mirror of https://github.com/slackhq/nebula.git
856 lines
24 KiB
Go
856 lines
24 KiB
Go
package nebula
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import (
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"errors"
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"fmt"
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"net"
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"sync"
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"sync/atomic"
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"time"
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"github.com/rcrowley/go-metrics"
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"github.com/sirupsen/logrus"
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"github.com/slackhq/nebula/cert"
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"github.com/slackhq/nebula/cidr"
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"github.com/slackhq/nebula/header"
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"github.com/slackhq/nebula/iputil"
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"github.com/slackhq/nebula/udp"
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)
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// const ProbeLen = 100
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const PromoteEvery = 1000
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const ReQueryEvery = 5000
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const MaxRemotes = 10
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// MaxHostInfosPerVpnIp is the max number of hostinfos we will track for a given vpn ip
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// 5 allows for an initial handshake and each host pair re-handshaking twice
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const MaxHostInfosPerVpnIp = 5
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// How long we should prevent roaming back to the previous IP.
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// This helps prevent flapping due to packets already in flight
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const RoamingSuppressSeconds = 2
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const (
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Requested = iota
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Established
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)
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const (
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Unknowntype = iota
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ForwardingType
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TerminalType
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)
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type Relay struct {
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Type int
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State int
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LocalIndex uint32
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RemoteIndex uint32
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PeerIp iputil.VpnIp
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}
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type HostMap struct {
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sync.RWMutex //Because we concurrently read and write to our maps
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name string
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Indexes map[uint32]*HostInfo
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Relays map[uint32]*HostInfo // Maps a Relay IDX to a Relay HostInfo object
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RemoteIndexes map[uint32]*HostInfo
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Hosts map[iputil.VpnIp]*HostInfo
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preferredRanges []*net.IPNet
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vpnCIDR *net.IPNet
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metricsEnabled bool
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l *logrus.Logger
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}
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// For synchronization, treat the pointed-to Relay struct as immutable. To edit the Relay
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// struct, make a copy of an existing value, edit the fileds in the copy, and
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// then store a pointer to the new copy in both realyForBy* maps.
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type RelayState struct {
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sync.RWMutex
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relays map[iputil.VpnIp]struct{} // Set of VpnIp's of Hosts to use as relays to access this peer
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relayForByIp map[iputil.VpnIp]*Relay // Maps VpnIps of peers for which this HostInfo is a relay to some Relay info
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relayForByIdx map[uint32]*Relay // Maps a local index to some Relay info
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}
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func (rs *RelayState) DeleteRelay(ip iputil.VpnIp) {
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rs.Lock()
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defer rs.Unlock()
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delete(rs.relays, ip)
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}
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func (rs *RelayState) GetRelayForByIp(ip iputil.VpnIp) (*Relay, bool) {
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rs.RLock()
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defer rs.RUnlock()
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r, ok := rs.relayForByIp[ip]
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return r, ok
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}
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func (rs *RelayState) InsertRelayTo(ip iputil.VpnIp) {
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rs.Lock()
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defer rs.Unlock()
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rs.relays[ip] = struct{}{}
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}
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func (rs *RelayState) CopyRelayIps() []iputil.VpnIp {
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rs.RLock()
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defer rs.RUnlock()
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ret := make([]iputil.VpnIp, 0, len(rs.relays))
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for ip := range rs.relays {
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ret = append(ret, ip)
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}
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return ret
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}
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func (rs *RelayState) CopyRelayForIps() []iputil.VpnIp {
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rs.RLock()
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defer rs.RUnlock()
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currentRelays := make([]iputil.VpnIp, 0, len(rs.relayForByIp))
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for relayIp := range rs.relayForByIp {
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currentRelays = append(currentRelays, relayIp)
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}
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return currentRelays
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}
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func (rs *RelayState) CopyRelayForIdxs() []uint32 {
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rs.RLock()
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defer rs.RUnlock()
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ret := make([]uint32, 0, len(rs.relayForByIdx))
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for i := range rs.relayForByIdx {
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ret = append(ret, i)
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}
