType = 77 NDPChassisEthernetSwitch47048T NDPChassisType = 78 NDPChassisOPTeraMetro1450EthernetServiceModule NDPChassisType = 79 NDPChassisOPTeraMetro1400EthernetServiceModule NDPChassisType = 80 NDPChassisAlteonSwitchFamily NDPChassisType = 81 NDPChassisEthernetSwitch46024TPWR NDPChassisType = 82 NDPChassisOPTeraMetro8010OPML2Switch NDPChassisType = 83 NDPChassisOPTeraMetro8010coOPML2Switch NDPChassisType = 84 NDPChassisOPTeraMetro8006OPML2Switch NDPChassisType = 85 NDPChassisOPTeraMetro8003OPML2Switch NDPChassisType = 86 NDPChassisAlteon180e NDPChassisType = 87 NDPChassisAlteonAD3 NDPChassisType = 88 NDPChassisAlteon184 NDPChassisType = 89 NDPChassisAlteonAD4 NDPChassisType = 90 NDPChassisPassport1424L3Switch NDPChassisType = 91 NDPChassisPassport1648L3Switch NDPChassisType = 92 NDPChassisPassport1612L3Switch NDPChassisType = 93 NDPChassisPassport1624L3Switch NDPChassisType = 94 NDPChassisBayStack38024FFiber1000Switch NDPChassisType = 95 NDPChassisEthernetRoutingSwitch551024T NDPChassisType = 96 NDPChassisEthernetRoutingSwitch551048T NDPChassisType = 97 NDPChassisEthernetSwitch47024T NDPChassisType = 98 NDPChassisNortelNetworksWirelessLANAccessPoint2220 NDPChassisType = 99 NDPChassisPassportRBS2402L3Switch NDPChassisType = 100 NDPChassisAlteonApplicationSwitch2424 NDPChassisType = 101 NDPChassisAlteonApplicationSwitch2224 NDPChassisType = 102 NDPChassisAlteonApplicationSwitch2208 NDPChassisType = 103 NDPChassisAlteonApplicationSwitch2216 NDPChassisType = 104 NDPChassisAlteonApplicationSwitch3408 NDPChassisType = 105 NDPChassisAlteonApplicationSwitch3416 NDPChassisType = 106 NDPChassisNortelNetworksWirelessLANSecuritySwitch2250 NDPChassisType = 107 NDPChassisEthernetSwitch42548T NDPChassisType = 108 NDPChassisEthernetSwitch42524T NDPChassisType = 109 NDPChassisNortelNetworksWirelessLANAccessPoint2221 NDPChassisType = 110 NDPChassisNortelMetroEthernetServiceUnit24TSPFswitch NDPChassisType = 111 NDPChassisNortelMetroEthernetServiceUnit24TLXDCswitch NDPChassisType = 112 NDPChassisPassport830010slotchassis NDPChassisType = 113 NDPChassisPassport83006slotchassis NDPChassisType = 114 NDPChassisEthernetRoutingSwitch552024TPWR NDPChassisType = 115 NDPChassisEthernetRoutingSwitch552048TPWR NDPChassisType = 116 NDPChassisNortelNetworksVPNGateway3050 NDPChassisType = 117 NDPChassisAlteonSSL31010100 NDPChassisType = 118 NDPChassisAlteonSSL31010100Fiber NDPChassisType = 119 NDPChassisAlteonSSL31010100FIPS NDPChassisType = 120 NDPChassisAlteonSSL410101001000 NDPChassisType = 121 NDPChassisAlteonSSL410101001000Fiber NDPChassisType = 122 NDPChassisAlteonApplicationSwitch2424SSL NDPChassisType = 123 NDPChassisEthernetSwitch32524T NDPChassisType = 124 NDPChassisEthernetSwitch32524G NDPChassisType = 125 NDPChassisNortelNetworksWirelessLANAccessPoint2225 NDPChassisType = 126 NDPChassisNortelNetworksWirelessLANSecuritySwitch2270 NDPChassisType = 127 NDPChassis24portEthernetSwitch47024TPWR NDPChassisType = 128 NDPChassis48portEthernetSwitch47048TPWR NDPChassisType = 129 NDPChassisEthernetRoutingSwitch553024TFD NDPChassisType = 130 NDPChassisEthernetSwitch351024T NDPChassisType = 131 NDPChassisNortelMetroEthernetServiceUnit12GACL3Switch NDPChassisType = 132 NDPChassisNortelMetroEthernetServiceUnit12GDCL3Switch NDPChassisType = 133 NDPChassisNortelSecureAccessSwitch NDPChassisType = 134 NDPChassisNortelNetworksVPNGateway3070 NDPChassisType = 135 NDPChassisOPTeraMetro3500 NDPChassisType = 136 NDPChassisSMBBES101024T NDPChassisType = 137 NDPChassisSMBBES101048T NDPChassisType = 138 NDPChassisSMBBES102024TPWR NDPChassisType = 139 NDPChassisSMBBES102048TPWR NDPChassisType = 140 NDPChassisSMBBES201024T NDPChassisType = 141 NDPChassisSMBBES201048T NDPChassisType = 142 NDPChassisSMBBES202024TPWR NDPChassisType = 143 NDPChassisSMBBES202048TPWR NDPChassisType = 144 NDPChassisSMBBES11024T NDPChassisType = 145 NDPChassisSMBBES11048T NDPChassisType = 146 NDPChassisSMBBES12024TPWR NDPChassisType = 147 NDPChassisSMBBES12048TPWR NDPChassisType = 148 NDPChassisSMBBES21024T NDPChassisType = 149 NDPChassisSMBBES21048T NDPChassisType = 150 NDPChassisSMBBES22024TPWR NDPChassisType = 151 NDPChassisSMBBES22048TPWR NDPChassisType = 152 NDPChassisOME6500 NDPChassisType = 153 NDPChassisEthernetRoutingSwitch4548GT NDPChassisType = 154 NDPChassisEthernetRoutingSwitch4548GTPWR NDPChassisType = 155 NDPChassisEthernetRoutingSwitch4550T NDPChassisType = 156 NDPChassisEthernetRoutingSwitch4550TPWR NDPChassisType = 157 NDPChassisEthernetRoutingSwitch4526FX NDPChassisType = 158 NDPChassisEthernetRoutingSwitch250026T NDPChassisType = 159 NDPChassisEthernetRoutingSwitch250026TPWR NDPChassisType = 160 NDPChassisEthernetRoutingSwitch250050T NDPChassisType = 161 NDPChassisEthernetRoutingSwitch250050TPWR NDPChassisType = 162 )
Nortel Chassis Types
func (NDPChassisType) String ¶
func (t NDPChassisType) String() (s string)
type NTP ¶
type NTP struct { BaseLayer // Stores the packet bytes and payload bytes. LeapIndicator NTPLeapIndicator // [0,3]. Indicates whether leap second(s) is to be added. Version NTPVersion // [0,7]. Version of the NTP protocol. Mode NTPMode // [0,7]. Mode. Stratum NTPStratum // [0,255]. Stratum of time server in the server tree. Poll NTPLog2Seconds // [-128,127]. The maximum interval between successive messages, in log2 seconds. Precision NTPLog2Seconds // [-128,127]. The precision of the system clock, in log2 seconds. RootDelay NTPFixed16Seconds // [0,2^32-1]. Total round trip delay to the reference clock in seconds times 2^16. RootDispersion NTPFixed16Seconds // [0,2^32-1]. Total dispersion to the reference clock, in seconds times 2^16. ReferenceID NTPReferenceID // ID code of reference clock [0,2^32-1]. ReferenceTimestamp NTPTimestamp // Most recent timestamp from the reference clock. OriginTimestamp NTPTimestamp // Local time when request was sent from local host. ReceiveTimestamp NTPTimestamp // Local time (on server) that request arrived at server host. TransmitTimestamp NTPTimestamp // Local time (on server) that request departed server host. // FIX: This package should analyse the extension fields and represent the extension fields too. ExtensionBytes []byte // Just put extensions in a byte slice. }
func (*NTP) CanDecode ¶
func (d *NTP) CanDecode() gopacket.LayerClass
CanDecode returns a set of layers that NTP objects can decode. As NTP objects can only decide the NTP layer, we can return just that layer. Apparently a single layer type implements LayerClass.
func (*NTP) DecodeFromBytes ¶
func (d *NTP) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes analyses a byte slice and attempts to decode it as an NTP record of a UDP packet.
Upon succeeds, it loads the NTP object with information about the packet and returns nil. Upon failure, it returns an error (non nil).
func (*NTP) NextLayerType ¶
NextLayerType specifies the next layer that GoPacket should attempt to analyse after this (NTP) layer. As NTP packets do not contain any payload bytes, there are no further layers to analyse.
func (*NTP) Payload ¶
NTP packets do not carry any data payload, so the empty byte slice is retured. In Go, a nil slice is functionally identical to an empty slice, so we return nil to avoid a heap allocation.
func (*NTP) SerializeTo ¶
func (d *NTP) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type NTPFixed16Seconds ¶
type NTPFixed16Seconds uint32
type NTPLeapIndicator ¶
type NTPLeapIndicator uint8
type NTPLog2Seconds ¶
type NTPLog2Seconds int8
type NTPReferenceID ¶
type NTPReferenceID uint32
type NTPStratum ¶
type NTPStratum uint8
type NTPTimestamp ¶
type NTPTimestamp uint64
type NTPVersion ¶
type NTPVersion uint8
type NetworkLSA ¶
NetworkLSA is the struct from RFC 5340 A.4.4.
type NetworkLSAV2 ¶
NetworkLSAV2 is the struct from RFC 2328 A.4.3.
type NortelDiscovery ¶
type NortelDiscovery struct { BaseLayer IPAddress net.IP SegmentID []byte Chassis NDPChassisType Backplane NDPBackplaneType State NDPState NumLinks uint8 }
NortelDiscovery is a packet layer containing the Nortel Discovery Protocol.
func (*NortelDiscovery) LayerType ¶
func (c *NortelDiscovery) LayerType() gopacket.LayerType
LayerType returns gopacket.LayerTypeNortelDiscovery.
type OSPF ¶
type OSPF struct { Version uint8 Type OSPFType PacketLength uint16 RouterID uint32 AreaID uint32 Checksum uint16 Content interface{} }
OSPF is a basic OSPF packet header with common fields of Version 2 and Version 3.
type OSPFType ¶
type OSPFType uint8
OSPFType denotes what kind of OSPF type it is
type OSPFv2 ¶
OSPFv2 extend the OSPF head with version 2 specific fields
func (*OSPFv2) CanDecode ¶
func (ospf *OSPFv2) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*OSPFv2) DecodeFromBytes ¶
func (ospf *OSPFv2) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into the OSPF layer.
func (*OSPFv2) NextLayerType ¶
NextLayerType returns the layer type contained by this DecodingLayer.
type OSPFv3 ¶
OSPFv3 extend the OSPF head with version 3 specific fields
func (*OSPFv3) CanDecode ¶
func (ospf *OSPFv3) CanDecode() gopacket.LayerClass
func (*OSPFv3) DecodeFromBytes ¶
func (ospf *OSPFv3) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into the OSPF layer.
func (*OSPFv3) NextLayerType ¶
type PFDirection ¶
type PFDirection uint8
const ( PFDirectionInOut PFDirection = 0 PFDirectionIn PFDirection = 1 PFDirectionOut PFDirection = 2 )
type PFLog ¶
type PFLog struct { BaseLayer Length uint8 Family ProtocolFamily Action, Reason uint8 IFName, Ruleset []byte RuleNum, SubruleNum uint32 UID uint32 PID int32 RuleUID uint32 RulePID int32 Direction PFDirection }
PFLog provides the layer for 'pf' packet-filter logging, as described at http://www.freebsd.org/cgi/man.cgi?query=pflog&sektion=4
func (*PFLog) CanDecode ¶
func (pf *PFLog) CanDecode() gopacket.LayerClass
func (*PFLog) DecodeFromBytes ¶
func (pf *PFLog) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*PFLog) NextLayerType ¶
type PPP ¶
PPP is the layer for PPP encapsulation headers.
func (*PPP) SerializeTo ¶
func (p *PPP) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type PPPType ¶
type PPPType uint16
PPPType is an enumeration of PPP type values, and acts as a decoder for any type it supports.
func (PPPType) Decode ¶
func (a PPPType) Decode(data []byte, p gopacket.PacketBuilder) error
Decoder calls PPPTypeMetadata.DecodeWith's decoder.
type PPPoE ¶
type PPPoE struct { BaseLayer Version uint8 Type uint8 Code PPPoECode SessionId uint16 Length uint16 }
PPPoE is the layer for PPPoE encapsulation headers.
func (*PPPoE) SerializeTo ¶
func (p *PPPoE) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type PPPoECode ¶
type PPPoECode uint8
PPPoECode is the PPPoE code enum, taken from http://tools.ietf.org/html/rfc2516
func (PPPoECode) Decode ¶
func (a PPPoECode) Decode(data []byte, p gopacket.PacketBuilder) error
Decoder calls PPPoECodeMetadata.DecodeWith's decoder.
type PortProtocolVLANID ¶
type PrismDID ¶
type PrismDID uint32
const ( PrismDIDType1HostTime PrismDID = 0x10044 PrismDIDType2HostTime PrismDID = 0x01041 PrismDIDType1MACTime PrismDID = 0x20044 PrismDIDType2MACTime PrismDID = 0x02041 PrismDIDType1Channel PrismDID = 0x30044 PrismDIDType2Channel PrismDID = 0x03041 PrismDIDType1RSSI PrismDID = 0x40044 PrismDIDType2RSSI PrismDID = 0x04041 PrismDIDType1SignalQuality PrismDID = 0x50044 PrismDIDType2SignalQuality PrismDID = 0x05041 PrismDIDType1Signal PrismDID = 0x60044 PrismDIDType2Signal PrismDID = 0x06041 PrismDIDType1Noise PrismDID = 0x70044 PrismDIDType2Noise PrismDID = 0x07041 PrismDIDType1Rate PrismDID = 0x80044 PrismDIDType2Rate PrismDID = 0x08041 PrismDIDType1TransmittedFrameIndicator PrismDID = 0x90044 PrismDIDType2TransmittedFrameIndicator PrismDID = 0x09041 PrismDIDType1FrameLength PrismDID = 0xA0044 PrismDIDType2FrameLength PrismDID = 0x0A041 )
type PrismHeader ¶
type PrismHeader struct { BaseLayer Code uint16 Length uint16 DeviceName string Values []PrismValue }
func (*PrismHeader) CanDecode ¶
func (m *PrismHeader) CanDecode() gopacket.LayerClass
func (*PrismHeader) DecodeFromBytes ¶
func (m *PrismHeader) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*PrismHeader) LayerType ¶
func (m *PrismHeader) LayerType() gopacket.LayerType
func (*PrismHeader) NextLayerType ¶
func (m *PrismHeader) NextLayerType() gopacket.LayerType
type PrismValue ¶
func (*PrismValue) IsSupplied ¶
func (pv *PrismValue) IsSupplied() bool
type ProtocolFamily ¶
type ProtocolFamily uint8
ProtocolFamily is the set of values defined as PF_* in sys/socket.h
const ( ProtocolFamilyIPv4 ProtocolFamily = 2 // BSDs use different values for INET6... glory be. These values taken from // tcpdump 4.3.0. ProtocolFamilyIPv6BSD ProtocolFamily = 24 ProtocolFamilyIPv6FreeBSD ProtocolFamily = 28 ProtocolFamilyIPv6Darwin ProtocolFamily = 30 ProtocolFamilyIPv6Linux ProtocolFamily = 10 )
func (ProtocolFamily) Decode ¶
func (a ProtocolFamily) Decode(data []byte, p gopacket.PacketBuilder) error
Decoder calls ProtocolFamilyMetadata.DecodeWith's decoder.
