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// Copyright 2021 the Kilo authors
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//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
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//go:build linux
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// +build linux
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package mesh
import (
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"bytes"
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"context"
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"fmt"
"io/ioutil"
"net"
"os"
"sync"
"time"
"github.com/go-kit/kit/log"
"github.com/go-kit/kit/log/level"
"github.com/prometheus/client_golang/prometheus"
"github.com/vishvananda/netlink"
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"golang.zx2c4.com/wireguard/wgctrl"
"golang.zx2c4.com/wireguard/wgctrl/wgtypes"
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"github.com/squat/kilo/pkg/encapsulation"
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"github.com/squat/kilo/pkg/iproute"
"github.com/squat/kilo/pkg/iptables"
"github.com/squat/kilo/pkg/route"
"github.com/squat/kilo/pkg/wireguard"
)
const (
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// kiloPath is the directory where Kilo stores its configuration.
kiloPath = "/var/lib/kilo"
// privateKeyPath is the filepath where the WireGuard private key is stored.
privateKeyPath = kiloPath + "/key"
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)
// Mesh is able to create Kilo network meshes.
type Mesh struct {
Backend
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cleanUpIface bool
cni bool
cniPath string
enc encapsulation . Encapsulator
externalIP * net . IPNet
granularity Granularity
hostname string
internalIP * net . IPNet
ipTables * iptables . Controller
kiloIface int
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kiloIfaceName string
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key [ ] byte
local bool
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port int
priv wgtypes . Key
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privIface int
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pub wgtypes . Key
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resyncPeriod time . Duration
iptablesForwardRule bool
subnet * net . IPNet
table * route . Table
wireGuardIP * net . IPNet
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// nodes and peers are mutable fields in the struct
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// and need to be guarded.
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nodes map [ string ] * Node
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peers map [ string ] * Peer
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mu sync . Mutex
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errorCounter * prometheus . CounterVec
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leaderGuage prometheus . Gauge
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nodesGuage prometheus . Gauge
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peersGuage prometheus . Gauge
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reconcileCounter prometheus . Counter
logger log . Logger
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}
// New returns a new Mesh instance.
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func New ( backend Backend , enc encapsulation . Encapsulator , granularity Granularity , hostname string , port int , subnet * net . IPNet , local , cni bool , cniPath , iface string , cleanUpIface bool , createIface bool , mtu uint , resyncPeriod time . Duration , prioritisePrivateAddr , iptablesForwardRule bool , logger log . Logger ) ( * Mesh , error ) {
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if err := os . MkdirAll ( kiloPath , 0700 ) ; err != nil {
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return nil , fmt . Errorf ( "failed to create directory to store configuration: %v" , err )
}
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privateB , err := ioutil . ReadFile ( privateKeyPath )
privateB = bytes . Trim ( privateB , "\n" )
private , err := wgtypes . ParseKey ( string ( privateB ) )
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if err != nil {
level . Warn ( logger ) . Log ( "msg" , "no private key found on disk; generating one now" )
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if private , err = wgtypes . GeneratePrivateKey ( ) ; err != nil {
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return nil , err
}
}
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public := private . PublicKey ( )
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if err != nil {
return nil , err
}
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if err := ioutil . WriteFile ( privateKeyPath , [ ] byte ( private . String ( ) ) , 0600 ) ; err != nil {