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return ret
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}
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func (rs *RelayState) RemoveRelay(localIdx uint32) (iputil.VpnIp, bool) {
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rs.Lock()
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defer rs.Unlock()
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r, ok := rs.relayForByIdx[localIdx]
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if !ok {
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return iputil.VpnIp(0), false
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}
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delete(rs.relayForByIdx, localIdx)
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delete(rs.relayForByIp, r.PeerIp)
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return r.PeerIp, true
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}
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func (rs *RelayState) CompleteRelayByIP(vpnIp iputil.VpnIp, remoteIdx uint32) bool {
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rs.Lock()
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defer rs.Unlock()
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r, ok := rs.relayForByIp[vpnIp]
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if !ok {
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return false
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}
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newRelay := *r
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newRelay.State = Established
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newRelay.RemoteIndex = remoteIdx
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rs.relayForByIdx[r.LocalIndex] = &newRelay
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rs.relayForByIp[r.PeerIp] = &newRelay
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return true
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}
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func (rs *RelayState) CompleteRelayByIdx(localIdx uint32, remoteIdx uint32) (*Relay, bool) {
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rs.Lock()
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defer rs.Unlock()
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r, ok := rs.relayForByIdx[localIdx]
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if !ok {
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return nil, false
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}
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newRelay := *r
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newRelay.State = Established
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newRelay.RemoteIndex = remoteIdx
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rs.relayForByIdx[r.LocalIndex] = &newRelay
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rs.relayForByIp[r.PeerIp] = &newRelay
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return &newRelay, true
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}
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func (rs *RelayState) QueryRelayForByIp(vpnIp iputil.VpnIp) (*Relay, bool) {
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rs.RLock()
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defer rs.RUnlock()
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r, ok := rs.relayForByIp[vpnIp]
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return r, ok
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}
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func (rs *RelayState) QueryRelayForByIdx(idx uint32) (*Relay, bool) {
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rs.RLock()
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defer rs.RUnlock()
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r, ok := rs.relayForByIdx[idx]
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return r, ok
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}
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func (rs *RelayState) InsertRelay(ip iputil.VpnIp, idx uint32, r *Relay) {
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rs.Lock()
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defer rs.Unlock()
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rs.relayForByIp[ip] = r
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rs.relayForByIdx[idx] = r
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}
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type HostInfo struct {
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sync.RWMutex
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remote *udp.Addr
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remotes *RemoteList
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promoteCounter atomic.Uint32
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ConnectionState *ConnectionState
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handshakeStart time.Time //todo: this an entry in the handshake manager
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HandshakeReady bool //todo: being in the manager means you are ready
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HandshakeCounter int //todo: another handshake manager entry
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HandshakeLastRemotes []*udp.Addr //todo: another handshake manager entry, which remotes we sent to last time
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HandshakeComplete bool //todo: this should go away in favor of ConnectionState.ready
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HandshakePacket map[uint8][]byte //todo: this is other handshake manager entry
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packetStore []*cachedPacket //todo: this is other handshake manager entry
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remoteIndexId uint32
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localIndexId uint32
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vpnIp iputil.VpnIp
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recvError int
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remoteCidr *cidr.Tree4
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relayState RelayState
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// lastRebindCount is the other side of Interface.rebindCount, if these values don't match then we need to ask LH
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// for a punch from the remote end of this tunnel. The goal being to prime their conntrack for our traffic just like
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// with a handshake
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lastRebindCount int8
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// lastHandshakeTime records the time the remote side told us about at the stage when the handshake was completed locally
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// Stage 1 packet will contain it if I am a responder, stage 2 packet if I am an initiator
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// This is used to avoid an attack where a handshake packet is replayed after some time
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lastHandshakeTime uint64
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lastRoam time.Time
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lastRoamRemote *udp.Addr
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// Used to track other hostinfos for this vpn ip since only 1 can be primary
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// Synchronised via hostmap lock and not the hostinfo lock.
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next, prev *HostInfo
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}
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type ViaSender struct {
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relayHI *HostInfo // relayHI is the host info object of the relay
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remoteIdx uint32 // remoteIdx is the index included in the header of the received packet
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relay *Relay // relay contains the rest of the relay information, including the PeerIP of the host trying to communicate with us.