func (ProtocolFamily) LayerType ¶
func (a ProtocolFamily) LayerType() gopacket.LayerType
LayerType returns ProtocolFamilyMetadata.LayerType.
func (ProtocolFamily) String ¶
func (a ProtocolFamily) String() string
String returns ProtocolFamilyMetadata.Name.
type ProtocolGuessingDecoder ¶
type ProtocolGuessingDecoder struct{}
ProtocolGuessingDecoder attempts to guess the protocol of the bytes it's given, then decode the packet accordingly. Its algorithm for guessing is:
If the packet starts with byte 0x45-0x4F: IPv4 If the packet starts with byte 0x60-0x6F: IPv6 Otherwise: Error
See draft-hsmit-isis-aal5mux-00.txt for more detail on this approach.
func (ProtocolGuessingDecoder) Decode ¶
func (ProtocolGuessingDecoder) Decode(data []byte, p gopacket.PacketBuilder) error
type ProtocolIdentity ¶
type ProtocolIdentity []byte
type RADIUS ¶
type RADIUS struct { BaseLayer Code RADIUSCode Identifier RADIUSIdentifier Length RADIUSLength Authenticator RADIUSAuthenticator Attributes []RADIUSAttribute }
RADIUS represents a Remote Authentication Dial In User Service layer.
func (*RADIUS) CanDecode ¶
func (radius *RADIUS) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*RADIUS) DecodeFromBytes ¶
func (radius *RADIUS) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*RADIUS) NextLayerType ¶
NextLayerType returns the layer type contained by this DecodingLayer.
func (*RADIUS) SerializeTo ¶
func (radius *RADIUS) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type RADIUSAttribute ¶
type RADIUSAttribute struct { Type RADIUSAttributeType Length RADIUSAttributeLength Value RADIUSAttributeValue }
RADIUSAttribute represents attributes.
type RADIUSAttributeLength ¶
type RADIUSAttributeLength uint8
RADIUSAttributeType represents attribute length.
type RADIUSAttributeType ¶
type RADIUSAttributeType uint8
RADIUSAttributeType represents attribute type.
const ( RADIUSAttributeTypeUserName RADIUSAttributeType = 1 // RFC2865 5.1. User-Name RADIUSAttributeTypeUserPassword RADIUSAttributeType = 2 // RFC2865 5.2. User-Password RADIUSAttributeTypeCHAPPassword RADIUSAttributeType = 3 // RFC2865 5.3. CHAP-Password RADIUSAttributeTypeNASIPAddress RADIUSAttributeType = 4 // RFC2865 5.4. NAS-IP-Address RADIUSAttributeTypeNASPort RADIUSAttributeType = 5 // RFC2865 5.5. NAS-Port RADIUSAttributeTypeServiceType RADIUSAttributeType = 6 // RFC2865 5.6. Service-Type RADIUSAttributeTypeFramedProtocol RADIUSAttributeType = 7 // RFC2865 5.7. Framed-Protocol RADIUSAttributeTypeFramedIPAddress RADIUSAttributeType = 8 // RFC2865 5.8. Framed-IP-Address RADIUSAttributeTypeFramedIPNetmask RADIUSAttributeType = 9 // RFC2865 5.9. Framed-IP-Netmask RADIUSAttributeTypeFramedRouting RADIUSAttributeType = 10 // RFC2865 5.10. Framed-Routing RADIUSAttributeTypeFilterId RADIUSAttributeType = 11 // RFC2865 5.11. Filter-Id RADIUSAttributeTypeFramedMTU RADIUSAttributeType = 12 // RFC2865 5.12. Framed-MTU RADIUSAttributeTypeFramedCompression RADIUSAttributeType = 13 // RFC2865 5.13. Framed-Compression RADIUSAttributeTypeLoginIPHost RADIUSAttributeType = 14 // RFC2865 5.14. Login-IP-Host RADIUSAttributeTypeLoginService RADIUSAttributeType = 15 // RFC2865 5.15. Login-Service RADIUSAttributeTypeLoginTCPPort RADIUSAttributeType = 16 // RFC2865 5.16. Login-TCP-Port RADIUSAttributeTypeReplyMessage RADIUSAttributeType = 18 // RFC2865 5.18. Reply-Message RADIUSAttributeTypeCallbackNumber RADIUSAttributeType = 19 // RFC2865 5.19. Callback-Number RADIUSAttributeTypeCallbackId RADIUSAttributeType = 20 // RFC2865 5.20. Callback-Id RADIUSAttributeTypeFramedRoute RADIUSAttributeType = 22 // RFC2865 5.22. Framed-Route RADIUSAttributeTypeFramedIPXNetwork RADIUSAttributeType = 23 // RFC2865 5.23. Framed-IPX-Network RADIUSAttributeTypeState RADIUSAttributeType = 24 // RFC2865 5.24. State RADIUSAttributeTypeClass RADIUSAttributeType = 25 // RFC2865 5.25. Class RADIUSAttributeTypeVendorSpecific RADIUSAttributeType = 26 // RFC2865 5.26. Vendor-Specific RADIUSAttributeTypeSessionTimeout RADIUSAttributeType = 27 // RFC2865 5.27. Session-Timeout RADIUSAttributeTypeIdleTimeout RADIUSAttributeType = 28 // RFC2865 5.28. Idle-Timeout RADIUSAttributeTypeTerminationAction RADIUSAttributeType = 29 // RFC2865 5.29. Termination-Action RADIUSAttributeTypeCalledStationId RADIUSAttributeType = 30 // RFC2865 5.30. Called-Station-Id RADIUSAttributeTypeCallingStationId RADIUSAttributeType = 31 // RFC2865 5.31. Calling-Station-Id RADIUSAttributeTypeNASIdentifier RADIUSAttributeType = 32 // RFC2865 5.32. NAS-Identifier RADIUSAttributeTypeProxyState RADIUSAttributeType = 33 // RFC2865 5.33. Proxy-State RADIUSAttributeTypeLoginLATService RADIUSAttributeType = 34 // RFC2865 5.34. Login-LAT-Service RADIUSAttributeTypeLoginLATNode RADIUSAttributeType = 35 // RFC2865 5.35. Login-LAT-Node RADIUSAttributeTypeLoginLATGroup RADIUSAttributeType = 36 // RFC2865 5.36. Login-LAT-Group RADIUSAttributeTypeFramedAppleTalkLink RADIUSAttributeType = 37 // RFC2865 5.37. Framed-AppleTalk-Link RADIUSAttributeTypeFramedAppleTalkNetwork RADIUSAttributeType = 38 // RFC2865 5.38. Framed-AppleTalk-Network RADIUSAttributeTypeFramedAppleTalkZone RADIUSAttributeType = 39 // RFC2865 5.39. Framed-AppleTalk-Zone RADIUSAttributeTypeAcctStatusType RADIUSAttributeType = 40 // RFC2866 5.1. Acct-Status-Type RADIUSAttributeTypeAcctDelayTime RADIUSAttributeType = 41 // RFC2866 5.2. Acct-Delay-Time RADIUSAttributeTypeAcctInputOctets RADIUSAttributeType = 42 // RFC2866 5.3. Acct-Input-Octets RADIUSAttributeTypeAcctOutputOctets RADIUSAttributeType = 43 // RFC2866 5.4. Acct-Output-Octets RADIUSAttributeTypeAcctSessionId RADIUSAttributeType = 44 // RFC2866 5.5. Acct-Session-Id RADIUSAttributeTypeAcctAuthentic RADIUSAttributeType = 45 // RFC2866 5.6. Acct-Authentic RADIUSAttributeTypeAcctSessionTime RADIUSAttributeType = 46 // RFC2866 5.7. Acct-Session-Time RADIUSAttributeTypeAcctInputPackets RADIUSAttributeType = 47 // RFC2866 5.8. Acct-Input-Packets RADIUSAttributeTypeAcctOutputPackets RADIUSAttributeType = 48 // RFC2866 5.9. Acct-Output-Packets RADIUSAttributeTypeAcctTerminateCause RADIUSAttributeType = 49 // RFC2866 5.10. Acct-Terminate-Cause RADIUSAttributeTypeAcctMultiSessionId RADIUSAttributeType = 50 // RFC2866 5.11. Acct-Multi-Session-Id RADIUSAttributeTypeAcctLinkCount RADIUSAttributeType = 51 // RFC2866 5.12. Acct-Link-Count RADIUSAttributeTypeAcctInputGigawords RADIUSAttributeType = 52 // RFC2869 5.1. Acct-Input-Gigawords RADIUSAttributeTypeAcctOutputGigawords RADIUSAttributeType = 53 // RFC2869 5.2. Acct-Output-Gigawords RADIUSAttributeTypeEventTimestamp RADIUSAttributeType = 55 // RFC2869 5.3. Event-Timestamp RADIUSAttributeTypeCHAPChallenge RADIUSAttributeType = 60 // RFC2865 5.40. CHAP-Challenge RADIUSAttributeTypeNASPortType RADIUSAttributeType = 61 // RFC2865 5.41. NAS-Port-Type RADIUSAttributeTypePortLimit RADIUSAttributeType = 62 // RFC2865 5.42. Port-Limit RADIUSAttributeTypeLoginLATPort RADIUSAttributeType = 63 // RFC2865 5.43. Login-LAT-Port RADIUSAttributeTypeTunnelType RADIUSAttributeType = 64 // RFC2868 3.1. Tunnel-Type RADIUSAttributeTypeTunnelMediumType RADIUSAttributeType = 65 // RFC2868 3.2. Tunnel-Medium-Type RADIUSAttributeTypeTunnelClientEndpoint RADIUSAttributeType = 66 // RFC2868 3.3. Tunnel-Client-Endpoint RADIUSAttributeTypeTunnelServerEndpoint RADIUSAttributeType = 67 // RFC2868 3.4. Tunnel-Server-Endpoint RADIUSAttributeTypeAcctTunnelConnection RADIUSAttributeType = 68 // RFC2867 4.1. Acct-Tunnel-Connection RADIUSAttributeTypeTunnelPassword RADIUSAttributeType = 69 // RFC2868 3.5. Tunnel-Password RADIUSAttributeTypeARAPPassword RADIUSAttributeType = 70 // RFC2869 5.4. ARAP-Password RADIUSAttributeTypeARAPFeatures RADIUSAttributeType = 71 // RFC2869 5.5. ARAP-Features RADIUSAttributeTypeARAPZoneAccess RADIUSAttributeType = 72 // RFC2869 5.6. ARAP-Zone-Access RADIUSAttributeTypeARAPSecurity RADIUSAttributeType = 73 // RFC2869 5.7. ARAP-Security RADIUSAttributeTypeARAPSecurityData RADIUSAttributeType = 74 // RFC2869 5.8. ARAP-Security-Data RADIUSAttributeTypePasswordRetry RADIUSAttributeType = 75 // RFC2869 5.9. Password-Retry RADIUSAttributeTypePrompt RADIUSAttributeType = 76 // RFC2869 5.10. Prompt RADIUSAttributeTypeConnectInfo RADIUSAttributeType = 77 // RFC2869 5.11. Connect-Info RADIUSAttributeTypeConfigurationToken RADIUSAttributeType = 78 // RFC2869 5.12. Configuration-Token RADIUSAttributeTypeEAPMessage RADIUSAttributeType = 79 // RFC2869 5.13. EAP-Message RADIUSAttributeTypeMessageAuthenticator RADIUSAttributeType = 80 // RFC2869 5.14. Message-Authenticator RADIUSAttributeTypeTunnelPrivateGroupID RADIUSAttributeType = 81 // RFC2868 3.6. Tunnel-Private-Group-ID RADIUSAttributeTypeTunnelAssignmentID RADIUSAttributeType = 82 // RFC2868 3.7. Tunnel-Assignment-ID RADIUSAttributeTypeTunnelPreference RADIUSAttributeType = 83 // RFC2868 3.8. Tunnel-Preference RADIUSAttributeTypeARAPChallengeResponse RADIUSAttributeType = 84 // RFC2869 5.15. ARAP-Challenge-Response RADIUSAttributeTypeAcctInterimInterval RADIUSAttributeType = 85 // RFC2869 5.16. Acct-Interim-Interval RADIUSAttributeTypeAcctTunnelPacketsLost RADIUSAttributeType = 86 // RFC2867 4.2. Acct-Tunnel-Packets-Lost RADIUSAttributeTypeNASPortId RADIUSAttributeType = 87 // RFC2869 5.17. NAS-Port-Id RADIUSAttributeTypeFramedPool RADIUSAttributeType = 88 // RFC2869 5.18. Framed-Pool RADIUSAttributeTypeTunnelClientAuthID RADIUSAttributeType = 90 // RFC2868 3.9. Tunnel-Client-Auth-ID RADIUSAttributeTypeTunnelServerAuthID RADIUSAttributeType = 91 // RFC2868 3.10. Tunnel-Server-Auth-ID )
constants that define RADIUSAttributeType.
func (RADIUSAttributeType) String ¶
func (t RADIUSAttributeType) String() (s string)
String returns a string version of a RADIUSAttributeType.
type RADIUSAttributeValue ¶
type RADIUSAttributeValue []byte
RADIUSAttributeType represents attribute value.
type RADIUSAuthenticator ¶
type RADIUSAuthenticator [16]byte
RADIUSAuthenticator represents authenticator.
type RADIUSCode ¶
type RADIUSCode uint8
RADIUSCode represents packet type.
const ( RADIUSCodeAccessRequest RADIUSCode = 1 // RFC2865 3. Packet Format RADIUSCodeAccessAccept RADIUSCode = 2 // RFC2865 3. Packet Format RADIUSCodeAccessReject RADIUSCode = 3 // RFC2865 3. Packet Format RADIUSCodeAccountingRequest RADIUSCode = 4 // RFC2865 3. Packet Format RADIUSCodeAccountingResponse RADIUSCode = 5 // RFC2865 3. Packet Format RADIUSCodeAccessChallenge RADIUSCode = 11 // RFC2865 3. Packet Format RADIUSCodeStatusServer RADIUSCode = 12 // RFC2865 3. Packet Format (experimental) RADIUSCodeStatusClient RADIUSCode = 13 // RFC2865 3. Packet Format (experimental) RADIUSCodeReserved RADIUSCode = 255 // RFC2865 3. Packet Format )
constants that define RADIUSCode.
func (RADIUSCode) String ¶
func (t RADIUSCode) String() (s string)
String returns a string version of a RADIUSCode.