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return nil , fmt . Errorf ( "failed to write private key to disk: %v" , err )
}
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cniIndex , err := cniDeviceIndex ( )
if err != nil {
return nil , fmt . Errorf ( "failed to query netlink for CNI device: %v" , err )
}
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var kiloIface int
if createIface {
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kiloIface , _ , err = wireguard . New ( iface , mtu )
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if err != nil {
return nil , fmt . Errorf ( "failed to create WireGuard interface: %v" , err )
}
} else {
link , err := netlink . LinkByName ( iface )
if err != nil {
return nil , fmt . Errorf ( "failed to get interface index: %v" , err )
}
kiloIface = link . Attrs ( ) . Index
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}
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privateIP , publicIP , err := getIP ( hostname , kiloIface , enc . Index ( ) , cniIndex )
if err != nil {
return nil , fmt . Errorf ( "failed to find public IP: %v" , err )
}
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var privIface int
if privateIP != nil {
ifaces , err := interfacesForIP ( privateIP )
if err != nil {
return nil , fmt . Errorf ( "failed to find interface for private IP: %v" , err )
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}
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privIface = ifaces [ 0 ] . Index
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if enc . Strategy ( ) != encapsulation . Never {
if err := enc . Init ( privIface ) ; err != nil {
return nil , fmt . Errorf ( "failed to initialize encapsulator: %v" , err )
}
}
level . Debug ( logger ) . Log ( "msg" , fmt . Sprintf ( "using %s as the private IP address" , privateIP . String ( ) ) )
} else {
enc = encapsulation . Noop ( enc . Strategy ( ) )
level . Debug ( logger ) . Log ( "msg" , "running without a private IP address" )
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}
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var externalIP * net . IPNet
if prioritisePrivateAddr && privateIP != nil {
externalIP = privateIP
} else {
externalIP = publicIP
}
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level . Debug ( logger ) . Log ( "msg" , fmt . Sprintf ( "using %s as the public IP address" , publicIP . String ( ) ) )
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ipTables , err := iptables . New ( iptables . WithLogger ( log . With ( logger , "component" , "iptables" ) ) , iptables . WithResyncPeriod ( resyncPeriod ) )
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if err != nil {
return nil , fmt . Errorf ( "failed to IP tables controller: %v" , err )
}
return & Mesh {
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Backend : backend ,
cleanUpIface : cleanUpIface ,
cni : cni ,
cniPath : cniPath ,
enc : enc ,
externalIP : externalIP ,
granularity : granularity ,
hostname : hostname ,
internalIP : privateIP ,
ipTables : ipTables ,
kiloIface : kiloIface ,
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kiloIfaceName : iface ,
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nodes : make ( map [ string ] * Node ) ,
peers : make ( map [ string ] * Peer ) ,
port : port ,
priv : private ,
privIface : privIface ,
pub : public ,
resyncPeriod : resyncPeriod ,
iptablesForwardRule : iptablesForwardRule ,
local : local ,
subnet : subnet ,
table : route . NewTable ( ) ,
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errorCounter : prometheus . NewCounterVec ( prometheus . CounterOpts {
Name : "kilo_errors_total" ,
Help : "Number of errors that occurred while administering the mesh." ,
} , [ ] string { "event" } ) ,
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leaderGuage : prometheus . NewGauge ( prometheus . GaugeOpts {
Name : "kilo_leader" ,
Help : "Leadership status of the node." ,
} ) ,
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nodesGuage : prometheus . NewGauge ( prometheus . GaugeOpts {
Name : "kilo_nodes" ,
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Help : "Number of nodes in the mesh." ,
} ) ,
peersGuage : prometheus . NewGauge ( prometheus . GaugeOpts {
Name : "kilo_peers" ,
Help : "Number of peers in the mesh." ,
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} ) ,
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reconcileCounter : prometheus . NewCounter ( prometheus . CounterOpts {
Name : "kilo_reconciles_total" ,
Help : "Number of reconciliation attempts." ,
} ) ,
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logger : logger ,
} , nil
}
// Run starts the mesh.
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func ( m * Mesh ) Run ( ctx context . Context ) error {
if err := m . Nodes ( ) . Init ( ctx ) ; err != nil {
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return fmt . Errorf ( "failed to initialize node backend: %v" , err )
}
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// Try to set the CNI config quickly.