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}
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type cachedPacket struct {
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messageType header.MessageType
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messageSubType header.MessageSubType
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callback packetCallback
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packet []byte
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}
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type packetCallback func(t header.MessageType, st header.MessageSubType, h *HostInfo, p, nb, out []byte)
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type cachedPacketMetrics struct {
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sent metrics.Counter
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dropped metrics.Counter
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}
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func NewHostMap(l *logrus.Logger, name string, vpnCIDR *net.IPNet, preferredRanges []*net.IPNet) *HostMap {
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h := map[iputil.VpnIp]*HostInfo{}
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i := map[uint32]*HostInfo{}
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r := map[uint32]*HostInfo{}
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relays := map[uint32]*HostInfo{}
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m := HostMap{
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name: name,
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Indexes: i,
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Relays: relays,
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RemoteIndexes: r,
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Hosts: h,
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preferredRanges: preferredRanges,
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vpnCIDR: vpnCIDR,
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l: l,
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}
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return &m
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}
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// UpdateStats takes a name and reports host and index counts to the stats collection system
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func (hm *HostMap) EmitStats(name string) {
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hm.RLock()
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hostLen := len(hm.Hosts)
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indexLen := len(hm.Indexes)
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remoteIndexLen := len(hm.RemoteIndexes)
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relaysLen := len(hm.Relays)
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hm.RUnlock()
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metrics.GetOrRegisterGauge("hostmap."+name+".hosts", nil).Update(int64(hostLen))
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metrics.GetOrRegisterGauge("hostmap."+name+".indexes", nil).Update(int64(indexLen))
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metrics.GetOrRegisterGauge("hostmap."+name+".remoteIndexes", nil).Update(int64(remoteIndexLen))
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metrics.GetOrRegisterGauge("hostmap."+name+".relayIndexes", nil).Update(int64(relaysLen))
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}
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func (hm *HostMap) RemoveRelay(localIdx uint32) {
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hm.Lock()
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hiRelay, ok := hm.Relays[localIdx]
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if !ok {
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hm.Unlock()
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return
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}
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delete(hm.Relays, localIdx)
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hm.Unlock()
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ip, ok := hiRelay.relayState.RemoveRelay(localIdx)
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if !ok {
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return
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}
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hiPeer, err := hm.QueryVpnIp(ip)
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if err != nil {
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return
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}
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var otherPeerIdx uint32
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hiPeer.relayState.DeleteRelay(hiRelay.vpnIp)
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relay, ok := hiPeer.relayState.GetRelayForByIp(hiRelay.vpnIp)
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if ok {
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otherPeerIdx = relay.LocalIndex
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}
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// I am a relaying host. I need to remove the other relay, too.
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hm.RemoveRelay(otherPeerIdx)
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}
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func (hm *HostMap) GetIndexByVpnIp(vpnIp iputil.VpnIp) (uint32, error) {
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hm.RLock()
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if i, ok := hm.Hosts[vpnIp]; ok {
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index := i.localIndexId
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hm.RUnlock()
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return index, nil
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}
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hm.RUnlock()
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return 0, errors.New("vpn IP not found")
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}
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func (hm *HostMap) Add(ip iputil.VpnIp, hostinfo *HostInfo) {
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hm.Lock()
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hm.Hosts[ip] = hostinfo
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hm.Unlock()
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}
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func (hm *HostMap) AddVpnIp(vpnIp iputil.VpnIp, init func(hostinfo *HostInfo)) (hostinfo *HostInfo, created bool) {
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hm.RLock()
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if h, ok := hm.Hosts[vpnIp]; !ok {
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hm.RUnlock()
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h = &HostInfo{
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vpnIp: vpnIp,
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HandshakePacket: make(map[uint8][]byte, 0),
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relayState: RelayState{
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relays: map[iputil.VpnIp]struct{}{},
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relayForByIp: map[iputil.VpnIp]*Relay{},
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relayForByIdx: map[uint32]*Relay{},
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},
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}
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if init != nil {
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init(h)
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}
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hm.Lock()
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hm.Hosts[vpnIp] = h
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hm.Unlock()
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return h, true
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} else {
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hm.RUnlock()
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return h, false
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}
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}
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// Only used by pendingHostMap when the remote index is not initially known
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func (hm *HostMap) addRemoteIndexHostInfo(index uint32, h *HostInfo) {
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hm.Lock()
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h.remoteIndexId = index
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hm.RemoteIndexes[index] = h
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hm.Unlock()
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if hm.l.Level > logrus.DebugLevel {
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hm.l.WithField("hostMap", m{"mapName": hm.name, "indexNumber": index, "mapTotalSize": len(hm.Indexes),
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"hostinfo": m{"existing": true, "localIndexId": h.localIndexId, "hostId": h.vpnIp}}).