type RMCP ¶
type RMCP struct { BaseLayer // Version identifies the version of the RMCP header. 0x06 indicates RMCP // v1.0; lower values are legacy, higher values are reserved. Version uint8 // Sequence is the sequence number assicated with the message. Note that // this rolls over to 0 after 254, not 255. Seq num 255 indicates the // receiver must not send an ACK. Sequence uint8 // Ack indicates whether this packet is an acknowledgement. If it is, the // payload will be empty. Ack bool // Class idicates the structure of the payload. There are only 2^4 valid // values, however there is no uint4 data type. N.B. the Ack bit has been // split off into another field. The most significant 4 bits of this field // will always be 0. Class RMCPClass }
RMCP describes the format of an RMCP header, which forms a UDP payload. See section 3.2.2.2.
func (*RMCP) CanDecode ¶
func (r *RMCP) CanDecode() gopacket.LayerClass
CanDecode returns LayerTypeRMCP. It partially satisfies DecodingLayer.
func (*RMCP) DecodeFromBytes ¶
func (r *RMCP) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes makes the layer represent the provided bytes. It partially satisfies DecodingLayer.
func (*RMCP) LayerType ¶
LayerType returns LayerTypeRMCP. It partially satisfies Layer and SerializableLayer.
func (*RMCP) NextLayerType ¶
NextLayerType returns the data layer of this RMCP layer. This partially satisfies DecodingLayer.
func (*RMCP) SerializeTo ¶
func (r *RMCP) SerializeTo(b gopacket.SerializeBuffer, _ gopacket.SerializeOptions) error
SerializeTo writes the serialized fom of this layer into the SerializeBuffer, partially satisfying SerializableLayer.
type RMCPClass ¶
type RMCPClass uint8
RMCPClass is the class of a RMCP layer's payload, e.g. ASF or IPMI. This is a 4-bit unsigned int on the wire; all but 6 (ASF), 7 (IPMI) and 8 (OEM-defined) are currently reserved.
type RUDP ¶
type RUDP struct { BaseLayer SYN, ACK, EACK, RST, NUL bool Version uint8 HeaderLength uint8 SrcPort, DstPort RUDPPort DataLength uint16 Seq, Ack, Checksum uint32 VariableHeaderArea []byte // RUDPHeaderSyn contains SYN information for the RUDP packet, // if the SYN flag is set *RUDPHeaderSYN // RUDPHeaderEack contains EACK information for the RUDP packet, // if the EACK flag is set. *RUDPHeaderEACK }
func (*RUDP) TransportFlow ¶
type RUDPHeaderEACK ¶
type RUDPHeaderEACK struct {
SeqsReceivedOK []uint32
}
type RUDPHeaderSYN ¶
type RUDPHeaderSYN struct {
MaxOutstandingSegments, MaxSegmentSize, OptionFlags uint16
}
type RadioTap ¶
type RadioTap struct { BaseLayer // Version 0. Only increases for drastic changes, introduction of compatible new fields does not count. Version uint8 // Length of the whole header in bytes, including it_version, it_pad, it_len, and data fields. Length uint16 // Present is a bitmap telling which fields are present. Set bit 31 (0x80000000) to extend the bitmap by another 32 bits. Additional extensions are made by setting bit 31. Present RadioTapPresent // TSFT: value in microseconds of the MAC's 64-bit 802.11 Time Synchronization Function timer when the first bit of the MPDU arrived at the MAC. For received frames, only. TSFT uint64 Flags RadioTapFlags // Rate Tx/Rx data rate Rate RadioTapRate // ChannelFrequency Tx/Rx frequency in MHz, followed by flags ChannelFrequency RadioTapChannelFrequency ChannelFlags RadioTapChannelFlags // FHSS For frequency-hopping radios, the hop set (first byte) and pattern (second byte). FHSS uint16 // DBMAntennaSignal RF signal power at the antenna, decibel difference from one milliwatt. DBMAntennaSignal int8 // DBMAntennaNoise RF noise power at the antenna, decibel difference from one milliwatt. DBMAntennaNoise int8 // LockQuality Quality of Barker code lock. Unitless. Monotonically nondecreasing with "better" lock strength. Called "Signal Quality" in datasheets. LockQuality uint16 // TxAttenuation Transmit power expressed as unitless distance from max power set at factory calibration. 0 is max power. Monotonically nondecreasing with lower power levels. TxAttenuation uint16 // DBTxAttenuation Transmit power expressed as decibel distance from max power set at factory calibration. 0 is max power. Monotonically nondecreasing with lower power levels. DBTxAttenuation uint16 // DBMTxPower Transmit power expressed as dBm (decibels from a 1 milliwatt reference). This is the absolute power level measured at the antenna port. DBMTxPower int8 // Antenna Unitless indication of the Rx/Tx antenna for this packet. The first antenna is antenna 0. Antenna uint8 // DBAntennaSignal RF signal power at the antenna, decibel difference from an arbitrary, fixed reference. DBAntennaSignal uint8 // DBAntennaNoise RF noise power at the antenna, decibel difference from an arbitrary, fixed reference point. DBAntennaNoise uint8 // RxFlags RadioTapRxFlags TxFlags RadioTapTxFlags RtsRetries uint8 DataRetries uint8 MCS RadioTapMCS AMPDUStatus RadioTapAMPDUStatus VHT RadioTapVHT }
func (*RadioTap) CanDecode ¶
func (m *RadioTap) CanDecode() gopacket.LayerClass
func (*RadioTap) DecodeFromBytes ¶
func (m *RadioTap) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*RadioTap) NextLayerType ¶
func (RadioTap) SerializeTo ¶
func (m RadioTap) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
type RadioTapAMPDUStatus ¶
type RadioTapAMPDUStatus struct { Reference uint32 Flags RadioTapAMPDUStatusFlags CRC uint8 }
func (RadioTapAMPDUStatus) String ¶
func (self RadioTapAMPDUStatus) String() string
type RadioTapAMPDUStatusFlags ¶
type RadioTapAMPDUStatusFlags uint16
const ( RadioTapAMPDUStatusFlagsReportZerolen RadioTapAMPDUStatusFlags = 1 << iota RadioTapAMPDUIsZerolen RadioTapAMPDULastKnown RadioTapAMPDUIsLast RadioTapAMPDUDelimCRCErr RadioTapAMPDUDelimCRCKnown )
func (RadioTapAMPDUStatusFlags) DelimCRCErr ¶
func (self RadioTapAMPDUStatusFlags) DelimCRCErr() bool
func (RadioTapAMPDUStatusFlags) DelimCRCKnown ¶
func (self RadioTapAMPDUStatusFlags) DelimCRCKnown() bool
func (RadioTapAMPDUStatusFlags) IsLast ¶
func (self RadioTapAMPDUStatusFlags) IsLast() bool
func (RadioTapAMPDUStatusFlags) IsZerolen ¶
func (self RadioTapAMPDUStatusFlags) IsZerolen() bool
func (RadioTapAMPDUStatusFlags) LastKnown ¶
func (self RadioTapAMPDUStatusFlags) LastKnown() bool
func (RadioTapAMPDUStatusFlags) ReportZerolen ¶
func (self RadioTapAMPDUStatusFlags) ReportZerolen() bool
type RadioTapChannelFlags ¶
type RadioTapChannelFlags uint16
const ( RadioTapChannelFlagsTurbo RadioTapChannelFlags = 0x0010 // Turbo channel RadioTapChannelFlagsCCK RadioTapChannelFlags = 0x0020 // CCK channel RadioTapChannelFlagsOFDM RadioTapChannelFlags = 0x0040 // OFDM channel RadioTapChannelFlagsGhz2 RadioTapChannelFlags = 0x0080 // 2 GHz spectrum channel. RadioTapChannelFlagsGhz5 RadioTapChannelFlags = 0x0100 // 5 GHz spectrum channel RadioTapChannelFlagsPassive RadioTapChannelFlags = 0x0200 // Only passive scan allowed RadioTapChannelFlagsDynamic RadioTapChannelFlags = 0x0400 // Dynamic CCK-OFDM channel RadioTapChannelFlagsGFSK RadioTapChannelFlags = 0x0800 // GFSK channel (FHSS PHY) )
func (RadioTapChannelFlags) CCK ¶
func (r RadioTapChannelFlags) CCK() bool
func (RadioTapChannelFlags) Dynamic ¶
func (r RadioTapChannelFlags) Dynamic() bool
func (RadioTapChannelFlags) GFSK ¶
func (r RadioTapChannelFlags) GFSK() bool
func (RadioTapChannelFlags) Ghz2 ¶
func (r RadioTapChannelFlags) Ghz2() bool
func (RadioTapChannelFlags) Ghz5 ¶
func (r RadioTapChannelFlags) Ghz5() bool
func (RadioTapChannelFlags) OFDM ¶
func (r RadioTapChannelFlags) OFDM() bool
func (RadioTapChannelFlags) Passive ¶
func (r RadioTapChannelFlags) Passive() bool
func (RadioTapChannelFlags) String ¶
func (a RadioTapChannelFlags) String() string
String provides a human readable string for RadioTapChannelFlags. This string is possibly subject to change over time; if you're storing this persistently, you should probably store the RadioTapChannelFlags value, not its string.
func (RadioTapChannelFlags) Turbo ¶
func (r RadioTapChannelFlags) Turbo() bool
type RadioTapChannelFrequency ¶
type RadioTapChannelFrequency uint16
func (RadioTapChannelFrequency) String ¶
func (a RadioTapChannelFrequency) String() string
type RadioTapFlags ¶
type RadioTapFlags uint8
const ( RadioTapFlagsCFP RadioTapFlags = 1 << iota // sent/received during CFP RadioTapFlagsShortPreamble // sent/received * with short * preamble RadioTapFlagsWEP // sent/received * with WEP encryption RadioTapFlagsFrag // sent/received * with fragmentation RadioTapFlagsFCS // frame includes FCS RadioTapFlagsDatapad // frame has padding between * 802.11 header and payload * (to 32-bit boundary) RadioTapFlagsBadFCS // does not pass FCS check RadioTapFlagsShortGI // HT short GI )
func (RadioTapFlags) BadFCS ¶
func (r RadioTapFlags) BadFCS() bool
func (RadioTapFlags) CFP ¶
func (r RadioTapFlags) CFP() bool
func (RadioTapFlags) Datapad ¶
func (r RadioTapFlags) Datapad() bool
func (RadioTapFlags) FCS ¶
func (r RadioTapFlags) FCS() bool
func (RadioTapFlags) Frag ¶
func (r RadioTapFlags) Frag() bool
func (RadioTapFlags) ShortGI ¶
func (r RadioTapFlags) ShortGI() bool
func (RadioTapFlags) ShortPreamble ¶
func (r RadioTapFlags) ShortPreamble() bool
func (RadioTapFlags) String ¶
func (a RadioTapFlags) String() string
String provides a human readable string for RadioTapFlags. This string is possibly subject to change over time; if you're storing this persistently, you should probably store the RadioTapFlags value, not its string.
