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// Copyright (C) 2014 Nippon Telegraph and Telephone Corporation.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
// implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package bgp
import (
"fmt"
"strings"
)
const AS_TRANS = 23456
const BGP_PORT = 179
type FSMState int
const (
BGP_FSM_IDLE FSMState = iota
BGP_FSM_CONNECT
BGP_FSM_ACTIVE
BGP_FSM_OPENSENT
BGP_FSM_OPENCONFIRM
BGP_FSM_ESTABLISHED
)
// partially taken from http://www.iana.org/assignments/protocol-numbers/protocol-numbers.xhtml
type Protocol int
const (
Unknown Protocol = iota
ICMP = 0x01
IGMP = 0x02
TCP = 0x06
EGP = 0x08
IGP = 0x09
UDP = 0x11
RSVP = 0x2e
GRE = 0x2f
OSPF = 0x59
IPIP = 0x5e
PIM = 0x67
SCTP = 0x84
)
var ProtocolNameMap = map[Protocol]string{
Unknown: "unknown",
ICMP: "icmp",
IGMP: "igmp",
TCP: "tcp",
EGP: "egp",
IGP: "igp",
UDP: "udp",
RSVP: "rsvp",
GRE: "gre",
OSPF: "ospf",
IPIP: "ipip",
PIM: "pim",
SCTP: "sctp",
}
var ProtocolValueMap = map[string]Protocol{
ProtocolNameMap[ICMP]: ICMP,
ProtocolNameMap[IGMP]: IGMP,
ProtocolNameMap[TCP]: TCP,
ProtocolNameMap[EGP]: EGP,
ProtocolNameMap[IGP]: IGP,
ProtocolNameMap[UDP]: UDP,
ProtocolNameMap[RSVP]: RSVP,
ProtocolNameMap[GRE]: GRE,
ProtocolNameMap[OSPF]: OSPF,
ProtocolNameMap[IPIP]: IPIP,
ProtocolNameMap[PIM]: PIM,
ProtocolNameMap[SCTP]: SCTP,
}
func (p Protocol) String() string {
name, ok := ProtocolNameMap[p]
if !ok {
return fmt.Sprintf("%d", p)
}
return name
}
type TCPFlag int
const (
TCP_FLAG_FIN = 0x01
TCP_FLAG_SYN = 0x02
TCP_FLAG_RST = 0x04
TCP_FLAG_PUSH = 0x08
TCP_FLAG_ACK = 0x10
TCP_FLAG_URGENT = 0x20
TCP_FLAG_ECE = 0x40
TCP_FLAG_CWR = 0x80
)
var TCPFlagNameMap = map[TCPFlag]string{
TCP_FLAG_FIN: "F",
TCP_FLAG_SYN: "S",
TCP_FLAG_RST: "R",
TCP_FLAG_PUSH: "P",
TCP_FLAG_ACK: "A",
TCP_FLAG_URGENT: "U",
TCP_FLAG_CWR: "C",
TCP_FLAG_ECE: "E",
}
var TCPFlagValueMap = map[string]TCPFlag{
TCPFlagNameMap[TCP_FLAG_FIN]: TCP_FLAG_FIN,
TCPFlagNameMap[TCP_FLAG_SYN]: TCP_FLAG_SYN,
TCPFlagNameMap[TCP_FLAG_RST]: TCP_FLAG_RST,
TCPFlagNameMap[TCP_FLAG_PUSH]: TCP_FLAG_PUSH,
TCPFlagNameMap[TCP_FLAG_ACK]: TCP_FLAG_ACK,
TCPFlagNameMap[TCP_FLAG_URGENT]: TCP_FLAG_URGENT,
TCPFlagNameMap[TCP_FLAG_CWR]: TCP_FLAG_CWR,
TCPFlagNameMap[TCP_FLAG_ECE]: TCP_FLAG_ECE,
}
type BitmaskFlagOp int
const (
BITMASK_FLAG_OP_OR = 0x00
BITMASK_FLAG_OP_AND = 0x40
BITMASK_FLAG_OP_END = 0x80
BITMASK_FLAG_OP_NOT = 0x02
BITMASK_FLAG_OP_MATCH = 0x01
)
var BitmaskFlagOpNameMap = map[BitmaskFlagOp]string{
BITMASK_FLAG_OP_OR: " ",
BITMASK_FLAG_OP_AND: "&",
BITMASK_FLAG_OP_END: "E",
BITMASK_FLAG_OP_NOT: "!",
BITMASK_FLAG_OP_MATCH: "=",
}
var BitmaskFlagOpValueMap = map[string]BitmaskFlagOp{
BitmaskFlagOpNameMap[BITMASK_FLAG_OP_OR]: BITMASK_FLAG_OP_OR,
BitmaskFlagOpNameMap[BITMASK_FLAG_OP_AND]: BITMASK_FLAG_OP_AND,
BitmaskFlagOpNameMap[BITMASK_FLAG_OP_END]: BITMASK_FLAG_OP_END,
BitmaskFlagOpNameMap[BITMASK_FLAG_OP_NOT]: BITMASK_FLAG_OP_NOT,
BitmaskFlagOpNameMap[BITMASK_FLAG_OP_MATCH]: BITMASK_FLAG_OP_MATCH,
}
type DECNumOp int
const (
DEC_NUM_OP_TRUE = 0x00 // true always with END bit set
DEC_NUM_OP_EQ = 0x01