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Debug("Hostmap remoteIndex added")
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}
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}
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// DeleteReverseIndex is used to clean up on recv_error
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// This function should only ever be called on the pending hostmap
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func (hm *HostMap) DeleteReverseIndex(index uint32) {
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hm.Lock()
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hostinfo, ok := hm.RemoteIndexes[index]
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if ok {
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delete(hm.Indexes, hostinfo.localIndexId)
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delete(hm.RemoteIndexes, index)
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// Check if we have an entry under hostId that matches the same hostinfo
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// instance. Clean it up as well if we do (they might not match in pendingHostmap)
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var hostinfo2 *HostInfo
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hostinfo2, ok = hm.Hosts[hostinfo.vpnIp]
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if ok && hostinfo2 == hostinfo {
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delete(hm.Hosts, hostinfo.vpnIp)
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}
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}
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hm.Unlock()
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if hm.l.Level >= logrus.DebugLevel {
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hm.l.WithField("hostMap", m{"mapName": hm.name, "indexNumber": index, "mapTotalSize": len(hm.Indexes)}).
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Debug("Hostmap remote index deleted")
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}
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}
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// DeleteHostInfo will fully unlink the hostinfo and return true if it was the final hostinfo for this vpn ip
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func (hm *HostMap) DeleteHostInfo(hostinfo *HostInfo) bool {
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// Delete the host itself, ensuring it's not modified anymore
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hm.Lock()
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// If we have a previous or next hostinfo then we are not the last one for this vpn ip
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final := (hostinfo.next == nil && hostinfo.prev == nil)
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hm.unlockedDeleteHostInfo(hostinfo)
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hm.Unlock()
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// And tear down all the relays going through this host, if final
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for _, localIdx := range hostinfo.relayState.CopyRelayForIdxs() {
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hm.RemoveRelay(localIdx)
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}
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if final {
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// And tear down the relays this deleted hostInfo was using to be reached
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teardownRelayIdx := []uint32{}
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for _, relayIp := range hostinfo.relayState.CopyRelayIps() {
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relayHostInfo, err := hm.QueryVpnIp(relayIp)
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if err != nil {
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hm.l.WithError(err).WithField("relay", relayIp).Info("Missing relay host in hostmap")
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} else {
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if r, ok := relayHostInfo.relayState.QueryRelayForByIp(hostinfo.vpnIp); ok {
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teardownRelayIdx = append(teardownRelayIdx, r.LocalIndex)
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}
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}
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}
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for _, localIdx := range teardownRelayIdx {
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hm.RemoveRelay(localIdx)
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}
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}
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return final
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}
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func (hm *HostMap) DeleteRelayIdx(localIdx uint32) {
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hm.Lock()
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defer hm.Unlock()
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delete(hm.RemoteIndexes, localIdx)
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}
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func (hm *HostMap) MakePrimary(hostinfo *HostInfo) {
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hm.Lock()
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defer hm.Unlock()
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hm.unlockedMakePrimary(hostinfo)
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}
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func (hm *HostMap) unlockedMakePrimary(hostinfo *HostInfo) {
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oldHostinfo := hm.Hosts[hostinfo.vpnIp]
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if oldHostinfo == hostinfo {
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return
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}
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if hostinfo.prev != nil {
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hostinfo.prev.next = hostinfo.next