func (RadioTapFlags) WEP ¶
func (r RadioTapFlags) WEP() bool
type RadioTapMCS ¶
type RadioTapMCS struct { Known RadioTapMCSKnown Flags RadioTapMCSFlags MCS uint8 }
func (RadioTapMCS) String ¶
func (self RadioTapMCS) String() string
type RadioTapMCSFlags ¶
type RadioTapMCSFlags uint8
func (RadioTapMCSFlags) Bandwidth ¶
func (self RadioTapMCSFlags) Bandwidth() int
func (RadioTapMCSFlags) FECLDPC ¶
func (self RadioTapMCSFlags) FECLDPC() bool
func (RadioTapMCSFlags) Greenfield ¶
func (self RadioTapMCSFlags) Greenfield() bool
func (RadioTapMCSFlags) NESS0 ¶
func (self RadioTapMCSFlags) NESS0() bool
func (RadioTapMCSFlags) STBC ¶
func (self RadioTapMCSFlags) STBC() int
func (RadioTapMCSFlags) ShortGI ¶
func (self RadioTapMCSFlags) ShortGI() bool
type RadioTapMCSKnown ¶
type RadioTapMCSKnown uint8
const ( RadioTapMCSKnownBandwidth RadioTapMCSKnown = 1 << iota RadioTapMCSKnownMCSIndex RadioTapMCSKnownGuardInterval RadioTapMCSKnownHTFormat RadioTapMCSKnownFECType RadioTapMCSKnownSTBC RadioTapMCSKnownNESS RadioTapMCSKnownNESS1 )
func (RadioTapMCSKnown) Bandwidth ¶
func (self RadioTapMCSKnown) Bandwidth() bool
func (RadioTapMCSKnown) FECType ¶
func (self RadioTapMCSKnown) FECType() bool
func (RadioTapMCSKnown) GuardInterval ¶
func (self RadioTapMCSKnown) GuardInterval() bool
func (RadioTapMCSKnown) HTFormat ¶
func (self RadioTapMCSKnown) HTFormat() bool
func (RadioTapMCSKnown) MCSIndex ¶
func (self RadioTapMCSKnown) MCSIndex() bool
func (RadioTapMCSKnown) NESS ¶
func (self RadioTapMCSKnown) NESS() bool
func (RadioTapMCSKnown) NESS1 ¶
func (self RadioTapMCSKnown) NESS1() bool
func (RadioTapMCSKnown) STBC ¶
func (self RadioTapMCSKnown) STBC() bool
type RadioTapPresent ¶
type RadioTapPresent uint32
const ( RadioTapPresentTSFT RadioTapPresent = 1 << iota RadioTapPresentFlags RadioTapPresentRate RadioTapPresentChannel RadioTapPresentFHSS RadioTapPresentDBMAntennaSignal RadioTapPresentDBMAntennaNoise RadioTapPresentLockQuality RadioTapPresentTxAttenuation RadioTapPresentDBTxAttenuation RadioTapPresentDBMTxPower RadioTapPresentAntenna RadioTapPresentDBAntennaSignal RadioTapPresentDBAntennaNoise RadioTapPresentRxFlags RadioTapPresentTxFlags RadioTapPresentRtsRetries RadioTapPresentDataRetries RadioTapPresentMCS RadioTapPresentAMPDUStatus RadioTapPresentVHT RadioTapPresentEXT RadioTapPresent = 1 << 31 )
func (RadioTapPresent) AMPDUStatus ¶
func (r RadioTapPresent) AMPDUStatus() bool
func (RadioTapPresent) Antenna ¶
func (r RadioTapPresent) Antenna() bool
func (RadioTapPresent) Channel ¶
func (r RadioTapPresent) Channel() bool
func (RadioTapPresent) DBAntennaNoise ¶
func (r RadioTapPresent) DBAntennaNoise() bool
func (RadioTapPresent) DBAntennaSignal ¶
func (r RadioTapPresent) DBAntennaSignal() bool
func (RadioTapPresent) DBMAntennaNoise ¶
func (r RadioTapPresent) DBMAntennaNoise() bool
func (RadioTapPresent) DBMAntennaSignal ¶
func (r RadioTapPresent) DBMAntennaSignal() bool
func (RadioTapPresent) DBMTxPower ¶
func (r RadioTapPresent) DBMTxPower() bool
func (RadioTapPresent) DBTxAttenuation ¶
func (r RadioTapPresent) DBTxAttenuation() bool
func (RadioTapPresent) DataRetries ¶
func (r RadioTapPresent) DataRetries() bool
func (RadioTapPresent) EXT ¶
func (r RadioTapPresent) EXT() bool
func (RadioTapPresent) FHSS ¶
func (r RadioTapPresent) FHSS() bool
func (RadioTapPresent) Flags ¶
func (r RadioTapPresent) Flags() bool
func (RadioTapPresent) LockQuality ¶
func (r RadioTapPresent) LockQuality() bool
func (RadioTapPresent) MCS ¶
func (r RadioTapPresent) MCS() bool
func (RadioTapPresent) Rate ¶
func (r RadioTapPresent) Rate() bool
func (RadioTapPresent) RtsRetries ¶
func (r RadioTapPresent) RtsRetries() bool
func (RadioTapPresent) RxFlags ¶
func (r RadioTapPresent) RxFlags() bool
func (RadioTapPresent) TSFT ¶
func (r RadioTapPresent) TSFT() bool
func (RadioTapPresent) TxAttenuation ¶
func (r RadioTapPresent) TxAttenuation() bool
func (RadioTapPresent) TxFlags ¶
func (r RadioTapPresent) TxFlags() bool
func (RadioTapPresent) VHT ¶
func (r RadioTapPresent) VHT() bool
type RadioTapRate ¶
type RadioTapRate uint8
func (RadioTapRate) String ¶
func (a RadioTapRate) String() string
type RadioTapRxFlags ¶
type RadioTapRxFlags uint16
const (
RadioTapRxFlagsBadPlcp RadioTapRxFlags = 0x0002
)
func (RadioTapRxFlags) BadPlcp ¶
func (self RadioTapRxFlags) BadPlcp() bool
func (RadioTapRxFlags) String ¶
func (self RadioTapRxFlags) String() string
type RadioTapTxFlags ¶
type RadioTapTxFlags uint16
const ( RadioTapTxFlagsFail RadioTapTxFlags = 1 << iota RadioTapTxFlagsCTS RadioTapTxFlagsRTS RadioTapTxFlagsNoACK )
func (RadioTapTxFlags) CTS ¶
func (self RadioTapTxFlags) CTS() bool
func (RadioTapTxFlags) Fail ¶
func (self RadioTapTxFlags) Fail() bool
func (RadioTapTxFlags) NoACK ¶
func (self RadioTapTxFlags) NoACK() bool
func (RadioTapTxFlags) RTS ¶
func (self RadioTapTxFlags) RTS() bool
func (RadioTapTxFlags) String ¶
func (self RadioTapTxFlags) String() string
type RadioTapVHT ¶
type RadioTapVHT struct { Known RadioTapVHTKnown Flags RadioTapVHTFlags Bandwidth uint8 MCSNSS [4]RadioTapVHTMCSNSS Coding uint8 GroupId uint8 PartialAID uint16 }
func (RadioTapVHT) String ¶
func (self RadioTapVHT) String() string
type RadioTapVHTFlags ¶
type RadioTapVHTFlags uint8
const ( RadioTapVHTFlagsSTBC RadioTapVHTFlags = 1 << iota RadioTapVHTFlagsTXOPPSNotAllowed RadioTapVHTFlagsSGI RadioTapVHTFlagsSGINSYMMod RadioTapVHTFlagsLDPCExtraOFDMSymbol RadioTapVHTFlagsBeamformed )
func (RadioTapVHTFlags) Beamformed ¶
func (self RadioTapVHTFlags) Beamformed() bool
func (RadioTapVHTFlags) LDPCExtraOFDMSymbol ¶
func (self RadioTapVHTFlags) LDPCExtraOFDMSymbol() bool
func (RadioTapVHTFlags) SGI ¶
func (self RadioTapVHTFlags) SGI() bool
func (RadioTapVHTFlags) SGINSYMMod ¶
func (self RadioTapVHTFlags) SGINSYMMod() bool
func (RadioTapVHTFlags) STBC ¶
func (self RadioTapVHTFlags) STBC() bool
func (RadioTapVHTFlags) TXOPPSNotAllowed ¶
func (self RadioTapVHTFlags) TXOPPSNotAllowed() bool
type RadioTapVHTKnown ¶
type RadioTapVHTKnown uint16
const ( RadioTapVHTKnownSTBC RadioTapVHTKnown = 1 << iota RadioTapVHTKnownTXOPPSNotAllowed RadioTapVHTKnownGI RadioTapVHTKnownSGINSYMDisambiguation RadioTapVHTKnownLDPCExtraOFDMSymbol RadioTapVHTKnownBeamformed RadioTapVHTKnownBandwidth RadioTapVHTKnownGroupId RadioTapVHTKnownPartialAID )
func (RadioTapVHTKnown) Bandwidth ¶
func (self RadioTapVHTKnown) Bandwidth() bool
func (RadioTapVHTKnown) Beamformed ¶
func (self RadioTapVHTKnown) Beamformed() bool
func (RadioTapVHTKnown) GI ¶
func (self RadioTapVHTKnown) GI() bool
func (RadioTapVHTKnown) GroupId ¶
func (self RadioTapVHTKnown) GroupId() bool
func (RadioTapVHTKnown) LDPCExtraOFDMSymbol ¶
func (self RadioTapVHTKnown) LDPCExtraOFDMSymbol() bool
func (RadioTapVHTKnown) PartialAID ¶
func (self RadioTapVHTKnown) PartialAID() bool
func (RadioTapVHTKnown) SGINSYMDisambiguation ¶
func (self RadioTapVHTKnown) SGINSYMDisambiguation() bool
func (RadioTapVHTKnown) STBC ¶
func (self RadioTapVHTKnown) STBC() bool
func (RadioTapVHTKnown) TXOPPSNotAllowed ¶
func (self RadioTapVHTKnown) TXOPPSNotAllowed() bool
type RadioTapVHTMCSNSS ¶
type RadioTapVHTMCSNSS uint8
func (RadioTapVHTMCSNSS) Present ¶
func (self RadioTapVHTMCSNSS) Present() bool
func (RadioTapVHTMCSNSS) String ¶
func (self RadioTapVHTMCSNSS) String() string
type Router ¶
type Router struct { Type uint8 Metric uint16 InterfaceID uint32 NeighborInterfaceID uint32 NeighborRouterID uint32 }
Router extends RouterLSA
type RouterLSAV2 ¶
RouterLSAV2 is the struct from RFC 2328 A.4.2.
type SCTP ¶
type SCTP struct { BaseLayer SrcPort, DstPort SCTPPort VerificationTag uint32 Checksum uint32 // contains filtered or unexported fields }
SCTP contains information on the top level of an SCTP packet.
func (*SCTP) CanDecode ¶
func (t *SCTP) CanDecode() gopacket.LayerClass
func (*SCTP) DecodeFromBytes ¶
func (sctp *SCTP) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*SCTP) NextLayerType ¶
func (SCTP) SerializeTo ¶
func (s SCTP) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo is for gopacket.SerializableLayer.
func (*SCTP) TransportFlow ¶
TransportFlow returns a flow based on the source and destination SCTP port.
type SCTPChunk ¶
type SCTPChunk struct { BaseLayer Type SCTPChunkType Flags uint8 Length uint16 // ActualLength is the total length of an SCTP chunk, including padding. // SCTP chunks start and end on 4-byte boundaries. So if a chunk has a length // of 18, it means that it has data up to and including byte 18, then padding // up to the next 4-byte boundary, 20. In this case, Length would be 18, and // ActualLength would be 20. ActualLength int }
SCTPChunk contains the common fields in all SCTP chunks.
type SCTPChunkType ¶
type SCTPChunkType uint8
SCTPChunkType is an enumeration of chunk types inside SCTP packets.
const ( SCTPChunkTypeData SCTPChunkType = 0 SCTPChunkTypeInit SCTPChunkType = 1 SCTPChunkTypeInitAck SCTPChunkType = 2 SCTPChunkTypeSack SCTPChunkType = 3 SCTPChunkTypeHeartbeat SCTPChunkType = 4 SCTPChunkTypeHeartbeatAck SCTPChunkType = 5 SCTPChunkTypeAbort SCTPChunkType = 6 SCTPChunkTypeShutdown SCTPChunkType = 7 SCTPChunkTypeShutdownAck SCTPChunkType = 8 SCTPChunkTypeError SCTPChunkType = 9 SCTPChunkTypeCookieEcho SCTPChunkType = 10 SCTPChunkTypeCookieAck SCTPChunkType = 11 SCTPChunkTypeShutdownComplete SCTPChunkType = 14 )
func (SCTPChunkType) Decode ¶
func (a SCTPChunkType) Decode(data []byte, p gopacket.PacketBuilder) error
Decoder calls SCTPChunkTypeMetadata.DecodeWith's decoder.
func (SCTPChunkType) LayerType ¶
func (a SCTPChunkType) LayerType() gopacket.LayerType
LayerType returns SCTPChunkTypeMetadata.LayerType.
func (SCTPChunkType) String ¶
func (a SCTPChunkType) String() string
String returns SCTPChunkTypeMetadata.Name.
type SCTPCookieEcho ¶
SCTPCookieEcho is the SCTP Cookie Echo layer.
func (*SCTPCookieEcho) LayerType ¶
func (sc *SCTPCookieEcho) LayerType() gopacket.LayerType
LayerType returns gopacket.LayerTypeSCTPCookieEcho.
func (SCTPCookieEcho) SerializeTo ¶
func (sc SCTPCookieEcho) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo is for gopacket.SerializableLayer.
type SCTPData ¶
type SCTPData struct { SCTPChunk Unordered, BeginFragment, EndFragment bool TSN uint32 StreamId uint16 StreamSequence uint16 PayloadProtocol SCTPPayloadProtocol }
SCTPData is the SCTP Data chunk layer.
func (SCTPData) SerializeTo ¶
func (sc SCTPData) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo is for gopacket.SerializableLayer.
type SCTPEmptyLayer ¶
type SCTPEmptyLayer struct {
SCTPChunk
}
This struct is used by all empty SCTP chunks (currently CookieAck and ShutdownComplete).
func (*SCTPEmptyLayer) LayerType ¶
func (sc *SCTPEmptyLayer) LayerType() gopacket.LayerType
LayerType returns either gopacket.LayerTypeSCTPShutdownComplete or LayerTypeSCTPCookieAck.
func (SCTPEmptyLayer) SerializeTo ¶
func (sc SCTPEmptyLayer) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo is for gopacket.SerializableLayer.
type SCTPError ¶
type SCTPError struct { SCTPChunk Parameters []SCTPErrorParameter }
SCTPError is the SCTP error layer, also used for SCTP aborts.
func (SCTPError) SerializeTo ¶
func (sc SCTPError) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo is for gopacket.SerializableLayer.
type SCTPErrorParameter ¶
type SCTPErrorParameter SCTPParameter
SCTPErrorParameter is the parameter type used by SCTP Abort and Error layers.
type SCTPHeartbeat ¶
type SCTPHeartbeat struct { SCTPChunk Parameters []SCTPHeartbeatParameter }
SCTPHeartbeat is the SCTP heartbeat layer, also used for heatbeat ack.
func (*SCTPHeartbeat) LayerType ¶
func (sc *SCTPHeartbeat) LayerType() gopacket.LayerType
LayerType returns gopacket.LayerTypeSCTPHeartbeat.
func (SCTPHeartbeat) SerializeTo ¶
func (sc SCTPHeartbeat) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo is for gopacket.SerializableLayer.
type SCTPHeartbeatParameter ¶
type SCTPHeartbeatParameter SCTPParameter
SCTPHeartbeatParameter is the parameter type used by SCTP heartbeat and heartbeat ack layers.
type SCTPInit ¶
type SCTPInit struct { SCTPChunk InitiateTag uint32 AdvertisedReceiverWindowCredit uint32 OutboundStreams, InboundStreams uint16 InitialTSN uint32 Parameters []SCTPInitParameter }
SCTPInit is used as the return value for both SCTPInit and SCTPInitAck messages.
func (*SCTPInit) LayerType ¶
LayerType returns either gopacket.LayerTypeSCTPInit or gopacket.LayerTypeSCTPInitAck.
func (SCTPInit) SerializeTo ¶
func (sc SCTPInit) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo is for gopacket.SerializableLayer.
type SCTPInitParameter ¶
type SCTPInitParameter SCTPParameter
SCTPInitParameter is a parameter for an SCTP Init or InitAck packet.
type SCTPParameter ¶
SCTPParameter is a TLV parameter inside a SCTPChunk.
func (SCTPParameter) Bytes ¶
func (p SCTPParameter) Bytes() []byte
type SCTPPayloadProtocol ¶
type SCTPPayloadProtocol uint32
SCTPPayloadProtocol represents a payload protocol
func (SCTPPayloadProtocol) String ¶
func (p SCTPPayloadProtocol) String() string
type SCTPSack ¶
type SCTPSack struct { SCTPChunk CumulativeTSNAck uint32 AdvertisedReceiverWindowCredit uint32 NumGapACKs, NumDuplicateTSNs uint16 GapACKs []uint16 DuplicateTSNs []uint32 }
SCTPSack is the SCTP Selective ACK chunk layer.
func (SCTPSack) SerializeTo ¶
func (sc SCTPSack) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo is for gopacket.SerializableLayer.
type SCTPShutdown ¶
SCTPShutdown is the SCTP shutdown layer.
func (*SCTPShutdown) LayerType ¶
func (sc *SCTPShutdown) LayerType() gopacket.LayerType
LayerType returns gopacket.LayerTypeSCTPShutdown.
func (SCTPShutdown) SerializeTo ¶
func (sc SCTPShutdown) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo is for gopacket.SerializableLayer.
type SCTPShutdownAck ¶
type SCTPShutdownAck struct {
SCTPChunk
}
SCTPShutdownAck is the SCTP shutdown layer.
func (*SCTPShutdownAck) LayerType ¶
func (sc *SCTPShutdownAck) LayerType() gopacket.LayerType
LayerType returns gopacket.LayerTypeSCTPShutdownAck.
func (SCTPShutdownAck) SerializeTo ¶
func (sc SCTPShutdownAck) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo is for gopacket.SerializableLayer.
type SCTPUnknownChunkType ¶
type SCTPUnknownChunkType struct { SCTPChunk // contains filtered or unexported fields }
SCTPUnknownChunkType is the layer type returned when we don't recognize the chunk type. Since there's a length in a known location, we can skip over it even if we don't know what it is, and continue parsing the rest of the chunks. This chunk is stored as an ErrorLayer in the packet.
func (*SCTPUnknownChunkType) Error ¶
func (s *SCTPUnknownChunkType) Error() error
Error implements ErrorLayer.
func (*SCTPUnknownChunkType) LayerType ¶
func (s *SCTPUnknownChunkType) LayerType() gopacket.LayerType
LayerType returns gopacket.LayerTypeSCTPUnknownChunkType.
func (*SCTPUnknownChunkType) Payload ¶
func (s *SCTPUnknownChunkType) Payload() []byte
Payload returns all bytes in this header, including the decoded Type, Length, and Flags.
func (SCTPUnknownChunkType) SerializeTo ¶
func (s SCTPUnknownChunkType) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo is for gopacket.SerializableLayer.
