package ice import ( "net" "time" "github.com/pion/logging" "github.com/pion/stun" ) type pairCandidateSelector interface { Start() ContactCandidates() PingCandidate(local, remote Candidate) HandleSuccessResponse(m *stun.Message, local, remote Candidate, remoteAddr net.Addr) HandleBindingRequest(m *stun.Message, local, remote Candidate) } type controllingSelector struct { startTime time.Time agent *Agent nominatedPair *CandidatePair log logging.LeveledLogger } func (s *controllingSelector) Start() { s.startTime = time.Now() s.nominatedPair = nil } func (s *controllingSelector) isNominatable(c Candidate) bool { switch { case c.Type() == CandidateTypeHost: return time.Since(s.startTime).Nanoseconds() > s.agent.hostAcceptanceMinWait.Nanoseconds() case c.Type() == CandidateTypeServerReflexive: return time.Since(s.startTime).Nanoseconds() > s.agent.srflxAcceptanceMinWait.Nanoseconds() case c.Type() == CandidateTypePeerReflexive: return time.Since(s.startTime).Nanoseconds() > s.agent.prflxAcceptanceMinWait.Nanoseconds() case c.Type() == CandidateTypeRelay: return time.Since(s.startTime).Nanoseconds() > s.agent.relayAcceptanceMinWait.Nanoseconds() } s.log.Errorf("isNominatable invalid candidate type %s", c.Type().String()) return false } func (s *controllingSelector) ContactCandidates() { switch { case s.agent.getSelectedPair() != nil: if s.agent.validateSelectedPair() { s.log.Trace("checking keepalive") s.agent.checkKeepalive() } case s.nominatedPair != nil: s.nominatePair(s.nominatedPair) default: p := s.agent.getBestValidCandidatePair() if p != nil && s.isNominatable(p.Local) && s.isNominatable(p.Remote) { s.log.Tracef("Nominatable pair found, nominating (%s, %s)", p.Local.String(), p.Remote.String()) p.nominated = true s.nominatedPair = p s.nominatePair(p) return } s.agent.pingAllCandidates() } } func (s *controllingSelector) nominatePair(pair *CandidatePair) { // The controlling agent MUST include the USE-CANDIDATE attribute in // order to nominate a candidate pair (Section 8.1.1). The controlled // agent MUST NOT include the USE-CANDIDATE attribute in a Binding // request. msg, err := stun.Build(stun.BindingRequest, stun.TransactionID, stun.NewUsername(s.agent.remoteUfrag+":"+s.agent.localUfrag), UseCandidate(), AttrControlling(s.agent.tieBreaker), PriorityAttr(pair.Local.Priority()), stun.NewShortTermIntegrity(s.agent.remotePwd), stun.Fingerprint, ) if err != nil { s.log.Error(err.Error()) return } s.log.Tracef("ping STUN (nominate candidate pair) from %s to %s\n", pair.Local.String(), pair.Remote.String()) s.agent.sendBindingRequest(msg, pair.Local, pair.Remote) } func (s *controllingSelector) HandleBindingRequest(m *stun.Message, local, remote Candidate) { s.agent.sendBindingSuccess(m, local, remote) p := s.agent.findPair(local, remote) if p == nil { s.agent.addPair(local, remote) return } if p.state == CandidatePairStateSucceeded && s.nominatedPair == nil && s.agent.getSelectedPair() == nil { bestPair := s.agent.getBestAvailableCandidatePair() if bestPair == nil { s.log.Tracef("No best pair available\n") } else if bestPair.equal(p) && s.isNominatable(p.Local) && s.isNominatable(p.Remote) { s.log.Tracef("The candidate (%s, %s) is the best candidate available, marking it as nominated\n", p.Local.String(), p.Remote.String()) s.nominatedPair = p s.nominatePair(p) } } } func (s *controllingSelector) HandleSuccessResponse(m *stun.Message, local, remote Candidate, remoteAddr net.Addr) { ok, pendingRequest := s.agent.handleInboundBindingSuccess(m.TransactionID) if !ok { s.log.Warnf("discard message from (%s), unknown TransactionID 0x%x", remote, m.TransactionID) return } transactionAddr := pendingRequest.destination // Assert that NAT is not symmetric // https://tools.ietf.org/html/rfc8445#section-7.2.5.2.1 if !addrEqual(transactionAddr, remoteAddr) { s.log.Debugf("discard message: transaction source and destination does not match expected(%s), actual(%s)", transactionAddr, remote) return } s.log.Tracef("inbound STUN (SuccessResponse) from %s to %s", remote.String(), local.String()) p := s.agent.findPair(local, remote) if p == nil { // This shouldn't happen s.log.Error("Success response from invalid candidate pair") return } p.state = CandidatePairStateSucceeded s.log.Tracef("Found valid candidate pair: %s", p) if pendingRequest.isUseCandidate && s.agent.getSelectedPair() == nil { s.agent.setSelectedPair(p) } } func (s *controllingSelector) PingCandidate(local, remote Candidate) { msg, err := stun.Build(stun.BindingRequest, stun.TransactionID, stun.NewUsername(s.agent.remoteUfrag+":"+s.agent.localUfrag), AttrControlling(s.agent.tieBreaker), PriorityAttr(local.Priority()), stun.NewShortTermIntegrity(s.agent.remotePwd), stun.Fingerprint, ) if err != nil { s.log.Error(err.Error()) return } s.agent.sendBindingRequest(msg, local, remote) } type controlledSelector struct { agent *Agent log logging.LeveledLogger } func (s *controlledSelector) Start() { } func (s *controlledSelector) ContactCandidates() { if s.agent.getSelectedPair() != nil { if s.agent.validateSelectedPair() { s.log.Trace("checking keepalive") s.agent.checkKeepalive() } } else { s.agent.pingAllCandidates() } } func (s *controlledSelector) PingCandidate(local, remote Candidate) { msg, err := stun.Build(stun.BindingRequest, stun.TransactionID, stun.NewUsername(s.agent.remoteUfrag+":"+s.agent.localUfrag), AttrControlled(s.agent.tieBreaker), PriorityAttr(local.Priority()), stun.NewShortTermIntegrity(s.agent.remotePwd), stun.Fingerprint, ) if err != nil { s.log.Error(err.Error()) return } s.agent.sendBindingRequest(msg, local, remote) } func (s *controlledSelector) HandleSuccessResponse(m *stun.Message, local, remote Candidate, remoteAddr net.Addr) { // nolint:godox // TODO according to the standard we should specifically answer a failed nomination: // https://tools.ietf.org/html/rfc8445#section-7.3.1.5 // If the controlled agent does not accept the request from the // controlling agent, the controlled agent MUST reject the nomination // request with an appropriate error code response (e.g., 400) // [RFC5389]. ok, pendingRequest := s.agent.handleInboundBindingSuccess(m.TransactionID) if !ok { s.log.Warnf("discard message from (%s), unknown TransactionID 0x%x", remote, m.TransactionID) return } transactionAddr := pendingRequest.destination // Assert that NAT is not symmetric // https://tools.ietf.org/html/rfc8445#section-7.2.5.2.1 if !addrEqual(transactionAddr, remoteAddr) { s.log.Debugf("discard message: transaction source and destination does not match expected(%s), actual(%s)", transactionAddr, remote) return } s.log.Tracef("inbound STUN (SuccessResponse) from %s to %s", remote.String(), local.String()) p := s.agent.findPair(local, remote) if p == nil { // This shouldn't happen s.log.Error("Success response from invalid candidate pair") return } p.state = CandidatePairStateSucceeded s.log.Tracef("Found valid candidate pair: %s", p) } func (s *controlledSelector) HandleBindingRequest(m *stun.Message, local, remote Candidate) { useCandidate := m.Contains(stun.AttrUseCandidate) p := s.agent.findPair(local, remote) if p == nil { p = s.agent.addPair(local, remote) } if useCandidate { // https://tools.ietf.org/html/rfc8445#section-7.3.1.5 if p.state == CandidatePairStateSucceeded { // If the state of this pair is Succeeded, it means that the check // previously sent by this pair produced a successful response and // generated a valid pair (Section 7.2.5.3.2). The agent sets the // nominated flag value of the valid pair to true. if selectedPair := s.agent.getSelectedPair(); selectedPair == nil { s.agent.setSelectedPair(p) } s.agent.sendBindingSuccess(m, local, remote) } else { // If the received Binding request triggered a new check to be // enqueued in the triggered-check queue (Section 7.3.1.4), once the // check is sent and if it generates a successful response, and // generates a valid pair, the agent sets the nominated flag of the // pair to true. If the request fails (Section 7.2.5.2), the agent // MUST remove the candidate pair from the valid list, set the // candidate pair state to Failed, and set the checklist state to // Failed. s.PingCandidate(local, remote) } } else { s.agent.sendBindingSuccess(m, local, remote) s.PingCandidate(local, remote) } } type liteSelector struct { pairCandidateSelector } // A lite selector should not contact candidates func (s *liteSelector) ContactCandidates() { if _, ok := s.pairCandidateSelector.(*controllingSelector); ok { // nolint:godox // pion/ice#96 // TODO: implement lite controlling agent. For now falling back to full agent. // This only happens if both peers are lite. See RFC 8445 S6.1.1 and S6.2 s.pairCandidateSelector.ContactCandidates() } else if v, ok := s.pairCandidateSelector.(*controlledSelector); ok { v.agent.validateSelectedPair() } }