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}
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if hostinfo.next != nil {
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hostinfo.next.prev = hostinfo.prev
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}
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hm.Hosts[hostinfo.vpnIp] = hostinfo
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if oldHostinfo == nil {
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return
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}
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hostinfo.next = oldHostinfo
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oldHostinfo.prev = hostinfo
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hostinfo.prev = nil
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}
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func (hm *HostMap) unlockedDeleteHostInfo(hostinfo *HostInfo) {
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primary, ok := hm.Hosts[hostinfo.vpnIp]
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if ok && primary == hostinfo {
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// The vpnIp pointer points to the same hostinfo as the local index id, we can remove it
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delete(hm.Hosts, hostinfo.vpnIp)
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if len(hm.Hosts) == 0 {
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hm.Hosts = map[iputil.VpnIp]*HostInfo{}
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}
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if hostinfo.next != nil {
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// We had more than 1 hostinfo at this vpnip, promote the next in the list to primary
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hm.Hosts[hostinfo.vpnIp] = hostinfo.next
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// It is primary, there is no previous hostinfo now
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hostinfo.next.prev = nil
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}
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} else {
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// Relink if we were in the middle of multiple hostinfos for this vpn ip
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if hostinfo.prev != nil {
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hostinfo.prev.next = hostinfo.next
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}
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if hostinfo.next != nil {
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hostinfo.next.prev = hostinfo.prev
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}
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}
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hostinfo.next = nil
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hostinfo.prev = nil
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// The remote index uses index ids outside our control so lets make sure we are only removing
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// the remote index pointer here if it points to the hostinfo we are deleting
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hostinfo2, ok := hm.RemoteIndexes[hostinfo.remoteIndexId]
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if ok && hostinfo2 == hostinfo {
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delete(hm.RemoteIndexes, hostinfo.remoteIndexId)
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if len(hm.RemoteIndexes) == 0 {
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hm.RemoteIndexes = map[uint32]*HostInfo{}
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}
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}
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delete(hm.Indexes, hostinfo.localIndexId)
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if len(hm.Indexes) == 0 {
|
|
hm.Indexes = map[uint32]*HostInfo{}
|
|
}
|
|
|
|
if hm.l.Level >= logrus.DebugLevel {
|
|
hm.l.WithField("hostMap", m{"mapName": hm.name, "mapTotalSize": len(hm.Hosts),
|
|
"vpnIp": hostinfo.vpnIp, "indexNumber": hostinfo.localIndexId, "remoteIndexNumber": hostinfo.remoteIndexId}).
|
|
Debug("Hostmap hostInfo deleted")
|
|
}
|
|
}
|
|
|
|
func (hm *HostMap) QueryIndex(index uint32) (*HostInfo, error) {
|
|
//TODO: we probably just want to return bool instead of error, or at least a static error
|
|
hm.RLock()
|
|
if h, ok := hm.Indexes[index]; ok {
|
|
hm.RUnlock()
|
|
return h, nil
|
|
} else {
|
|
hm.RUnlock()
|
|
return nil, errors.New("unable to find index")
|
|
}
|
|
}
|
|
|
|
// Retrieves a HostInfo by Index. Returns whether the HostInfo is primary at time of query.
|
|
// This helper exists so that the hostinfo.prev pointer can be read while the hostmap lock is held.
|
|
func (hm *HostMap) QueryIndexIsPrimary(index uint32) (*HostInfo, bool, error) {
|
|
//TODO: we probably just want to return bool instead of error, or at least a static error
|
|
hm.RLock()
|
|
if h, ok := hm.Indexes[index]; ok {
|
|
hm.RUnlock()
|
|
return h, h.prev == nil, nil
|
|
} else {
|
|
hm.RUnlock()
|
|
return nil, false, errors.New("unable to find index")
|
|
}
|
|
}
|
|
func (hm *HostMap) QueryRelayIndex(index uint32) (*HostInfo, error) {
|
|
//TODO: we probably just want to return bool instead of error, or at least a static error
|
|
hm.RLock()
|
|
if h, ok := hm.Relays[index]; ok {
|
|
hm.RUnlock()
|
|
return h, nil
|
|
} else {
|
|
hm.RUnlock()
|
|
return nil, errors.New("unable to find index")
|
|
}
|
|
}
|
|
|
|
func (hm *HostMap) QueryReverseIndex(index uint32) (*HostInfo, error) {
|
|
hm.RLock()
|
|
if h, ok := hm.RemoteIndexes[index]; ok {
|
|
hm.RUnlock()
|
|
return h, nil
|
|
} else {
|
|
hm.RUnlock()
|
|
return nil, fmt.Errorf("unable to find reverse index or connectionstate nil in %s hostmap", hm.name)
|
|
}
|
|
}
|
|
|
|
func (hm *HostMap) QueryVpnIp(vpnIp iputil.VpnIp) (*HostInfo, error) {
|
|
return hm.queryVpnIp(vpnIp, nil)
|
|
}
|
|
|
|
// PromoteBestQueryVpnIp will attempt to lazily switch to the best remote every
|
|
// `PromoteEvery` calls to this function for a given host.