type SFLLACPPortState ¶
type SFLLACPPortState struct {
PortStateAll uint32
}
SFLLACPportState : SFlow LACP Port State (All(4) - 32 bit)
type SFlowASDestination ¶
type SFlowASDestination struct { Type SFlowASPathType Count uint32 Members []uint32 }
func (SFlowASDestination) String ¶
func (asd SFlowASDestination) String() string
type SFlowASPathType ¶
type SFlowASPathType uint32
const ( SFlowASSet SFlowASPathType = 1 SFlowASSequence SFlowASPathType = 2 )
func (SFlowASPathType) String ¶
func (apt SFlowASPathType) String() string
type SFlowAppresourcesCounters ¶
type SFlowAppresourcesCounters struct { SFlowBaseCounterRecord UserTime uint32 SystemTime uint32 MemUsed uint64 MemMax uint64 FdOpen uint32 FdMax uint32 ConnOpen uint32 ConnMax uint32 }
SFlowAppresourcesCounters : OVS_Sflow App Resources Counter ( 48 Bytes )
type SFlowBaseCounterRecord ¶
type SFlowBaseCounterRecord struct { EnterpriseID SFlowEnterpriseID Format SFlowCounterRecordType FlowDataLength uint32 }
func (SFlowBaseCounterRecord) GetType ¶
func (bcr SFlowBaseCounterRecord) GetType() SFlowCounterRecordType
type SFlowBaseFlowRecord ¶
type SFlowBaseFlowRecord struct { EnterpriseID SFlowEnterpriseID Format SFlowFlowRecordType FlowDataLength uint32 }
SFlowBaseFlowRecord holds the fields common to all records of type SFlowFlowRecordType
func (SFlowBaseFlowRecord) GetType ¶
func (bfr SFlowBaseFlowRecord) GetType() SFlowFlowRecordType
type SFlowCharSet ¶
type SFlowCharSet uint32
const ( SFlowCSunknown SFlowCharSet = 2 SFlowCSASCII SFlowCharSet = 3 SFlowCSISOLatin1 SFlowCharSet = 4 SFlowCSISOLatin2 SFlowCharSet = 5 SFlowCSISOLatin3 SFlowCharSet = 6 SFlowCSISOLatin4 SFlowCharSet = 7 SFlowCSISOLatinCyrillic SFlowCharSet = 8 SFlowCSISOLatinArabic SFlowCharSet = 9 SFlowCSISOLatinGreek SFlowCharSet = 10 SFlowCSISOLatinHebrew SFlowCharSet = 11 SFlowCSISOLatin5 SFlowCharSet = 12 SFlowCSISOLatin6 SFlowCharSet = 13 SFlowCSISOTextComm SFlowCharSet = 14 SFlowCSHalfWidthKatakana SFlowCharSet = 15 SFlowCSJISEncoding SFlowCharSet = 16 SFlowCSShiftJIS SFlowCharSet = 17 SFlowCSEUCPkdFmtJapanese SFlowCharSet = 18 SFlowCSEUCFixWidJapanese SFlowCharSet = 19 SFlowCSISO4UnitedKingdom SFlowCharSet = 20 SFlowCSISO11SwedishForNames SFlowCharSet = 21 SFlowCSISO15Italian SFlowCharSet = 22 SFlowCSISO17Spanish SFlowCharSet = 23 SFlowCSISO21German SFlowCharSet = 24 SFlowCSISO60DanishNorwegian SFlowCharSet = 25 SFlowCSISO69French SFlowCharSet = 26 SFlowCSISO10646UTF1 SFlowCharSet = 27 SFlowCSISO646basic1983 SFlowCharSet = 28 SFlowCSINVARIANT SFlowCharSet = 29 SFlowCSISO2IntlRefVersion SFlowCharSet = 30 SFlowCSNATSSEFI SFlowCharSet = 31 SFlowCSNATSSEFIADD SFlowCharSet = 32 SFlowCSNATSDANO SFlowCharSet = 33 SFlowCSNATSDANOADD SFlowCharSet = 34 SFlowCSISO10Swedish SFlowCharSet = 35 SFlowCSKSC56011987 SFlowCharSet = 36 SFlowCSISO2022KR SFlowCharSet = 37 SFlowCSEUCKR SFlowCharSet = 38 SFlowCSISO2022JP SFlowCharSet = 39 SFlowCSISO2022JP2 SFlowCharSet = 40 SFlowCSISO13JISC6220jp SFlowCharSet = 41 SFlowCSISO14JISC6220ro SFlowCharSet = 42 SFlowCSISO16Portuguese SFlowCharSet = 43 SFlowCSISO18Greek7Old SFlowCharSet = 44 SFlowCSISO19LatinGreek SFlowCharSet = 45 SFlowCSISO25French SFlowCharSet = 46 SFlowCSISO27LatinGreek1 SFlowCharSet = 47 SFlowCSISO5427Cyrillic SFlowCharSet = 48 SFlowCSISO42JISC62261978 SFlowCharSet = 49 SFlowCSISO47BSViewdata SFlowCharSet = 50 SFlowCSISO49INIS SFlowCharSet = 51 SFlowCSISO50INIS8 SFlowCharSet = 52 SFlowCSISO51INISCyrillic SFlowCharSet = 53 SFlowCSISO54271981 SFlowCharSet = 54 SFlowCSISO5428Greek SFlowCharSet = 55 SFlowCSISO57GB1988 SFlowCharSet = 56 SFlowCSISO58GB231280 SFlowCharSet = 57 SFlowCSISO61Norwegian2 SFlowCharSet = 58 SFlowCSISO70VideotexSupp1 SFlowCharSet = 59 SFlowCSISO84Portuguese2 SFlowCharSet = 60 SFlowCSISO85Spanish2 SFlowCharSet = 61 SFlowCSISO86Hungarian SFlowCharSet = 62 SFlowCSISO87JISX0208 SFlowCharSet = 63 SFlowCSISO88Greek7 SFlowCharSet = 64 SFlowCSISO89ASMO449 SFlowCharSet = 65 SFlowCSISO90 SFlowCharSet = 66 SFlowCSISO91JISC62291984a SFlowCharSet = 67 SFlowCSISO92JISC62991984b SFlowCharSet = 68 SFlowCSISO93JIS62291984badd SFlowCharSet = 69 SFlowCSISO94JIS62291984hand SFlowCharSet = 70 SFlowCSISO95JIS62291984handadd SFlowCharSet = 71 SFlowCSISO96JISC62291984kana SFlowCharSet = 72 SFlowCSISO2033 SFlowCharSet = 73 SFlowCSISO99NAPLPS SFlowCharSet = 74 SFlowCSISO102T617bit SFlowCharSet = 75 SFlowCSISO103T618bit SFlowCharSet = 76 SFlowCSISO111ECMACyrillic SFlowCharSet = 77 SFlowCSa71 SFlowCharSet = 78 SFlowCSa72 SFlowCharSet = 79 SFlowCSISO123CSAZ24341985gr SFlowCharSet = 80 SFlowCSISO88596E SFlowCharSet = 81 SFlowCSISO88596I SFlowCharSet = 82 SFlowCSISO128T101G2 SFlowCharSet = 83 SFlowCSISO88598E SFlowCharSet = 84 SFlowCSISO88598I SFlowCharSet = 85 SFlowCSISO139CSN369103 SFlowCharSet = 86 SFlowCSISO141JUSIB1002 SFlowCharSet = 87 SFlowCSISO143IECP271 SFlowCharSet = 88 SFlowCSISO146Serbian SFlowCharSet = 89 SFlowCSISO147Macedonian SFlowCharSet = 90 SFlowCSISO150 SFlowCharSet = 91 SFlowCSISO151Cuba SFlowCharSet = 92 SFlowCSISO6937Add SFlowCharSet = 93 SFlowCSISO153GOST1976874 SFlowCharSet = 94 SFlowCSISO8859Supp SFlowCharSet = 95 SFlowCSISO10367Box SFlowCharSet = 96 SFlowCSISO158Lap SFlowCharSet = 97 SFlowCSISO159JISX02121990 SFlowCharSet = 98 SFlowCSISO646Danish SFlowCharSet = 99 SFlowCSUSDK SFlowCharSet = 100 SFlowCSDKUS SFlowCharSet = 101 SFlowCSKSC5636 SFlowCharSet = 102 SFlowCSUnicode11UTF7 SFlowCharSet = 103 SFlowCSISO2022CN SFlowCharSet = 104 SFlowCSISO2022CNEXT SFlowCharSet = 105 SFlowCSUTF8 SFlowCharSet = 106 SFlowCSISO885913 SFlowCharSet = 109 SFlowCSISO885914 SFlowCharSet = 110 SFlowCSISO885915 SFlowCharSet = 111 SFlowCSISO885916 SFlowCharSet = 112 SFlowCSGBK SFlowCharSet = 113 SFlowCSGB18030 SFlowCharSet = 114 SFlowCSOSDEBCDICDF0415 SFlowCharSet = 115 SFlowCSOSDEBCDICDF03IRV SFlowCharSet = 116 SFlowCSOSDEBCDICDF041 SFlowCharSet = 117 SFlowCSISO115481 SFlowCharSet = 118 SFlowCSKZ1048 SFlowCharSet = 119 SFlowCSUnicode SFlowCharSet = 1000 SFlowCSUCS4 SFlowCharSet = 1001 SFlowCSUnicodeASCII SFlowCharSet = 1002 SFlowCSUnicodeLatin1 SFlowCharSet = 1003 SFlowCSUnicodeJapanese SFlowCharSet = 1004 SFlowCSUnicodeIBM1261 SFlowCharSet = 1005 SFlowCSUnicodeIBM1268 SFlowCharSet = 1006 SFlowCSUnicodeIBM1276 SFlowCharSet = 1007 SFlowCSUnicodeIBM1264 SFlowCharSet = 1008 SFlowCSUnicodeIBM1265 SFlowCharSet = 1009 SFlowCSUnicode11 SFlowCharSet = 1010 SFlowCSSCSU SFlowCharSet = 1011 SFlowCSUTF7 SFlowCharSet = 1012 SFlowCSUTF16BE SFlowCharSet = 1013 SFlowCSUTF16LE SFlowCharSet = 1014 SFlowCSUTF16 SFlowCharSet = 1015 SFlowCSCESU8 SFlowCharSet = 1016 SFlowCSUTF32 SFlowCharSet = 1017 SFlowCSUTF32BE SFlowCharSet = 1018 SFlowCSUTF32LE SFlowCharSet = 1019 SFlowCSBOCU1 SFlowCharSet = 1020 SFlowCSWindows30Latin1 SFlowCharSet = 2000 SFlowCSWindows31Latin1 SFlowCharSet = 2001 SFlowCSWindows31Latin2 SFlowCharSet = 2002 SFlowCSWindows31Latin5 SFlowCharSet = 2003 SFlowCSHPRoman8 SFlowCharSet = 2004 SFlowCSAdobeStandardEncoding SFlowCharSet = 2005 SFlowCSVenturaUS SFlowCharSet = 2006 SFlowCSVenturaInternational SFlowCharSet = 2007 SFlowCSDECMCS SFlowCharSet = 2008 SFlowCSPC850Multilingual SFlowCharSet = 2009 SFlowCSPCp852 SFlowCharSet = 2010 SFlowCSPC8CodePage437 SFlowCharSet = 2011 SFlowCSPC8DanishNorwegian SFlowCharSet = 2012 SFlowCSPC862LatinHebrew SFlowCharSet = 2013 SFlowCSPC8Turkish SFlowCharSet = 2014 SFlowCSIBMSymbols SFlowCharSet = 2015 SFlowCSIBMThai SFlowCharSet = 2016 SFlowCSHPLegal SFlowCharSet = 2017 SFlowCSHPPiFont SFlowCharSet = 2018 SFlowCSHPMath8 SFlowCharSet = 2019 SFlowCSHPPSMath SFlowCharSet = 2020 SFlowCSHPDesktop SFlowCharSet = 2021 SFlowCSVenturaMath SFlowCharSet = 2022 SFlowCSMicrosoftPublishing SFlowCharSet = 2023 SFlowCSWindows31J SFlowCharSet = 2024 SFlowCSGB2312 SFlowCharSet = 2025 SFlowCSBig5 SFlowCharSet = 2026 SFlowCSMacintosh SFlowCharSet = 2027 SFlowCSIBM037 SFlowCharSet = 2028 SFlowCSIBM038 SFlowCharSet = 2029 SFlowCSIBM273 SFlowCharSet = 2030 SFlowCSIBM274 SFlowCharSet = 2031 SFlowCSIBM275 SFlowCharSet = 2032 SFlowCSIBM277 SFlowCharSet = 2033 SFlowCSIBM278 SFlowCharSet = 2034 SFlowCSIBM280 SFlowCharSet = 2035 SFlowCSIBM281 SFlowCharSet = 2036 SFlowCSIBM284 SFlowCharSet = 2037 SFlowCSIBM285 SFlowCharSet = 2038 SFlowCSIBM290 SFlowCharSet = 2039 SFlowCSIBM297 SFlowCharSet = 2040 SFlowCSIBM420 SFlowCharSet = 2041 SFlowCSIBM423 SFlowCharSet = 2042 SFlowCSIBM424 SFlowCharSet = 2043 SFlowCSIBM500 SFlowCharSet = 2044 SFlowCSIBM851 SFlowCharSet = 2045 SFlowCSIBM855 SFlowCharSet = 2046 SFlowCSIBM857 SFlowCharSet = 2047 SFlowCSIBM860 SFlowCharSet = 2048 SFlowCSIBM861 SFlowCharSet = 2049 SFlowCSIBM863 SFlowCharSet = 2050 SFlowCSIBM864 SFlowCharSet = 2051 SFlowCSIBM865 SFlowCharSet = 2052 SFlowCSIBM868 SFlowCharSet = 2053 SFlowCSIBM869 SFlowCharSet = 2054 SFlowCSIBM870 SFlowCharSet = 2055 SFlowCSIBM871 SFlowCharSet = 2056 SFlowCSIBM880 SFlowCharSet = 2057 SFlowCSIBM891 SFlowCharSet = 2058 SFlowCSIBM903 SFlowCharSet = 2059 SFlowCSIBBM904 SFlowCharSet = 2060 SFlowCSIBM905 SFlowCharSet = 2061 SFlowCSIBM918 SFlowCharSet = 2062 SFlowCSIBM1026 SFlowCharSet = 2063 SFlowCSIBMEBCDICATDE SFlowCharSet = 2064 SFlowCSEBCDICATDEA SFlowCharSet = 2065 SFlowCSEBCDICCAFR SFlowCharSet = 2066 SFlowCSEBCDICDKNO SFlowCharSet = 2067 SFlowCSEBCDICDKNOA SFlowCharSet = 2068 SFlowCSEBCDICFISE SFlowCharSet = 2069 SFlowCSEBCDICFISEA SFlowCharSet = 2070 SFlowCSEBCDICFR SFlowCharSet = 2071 SFlowCSEBCDICIT SFlowCharSet = 2072 SFlowCSEBCDICPT SFlowCharSet = 2073 SFlowCSEBCDICES SFlowCharSet = 2074 SFlowCSEBCDICESA SFlowCharSet = 2075 SFlowCSEBCDICESS SFlowCharSet = 2076 SFlowCSEBCDICUK SFlowCharSet = 2077 SFlowCSEBCDICUS SFlowCharSet = 2078 SFlowCSUnknown8BiT SFlowCharSet = 2079 SFlowCSMnemonic SFlowCharSet = 2080 SFlowCSMnem SFlowCharSet = 2081 SFlowCSVISCII SFlowCharSet = 2082 SFlowCSVIQR SFlowCharSet = 2083 SFlowCSKOI8R SFlowCharSet = 2084 SFlowCSHZGB2312 SFlowCharSet = 2085 SFlowCSIBM866 SFlowCharSet = 2086 SFlowCSPC775Baltic SFlowCharSet = 2087 SFlowCSKOI8U SFlowCharSet = 2088 SFlowCSIBM00858 SFlowCharSet = 2089 SFlowCSIBM00924 SFlowCharSet = 2090 SFlowCSIBM01140 SFlowCharSet = 2091 SFlowCSIBM01141 SFlowCharSet = 2092 SFlowCSIBM01142 SFlowCharSet = 2093 SFlowCSIBM01143 SFlowCharSet = 2094 SFlowCSIBM01144 SFlowCharSet = 2095 SFlowCSIBM01145 SFlowCharSet = 2096 SFlowCSIBM01146 SFlowCharSet = 2097 SFlowCSIBM01147 SFlowCharSet = 2098 SFlowCSIBM01148 SFlowCharSet = 2099 SFlowCSIBM01149 SFlowCharSet = 2100 SFlowCSBig5HKSCS SFlowCharSet = 2101 SFlowCSIBM1047 SFlowCharSet = 2102 SFlowCSPTCP154 SFlowCharSet = 2103 SFlowCSAmiga1251 SFlowCharSet = 2104 SFlowCSKOI7switched SFlowCharSet = 2105 SFlowCSBRF SFlowCharSet = 2106 SFlowCSTSCII SFlowCharSet = 2107 SFlowCSCP51932 SFlowCharSet = 2108 SFlowCSWindows874 SFlowCharSet = 2109 SFlowCSWindows1250 SFlowCharSet = 2250 SFlowCSWindows1251 SFlowCharSet = 2251 SFlowCSWindows1252 SFlowCharSet = 2252 SFlowCSWindows1253 SFlowCharSet = 2253 SFlowCSWindows1254 SFlowCharSet = 2254 SFlowCSWindows1255 SFlowCharSet = 2255 SFlowCSWindows1256 SFlowCharSet = 2256 SFlowCSWindows1257 SFlowCharSet = 2257 SFlowCSWindows1258 SFlowCharSet = 2258 SFlowCSTIS620 SFlowCharSet = 2259 SFlowCS50220 SFlowCharSet = 2260 SFlowCSreserved SFlowCharSet = 3000 )
type SFlowCounterDataFormat ¶
type SFlowCounterDataFormat uint32
type SFlowCounterRecordType ¶
type SFlowCounterRecordType uint32
const ( SFlowTypeGenericInterfaceCounters SFlowCounterRecordType = 1 SFlowTypeEthernetInterfaceCounters SFlowCounterRecordType = 2 SFlowTypeTokenRingInterfaceCounters SFlowCounterRecordType = 3 SFlowType100BaseVGInterfaceCounters SFlowCounterRecordType = 4 SFlowTypeVLANCounters SFlowCounterRecordType = 5 SFlowTypeLACPCounters SFlowCounterRecordType = 7 SFlowTypeProcessorCounters SFlowCounterRecordType = 1001 SFlowTypeOpenflowPortCounters SFlowCounterRecordType = 1004 SFlowTypePORTNAMECounters SFlowCounterRecordType = 1005 SFLowTypeAPPRESOURCESCounters SFlowCounterRecordType = 2203 SFlowTypeOVSDPCounters SFlowCounterRecordType = 2207 )
func (SFlowCounterRecordType) String ¶
func (cr SFlowCounterRecordType) String() string
type SFlowCounterSample ¶
type SFlowCounterSample struct { EnterpriseID SFlowEnterpriseID Format SFlowSampleType SampleLength uint32 SequenceNumber uint32 SourceIDClass SFlowSourceFormat SourceIDIndex SFlowSourceValue RecordCount uint32 Records []SFlowRecord }
Counter samples report information about various counter objects. Typically these are items like IfInOctets, or CPU / Memory stats, etc. SFlow will report these at regular intervals as configured on the agent. If one were sufficiently industrious, this could be used to replace the typical SNMP polling used for such things.