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if m . cni {
if n , err := m . Nodes ( ) . Get ( m . hostname ) ; err == nil {
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m . nodes [ m . hostname ] = n
m . updateCNIConfig ( )
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} else {
level . Warn ( m . logger ) . Log ( "error" , fmt . Errorf ( "failed to get node %q: %v" , m . hostname , err ) )
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}
}
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if err := m . Peers ( ) . Init ( ctx ) ; err != nil {
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return fmt . Errorf ( "failed to initialize peer backend: %v" , err )
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}
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ipTablesErrors , err := m . ipTables . Run ( ctx . Done ( ) )
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if err != nil {
return fmt . Errorf ( "failed to watch for IP tables updates: %v" , err )
}
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routeErrors , err := m . table . Run ( ctx . Done ( ) )
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if err != nil {
return fmt . Errorf ( "failed to watch for route table updates: %v" , err )
}
go func ( ) {
for {
var err error
select {
case err = <- ipTablesErrors :
case err = <- routeErrors :
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case <- ctx . Done ( ) :
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return
}
if err != nil {
level . Error ( m . logger ) . Log ( "error" , err )
m . errorCounter . WithLabelValues ( "run" ) . Inc ( )
}
}
} ( )
defer m . cleanUp ( )
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resync := time . NewTimer ( m . resyncPeriod )
checkIn := time . NewTimer ( checkInPeriod )
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nw := m . Nodes ( ) . Watch ( )
pw := m . Peers ( ) . Watch ( )
var ne * NodeEvent
var pe * PeerEvent
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for {
select {
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case ne = <- nw :
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m . syncNodes ( ctx , ne )
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case pe = <- pw :
m . syncPeers ( pe )
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case <- checkIn . C :
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m . checkIn ( ctx )
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checkIn . Reset ( checkInPeriod )
case <- resync . C :
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if m . cni {
m . updateCNIConfig ( )
}
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m . applyTopology ( )
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resync . Reset ( m . resyncPeriod )
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case <- ctx . Done ( ) :
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return nil
}
}
}
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func ( m * Mesh ) syncNodes ( ctx context . Context , e * NodeEvent ) {
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logger := log . With ( m . logger , "event" , e . Type )
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level . Debug ( logger ) . Log ( "msg" , "syncing nodes" , "event" , e . Type )
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if isSelf ( m . hostname , e . Node ) {
level . Debug ( logger ) . Log ( "msg" , "processing local node" , "node" , e . Node )
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m . handleLocal ( ctx , e . Node )
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return
}
var diff bool
m . mu . Lock ( )
if ! e . Node . Ready ( ) {
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// Trace non ready nodes with their presence in the mesh.
_ , ok := m . nodes [ e . Node . Name ]
level . Debug ( logger ) . Log ( "msg" , "received non ready node" , "node" , e . Node , "in-mesh" , ok )
}
switch e . Type {
case AddEvent :
fallthrough
case UpdateEvent :
if ! nodesAreEqual ( m . nodes [ e . Node . Name ] , e . Node ) {
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diff = true
}
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// Even if the nodes are the same,
// overwrite the old node to update the timestamp.
m . nodes [ e . Node . Name ] = e . Node
case DeleteEvent :
delete ( m . nodes , e . Node . Name )
diff = true
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}
m . mu . Unlock ( )
if diff {
level . Info ( logger ) . Log ( "node" , e . Node )
m . applyTopology ( )
}
}
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func ( m * Mesh ) syncPeers ( e * PeerEvent ) {
logger := log . With ( m . logger , "event" , e . Type )
level . Debug ( logger ) . Log ( "msg" , "syncing peers" , "event" , e . Type )
var diff bool
m . mu . Lock ( )
// Peers are indexed by public key.
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key := e . Peer . PublicKey . String ( )
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if ! e . Peer . Ready ( ) {
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// Trace non ready peer with their presence in the mesh.
_ , ok := m . peers [ key ]
level . Debug ( logger ) . Log ( "msg" , "received non ready peer" , "peer" , e . Peer , "in-mesh" , ok )
}
switch e . Type {
case AddEvent :
fallthrough
case UpdateEvent :
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if e . Old != nil && key != e . Old . PublicKey . String ( ) {
delete ( m . peers , e . Old . PublicKey . String ( ) )
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diff = true
}
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if ! peersAreEqual ( m . peers [ key ] , e . Peer ) {
m . peers [ key ] = e . Peer
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diff = true
}
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case DeleteEvent :
delete ( m . peers , key )
diff = true
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}
m . mu . Unlock ( )
if diff {
level . Info ( logger ) . Log ( "peer" , e . Peer )
m . applyTopology ( )
}
}
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// checkIn will try to update the local node's LastSeen timestamp
// in the backend.