|
|
func (hm *HostMap) PromoteBestQueryVpnIp(vpnIp iputil.VpnIp, ifce *Interface) (*HostInfo, error) {
|
|
return hm.queryVpnIp(vpnIp, ifce)
|
|
}
|
|
|
|
func (hm *HostMap) queryVpnIp(vpnIp iputil.VpnIp, promoteIfce *Interface) (*HostInfo, error) {
|
|
hm.RLock()
|
|
if h, ok := hm.Hosts[vpnIp]; ok {
|
|
hm.RUnlock()
|
|
// Do not attempt promotion if you are a lighthouse
|
|
if promoteIfce != nil && !promoteIfce.lightHouse.amLighthouse {
|
|
h.TryPromoteBest(hm.preferredRanges, promoteIfce)
|
|
}
|
|
return h, nil
|
|
|
|
}
|
|
|
|
hm.RUnlock()
|
|
return nil, errors.New("unable to find host")
|
|
}
|
|
|
|
// unlockedAddHostInfo assumes you have a write-lock and will add a hostinfo object to the hostmap Indexes and RemoteIndexes maps.
|
|
// If an entry exists for the Hosts table (vpnIp -> hostinfo) then the provided hostinfo will be made primary
|
|
func (hm *HostMap) unlockedAddHostInfo(hostinfo *HostInfo, f *Interface) {
|
|
if f.serveDns {
|
|
remoteCert := hostinfo.ConnectionState.peerCert
|
|
dnsR.Add(remoteCert.Details.Name+".", remoteCert.Details.Ips[0].IP.String())
|
|
}
|
|
|
|
existing := hm.Hosts[hostinfo.vpnIp]
|
|
hm.Hosts[hostinfo.vpnIp] = hostinfo
|
|
|
|
if existing != nil {
|
|
hostinfo.next = existing
|
|
existing.prev = hostinfo
|
|
}
|
|
|
|
hm.Indexes[hostinfo.localIndexId] = hostinfo
|
|
hm.RemoteIndexes[hostinfo.remoteIndexId] = hostinfo
|
|
|
|
if hm.l.Level >= logrus.DebugLevel {
|
|
hm.l.WithField("hostMap", m{"mapName": hm.name, "vpnIp": hostinfo.vpnIp, "mapTotalSize": len(hm.Hosts),
|
|
"hostinfo": m{"existing": true, "localIndexId": hostinfo.localIndexId, "hostId": hostinfo.vpnIp}}).
|
|
Debug("Hostmap vpnIp added")
|
|
}
|
|
|
|
i := 1
|
|
check := hostinfo
|
|
for check != nil {
|
|
if i > MaxHostInfosPerVpnIp {
|
|
hm.unlockedDeleteHostInfo(check)
|
|
}
|
|
check = check.next
|
|
i++
|
|
}
|
|
}
|
|
|
|
// TryPromoteBest handles re-querying lighthouses and probing for better paths
|
|
// NOTE: It is an error to call this if you are a lighthouse since they should not roam clients!
|
|
func (i *HostInfo) TryPromoteBest(preferredRanges []*net.IPNet, ifce *Interface) {
|
|
c := i.promoteCounter.Add(1)
|
|
if c%PromoteEvery == 0 {
|
|
// The lock here is currently protecting i.remote access
|
|
i.RLock()
|
|
remote := i.remote
|
|
i.RUnlock()
|
|
|
|
// return early if we are already on a preferred remote
|
|
if remote != nil {
|
|
rIP := remote.IP
|
|
for _, l := range preferredRanges {
|
|
if l.Contains(rIP) {
|
|
return
|
|
}
|
|
}
|
|
}
|
|
|
|
i.remotes.ForEach(preferredRanges, func(addr *udp.Addr, preferred bool) {
|
|
if remote != nil && (addr == nil || !preferred) {
|
|
return
|
|
}
|
|
|
|
// Try to send a test packet to that host, this should
|
|
// cause it to detect a roaming event and switch remotes
|
|
ifce.sendTo(header.Test, header.TestRequest, i.ConnectionState, i, addr, []byte(""), make([]byte, 12, 12), make([]byte, mtu))
|
|
})
|
|
}
|
|
|
|
// Re query our lighthouses for new remotes occasionally
|
|
if c%ReQueryEvery == 0 && ifce.lightHouse != nil {
|
|
ifce.lightHouse.QueryServer(i.vpnIp, ifce)
|
|
}
|
|
}
|
|
|
|
func (i *HostInfo) cachePacket(l *logrus.Logger, t header.MessageType, st header.MessageSubType, packet []byte, f packetCallback, m *cachedPacketMetrics) {
|
|
//TODO: return the error so we can log with more context
|
|
if len(i.packetStore) < 100 {
|
|
tempPacket := make([]byte, len(packet))
|
|
copy(tempPacket, packet)
|
|
//l.WithField("trace", string(debug.Stack())).Error("Caching packet", tempPacket)
|
|
i.packetStore = append(i.packetStore, &cachedPacket{t, st, f, tempPacket})
|
|
if l.Level >= logrus.DebugLevel {
|
|
i.logger(l).