func (SFlowCounterSample) GetRecords ¶
func (cs SFlowCounterSample) GetRecords() []SFlowRecord
GetRecords will return a slice of interface types representing records. A type switch can be used to get at the underlying SFlowCounterRecordType.
func (SFlowCounterSample) GetType ¶
func (cs SFlowCounterSample) GetType() SFlowSampleType
GetType will report the type of sample. Only the compact form of counter samples is supported
type SFlowDataFormat ¶
type SFlowDataFormat uint32
SFlowDataFormat encodes the EnterpriseID in the most significant 12 bits, and the SampleType in the least significant 20 bits.
type SFlowDataSource ¶
type SFlowDataSource int32
SFlowDataSource encodes a 2-bit SFlowSourceFormat in its most significant 2 bits, and an SFlowSourceValue in its least significant 30 bits. These types and values define the meaning of the inteface information presented in the sample metadata.
type SFlowDataSourceExpanded ¶
type SFlowDataSourceExpanded struct { SourceIDClass SFlowSourceFormat SourceIDIndex SFlowSourceValue }
type SFlowDatagram ¶
type SFlowDatagram struct { BaseLayer DatagramVersion uint32 AgentAddress net.IP SubAgentID uint32 SequenceNumber uint32 AgentUptime uint32 SampleCount uint32 FlowSamples []SFlowFlowSample CounterSamples []SFlowCounterSample }
SFlowDatagram is the outermost container which holds some basic information about the reporting agent, and holds at least one sample record
func (*SFlowDatagram) CanDecode ¶
func (d *SFlowDatagram) CanDecode() gopacket.LayerClass
func (*SFlowDatagram) DecodeFromBytes ¶
func (s *SFlowDatagram) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*SFlowDatagram) LayerType ¶
func (s *SFlowDatagram) LayerType() gopacket.LayerType
func (*SFlowDatagram) NextLayerType ¶
func (d *SFlowDatagram) NextLayerType() gopacket.LayerType
func (*SFlowDatagram) Payload ¶
func (d *SFlowDatagram) Payload() []byte
type SFlowEnterpriseID ¶
type SFlowEnterpriseID uint32
SFlowEnterpriseID is used to differentiate between the official SFlow standard, and other, vendor-specific types of flow data. (Similiar to SNMP's enterprise MIB OIDs) Only the office SFlow Enterprise ID is decoded here.
const (
SFlowStandard SFlowEnterpriseID = 0
)
func (SFlowEnterpriseID) GetType ¶
func (eid SFlowEnterpriseID) GetType() SFlowEnterpriseID
func (SFlowEnterpriseID) String ¶
func (eid SFlowEnterpriseID) String() string
type SFlowEthernetCounters ¶
type SFlowEthernetCounters struct { SFlowBaseCounterRecord AlignmentErrors uint32 FCSErrors uint32 SingleCollisionFrames uint32 MultipleCollisionFrames uint32 SQETestErrors uint32 DeferredTransmissions uint32 LateCollisions uint32 ExcessiveCollisions uint32 InternalMacTransmitErrors uint32 CarrierSenseErrors uint32 FrameTooLongs uint32 InternalMacReceiveErrors uint32 SymbolErrors uint32 }
type SFlowEthernetFrameFlowRecord ¶
type SFlowEthernetFrameFlowRecord struct { SFlowBaseFlowRecord FrameLength uint32 SrcMac net.HardwareAddr DstMac net.HardwareAddr Type uint32 }
SFlowEthernetFrameFlowRecord give additional information about the sampled packet if it's available. An agent may or may not provide this information.
type SFlowExtendedDecapsulateEgressRecord ¶
type SFlowExtendedDecapsulateEgressRecord struct { SFlowBaseFlowRecord InnerHeaderOffset uint32 }
0 15 31 +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | 20 bit Interprise (0) |12 bit format | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | record length | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | Inner Header Offset | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
type SFlowExtendedDecapsulateIngressRecord ¶
type SFlowExtendedDecapsulateIngressRecord struct { SFlowBaseFlowRecord InnerHeaderOffset uint32 }
0 15 31 +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | 20 bit Interprise (0) |12 bit format | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | record length | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | Inner Header Offset | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
type SFlowExtendedGatewayFlowRecord ¶
type SFlowExtendedGatewayFlowRecord struct { SFlowBaseFlowRecord NextHop net.IP AS uint32 SourceAS uint32 PeerAS uint32 ASPathCount uint32 ASPath []SFlowASDestination Communities []uint32 LocalPref uint32 }
type SFlowExtendedIpv4TunnelEgressRecord ¶
type SFlowExtendedIpv4TunnelEgressRecord struct { SFlowBaseFlowRecord SFlowIpv4Record SFlowIpv4Record }
0 15 31 +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | 20 bit Interprise (0) |12 bit format | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | record length | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ / Packet IP version 4 Record / / / +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
type SFlowExtendedIpv4TunnelIngressRecord ¶
type SFlowExtendedIpv4TunnelIngressRecord struct { SFlowBaseFlowRecord SFlowIpv4Record SFlowIpv4Record }
0 15 31 +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | 20 bit Interprise (0) |12 bit format | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | record length | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ / Packet IP version 4 Record / / / +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
type SFlowExtendedIpv6TunnelEgressRecord ¶
type SFlowExtendedIpv6TunnelEgressRecord struct { SFlowBaseFlowRecord SFlowIpv6Record }
0 15 31 +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | 20 bit Interprise (0) |12 bit format | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | record length | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ / Packet IP version 6 Record / / / +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
type SFlowExtendedIpv6TunnelIngressRecord ¶
type SFlowExtendedIpv6TunnelIngressRecord struct { SFlowBaseFlowRecord SFlowIpv6Record }
0 15 31 +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | 20 bit Interprise (0) |12 bit format | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | record length | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ / Packet IP version 6 Record / / / +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
type SFlowExtendedRouterFlowRecord ¶
type SFlowExtendedRouterFlowRecord struct { SFlowBaseFlowRecord NextHop net.IP NextHopSourceMask uint32 NextHopDestinationMask uint32 }
SFlowExtendedRouterFlowRecord gives additional information about the layer 3 routing information used to forward the packet
type SFlowExtendedSwitchFlowRecord ¶
type SFlowExtendedSwitchFlowRecord struct { SFlowBaseFlowRecord IncomingVLAN uint32 IncomingVLANPriority uint32 OutgoingVLAN uint32 OutgoingVLANPriority uint32 }
SFlowExtendedSwitchFlowRecord give additional information about the sampled packet if it's available. It's mainly useful for getting at the incoming and outgoing VLANs An agent may or may not provide this information.
