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tcp.go
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tcp.go
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package tcp
import (
"fmt"
"time"
"github.com/elastic/beats/libbeat/common"
"github.com/elastic/beats/libbeat/logp"
"github.com/elastic/beats/libbeat/monitoring"
"github.com/elastic/beats/packetbeat/flows"
"github.com/elastic/beats/packetbeat/protos"
"github.com/tsg/gopacket/layers"
)
const TCPMaxDataInStream = 10 * (1 << 20)
const (
TCPDirectionReverse = 0
TCPDirectionOriginal = 1
)
type TCP struct {
id uint32
streams *common.Cache
portMap map[uint16]protos.Protocol
protocols protos.Protocols
}
type Processor interface {
Process(flow *flows.FlowID, hdr *layers.TCP, pkt *protos.Packet)
}
var (
droppedBecauseOfGaps = monitoring.NewInt(nil, "tcp.dropped_because_of_gaps")
)
type seqCompare int
const (
seqLT seqCompare = -1
seqEq seqCompare = 0
seqGT seqCompare = 1
)
var (
debugf = logp.MakeDebug("tcp")
isDebug = false
)
func (tcp *TCP) getID() uint32 {
tcp.id++
return tcp.id
}
func (tcp *TCP) decideProtocol(tuple *common.IPPortTuple) protos.Protocol {
protocol, exists := tcp.portMap[tuple.SrcPort]
if exists {
return protocol
}
protocol, exists = tcp.portMap[tuple.DstPort]
if exists {
return protocol
}
return protos.UnknownProtocol
}
func (tcp *TCP) findStream(k common.HashableIPPortTuple) *TCPConnection {
v := tcp.streams.Get(k)
if v != nil {
return v.(*TCPConnection)
}
return nil
}
type TCPConnection struct {
id uint32
tuple *common.IPPortTuple
protocol protos.Protocol
tcptuple common.TCPTuple
tcp *TCP
lastSeq [2]uint32
// protocols private data
data protos.ProtocolData
}
type TCPStream struct {
conn *TCPConnection
dir uint8
}
func (conn *TCPConnection) String() string {
return fmt.Sprintf("TcpStream id[%d] tuple[%s] protocol[%s] lastSeq[%d %d]",
conn.id, conn.tuple, conn.protocol, conn.lastSeq[0], conn.lastSeq[1])
}
func (stream *TCPStream) addPacket(pkt *protos.Packet, tcphdr *layers.TCP) {
conn := stream.conn
mod := conn.tcp.protocols.GetTCP(conn.protocol)
if mod == nil {
if isDebug {
protocol := conn.protocol
debugf("Ignoring protocol for which we have no module loaded: %s",
protocol)
}
return
}
if len(pkt.Payload) > 0 {
conn.data = mod.Parse(pkt, &conn.tcptuple, stream.dir, conn.data)
}
if tcphdr.FIN {
conn.data = mod.ReceivedFin(&conn.tcptuple, stream.dir, conn.data)
}
}
func (stream *TCPStream) gapInStream(nbytes int) (drop bool) {
conn := stream.conn
mod := conn.tcp.protocols.GetTCP(conn.protocol)
conn.data, drop = mod.GapInStream(&conn.tcptuple, stream.dir, nbytes, conn.data)
return drop
}
func (tcp *TCP) Process(id *flows.FlowID, tcphdr *layers.TCP, pkt *protos.Packet) {
// This Recover should catch all exceptions in
// protocol modules.