|
|
WithField("length", len(i.packetStore)).
|
|
WithField("stored", true).
|
|
Debugf("Packet store")
|
|
}
|
|
|
|
} else if l.Level >= logrus.DebugLevel {
|
|
m.dropped.Inc(1)
|
|
i.logger(l).
|
|
WithField("length", len(i.packetStore)).
|
|
WithField("stored", false).
|
|
Debugf("Packet store")
|
|
}
|
|
}
|
|
|
|
// handshakeComplete will set the connection as ready to communicate, as well as flush any stored packets
|
|
func (i *HostInfo) handshakeComplete(l *logrus.Logger, m *cachedPacketMetrics) {
|
|
//TODO: I'm not certain the distinction between handshake complete and ConnectionState being ready matters because:
|
|
//TODO: HandshakeComplete means send stored packets and ConnectionState.ready means we are ready to send
|
|
//TODO: if the transition from HandhsakeComplete to ConnectionState.ready happens all within this function they are identical
|
|
|
|
i.ConnectionState.queueLock.Lock()
|
|
i.HandshakeComplete = true
|
|
//TODO: this should be managed by the handshake state machine to set it based on how many handshake were seen.
|
|
// Clamping it to 2 gets us out of the woods for now
|
|
i.ConnectionState.messageCounter.Store(2)
|
|
|
|
if l.Level >= logrus.DebugLevel {
|
|
i.logger(l).Debugf("Sending %d stored packets", len(i.packetStore))
|
|
}
|
|
|
|
if len(i.packetStore) > 0 {
|
|
nb := make([]byte, 12, 12)
|
|
out := make([]byte, mtu)
|
|
for _, cp := range i.packetStore {
|
|
cp.callback(cp.messageType, cp.messageSubType, i, cp.packet, nb, out)
|
|
}
|
|
m.sent.Inc(int64(len(i.packetStore)))
|
|
}
|
|
|
|
i.remotes.ResetBlockedRemotes()
|
|
i.packetStore = make([]*cachedPacket, 0)
|
|
i.ConnectionState.ready = true
|
|
i.ConnectionState.queueLock.Unlock()
|
|
i.ConnectionState.certState = nil
|
|
}
|
|
|
|
func (i *HostInfo) GetCert() *cert.NebulaCertificate {
|
|
if i.ConnectionState != nil {
|
|
return i.ConnectionState.peerCert
|
|
}
|
|
return nil
|
|
}
|
|
|
|
func (i *HostInfo) SetRemote(remote *udp.Addr) {
|
|
// We copy here because we likely got this remote from a source that reuses the object
|
|
if !i.remote.Equals(remote) {
|
|
i.remote = remote.Copy()
|
|
i.remotes.LearnRemote(i.vpnIp, remote.Copy())
|
|
}
|
|
}
|
|
|
|
// SetRemoteIfPreferred returns true if the remote was changed. The lastRoam
|
|
// time on the HostInfo will also be updated.
|
|
func (i *HostInfo) SetRemoteIfPreferred(hm *HostMap, newRemote *udp.Addr) bool {
|
|
if newRemote == nil {
|
|
// relays have nil udp Addrs
|
|
return false
|
|
}
|
|
currentRemote := i.remote
|
|
if currentRemote == nil {
|
|
i.SetRemote(newRemote)
|
|
return true
|
|
}
|
|
|
|
// NOTE: We do this loop here instead of calling `isPreferred` in
|
|
// remote_list.go so that we only have to loop over preferredRanges once.