type SFlowExtendedURLRecord ¶
type SFlowExtendedURLRecord struct { SFlowBaseFlowRecord Direction SFlowURLDirection URL string Host string }
type SFlowExtendedUserFlow ¶
type SFlowExtendedUserFlow struct { SFlowBaseFlowRecord SourceCharSet SFlowCharSet SourceUserID string DestinationCharSet SFlowCharSet DestinationUserID string }
type SFlowExtendedVniEgressRecord ¶
type SFlowExtendedVniEgressRecord struct { SFlowBaseFlowRecord VNI uint32 }
0 15 31 +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | 20 bit Interprise (0) |12 bit format | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | record length | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | VNI | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
type SFlowExtendedVniIngressRecord ¶
type SFlowExtendedVniIngressRecord struct { SFlowBaseFlowRecord VNI uint32 }
0 15 31 +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | 20 bit Interprise (0) |12 bit format | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | record length | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | VNI | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
type SFlowFlowDataFormat ¶
type SFlowFlowDataFormat uint32
type SFlowFlowRecordType ¶
type SFlowFlowRecordType uint32
SFlowFlowRecordType denotes what kind of Flow Record is represented. See RFC 3176
const ( SFlowTypeRawPacketFlow SFlowFlowRecordType = 1 SFlowTypeEthernetFrameFlow SFlowFlowRecordType = 2 SFlowTypeIpv4Flow SFlowFlowRecordType = 3 SFlowTypeIpv6Flow SFlowFlowRecordType = 4 SFlowTypeExtendedSwitchFlow SFlowFlowRecordType = 1001 SFlowTypeExtendedRouterFlow SFlowFlowRecordType = 1002 SFlowTypeExtendedGatewayFlow SFlowFlowRecordType = 1003 SFlowTypeExtendedUserFlow SFlowFlowRecordType = 1004 SFlowTypeExtendedUrlFlow SFlowFlowRecordType = 1005 SFlowTypeExtendedMlpsFlow SFlowFlowRecordType = 1006 SFlowTypeExtendedNatFlow SFlowFlowRecordType = 1007 SFlowTypeExtendedMlpsTunnelFlow SFlowFlowRecordType = 1008 SFlowTypeExtendedMlpsVcFlow SFlowFlowRecordType = 1009 SFlowTypeExtendedMlpsFecFlow SFlowFlowRecordType = 1010 SFlowTypeExtendedMlpsLvpFecFlow SFlowFlowRecordType = 1011 SFlowTypeExtendedVlanFlow SFlowFlowRecordType = 1012 SFlowTypeExtendedIpv4TunnelEgressFlow SFlowFlowRecordType = 1023 SFlowTypeExtendedIpv4TunnelIngressFlow SFlowFlowRecordType = 1024 SFlowTypeExtendedIpv6TunnelEgressFlow SFlowFlowRecordType = 1025 SFlowTypeExtendedIpv6TunnelIngressFlow SFlowFlowRecordType = 1026 SFlowTypeExtendedDecapsulateEgressFlow SFlowFlowRecordType = 1027 SFlowTypeExtendedDecapsulateIngressFlow SFlowFlowRecordType = 1028 SFlowTypeExtendedVniEgressFlow SFlowFlowRecordType = 1029 SFlowTypeExtendedVniIngressFlow SFlowFlowRecordType = 1030 )
func (SFlowFlowRecordType) String ¶
func (rt SFlowFlowRecordType) String() string
type SFlowFlowSample ¶
type SFlowFlowSample struct { EnterpriseID SFlowEnterpriseID Format SFlowSampleType SampleLength uint32 SequenceNumber uint32 SourceIDClass SFlowSourceFormat SourceIDIndex SFlowSourceValue SamplingRate uint32 SamplePool uint32 Dropped uint32 InputInterfaceFormat uint32 InputInterface uint32 OutputInterfaceFormat uint32 OutputInterface uint32 RecordCount uint32 Records []SFlowRecord }
SFlowFlowSample represents a sampled packet and contains one or more records describing the packet
func (SFlowFlowSample) GetRecords ¶
func (fs SFlowFlowSample) GetRecords() []SFlowRecord
func (SFlowFlowSample) GetType ¶
func (fs SFlowFlowSample) GetType() SFlowSampleType
type SFlowGenericInterfaceCounters ¶
type SFlowGenericInterfaceCounters struct { SFlowBaseCounterRecord IfIndex uint32 IfType uint32 IfSpeed uint64 IfDirection uint32 IfStatus uint32 IfInOctets uint64 IfInUcastPkts uint32 IfInMulticastPkts uint32 IfInBroadcastPkts uint32 IfInDiscards uint32 IfInErrors uint32 IfInUnknownProtos uint32 IfOutOctets uint64 IfOutUcastPkts uint32 IfOutMulticastPkts uint32 IfOutBroadcastPkts uint32 IfOutDiscards uint32 IfOutErrors uint32 IfPromiscuousMode uint32 }
type SFlowIPType ¶
type SFlowIPType uint32
SFlowIPType determines what form the IP address being decoded will take. This is an XDR union type allowing for both IPv4 and IPv6
const ( SFlowIPv4 SFlowIPType = 1 SFlowIPv6 SFlowIPType = 2 )
func (SFlowIPType) Length ¶
func (s SFlowIPType) Length() int
func (SFlowIPType) String ¶
func (s SFlowIPType) String() string
type SFlowIpv4Record ¶
type SFlowIpv4Record struct { // The length of the IP packet excluding ower layer encapsulations Length uint32 // IP Protocol type (for example, TCP = 6, UDP = 17) Protocol uint32 // Source IP Address IPSrc net.IP // Destination IP Address IPDst net.IP // TCP/UDP source port number or equivalent PortSrc uint32 // TCP/UDP destination port number or equivalent PortDst uint32 // TCP flags TCPFlags uint32 // IP type of service TOS uint32 }
0 15 31 +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | Length | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | Protocol | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | Source IPv4 | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | Destination IPv4 | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | Source Port | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | Destionation Port | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | TCP Flags | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | TOS | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
type SFlowIpv6Record ¶
type SFlowIpv6Record struct { // The length of the IP packet excluding ower layer encapsulations Length uint32 // IP Protocol type (for example, TCP = 6, UDP = 17) Protocol uint32 // Source IP Address IPSrc net.IP // Destination IP Address IPDst net.IP // TCP/UDP source port number or equivalent PortSrc uint32 // TCP/UDP destination port number or equivalent PortDst uint32 // TCP flags TCPFlags uint32 // IP priority Priority uint32 }
0 15 31 +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | Length | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | Protocol | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | Source IPv4 | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | Destination IPv4 | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | Source Port | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | Destionation Port | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | TCP Flags | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+ | Priority | +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
type SFlowLACPCounters ¶
type SFlowLACPCounters struct { SFlowBaseCounterRecord ActorSystemID net.HardwareAddr PartnerSystemID net.HardwareAddr AttachedAggID uint32 LacpPortState SFLLACPPortState LACPDUsRx uint32 MarkerPDUsRx uint32 MarkerResponsePDUsRx uint32 UnknownRx uint32 IllegalRx uint32 LACPDUsTx uint32 MarkerPDUsTx uint32 MarkerResponsePDUsTx uint32 }
LACPcounters : LACP SFlow Counters ( 64 Bytes )
type SFlowOVSDPCounters ¶
type SFlowOVSDPCounters struct { SFlowBaseCounterRecord NHit uint32 NMissed uint32 NLost uint32 NMaskHit uint32 NFlows uint32 NMasks uint32 }
SFlowOVSDPCounters : OVS-Sflow DataPath Counter ( 32 Bytes )
type SFlowOpenflowPortCounters ¶
type SFlowOpenflowPortCounters struct { SFlowBaseCounterRecord DatapathID uint64 PortNo uint32 }
SFlowOpenflowPortCounters : OVS-Sflow OpenFlow Port Counter ( 20 Bytes )
type SFlowPORTNAME ¶
type SFlowPORTNAME struct { SFlowBaseCounterRecord Len uint32 Str string }
SFlowPORTNAME : OVS-Sflow PORTNAME Counter Sampletype ( 20 Bytes )
type SFlowProcessorCounters ¶
type SFlowProcessorCounters struct { SFlowBaseCounterRecord FiveSecCpu uint32 // 5 second average CPU utilization OneMinCpu uint32 // 1 minute average CPU utilization FiveMinCpu uint32 // 5 minute average CPU utilization TotalMemory uint64 // total memory (in bytes) FreeMemory uint64 // free memory (in bytes) }
type SFlowRawHeaderProtocol ¶
type SFlowRawHeaderProtocol uint32
const ( SFlowProtoEthernet SFlowRawHeaderProtocol = 1 SFlowProtoISO88024 SFlowRawHeaderProtocol = 2 SFlowProtoISO88025 SFlowRawHeaderProtocol = 3 SFlowProtoFDDI SFlowRawHeaderProtocol = 4 SFlowProtoFrameRelay SFlowRawHeaderProtocol = 5 SFlowProtoX25 SFlowRawHeaderProtocol = 6 SFlowProtoPPP SFlowRawHeaderProtocol = 7 SFlowProtoSMDS SFlowRawHeaderProtocol = 8 SFlowProtoAAL5 SFlowRawHeaderProtocol = 9 SFlowProtoAAL5_IP SFlowRawHeaderProtocol = 10 /* e.g. Cisco AAL5 mux */ SFlowProtoIPv4 SFlowRawHeaderProtocol = 11 SFlowProtoIPv6 SFlowRawHeaderProtocol = 12 SFlowProtoMPLS SFlowRawHeaderProtocol = 13 SFlowProtoPOS SFlowRawHeaderProtocol = 14 /* RFC 1662, 2615 */ )
func (SFlowRawHeaderProtocol) String ¶
func (sfhp SFlowRawHeaderProtocol) String() string
type SFlowRawPacketFlowRecord ¶
type SFlowRawPacketFlowRecord struct { SFlowBaseFlowRecord HeaderProtocol SFlowRawHeaderProtocol FrameLength uint32 PayloadRemoved uint32 HeaderLength uint32 Header gopacket.Packet }
SFlowRawPacketFlowRecords hold information about a sampled packet grabbed as it transited the agent. This is perhaps the most useful and interesting record type, as it holds the headers of the sampled packet and can be used to build up a complete picture of the traffic patterns on a network.
The raw packet header is sent back into gopacket for decoding, and the resulting gopackt.Packet is stored in the Header member
type SFlowRecord ¶
type SFlowRecord interface { }
SFlowRecord holds both flow sample records and counter sample records. A Record is the structure that actually holds the sampled data and / or counters.
type SFlowSampleType ¶
type SFlowSampleType uint32
SFlowSampleType specifies the type of sample. Only flow samples and counter samples are supported
const ( SFlowTypeFlowSample SFlowSampleType = 1 SFlowTypeCounterSample SFlowSampleType = 2 SFlowTypeExpandedFlowSample SFlowSampleType = 3 SFlowTypeExpandedCounterSample SFlowSampleType = 4 )
func (SFlowSampleType) GetType ¶
func (st SFlowSampleType) GetType() SFlowSampleType
func (SFlowSampleType) String ¶
func (st SFlowSampleType) String() string
type SFlowSourceFormat ¶
type SFlowSourceFormat uint32
const ( SFlowTypeSingleInterface SFlowSourceFormat = 0 SFlowTypePacketDiscarded SFlowSourceFormat = 1 SFlowTypeMultipleDestinations SFlowSourceFormat = 2 )
func (SFlowSourceFormat) String ¶
func (sdf SFlowSourceFormat) String() string
type SFlowSourceValue ¶
type SFlowSourceValue uint32
type SFlowURLDirection ¶
type SFlowURLDirection uint32
const ( SFlowURLsrc SFlowURLDirection = 1 SFlowURLdst SFlowURLDirection = 2 )
func (SFlowURLDirection) String ¶
func (urld SFlowURLDirection) String() string
type SFlowVLANCounters ¶
type SIP ¶
type SIP struct { BaseLayer // Base information Version SIPVersion Method SIPMethod Headers map[string][]string // Request RequestURI string // Response IsResponse bool ResponseCode int ResponseStatus string // contains filtered or unexported fields }
SIP object will contains information about decoded SIP packet. -> The SIP Version -> The SIP Headers (in a map[string][]string because of multiple headers with the same name -> The SIP Method -> The SIP Response code (if it's a response) -> The SIP Status line (if it's a response) You can easily know the type of the packet with the IsResponse boolean
func (*SIP) CanDecode ¶
func (s *SIP) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode
func (*SIP) DecodeFromBytes ¶
func (s *SIP) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the slice into the SIP struct.
func (*SIP) GetAllHeaders ¶
GetAllHeaders will return the full headers of the current SIP packets in a map[string][]string
func (*SIP) GetAuthorization ¶
GetAuthorization will return the Authorization header of the current SIP packet
func (*SIP) GetCSeq ¶
GetCSeq will return the parsed integer CSeq header header of the current SIP packet
func (*SIP) GetContact ¶
GetContact will return the Contact header of the current SIP packet
func (*SIP) GetContentLength ¶
GetContentLength will return the parsed integer Content-Length header of the current SIP packet
func (*SIP) GetFirstHeader ¶
GetFirstHeader will return the first header with the specified name. If the current SIP packet has multiple headers with the same name, it returns the first.
func (*SIP) GetUserAgent ¶
GetUserAgent will return the User-Agent header of the current SIP packet
func (*SIP) NextLayerType ¶
NextLayerType returns the layer type contained by this DecodingLayer
func (*SIP) ParseFirstLine ¶
ParseFirstLine will compute the first line of a SIP packet. The first line will tell us if it's a request or a response.
Examples of first line of SIP Prococol :
Request : INVITE bob@example.com SIP/2.0 Response : SIP/2.0 200 OK Response : SIP/2.0 501 Not Implemented
func (*SIP) ParseHeader ¶
ParseHeader will parse a SIP Header SIP Headers are quite simple, there are colon separated name and value Headers can be spread over multiple lines
Examples of header :
CSeq: 1 REGISTER Via: SIP/2.0/UDP there.com:5060 Authorization:Digest username="UserB", realm="MCI WorldCom SIP", nonce="1cec4341ae6cbe5a359ea9c8e88df84f", opaque="", uri="sip:ss2.wcom.com", response="71ba27c64bd01de719686aa4590d5824"
func (*SIP) ParseSpecificHeaders ¶
ParseSpecificHeaders will parse some specific key values from specific headers like CSeq or Content-Length integer values
type SIPMethod ¶
type SIPMethod uint16
SIPMethod defines the different methods of the SIP Protocol defined in the different RFC's
const ( SIPMethodInvite SIPMethod = 1 // INVITE [RFC3261] SIPMethodAck SIPMethod = 2 // ACK [RFC3261] SIPMethodBye SIPMethod = 3 // BYE [RFC3261] SIPMethodCancel SIPMethod = 4 // CANCEL [RFC3261] SIPMethodOptions SIPMethod = 5 // OPTIONS [RFC3261] SIPMethodRegister SIPMethod = 6 // REGISTER [RFC3261] SIPMethodPrack SIPMethod = 7 // PRACK [RFC3262] SIPMethodSubscribe SIPMethod = 8 // SUBSCRIBE [RFC6665] SIPMethodNotify SIPMethod = 9 // NOTIFY [RFC6665] SIPMethodPublish SIPMethod = 10 // PUBLISH [RFC3903] SIPMethodInfo SIPMethod = 11 // INFO [RFC6086] SIPMethodRefer SIPMethod = 12 // REFER [RFC3515] SIPMethodMessage SIPMethod = 13 // MESSAGE [RFC3428] SIPMethodUpdate SIPMethod = 14 // UPDATE [RFC3311] SIPMethodPing SIPMethod = 15 // PING [https://tools.ietf.org/html/draft-fwmiller-ping-03] )
Here are all the SIP methods
func GetSIPMethod ¶
GetSIPMethod returns the constant of a SIP method from its string
type SIPVersion ¶
type SIPVersion uint8
SIPVersion defines the different versions of the SIP Protocol
const ( SIPVersion1 SIPVersion = 1 SIPVersion2 SIPVersion = 2 )
Represents all the versions of SIP protocol
func GetSIPVersion ¶
func GetSIPVersion(version string) (SIPVersion, error)
GetSIPVersion is used to get SIP version constant
func (SIPVersion) String ¶
func (sv SIPVersion) String() string
type SNAP ¶
type SNAP struct { BaseLayer OrganizationalCode []byte Type EthernetType }
SNAP is used inside LLC. See http://standards.ieee.org/getieee802/download/802-2001.pdf. From http://en.wikipedia.org/wiki/Subnetwork_Access_Protocol:
"[T]he Subnetwork Access Protocol (SNAP) is a mechanism for multiplexing, on networks using IEEE 802.2 LLC, more protocols than can be distinguished by the 8-bit 802.2 Service Access Point (SAP) fields."
func (*SNAP) CanDecode ¶
func (s *SNAP) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*SNAP) DecodeFromBytes ¶
func (s *SNAP) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*SNAP) NextLayerType ¶
NextLayerType returns the layer type contained by this DecodingLayer.
func (*SNAP) SerializeTo ¶
func (s *SNAP) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type STP ¶
type STP struct { BaseLayer ProtocolID uint16 Version uint8 Type uint8 TC, TCA bool // TC: Topologie change ; TCA: Topologie change ack RouteID, BridgeID STPSwitchID Cost uint32 PortID uint16 MessageAge uint16 MaxAge uint16 HelloTime uint16 FDelay uint16 }
STP decode spanning tree protocol packets to transport BPDU (bridge protocol data unit) message.
func (*STP) CanDecode ¶
func (s *STP) CanDecode() gopacket.LayerClass
CanDecode returns the set of layer types that this DecodingLayer can decode.
func (*STP) DecodeFromBytes ¶
func (stp *STP) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the given bytes into this layer.
func (*STP) NextLayerType ¶
NextLayerType returns the layer type contained by this DecodingLayer.
func (*STP) SerializeTo ¶
func (s *STP) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
type STPSwitchID ¶
type STPSwitchID struct { Priority uint16 // Bridge priority SysID uint16 // VLAN ID HwAddr net.HardwareAddr }
type TCP ¶
type TCP struct { BaseLayer SrcPort, DstPort TCPPort Seq uint32 Ack uint32 DataOffset uint8 FIN, SYN, RST, PSH, ACK, URG, ECE, CWR, NS bool Window uint16 Checksum uint16 Urgent uint16 Options []TCPOption Padding []byte // contains filtered or unexported fields }
TCP is the layer for TCP headers.
func (*TCP) CanDecode ¶
func (t *TCP) CanDecode() gopacket.LayerClass
func (*TCP) ComputeChecksum ¶
func (*TCP) DecodeFromBytes ¶
func (tcp *TCP) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*TCP) NextLayerType ¶
func (*TCP) SerializeTo ¶
func (t *TCP) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
func (*TCP) SetInternalPortsForTesting ¶
func (t *TCP) SetInternalPortsForTesting()
For testing only
func (*TCP) SetNetworkLayerForChecksum ¶
func (i *TCP) SetNetworkLayerForChecksum(l gopacket.NetworkLayer) error
SetNetworkLayerForChecksum tells this layer which network layer is wrapping it. This is needed for computing the checksum when serializing, since TCP/IP transport layer checksums depends on fields in the IPv4 or IPv6 layer that contains it. The passed in layer must be an *IPv4 or *IPv6.
