mirror of
https://github.com/apernet/OpenGFW.git
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266 lines
6.1 KiB
Go
266 lines
6.1 KiB
Go
package udp
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import (
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"github.com/apernet/OpenGFW/analyzer"
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"github.com/apernet/OpenGFW/analyzer/utils"
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"github.com/google/gopacket"
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"github.com/google/gopacket/layers"
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)
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const (
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dnsUDPInvalidCountThreshold = 4
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)
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// DNSAnalyzer is for both DNS over UDP and TCP.
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var (
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_ analyzer.UDPAnalyzer = (*DNSAnalyzer)(nil)
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_ analyzer.TCPAnalyzer = (*DNSAnalyzer)(nil)
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)
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type DNSAnalyzer struct{}
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func (a *DNSAnalyzer) Name() string {
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return "dns"
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}
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func (a *DNSAnalyzer) Limit() int {
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// DNS is a stateless protocol, with unlimited amount
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// of back-and-forth exchanges. Don't limit it here.
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return 0
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}
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func (a *DNSAnalyzer) NewUDP(info analyzer.UDPInfo, logger analyzer.Logger) analyzer.UDPStream {
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return &dnsUDPStream{logger: logger}
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}
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func (a *DNSAnalyzer) NewTCP(info analyzer.TCPInfo, logger analyzer.Logger) analyzer.TCPStream {
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s := &dnsTCPStream{logger: logger, reqBuf: &utils.ByteBuffer{}, respBuf: &utils.ByteBuffer{}}
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s.reqLSM = utils.NewLinearStateMachine(
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s.getReqMessageLength,
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s.getReqMessage,
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)
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s.respLSM = utils.NewLinearStateMachine(
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s.getRespMessageLength,
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s.getRespMessage,
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)
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return s
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}
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type dnsUDPStream struct {
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logger analyzer.Logger
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invalidCount int
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}
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func (s *dnsUDPStream) Feed(rev bool, data []byte) (u *analyzer.PropUpdate, done bool) {
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m := parseDNSMessage(data)
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// To allow non-DNS UDP traffic to get offloaded,
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// we consider a UDP stream invalid and "done" if
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// it has more than a certain number of consecutive
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// packets that are not valid DNS messages.
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if m == nil {
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s.invalidCount++
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return nil, s.invalidCount >= dnsUDPInvalidCountThreshold
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}
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s.invalidCount = 0 // Reset invalid count on valid DNS message
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return &analyzer.PropUpdate{
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Type: analyzer.PropUpdateReplace,
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M: m,
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}, false
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}
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func (s *dnsUDPStream) Close(limited bool) *analyzer.PropUpdate {
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return nil
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}
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type dnsTCPStream struct {
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logger analyzer.Logger
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reqBuf *utils.ByteBuffer
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reqMap analyzer.PropMap
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reqUpdated bool
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reqLSM *utils.LinearStateMachine
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reqDone bool
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respBuf *utils.ByteBuffer
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respMap analyzer.PropMap
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respUpdated bool
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respLSM *utils.LinearStateMachine
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respDone bool
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reqMsgLen int
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respMsgLen int
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}
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func (s *dnsTCPStream) Feed(rev, start, end bool, skip int, data []byte) (u *analyzer.PropUpdate, done bool) {
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if skip != 0 {
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return nil, true
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}
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if len(data) == 0 {
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return nil, false
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}
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var update *analyzer.PropUpdate
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var cancelled bool
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if rev {
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s.respBuf.Append(data)
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s.respUpdated = false
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cancelled, s.respDone = s.respLSM.Run()
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if s.respUpdated {
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update = &analyzer.PropUpdate{
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Type: analyzer.PropUpdateReplace,
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M: s.respMap,
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}
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s.respUpdated = false
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}
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} else {
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s.reqBuf.Append(data)
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s.reqUpdated = false
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cancelled, s.reqDone = s.reqLSM.Run()
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if s.reqUpdated {
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update = &analyzer.PropUpdate{
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Type: analyzer.PropUpdateReplace,
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M: s.reqMap,
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}
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s.reqUpdated = false
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}
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}
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return update, cancelled || (s.reqDone && s.respDone)
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}
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func (s *dnsTCPStream) Close(limited bool) *analyzer.PropUpdate {
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s.reqBuf.Reset()
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s.respBuf.Reset()
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s.reqMap = nil
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s.respMap = nil
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return nil
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}
