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protos.go
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protos.go
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package protos
import (
"errors"
"fmt"
"sort"
"strings"
"time"
"github.com/elastic/beats/libbeat/common"
"github.com/elastic/beats/libbeat/logp"
"github.com/elastic/beats/packetbeat/publish"
)
const (
DefaultTransactionHashSize = 2 ^ 16
DefaultTransactionExpiration time.Duration = 10 * time.Second
)
// ProtocolData interface to represent an upper
// protocol private data. Used with types like
// HttpStream, MysqlStream, etc.
type ProtocolData interface{}
type Packet struct {
Ts time.Time
Tuple common.IPPortTuple
Payload []byte
}
var ErrInvalidPort = errors.New("port number out of range")
// Protocol Plugin Port configuration with validation on init
type PortsConfig struct {
Ports []int
}
func (p *PortsConfig) Init(ports ...int) error {
return p.Set(ports)
}
func (p *PortsConfig) Set(ports []int) error {
if err := validatePorts(ports); err != nil {
return err
}
p.Ports = ports
return nil
}
func validatePorts(ports []int) error {
for port := range ports {
if port < 0 || port > 65535 {
return ErrInvalidPort
}
}
return nil
}
type Protocols interface {
BpfFilter(withVlans bool, withICMP bool) string
GetTCP(proto Protocol) TCPPlugin
GetUDP(proto Protocol) UDPPlugin
GetAll() map[Protocol]Plugin
GetAllTCP() map[Protocol]TCPPlugin
GetAllUDP() map[Protocol]UDPPlugin
// Register(proto Protocol, plugin ProtocolPlugin)
}
// list of protocol plugins
type ProtocolsStruct struct {
all map[Protocol]Plugin
tcp map[Protocol]TCPPlugin
udp map[Protocol]UDPPlugin
}
// Singleton of Protocols type.
var Protos = ProtocolsStruct{
all: map[Protocol]Plugin{},
tcp: map[Protocol]TCPPlugin{},
udp: map[Protocol]UDPPlugin{},
}
func (s ProtocolsStruct) Init(
testMode bool,
results publish.Transactions,
configs map[string]*common.Config,
) error {
for proto := range protocolSyms {
logp.Info("registered protocol plugin: %v", proto)
}
for name, config := range configs {
// XXX: icmp is special, ignore here :/
if name == "icmp" {
continue
}
proto, exists := protocolSyms[name]
if !exists {
logp.Err("Unknown protocol plugin: %v", name)
continue
}
plugin, exists := protocolPlugins[proto]
if !exists {
logp.Err("Protocol plugin '%v' not registered (%v).", name, proto.String())
continue
}
if !config.Enabled() {
logp.Info("Protocol plugin '%v' disabled by config", name)
continue
}
inst, err := plugin(testMode, results, config)
if err != nil {
logp.Err("Failed to register protocol plugin: %v", err)
return err
}
s.register(proto, inst)
}
return nil
}
func (s ProtocolsStruct) GetTCP(proto Protocol) TCPPlugin {
plugin, exists := s.tcp[proto]
if !exists {
return nil
}
return plugin
}
func (s ProtocolsStruct) GetUDP(proto Protocol) UDPPlugin {
plugin, exists := s.udp[proto]
if !exists {
return nil
}
return plugin
}
func (s ProtocolsStruct) GetAll() map[Protocol]Plugin {
return s.all
}
func (s ProtocolsStruct) GetAllTCP() map[Protocol]TCPPlugin {
return s.tcp
}
func (s ProtocolsStruct) GetAllUDP() map[Protocol]UDPPlugin {
return s.udp
}
// BpfFilter returns a Berkeley Packer Filter (BFP) expression that
// will match against packets for the registered protocols. If with_vlans is
// true the filter will match against both IEEE 802.1Q VLAN encapsulated
// and unencapsulated packets
func (s ProtocolsStruct) BpfFilter(withVlans bool, withICMP bool) string {
// Sort the protocol IDs so that the return value is consistent.
var protos []int
for proto := range s.all {
protos = append(protos, int(proto))
}
sort.Ints(protos)
var expressions []string
for _, key := range protos {
proto := Protocol(key)
plugin := s.all[proto]
for _, port := range plugin.GetPorts() {
hasTCP := false
hasUDP := false
if _, present := s.tcp[proto]; present {
hasTCP = true
}
if _, present := s.udp[proto]; present {
hasUDP = true
}
var expr string
if hasTCP && !hasUDP {
expr = "tcp port %d"
} else if !hasTCP && hasUDP {
expr = "udp port %d"
} else {
expr = "port %d"
}
expressions = append(expressions, fmt.Sprintf(expr, port))
}
}
if withICMP {
expressions = append(expressions, "icmp", "icmp6")
}
filter := strings.Join(expressions, " or ")
if withVlans {
filter = fmt.Sprintf("%s or (vlan and (%s))", filter, filter)
}
return filter
}
func (s ProtocolsStruct) register(proto Protocol, plugin Plugin) {
if _, exists := s.all[proto]; exists {
logp.Warn("Protocol (%s) plugin will overwritten by another plugin", proto.String())
}
s.all[proto] = plugin
success := false
if tcp, ok := plugin.(TCPPlugin); ok {
s.tcp[proto] = tcp
success = true
}
if udp, ok := plugin.(UDPPlugin); ok {
s.udp[proto] = udp
success = true
}
if !success {
logp.Warn("Protocol (%s) register failed, port: %v", proto.String(), plugin.GetPorts())
}
}