DEC_NUM_OP_GT = 0x02
DEC_NUM_OP_GT_EQ = 0x03
DEC_NUM_OP_LT = 0x04
DEC_NUM_OP_LT_EQ = 0x05
DEC_NUM_OP_NOT_EQ = 0x06
DEC_NUM_OP_FALSE = 0x07 // true always with END bit set
)
var DECNumOpNameMap = map[DECNumOp]string{
DEC_NUM_OP_TRUE: "true",
DEC_NUM_OP_EQ: "==",
DEC_NUM_OP_GT: ">",
DEC_NUM_OP_GT_EQ: ">=",
DEC_NUM_OP_LT: "<",
DEC_NUM_OP_LT_EQ: "<=",
DEC_NUM_OP_NOT_EQ: "!=",
DEC_NUM_OP_FALSE: "false",
}
var DECNumOpValueMap = map[string]DECNumOp{
DECNumOpNameMap[DEC_NUM_OP_TRUE]: DEC_NUM_OP_TRUE,
DECNumOpNameMap[DEC_NUM_OP_EQ]: DEC_NUM_OP_EQ,
DECNumOpNameMap[DEC_NUM_OP_GT]: DEC_NUM_OP_GT,
DECNumOpNameMap[DEC_NUM_OP_GT_EQ]: DEC_NUM_OP_GT_EQ,
DECNumOpNameMap[DEC_NUM_OP_LT]: DEC_NUM_OP_LT,
DECNumOpNameMap[DEC_NUM_OP_LT_EQ]: DEC_NUM_OP_LT_EQ,
DECNumOpNameMap[DEC_NUM_OP_NOT_EQ]: DEC_NUM_OP_NOT_EQ,
DECNumOpNameMap[DEC_NUM_OP_FALSE]: DEC_NUM_OP_FALSE,
}
type DECLogicOp int
const (
DEC_LOGIC_OP_END = 0x80
DEC_LOGIC_OP_OR = 0x00
DEC_LOGIC_OP_AND = 0x40
)
var DECLogicOpNameMap = map[DECLogicOp]string{
DEC_LOGIC_OP_OR: " ",
DEC_LOGIC_OP_AND: "&",
DEC_LOGIC_OP_END: "E",
}
var DECLogicOpValueMap = map[string]DECLogicOp{
DECLogicOpNameMap[DEC_LOGIC_OP_OR]: DEC_LOGIC_OP_OR,
DECLogicOpNameMap[DEC_LOGIC_OP_AND]: DEC_LOGIC_OP_AND,
DECLogicOpNameMap[DEC_LOGIC_OP_END]: DEC_LOGIC_OP_END,
}
func (f TCPFlag) String() string {
ss := make([]string, 0, 6)
for _, v := range []TCPFlag{TCP_FLAG_FIN, TCP_FLAG_SYN, TCP_FLAG_RST, TCP_FLAG_PUSH, TCP_FLAG_ACK, TCP_FLAG_URGENT, TCP_FLAG_CWR, TCP_FLAG_ECE} {
if f&v > 0 {
ss = append(ss, TCPFlagNameMap[v])
}
}
return strings.Join(ss, "|")
}
type EthernetType int
const (
IPv4 EthernetType = 0x0800
ARP EthernetType = 0x0806
RARP EthernetType = 0x8035
VMTP EthernetType = 0x805B
APPLE_TALK EthernetType = 0x809B
AARP EthernetType = 0x80F3
IPX EthernetType = 0x8137
SNMP EthernetType = 0x814C
NET_BIOS EthernetType = 0x8191
XTP EthernetType = 0x817D
IPv6 EthernetType = 0x86DD
PPPoE_DISCOVERY EthernetType = 0x8863
PPPoE_SESSION EthernetType = 0x8864
LOOPBACK EthernetType = 0x9000
)
var EthernetTypeNameMap = map[EthernetType]string{
IPv4: "ipv4",
ARP: "arp",
RARP: "rarp",
VMTP: "vmtp",
APPLE_TALK: "apple-talk",
AARP: "aarp",
IPX: "ipx",
SNMP: "snmp",
NET_BIOS: "net-bios",
XTP: "xtp",
IPv6: "ipv6",
PPPoE_DISCOVERY: "pppoe-discovery",
PPPoE_SESSION: "pppoe-session",
LOOPBACK: "loopback",
}
var EthernetTypeValueMap = map[string]EthernetType{
EthernetTypeNameMap[IPv4]: IPv4,
EthernetTypeNameMap[ARP]: ARP,
EthernetTypeNameMap[RARP]: RARP,
EthernetTypeNameMap[VMTP]: VMTP,
EthernetTypeNameMap[APPLE_TALK]: APPLE_TALK,
EthernetTypeNameMap[AARP]: AARP,
EthernetTypeNameMap[IPX]: IPX,
EthernetTypeNameMap[SNMP]: SNMP,
EthernetTypeNameMap[NET_BIOS]: NET_BIOS,
EthernetTypeNameMap[XTP]: XTP,
EthernetTypeNameMap[IPv6]: IPv6,
EthernetTypeNameMap[PPPoE_DISCOVERY]: PPPoE_DISCOVERY,
EthernetTypeNameMap[PPPoE_SESSION]: PPPoE_SESSION,
EthernetTypeNameMap[LOOPBACK]: LOOPBACK,
}
func (t EthernetType) String() string {
n, ok := EthernetTypeNameMap[t]
if !ok {
return fmt.Sprintf("%d", t)
}
return n
}
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