defer logp.Recover("Process tcp exception")
stream, created := tcp.getStream(pkt)
if stream.conn == nil {
return
}
conn := stream.conn
if id != nil {
id.AddConnectionID(uint64(conn.id))
}
if isDebug {
debugf("tcp flow id: %p", id)
}
if len(pkt.Payload) == 0 && !tcphdr.FIN {
// return early if packet is not interesting. Still need to find/create
// stream first in order to update the TCP stream timer
return
}
tcpStartSeq := tcphdr.Seq
tcpSeq := tcpStartSeq + uint32(len(pkt.Payload))
lastSeq := conn.lastSeq[stream.dir]
if isDebug {
debugf("pkt.start_seq=%v pkt.last_seq=%v stream.last_seq=%v (len=%d)",
tcpStartSeq, tcpSeq, lastSeq, len(pkt.Payload))
}
if len(pkt.Payload) > 0 && lastSeq != 0 {
if tcpSeqBeforeEq(tcpSeq, lastSeq) {
if isDebug {
debugf("Ignoring retransmitted segment. pkt.seq=%v len=%v stream.seq=%v",
tcphdr.Seq, len(pkt.Payload), lastSeq)
}
return
}
switch tcpSeqCompare(lastSeq, tcpStartSeq) {
case seqLT: // lastSeq < tcpStartSeq => Gap in tcp stream detected
if created {
break
}
gap := int(tcpStartSeq - lastSeq)
debugf("Gap in tcp stream. last_seq: %d, seq: %d, gap: %d", lastSeq, tcpStartSeq, gap)
drop := stream.gapInStream(gap)
if drop {
if isDebug {
debugf("Dropping connection state because of gap")
}
droppedBecauseOfGaps.Add(1)
// drop application layer connection state and
// update stream_id for app layer analysers using stream_id for lookups
conn.id = tcp.getID()
conn.data = nil
}
case seqGT:
// lastSeq > tcpStartSeq => overlapping TCP segment detected. shrink packet
delta := lastSeq - tcpStartSeq
if isDebug {
debugf("Overlapping tcp segment. last_seq %d, seq: %d, delta: %d",
lastSeq, tcpStartSeq, delta)
}
pkt.Payload = pkt.Payload[delta:]
tcphdr.Seq += delta
}
}
conn.lastSeq[stream.dir] = tcpSeq
stream.addPacket(pkt, tcphdr)
}
func (tcp *TCP) getStream(pkt *protos.Packet) (stream TCPStream, created bool) {
if conn := tcp.findStream(pkt.Tuple.Hashable()); conn != nil {
return TCPStream{conn: conn, dir: TCPDirectionOriginal}, false
}
if conn := tcp.findStream(pkt.Tuple.RevHashable()); conn != nil {
return TCPStream{conn: conn, dir: TCPDirectionReverse}, false
}
protocol := tcp.decideProtocol(&pkt.Tuple)
if protocol == protos.UnknownProtocol {
// don't follow
return TCPStream{}, false
}
var timeout time.Duration
mod := tcp.protocols.GetTCP(protocol)
if mod != nil {
timeout = mod.ConnectionTimeout()
}
if isDebug {
t := pkt.Tuple
debugf("Connection src[%s:%d] dst[%s:%d] doesn't exist, creating new",
t.SrcIP.String(), t.SrcPort,
t.DstIP.String(), t.DstPort)
}
conn := &TCPConnection{
id: tcp.getID(),
tuple: &pkt.Tuple,
protocol: protocol,
tcp: tcp}
conn.tcptuple = common.TCPTupleFromIPPort(conn.tuple, conn.id)
tcp.streams.PutWithTimeout(pkt.Tuple.Hashable(), conn, timeout)
return TCPStream{conn: conn, dir: TCPDirectionOriginal}, true
}
func tcpSeqCompare(seq1, seq2 uint32) seqCompare {
i := int32(seq1 - seq2)
switch {
case i == 0:
return seqEq
case i < 0:
return seqLT
default:
return seqGT
}
}
func tcpSeqBefore(seq1 uint32, seq2 uint32) bool {
return int32(seq1-seq2) < 0
}
func tcpSeqBeforeEq(seq1 uint32, seq2 uint32) bool {
return int32(seq1-seq2) <= 0
}
func buildPortsMap(plugins map[protos.Protocol]protos.TCPPlugin) (map[uint16]protos.Protocol, error) {
var res = map[uint16]protos.Protocol{}
for proto, protoPlugin := range plugins {
for _, port := range protoPlugin.GetPorts() {
oldProto, exists := res[uint16(port)]
if exists {
if oldProto == proto {
continue
}
return nil, fmt.Errorf("Duplicate port (%d) exists in %s and %s protocols",
port, oldProto, proto)
}
res[uint16(port)] = proto
}
}
return res, nil
}
// Creates and returns a new Tcp.
func NewTCP(p protos.Protocols) (*TCP, error) {
isDebug = logp.IsDebug("tcp")
portMap, err := buildPortsMap(p.GetAllTCP())
if err != nil {
return nil, err
}
tcp := &TCP{
protocols: p,
portMap: portMap,
streams: common.NewCache(
protos.DefaultTransactionExpiration,
protos.DefaultTransactionHashSize),
}
tcp.streams.StartJanitor(protos.DefaultTransactionExpiration)
if isDebug {
debugf("tcp", "Port map: %v", portMap)
}
return tcp, nil
}