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func ( m * Mesh ) checkIn ( ctx context . Context ) {
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m . mu . Lock ( )
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defer m . mu . Unlock ( )
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n := m . nodes [ m . hostname ]
if n == nil {
level . Debug ( m . logger ) . Log ( "msg" , "no local node found in backend" )
return
}
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oldTime := n . LastSeen
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n . LastSeen = time . Now ( ) . Unix ( )
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if err := m . Nodes ( ) . Set ( ctx , m . hostname , n ) ; err != nil {
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level . Error ( m . logger ) . Log ( "error" , fmt . Sprintf ( "failed to set local node: %v" , err ) , "node" , n )
m . errorCounter . WithLabelValues ( "checkin" ) . Inc ( )
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// Revert time.
n . LastSeen = oldTime
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return
}
level . Debug ( m . logger ) . Log ( "msg" , "successfully checked in local node in backend" )
}
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func ( m * Mesh ) handleLocal ( ctx context . Context , n * Node ) {
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// Allow the IPs to be overridden.
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if ! n . Endpoint . Ready ( ) {
e := wireguard . NewEndpoint ( m . externalIP . IP , m . port )
level . Info ( m . logger ) . Log ( "msg" , "overriding endpoint" , "node" , m . hostname , "old endpoint" , n . Endpoint . String ( ) , "new endpoint" , e . String ( ) )
n . Endpoint = e
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}
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if n . InternalIP == nil && ! n . NoInternalIP {
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n . InternalIP = m . internalIP
}
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// Compare the given node to the calculated local node.
// Take leader, location, and subnet from the argument, as these
// are not determined by kilo.
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local := & Node {
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Endpoint : n . Endpoint ,
Key : m . pub ,
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NoInternalIP : n . NoInternalIP ,
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InternalIP : n . InternalIP ,
LastSeen : time . Now ( ) . Unix ( ) ,
Leader : n . Leader ,
Location : n . Location ,
Name : m . hostname ,
PersistentKeepalive : n . PersistentKeepalive ,
Subnet : n . Subnet ,
WireGuardIP : m . wireGuardIP ,
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DiscoveredEndpoints : n . DiscoveredEndpoints ,
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AllowedLocationIPs : n . AllowedLocationIPs ,
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Granularity : m . granularity ,
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}
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if ! nodesAreEqual ( n , local ) {
level . Debug ( m . logger ) . Log ( "msg" , "local node differs from backend" )
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if err := m . Nodes ( ) . Set ( ctx , m . hostname , local ) ; err != nil {
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level . Error ( m . logger ) . Log ( "error" , fmt . Sprintf ( "failed to set local node: %v" , err ) , "node" , local )
m . errorCounter . WithLabelValues ( "local" ) . Inc ( )
return
}
level . Debug ( m . logger ) . Log ( "msg" , "successfully reconciled local node against backend" )
}
m . mu . Lock ( )
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n = m . nodes [ m . hostname ]
if n == nil {
n = & Node { }
}
m . mu . Unlock ( )
if ! nodesAreEqual ( n , local ) {
m . mu . Lock ( )
m . nodes [ local . Name ] = local
m . mu . Unlock ( )
m . applyTopology ( )
}
}
func ( m * Mesh ) applyTopology ( ) {
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m . reconcileCounter . Inc ( )
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m . mu . Lock ( )
defer m . mu . Unlock ( )
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// If we can't resolve an endpoint, then fail and retry later.
if err := m . resolveEndpoints ( ) ; err != nil {
level . Error ( m . logger ) . Log ( "error" , err )
m . errorCounter . WithLabelValues ( "apply" ) . Inc ( )
return
}
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// Ensure only ready nodes are considered.
nodes := make ( map [ string ] * Node )
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var readyNodes float64
for k := range m . nodes {
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m . nodes [ k ] . Granularity = m . granularity
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if ! m . nodes [ k ] . Ready ( ) {
continue
}
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// Make it point to the node without copy.
nodes [ k ] = m . nodes [ k ]
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readyNodes ++
}
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// Ensure only ready nodes are considered.
peers := make ( map [ string ] * Peer )
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var readyPeers float64
for k := range m . peers {
if ! m . peers [ k ] . Ready ( ) {
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continue
}
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// Make it point the peer without copy.
peers [ k ] = m . peers [ k ]
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readyPeers ++
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}
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m . nodesGuage . Set ( readyNodes )
m . peersGuage . Set ( readyPeers )
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// We cannot do anything with the topology until the local node is available.