|
|
newIsPreferred := false
|
|
for _, l := range hm.preferredRanges {
|
|
// return early if we are already on a preferred remote
|
|
if l.Contains(currentRemote.IP) {
|
|
return false
|
|
}
|
|
|
|
if l.Contains(newRemote.IP) {
|
|
newIsPreferred = true
|
|
}
|
|
}
|
|
|
|
if newIsPreferred {
|
|
// Consider this a roaming event
|
|
i.lastRoam = time.Now()
|
|
i.lastRoamRemote = currentRemote.Copy()
|
|
|
|
i.SetRemote(newRemote)
|
|
|
|
return true
|
|
}
|
|
|
|
return false
|
|
}
|
|
|
|
func (i *HostInfo) RecvErrorExceeded() bool {
|
|
if i.recvError < 3 {
|
|
i.recvError += 1
|
|
return false
|
|
}
|
|
return true
|
|
}
|
|
|
|
func (i *HostInfo) CreateRemoteCIDR(c *cert.NebulaCertificate) {
|
|
if len(c.Details.Ips) == 1 && len(c.Details.Subnets) == 0 {
|
|
// Simple case, no CIDRTree needed
|
|
return
|
|
}
|
|
|
|
remoteCidr := cidr.NewTree4()
|
|
for _, ip := range c.Details.Ips {
|
|
remoteCidr.AddCIDR(&net.IPNet{IP: ip.IP, Mask: net.IPMask{255, 255, 255, 255}}, struct{}{})
|
|
}
|
|
|
|
for _, n := range c.Details.Subnets {
|
|
remoteCidr.AddCIDR(n, struct{}{})
|
|
}
|
|
i.remoteCidr = remoteCidr
|
|
}
|
|
|
|
func (i *HostInfo) logger(l *logrus.Logger) *logrus.Entry {
|
|
if i == nil {
|
|
return logrus.NewEntry(l)
|
|
}
|
|
|
|
li := l.WithField("vpnIp", i.vpnIp).
|
|
WithField("localIndex", i.localIndexId).
|
|
WithField("remoteIndex", i.remoteIndexId)
|
|
|
|
if connState := i.ConnectionState; connState != nil {
|
|
if peerCert := connState.peerCert; peerCert != nil {
|
|
li = li.WithField("certName", peerCert.Details.Name)
|
|
}
|
|
}
|
|
|
|
return li
|
|
}
|
|
|
|
// Utility functions
|
|
|
|
func localIps(l *logrus.Logger, allowList *LocalAllowList) *[]net.IP {
|
|
//FIXME: This function is pretty garbage
|
|
var ips []net.IP
|
|
ifaces, _ := net.Interfaces()
|
|
for _, i := range ifaces {
|
|
allow := allowList.AllowName(i.Name)
|
|
if l.Level >= logrus.TraceLevel {
|
|
l.WithField("interfaceName", i.Name).WithField("allow", allow).Trace("localAllowList.AllowName")
|
|
}
|
|
|
|
if !allow {
|
|
continue
|
|
}
|
|
addrs, _ := i.Addrs()
|
|
for _, addr := range addrs {
|
|
var ip net.IP
|
|
switch v := addr.(type) {
|
|
case *net.IPNet:
|
|
//continue
|
|
ip = v.IP
|
|
case *net.IPAddr:
|
|
ip = v.IP
|
|
}
|
|
|
|
//TODO: Filtering out link local for now, this is probably the most correct thing
|
|
//TODO: Would be nice to filter out SLAAC MAC based ips as well
|
|
if ip.IsLoopback() == false && !ip.IsLinkLocalUnicast() {
|
|
allow := allowList.Allow(ip)
|
|
if l.Level >= logrus.TraceLevel {
|
|
l.WithField("localIp", ip).WithField("allow", allow).Trace("localAllowList.Allow")
|
|
}
|
|
if !allow {
|
|
continue
|
|
}
|
|
|
|
ips = append(ips, ip)
|
|
}
|
|
}
|
|
}
|
|
return &ips
|
|
}
|