package ztpv4 import ( "fmt" "regexp" "github.com/insomniacslk/dhcp/dhcpv4" ) // CircuitID represents the structure of network vendor interface formats type CircuitID struct { Slot string Module string Port string SubPort string Vlan string } var circuitRegexs = []*regexp.Regexp{ // Juniper QFX et-0/0/0:0.0 regexp.MustCompile("^et-(?P[0-9]+)/(?P[0-9]+)/(?P[0-9]+):(?P[0-9]+).*$"), // Juniper PTX et-0/0/0.0 regexp.MustCompile("^et-(?P[0-9]+)/(?P[0-9]+)/(?P[0-9]+).(?P[0-9]+)$"), // Juniper EX ge-0/0/0.0 regexp.MustCompile("^ge-(?P[0-9]+)/(?P[0-9]+)/(?P[0-9]+).(?P[0-9]+).*"), // Arista Ethernet3/17/1 // Sometimes Arista prepend circuit id type(1 byte) and length(1 byte) not using ^ regexp.MustCompile("Ethernet(?P[0-9]+)/(?P[0-9]+)/(?P[0-9]+)$"), // Juniper QFX et-1/0/61 regexp.MustCompile("^et-(?P[0-9]+)/(?P[0-9]+)/(?P[0-9]+)$"), // Arista Ethernet14:Vlan2001 // Arista Ethernet10:2020 regexp.MustCompile("Ethernet(?P[0-9]+):(?P.*)$"), // Cisco Gi1/10:2020 regexp.MustCompile("^Gi(?P[0-9]+)/(?P[0-9]+):(?P.*)$"), // Nexus Ethernet1/3 regexp.MustCompile("^Ethernet(?P[0-9]+)/(?P[0-9]+)$"), // Juniper bundle interface ae52.0 regexp.MustCompile("^ae(?P[0-9]+).(?P[0-9])$"), } // ParseCircuitID will parse dhcpv4 packet and return CircuitID info func ParseCircuitID(packet *dhcpv4.DHCPv4) (*CircuitID, error) { // CircuitId info is stored as sub-option field in RelayAgentInformationOption relayOptions := packet.RelayAgentInfo() if relayOptions == nil { return nil, fmt.Errorf("No relay agent information option found in the dhcpv4 pkt") } // As per RFC 3046 sub-Option 1 is circuit-id. Look at 2.0 section in that RFC // https://tools.ietf.org/html/rfc3046 circuitIdStr := string(relayOptions.Options.Get(dhcpv4.AgentCircuitIDSubOption)) if circuitIdStr == "" { return nil, fmt.Errorf("no circuit-id suboption found in dhcpv4 packet") } circuitId, err := matchCircuitID(circuitIdStr) if err != nil { return nil, err } return circuitId, nil } func matchCircuitID(circuitIdStr string) (*CircuitID, error) { for _, re := range circuitRegexs { match := re.FindStringSubmatch(circuitIdStr) if len(match) == 0 { continue } c := CircuitID{} for i, k := range re.SubexpNames() { switch k { case "slot": c.Slot = match[i] case "mod": c.Module = match[i] case "port": c.Port = match[i] case "subport": c.SubPort = match[i] case "vlan": c.Vlan = match[i] } } return &c, nil } return nil, fmt.Errorf("Unable to match circuit id : %s with listed regexes of interface types", circuitIdStr) } // FormatCircuitID is the CircuitID format we send in our Bootfile URL for ZTP devices func (c *CircuitID) FormatCircuitID() string { return fmt.Sprintf("%v,%v,%v,%v,%v", c.Slot, c.Module, c.Port, c.SubPort, c.Vlan) }