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if nodes [ m . hostname ] == nil {
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return
}
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// Find the Kilo interface name.
link , err := linkByIndex ( m . kiloIface )
if err != nil {
level . Error ( m . logger ) . Log ( "error" , err )
m . errorCounter . WithLabelValues ( "apply" ) . Inc ( )
return
}
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wgClient , err := wgctrl . New ( )
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if err != nil {
level . Error ( m . logger ) . Log ( "error" , err )
m . errorCounter . WithLabelValues ( "apply" ) . Inc ( )
return
}
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defer wgClient . Close ( )
// wgDevice is the current configuration of the wg interface.
wgDevice , err := wgClient . Device ( m . kiloIfaceName )
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if err != nil {
level . Error ( m . logger ) . Log ( "error" , err )
m . errorCounter . WithLabelValues ( "apply" ) . Inc ( )
return
}
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natEndpoints := discoverNATEndpoints ( nodes , peers , wgDevice , m . logger )
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nodes [ m . hostname ] . DiscoveredEndpoints = natEndpoints
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t , err := NewTopology ( nodes , peers , m . granularity , m . hostname , nodes [ m . hostname ] . Endpoint . Port ( ) , m . priv , m . subnet , nodes [ m . hostname ] . PersistentKeepalive , m . logger )
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if err != nil {
level . Error ( m . logger ) . Log ( "error" , err )
m . errorCounter . WithLabelValues ( "apply" ) . Inc ( )
return
}
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// Update the node's WireGuard IP.
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if t . leader {
m . wireGuardIP = t . wireGuardCIDR
} else {
m . wireGuardIP = nil
}
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ipRules := t . Rules ( m . cni , m . iptablesForwardRule )
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// If we are handling local routes, ensure the local
// tunnel has an IP address and IPIP traffic is allowed.
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if m . enc . Strategy ( ) != encapsulation . Never && m . local {
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var cidrs [ ] * net . IPNet
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for _ , s := range t . segments {
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// If the location prefix is not logicalLocation, but nodeLocation,
// we don't need to set any extra rules for encapsulation anyways
// because traffic will go over WireGuard.
if s . location == logicalLocationPrefix + nodes [ m . hostname ] . Location {
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for i := range s . privateIPs {
cidrs = append ( cidrs , oneAddressCIDR ( s . privateIPs [ i ] ) )
}
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break
}
}
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ipRules = append ( ipRules , m . enc . Rules ( cidrs ) ... )
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// If we are handling local routes, ensure the local
// tunnel has an IP address.
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if err := m . enc . Set ( oneAddressCIDR ( newAllocator ( * nodes [ m . hostname ] . Subnet ) . next ( ) . IP ) ) ; err != nil {
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level . Error ( m . logger ) . Log ( "error" , err )
m . errorCounter . WithLabelValues ( "apply" ) . Inc ( )
return
}
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}
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if err := m . ipTables . Set ( ipRules ) ; err != nil {
level . Error ( m . logger ) . Log ( "error" , err )
m . errorCounter . WithLabelValues ( "apply" ) . Inc ( )
return
}
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if t . leader {
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m . leaderGuage . Set ( 1 )
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if err := iproute . SetAddress ( m . kiloIface , t . wireGuardCIDR ) ; err != nil {
level . Error ( m . logger ) . Log ( "error" , err )
m . errorCounter . WithLabelValues ( "apply" ) . Inc ( )
return
}
// Setting the WireGuard configuration interrupts existing connections
// so only set the configuration if it has changed.
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conf := t . Conf ( )
equal , diff := conf . Equal ( wgDevice )
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if ! equal {
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level . Info ( m . logger ) . Log ( "msg" , "WireGuard configurations are different" , "diff" , diff )
level . Debug ( m . logger ) . Log ( "msg" , "changing wg config" , "config" , conf . WGConfig ( ) )
if err := wgClient . ConfigureDevice ( m . kiloIfaceName , conf . WGConfig ( ) ) ; err != nil {
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level . Error ( m . logger ) . Log ( "error" , err )
m . errorCounter . WithLabelValues ( "apply" ) . Inc ( )
return
}
}
if err := iproute . Set ( m . kiloIface , true ) ; err != nil {
level . Error ( m . logger ) . Log ( "error" , err )
m . errorCounter . WithLabelValues ( "apply" ) . Inc ( )
return
}
} else {
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m . leaderGuage . Set ( 0 )
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level . Debug ( m . logger ) . Log ( "msg" , "local node is not the leader" )
if err := iproute . Set ( m . kiloIface , false ) ; err != nil {
level . Error ( m . logger ) . Log ( "error" , err )
m . errorCounter . WithLabelValues ( "apply" ) . Inc ( )
return
}
}
// We need to add routes last since they may depend
// on the WireGuard interface.