func (*TCP) TransportFlow ¶
type TCPOption ¶
type TCPOption struct { OptionType TCPOptionKind OptionLength uint8 OptionData []byte }
type TCPOptionKind ¶
type TCPOptionKind uint8
TCPOptionKind represents a TCP option code.
func (TCPOptionKind) String ¶
func (k TCPOptionKind) String() string
type TCPPort ¶
type TCPPort uint16
TCPPort is a port in a TCP layer.
type TLS ¶
type TLS struct { BaseLayer // TLS Records ChangeCipherSpec []TLSChangeCipherSpecRecord Handshake []TLSHandshakeRecord AppData []TLSAppDataRecord Alert []TLSAlertRecord }
TLS is actually a slide of TLSrecord structures
func (*TLS) CanDecode ¶
func (t *TLS) CanDecode() gopacket.LayerClass
CanDecode implements gopacket.DecodingLayer.
func (*TLS) DecodeFromBytes ¶
func (t *TLS) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes decodes the slice into the TLS struct.
func (*TLS) NextLayerType ¶
NextLayerType implements gopacket.DecodingLayer.
func (*TLS) SerializeTo ¶
func (t *TLS) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer.
type TLSAlertDescr ¶
type TLSAlertDescr uint8
TLSAlertDescr defines the alert descrption data type
func (TLSAlertDescr) String ¶
func (ad TLSAlertDescr) String() string
Strings shows the TLS alert description nicely formatted
type TLSAlertLevel ¶
type TLSAlertLevel uint8
TLSAlertLevel defines the alert level data type
func (TLSAlertLevel) String ¶
func (al TLSAlertLevel) String() string
Strings shows the TLS alert level nicely formatted
type TLSAlertRecord ¶
type TLSAlertRecord struct { TLSRecordHeader Level TLSAlertLevel Description TLSAlertDescr EncryptedMsg []byte }
TLSAlertRecord contains all the information that each Alert Record type should have
type TLSAppDataRecord ¶
type TLSAppDataRecord struct { TLSRecordHeader Payload []byte }
TLSAppDataRecord contains all the information that each AppData Record types should have
type TLSChangeCipherSpecRecord ¶
type TLSChangeCipherSpecRecord struct { TLSRecordHeader Message TLSchangeCipherSpec }
TLSChangeCipherSpecRecord defines the type of data inside ChangeCipherSpec Record
type TLSHandshakeRecord ¶
type TLSHandshakeRecord struct {
TLSRecordHeader
}
TLSHandshakeRecord defines the structure of a Handshare Record
type TLSRecordHeader ¶
type TLSRecordHeader struct { ContentType TLSType Version TLSVersion Length uint16 }
TLSRecordHeader contains all the information that each TLS Record types should have
type TLSType ¶
type TLSType uint8
TLSType defines the type of data after the TLS Record
type TLSVersion ¶
type TLSVersion uint16
TLSVersion represents the TLS version in numeric format
func (TLSVersion) String ¶
func (tv TLSVersion) String() string
Strings shows the TLS version nicely formatted
type TLSchangeCipherSpec ¶
type TLSchangeCipherSpec uint8
TLSchangeCipherSpec defines the message value inside ChangeCipherSpec Record
const ( TLSChangecipherspecMessage TLSchangeCipherSpec = 1 TLSChangecipherspecUnknown TLSchangeCipherSpec = 255 )
func (TLSchangeCipherSpec) String ¶
func (ccs TLSchangeCipherSpec) String() string
String shows the message value nicely formatted
type UDP ¶
type UDP struct { BaseLayer SrcPort, DstPort UDPPort Length uint16 Checksum uint16 // contains filtered or unexported fields }
UDP is the layer for UDP headers.
func (*UDP) CanDecode ¶
func (u *UDP) CanDecode() gopacket.LayerClass
func (*UDP) DecodeFromBytes ¶
func (udp *UDP) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*UDP) NextLayerType ¶
NextLayerType use the destination port to select the right next decoder. It tries first to decode via the destination port, then the source port.
func (*UDP) SerializeTo ¶
func (u *UDP) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
func (*UDP) SetInternalPortsForTesting ¶
func (u *UDP) SetInternalPortsForTesting()
For testing only
func (*UDP) SetNetworkLayerForChecksum ¶
func (i *UDP) SetNetworkLayerForChecksum(l gopacket.NetworkLayer) error
SetNetworkLayerForChecksum tells this layer which network layer is wrapping it. This is needed for computing the checksum when serializing, since TCP/IP transport layer checksums depends on fields in the IPv4 or IPv6 layer that contains it. The passed in layer must be an *IPv4 or *IPv6.
func (*UDP) TransportFlow ¶
type UDPLite ¶
type UDPLite struct { BaseLayer SrcPort, DstPort UDPLitePort ChecksumCoverage uint16 Checksum uint16 // contains filtered or unexported fields }
UDPLite is the layer for UDP-Lite headers (rfc 3828).
func (*UDPLite) TransportFlow ¶
type UDPLitePort ¶
type UDPLitePort uint16
UDPLitePort is a port in a UDPLite layer.
func (UDPLitePort) String ¶
func (a UDPLitePort) String() string
String returns the port as "number(name)" if there's a well-known port name, or just "number" if there isn't. Well-known names are stored in UDPLitePortNames.
type UDPPort ¶
type UDPPort uint16
UDPPort is a port in a UDP layer.
type USB ¶
type USB struct { BaseLayer ID uint64 EventType USBEventType TransferType USBTransportType Direction USBDirectionType EndpointNumber uint8 DeviceAddress uint8 BusID uint16 TimestampSec int64 TimestampUsec int32 Setup bool Data bool Status int32 UrbLength uint32 UrbDataLength uint32 UrbInterval uint32 UrbStartFrame uint32 UrbCopyOfTransferFlags uint32 IsoNumDesc uint32 }
The reference at http://www.beyondlogic.org/usbnutshell/usb1.shtml contains more information about the protocol.
func (*USB) DecodeFromBytes ¶
func (m *USB) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*USB) NextLayerType ¶
type USBBulk ¶
type USBBulk struct {
BaseLayer
}
func (*USBBulk) DecodeFromBytes ¶
func (m *USBBulk) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*USBBulk) NextLayerType ¶
type USBControl ¶
type USBControl struct {
BaseLayer
}
func (*USBControl) DecodeFromBytes ¶
func (m *USBControl) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*USBControl) LayerType ¶
func (u *USBControl) LayerType() gopacket.LayerType
func (*USBControl) NextLayerType ¶
func (m *USBControl) NextLayerType() gopacket.LayerType
type USBDirectionType ¶
type USBDirectionType uint8
const ( USBDirectionTypeUnknown USBDirectionType = iota USBDirectionTypeIn USBDirectionTypeOut )
func (USBDirectionType) String ¶
func (a USBDirectionType) String() string
type USBEventType ¶
type USBEventType uint8
const ( USBEventTypeSubmit USBEventType = 'S' USBEventTypeComplete USBEventType = 'C' USBEventTypeError USBEventType = 'E' )
func (USBEventType) String ¶
func (a USBEventType) String() string
type USBInterrupt ¶
type USBInterrupt struct {
BaseLayer
}
func (*USBInterrupt) DecodeFromBytes ¶
func (m *USBInterrupt) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*USBInterrupt) LayerType ¶
func (u *USBInterrupt) LayerType() gopacket.LayerType
func (*USBInterrupt) NextLayerType ¶
func (m *USBInterrupt) NextLayerType() gopacket.LayerType
type USBRequestBlockSetup ¶
type USBRequestBlockSetup struct { BaseLayer RequestType uint8 Request USBRequestBlockSetupRequest Value uint16 Index uint16 Length uint16 }
func (*USBRequestBlockSetup) DecodeFromBytes ¶
func (m *USBRequestBlockSetup) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*USBRequestBlockSetup) LayerType ¶
func (u *USBRequestBlockSetup) LayerType() gopacket.LayerType
func (*USBRequestBlockSetup) NextLayerType ¶
func (m *USBRequestBlockSetup) NextLayerType() gopacket.LayerType
type USBRequestBlockSetupRequest ¶
type USBRequestBlockSetupRequest uint8
const ( USBRequestBlockSetupRequestGetStatus USBRequestBlockSetupRequest = 0x00 USBRequestBlockSetupRequestClearFeature USBRequestBlockSetupRequest = 0x01 USBRequestBlockSetupRequestSetFeature USBRequestBlockSetupRequest = 0x03 USBRequestBlockSetupRequestSetAddress USBRequestBlockSetupRequest = 0x05 USBRequestBlockSetupRequestGetDescriptor USBRequestBlockSetupRequest = 0x06 USBRequestBlockSetupRequestSetDescriptor USBRequestBlockSetupRequest = 0x07 USBRequestBlockSetupRequestGetConfiguration USBRequestBlockSetupRequest = 0x08 USBRequestBlockSetupRequestSetConfiguration USBRequestBlockSetupRequest = 0x09 USBRequestBlockSetupRequestSetIdle USBRequestBlockSetupRequest = 0x0a )
func (USBRequestBlockSetupRequest) String ¶
func (a USBRequestBlockSetupRequest) String() string
type USBTransportType ¶
type USBTransportType uint8
const ( USBTransportTypeTransferIn USBTransportType = 0x80 // Indicates send or receive USBTransportTypeIsochronous USBTransportType = 0x00 // Isochronous transfers occur continuously and periodically. They typically contain time sensitive information, such as an audio or video stream. USBTransportTypeInterrupt USBTransportType = 0x01 // Interrupt transfers are typically non-periodic, small device "initiated" communication requiring bounded latency, such as pointing devices or keyboards. USBTransportTypeControl USBTransportType = 0x02 // Control transfers are typically used for command and status operations. USBTransportTypeBulk USBTransportType = 0x03 // Bulk transfers can be used for large bursty data, using all remaining available bandwidth, no guarantees on bandwidth or latency, such as file transfers. )
func (USBTransportType) Decode ¶
func (a USBTransportType) Decode(data []byte, p gopacket.PacketBuilder) error
Decoder calls USBTransportTypeMetadata.DecodeWith's decoder.
func (USBTransportType) LayerType ¶
func (a USBTransportType) LayerType() gopacket.LayerType
LayerType returns USBTransportTypeMetadata.LayerType.
func (USBTransportType) String ¶
func (a USBTransportType) String() string
String returns USBTransportTypeMetadata.Name.
type VRRPv2 ¶
type VRRPv2 struct { BaseLayer Version uint8 // The version field specifies the VRRP protocol version of this packet (v2) Type VRRPv2Type // The type field specifies the type of this VRRP packet. The only type defined in v2 is ADVERTISEMENT VirtualRtrID uint8 // identifies the virtual router this packet is reporting status for Priority uint8 // specifies the sending VRRP router's priority for the virtual router (100 = default) CountIPAddr uint8 // The number of IP addresses contained in this VRRP advertisement. AuthType VRRPv2AuthType // identifies the authentication method being utilized AdverInt uint8 // The Advertisement interval indicates the time interval (in seconds) between ADVERTISEMENTS. The default is 1 second Checksum uint16 // used to detect data corruption in the VRRP message. IPAddress []net.IP // one or more IP addresses associated with the virtual router. Specified in the CountIPAddr field. }
VRRPv2 represents an VRRP v2 message.
func (*VRRPv2) CanDecode ¶
func (v *VRRPv2) CanDecode() gopacket.LayerClass
CanDecode specifies the layer type in which we are attempting to unwrap.
func (*VRRPv2) DecodeFromBytes ¶
func (v *VRRPv2) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
func (*VRRPv2) NextLayerType ¶
NextLayerType specifies the next layer that should be decoded. VRRP does not contain any further payload, so we set to 0
type VRRPv2AuthType ¶
type VRRPv2AuthType uint8
const ( VRRPv2AuthNoAuth VRRPv2AuthType = 0x00 // No Authentication VRRPv2AuthReserved1 VRRPv2AuthType = 0x01 // Reserved field 1 VRRPv2AuthReserved2 VRRPv2AuthType = 0x02 // Reserved field 2 )
func (VRRPv2AuthType) String ¶
func (v VRRPv2AuthType) String() string
type VRRPv2Type ¶
type VRRPv2Type uint8
const (
VRRPv2Advertisement VRRPv2Type = 0x01 // router advertisement
)
func (VRRPv2Type) String ¶
func (v VRRPv2Type) String() string
String conversions for VRRP message types
type VXLAN ¶
type VXLAN struct { BaseLayer ValidIDFlag bool // 'I' bit per RFC 7348 VNI uint32 // 'VXLAN Network Identifier' 24 bits per RFC 7348 GBPExtension bool // 'G' bit per Group Policy https://tools.ietf.org/html/draft-smith-vxlan-group-policy-00 GBPDontLearn bool // 'D' bit per Group Policy GBPApplied bool // 'A' bit per Group Policy GBPGroupPolicyID uint16 // 'Group Policy ID' 16 bits per Group Policy }
VXLAN is a VXLAN packet header
func (*VXLAN) CanDecode ¶
func (vx *VXLAN) CanDecode() gopacket.LayerClass
CanDecode returns the layer type this DecodingLayer can decode
func (*VXLAN) DecodeFromBytes ¶
func (vx *VXLAN) DecodeFromBytes(data []byte, df gopacket.DecodeFeedback) error
DecodeFromBytes takes a byte buffer and decodes
func (*VXLAN) NextLayerType ¶
NextLayerType retuns the next layer we should see after vxlan
func (*VXLAN) SerializeTo ¶
func (vx *VXLAN) SerializeTo(b gopacket.SerializeBuffer, opts gopacket.SerializeOptions) error
SerializeTo writes the serialized form of this layer into the SerializationBuffer, implementing gopacket.SerializableLayer. See the docs for gopacket.SerializableLayer for more info.
Notes ¶
Bugs ¶
When decoding SNAP, we treat the SNAP type as an Ethernet type. This may not actually be an ethernet type in all cases, depending on the organizational code. Right now, we don't check.
Source Files ¶
- arp.go
- asf.go
- asf_presencepong.go
- base.go
- bfd.go
- bitfield.go
- cdp.go
- ctp.go
- dhcpv4.go
- dhcpv6.go
- dhcpv6_options.go
- dns.go
- doc.go
- dot11.go
- dot1q.go
- eap.go
- eapol.go
- endpoints.go
- enums.go
- enums_generated.go
- erspan2.go
- etherip.go
- ethernet.go
- fddi.go
- fuzz_layer.go
- geneve.go
- gre.go
- gtp.go
- iana_ports.go
- icmp4.go
- icmp6.go
- icmp6msg.go
- igmp.go
- ip4.go
- ip6.go
- ipsec.go
- layertypes.go
- lcm.go
- linux_sll.go
- llc.go
- lldp.go
- loopback.go
- mldv1.go
- mldv2.go
- modbustcp.go
- mpls.go
- ndp.go
- ntp.go
- ospf.go
- pflog.go
- ports.go
- ppp.go
- pppoe.go
- prism.go
- radiotap.go
- radius.go
- rmcp.go
- rudp.go
- sctp.go
- sflow.go
- sip.go
- stp.go
- tcp.go
- tcpip.go
- tls.go
- tls_alert.go
- tls_appdata.go
- tls_cipherspec.go
- tls_handshake.go
- udp.go
- udplite.go
- usb.go
- vrrp.go
- vxlan.go