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pcap_linux.go
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pcap_linux.go
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//go:build linux
// +build linux
package main
import (
"context"
"sync"
"github.com/pkg/errors"
"github.com/google/gopacket"
"github.com/google/gopacket/afpacket"
"github.com/google/gopacket/layers"
"github.com/google/gopacket/pcap"
"golang.org/x/net/bpf"
)
type pcapHandler struct {
device string
handle *afpacket.TPacket
}
type PcapClient struct {
ctx context.Context
cancel context.CancelFunc
bindIPs map[string]bool
handlers []*pcapHandler
bpfFilter string
sinker *Sinker
devicesPrefix []string
disableDNSResolve bool
allDevices bool
wg sync.WaitGroup
lookup Lookup
}
func NewPcapClient(lookup Lookup, opt Options) (*PcapClient, error) {
client := &PcapClient{
bindIPs: make(map[string]bool),
sinker: NewSinker(),
lookup: lookup,
bpfFilter: opt.BPFFilter,
devicesPrefix: opt.DevicesPrefix,
disableDNSResolve: opt.DisableDNSResolve,
allDevices: opt.AllDevices,
}
client.ctx, client.cancel = context.WithCancel(context.Background())
if err := client.getAvailableDevices(); err != nil {
return nil, err
}
for _, handler := range client.handlers {
go client.listen(handler)
}
return client, nil
}
func (c *PcapClient) getAvailableDevices() error {
devs, err := listPrefixDevices(c.devicesPrefix, c.allDevices)
if err != nil {
return err
}
for _, device := range devs {
handler, err := c.getHandler(device.Name)
if err != nil {
return errors.Wrapf(err, "get device(%s) name failed", device.Name)
}
if c.bpfFilter != "" {
if err = c.setBPFFilter(handler, c.bpfFilter); err != nil {
return errors.Wrapf(err, "set bpf-filter(%s) failed", c.bpfFilter)
}
}
c.handlers = append(c.handlers, &pcapHandler{device: device.Name, handle: handler})
for _, addr := range device.Addresses {
c.bindIPs[addr.IP.String()] = true
}
}
if len(c.handlers) == 0 {
return errors.New("no available devices found")
}
return nil
}
func (c *PcapClient) getHandler(device string) (*afpacket.TPacket, error) {
return afpacket.NewTPacket(afpacket.OptInterface(device))
}
func (c *PcapClient) setBPFFilter(h *afpacket.TPacket, filter string) error {
pcapBPF, err := pcap.CompileBPFFilter(layers.LinkTypeEthernet, 65535, filter)
if err != nil {
return err
}
var bpfIns []bpf.RawInstruction
for _, ins := range pcapBPF {
bpfIns = append(bpfIns, bpf.RawInstruction{
Op: ins.Code,
Jt: ins.Jt,
Jf: ins.Jf,
K: ins.K,
})
}
return h.SetBPF(bpfIns)
}
func (c *PcapClient) parsePacket(ph *pcapHandler, decoded []gopacket.Layer) *Segment {
var srcPort, dstPort uint16
var srcIP, dstIP string
var protocol Protocol
var dataLen int
direction := DirectionDownload
for _, layerType := range decoded {
switch lyr := layerType.(type) {
case *layers.IPv4:
srcIP = lyr.SrcIP.String()
dstIP = lyr.DstIP.String()
if c.bindIPs[srcIP] {
direction = DirectionUpload
}
case *layers.IPv6:
srcIP = lyr.SrcIP.String()
dstIP = lyr.DstIP.String()
if c.bindIPs[srcIP] {
direction = DirectionUpload
}
case *layers.TCP:
protocol = ProtoTCP
srcPort = uint16(lyr.SrcPort)
dstPort = uint16(lyr.DstPort)
dataLen = len(lyr.Contents) + len(lyr.Payload)
case *layers.UDP:
protocol = ProtoUDP
srcPort = uint16(lyr.SrcPort)
dstPort = uint16(lyr.DstPort)
dataLen = len(lyr.Contents) + len(lyr.Payload)
}
}
if protocol == "" {
return nil
}
seg := &Segment{
Interface: ph.device,
DataLen: dataLen,
Direction: direction,
}
var remoteIP string
switch seg.Direction {
case DirectionUpload:
remoteIP = dstIP
if protocol == ProtoTCP && !c.disableDNSResolve {
remoteIP = c.lookup(dstIP)
}
seg.Connection = Connection{
Local: LocalSocket{IP: srcIP, Port: srcPort, Protocol: protocol},
Remote: RemoteSocket{IP: remoteIP, Port: dstPort},
}
case DirectionDownload:
remoteIP = srcIP
if protocol == ProtoTCP && !c.disableDNSResolve {
remoteIP = c.lookup(srcIP)
}
seg.Connection = Connection{
Local: LocalSocket{IP: dstIP, Port: dstPort, Protocol: protocol},
Remote: RemoteSocket{IP: remoteIP, Port: srcPort},
}
}
return seg
}
func (c *PcapClient) listen(ph *pcapHandler) {
c.wg.Add(1)
defer c.wg.Done()
decoded := make([]gopacket.Layer, 0, 2)
var payload []byte
var ipv4 layers.IPv4
var ipv6 layers.IPv6
for {
select {
case <-c.ctx.Done():
return
// decode packets followed by layers
// 1) Ethernet Layer
// 2) IP Layer
// 3) TCP/UDP Layer
default:
decoded = decoded[:0]
payload = payload[:0]
pkt, _, err := ph.handle.ZeroCopyReadPacketData()
if err != nil {
continue
}
var ether layers.Ethernet
if err = ether.DecodeFromBytes(pkt, gopacket.NilDecodeFeedback); err != nil {
continue
}
switch ether.EthernetType {
case layers.EthernetTypeIPv4, layers.EthernetTypeIPv6:
default:
continue
}
if err = ipv4.DecodeFromBytes(ether.Payload, gopacket.NilDecodeFeedback); err == nil {
payload = ipv4.Payload
decoded = append(decoded, &ipv4)
}
if len(payload) == 0 {
if err = ipv6.DecodeFromBytes(ether.Payload, gopacket.NilDecodeFeedback); err == nil {
payload = ipv6.Payload
decoded = append(decoded, &ipv6)
}
}
if len(decoded) == 0 || len(payload) == 0 {
continue
}
var tcpPkg layers.TCP
if err = tcpPkg.DecodeFromBytes(payload, gopacket.NilDecodeFeedback); err == nil {
decoded = append(decoded, &tcpPkg)
if seg := c.parsePacket(ph, decoded); seg != nil {
c.sinker.Fetch(*seg)
}
continue
}
var udpPkg layers.UDP
if err = udpPkg.DecodeFromBytes(payload, gopacket.NilDecodeFeedback); err == nil {
decoded = append(decoded, &udpPkg)
if seg := c.parsePacket(ph, decoded); seg != nil {
c.sinker.Fetch(*seg)
}
}
}
}
}
func (c *PcapClient) Close() {
c.cancel()
c.wg.Wait()
for _, handler := range c.handlers {
handler.handle.Close()
}
}