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routes , rules := t . Routes ( link . Attrs ( ) . Name , m . kiloIface , m . privIface , m . enc . Index ( ) , m . local , m . enc )
if err := m . table . Set ( routes , rules ) ; err != nil {
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level . Error ( m . logger ) . Log ( "error" , err )
m . errorCounter . WithLabelValues ( "apply" ) . Inc ( )
}
}
// RegisterMetrics registers Prometheus metrics on the given Prometheus
// registerer.
func ( m * Mesh ) RegisterMetrics ( r prometheus . Registerer ) {
r . MustRegister (
m . errorCounter ,
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m . leaderGuage ,
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m . nodesGuage ,
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m . peersGuage ,
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m . reconcileCounter ,
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)
}
func ( m * Mesh ) cleanUp ( ) {
if err := m . ipTables . CleanUp ( ) ; err != nil {
level . Error ( m . logger ) . Log ( "error" , fmt . Sprintf ( "failed to clean up IP tables: %v" , err ) )
m . errorCounter . WithLabelValues ( "cleanUp" ) . Inc ( )
}
if err := m . table . CleanUp ( ) ; err != nil {
level . Error ( m . logger ) . Log ( "error" , fmt . Sprintf ( "failed to clean up routes: %v" , err ) )
m . errorCounter . WithLabelValues ( "cleanUp" ) . Inc ( )
}
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if m . cleanUpIface {
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if err := iproute . RemoveInterface ( m . kiloIface ) ; err != nil {
level . Error ( m . logger ) . Log ( "error" , fmt . Sprintf ( "failed to remove WireGuard interface: %v" , err ) )
m . errorCounter . WithLabelValues ( "cleanUp" ) . Inc ( )
}
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}
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{
ctx , cancel := context . WithTimeout ( context . Background ( ) , 10 * time . Second )
defer cancel ( )
if err := m . Nodes ( ) . CleanUp ( ctx , m . hostname ) ; err != nil {
level . Error ( m . logger ) . Log ( "error" , fmt . Sprintf ( "failed to clean up node backend: %v" , err ) )
m . errorCounter . WithLabelValues ( "cleanUp" ) . Inc ( )
}
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}
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{
ctx , cancel := context . WithTimeout ( context . Background ( ) , 10 * time . Second )
defer cancel ( )
if err := m . Peers ( ) . CleanUp ( ctx , m . hostname ) ; err != nil {
level . Error ( m . logger ) . Log ( "error" , fmt . Sprintf ( "failed to clean up peer backend: %v" , err ) )
m . errorCounter . WithLabelValues ( "cleanUp" ) . Inc ( )
}
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}
if err := m . enc . CleanUp ( ) ; err != nil {
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level . Error ( m . logger ) . Log ( "error" , fmt . Sprintf ( "failed to clean up encapsulator: %v" , err ) )
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m . errorCounter . WithLabelValues ( "cleanUp" ) . Inc ( )
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}
}
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func ( m * Mesh ) resolveEndpoints ( ) error {
for k := range m . nodes {
// Skip unready nodes, since they will not be used
// in the topology anyways.
if ! m . nodes [ k ] . Ready ( ) {
continue
}
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// Resolve the Endpoint
if _ , err := m . nodes [ k ] . Endpoint . UDPAddr ( true ) ; err != nil {
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return err
}
}
for k := range m . peers {
// Skip unready peers, since they will not be used
// in the topology anyways.
if ! m . peers [ k ] . Ready ( ) {
continue
}
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// Peers may have nil endpoints.