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func (s *dnsTCPStream) getReqMessageLength() utils.LSMAction {
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bs, ok := s.reqBuf.Get(2, true)
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if !ok {
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return utils.LSMActionPause
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}
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s.reqMsgLen = int(bs[0])<<8 | int(bs[1])
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return utils.LSMActionNext
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}
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func (s *dnsTCPStream) getRespMessageLength() utils.LSMAction {
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bs, ok := s.respBuf.Get(2, true)
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if !ok {
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return utils.LSMActionPause
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}
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s.respMsgLen = int(bs[0])<<8 | int(bs[1])
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return utils.LSMActionNext
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}
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func (s *dnsTCPStream) getReqMessage() utils.LSMAction {
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bs, ok := s.reqBuf.Get(s.reqMsgLen, true)
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if !ok {
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return utils.LSMActionPause
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}
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m := parseDNSMessage(bs)
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if m == nil {
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// Invalid DNS message
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return utils.LSMActionCancel
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}
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s.reqMap = m
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s.reqUpdated = true
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return utils.LSMActionReset
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}
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func (s *dnsTCPStream) getRespMessage() utils.LSMAction {
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bs, ok := s.respBuf.Get(s.respMsgLen, true)
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if !ok {
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return utils.LSMActionPause
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}
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m := parseDNSMessage(bs)
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if m == nil {
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// Invalid DNS message
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return utils.LSMActionCancel
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}
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s.respMap = m
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s.respUpdated = true
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return utils.LSMActionReset
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}
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func parseDNSMessage(msg []byte) analyzer.PropMap {
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dns := &layers.DNS{}
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err := dns.DecodeFromBytes(msg, gopacket.NilDecodeFeedback)
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if err != nil {
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// Not a DNS packet
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return nil
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}
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m := analyzer.PropMap{
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"id": dns.ID,
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"qr": dns.QR,
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"opcode": dns.OpCode,
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"aa": dns.AA,
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"tc": dns.TC,
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"rd": dns.RD,
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"ra": dns.RA,
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"z": dns.Z,
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"rcode": dns.ResponseCode,
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}
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if len(dns.Questions) > 0 {
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mQuestions := make([]analyzer.PropMap, len(dns.Questions))
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for i, q := range dns.Questions {
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mQuestions[i] = analyzer.PropMap{
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"name": string(q.Name),
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"type": q.Type,
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"class": q.Class,
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}
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}
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m["questions"] = mQuestions
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}
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if len(dns.Answers) > 0 {
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mAnswers := make([]analyzer.PropMap, len(dns.Answers))
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for i, rr := range dns.Answers {
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mAnswers[i] = dnsRRToPropMap(rr)
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}
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m["answers"] = mAnswers
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}
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if len(dns.Authorities) > 0 {
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mAuthorities := make([]analyzer.PropMap, len(dns.Authorities))
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for i, rr := range dns.Authorities {
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mAuthorities[i] = dnsRRToPropMap(rr)
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}
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m["authorities"] = mAuthorities
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}
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if len(dns.Additionals) > 0 {
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mAdditionals := make([]analyzer.PropMap, len(dns.Additionals))
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for i, rr := range dns.Additionals {
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mAdditionals[i] = dnsRRToPropMap(rr)
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}
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m["additionals"] = mAdditionals
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}
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return m
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}
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func dnsRRToPropMap(rr layers.DNSResourceRecord) analyzer.PropMap {
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m := analyzer.PropMap{
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"name": string(rr.Name),
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"type": rr.Type,
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"class": rr.Class,
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"ttl": rr.TTL,
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}
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switch rr.Type {
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// These are not everything, but is
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// all we decided to support for now.
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case layers.DNSTypeA:
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m["a"] = rr.IP.String()
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case layers.DNSTypeAAAA:
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m["aaaa"] = rr.IP.String()
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case layers.DNSTypeNS:
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m["ns"] = string(rr.NS)
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case layers.DNSTypeCNAME:
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m["cname"] = string(rr.CNAME)
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case layers.DNSTypePTR:
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m["ptr"] = string(rr.PTR)
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case layers.DNSTypeTXT:
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m["txt"] = utils.ByteSlicesToStrings(rr.TXTs)
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case layers.DNSTypeMX:
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m["mx"] = string(rr.MX.Name)
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}
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return m
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}
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