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if ! m . peers [ k ] . Endpoint . Ready ( ) {
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continue
}
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if _ , err := m . peers [ k ] . Endpoint . UDPAddr ( true ) ; err != nil {
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return err
}
}
return nil
}
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func isSelf ( hostname string , node * Node ) bool {
return node != nil && node . Name == hostname
}
func nodesAreEqual ( a , b * Node ) bool {
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if ( a != nil ) != ( b != nil ) {
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return false
}
if a == b {
return true
}
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// Check the DNS name first since this package
// is doing the DNS resolution.
if ! a . Endpoint . Equal ( b . Endpoint , true ) {
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return false
}
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// Ignore LastSeen when comparing equality we want to check if the nodes are
// equivalent. However, we do want to check if LastSeen has transitioned
// between valid and invalid.
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return a . Key . String ( ) == b . Key . String ( ) &&
ipNetsEqual ( a . WireGuardIP , b . WireGuardIP ) &&
ipNetsEqual ( a . InternalIP , b . InternalIP ) &&
a . Leader == b . Leader &&
a . Location == b . Location &&
a . Name == b . Name &&
subnetsEqual ( a . Subnet , b . Subnet ) &&
a . Ready ( ) == b . Ready ( ) &&
a . PersistentKeepalive == b . PersistentKeepalive &&
discoveredEndpointsAreEqual ( a . DiscoveredEndpoints , b . DiscoveredEndpoints ) &&
ipNetSlicesEqual ( a . AllowedLocationIPs , b . AllowedLocationIPs ) &&
a . Granularity == b . Granularity
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}
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func peersAreEqual ( a , b * Peer ) bool {
if ! ( a != nil ) == ( b != nil ) {
return false
}
if a == b {
return true
}
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// Check the DNS name first since this package
// is doing the DNS resolution.
if ! a . Endpoint . Equal ( b . Endpoint , true ) {
2019-05-03 10:53:40 +00:00
return false
}
if len ( a . AllowedIPs ) != len ( b . AllowedIPs ) {
return false
}
for i := range a . AllowedIPs {
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if ! ipNetsEqual ( & a . AllowedIPs [ i ] , & b . AllowedIPs [ i ] ) {
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return false
}
}
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return a . PublicKey . String ( ) == b . PublicKey . String ( ) &&
( a . PresharedKey == nil ) == ( b . PresharedKey == nil ) &&
( a . PresharedKey == nil || a . PresharedKey . String ( ) == b . PresharedKey . String ( ) ) &&
( a . PersistentKeepaliveInterval == nil ) == ( b . PersistentKeepaliveInterval == nil ) &&
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( a . PersistentKeepaliveInterval == nil || * a . PersistentKeepaliveInterval == * b . PersistentKeepaliveInterval )
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}
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func ipNetsEqual ( a , b * net . IPNet ) bool {
if a == nil && b == nil {
return true
}
if ( a != nil ) != ( b != nil ) {
return false
}
if a . Mask . String ( ) != b . Mask . String ( ) {
return false
}
return a . IP . Equal ( b . IP )
}
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func ipNetSlicesEqual ( a , b [ ] net . IPNet ) bool {
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if len ( a ) != len ( b ) {
return false
}
for i := range a {
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if ! ipNetsEqual ( & a [ i ] , & b [ i ] ) {
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return false
}
}
return true
}
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func subnetsEqual ( a , b * net . IPNet ) bool {
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if a == nil && b == nil {
return true
}
if ( a != nil ) != ( b != nil ) {
return false
}
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if a . Mask . String ( ) != b . Mask . String ( ) {
return false
}
if ! a . Contains ( b . IP ) {
return false
}
if ! b . Contains ( a . IP ) {
return false
}
return true
}
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func udpAddrsEqual ( a , b * net . UDPAddr ) bool {
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if a == nil && b == nil {
return true
}
if ( a != nil ) != ( b != nil ) {
return false
}
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if a . Zone != b . Zone {
return false
}
if a . Port != b . Port {
return false
}
return a . IP . Equal ( b . IP )
}
func discoveredEndpointsAreEqual ( a , b map [ string ] * net . UDPAddr ) bool {
if a == nil && b == nil {
return true
}
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if len ( a ) != len ( b ) {
return false
}
for k := range a {
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if ! udpAddrsEqual ( a [ k ] , b [ k ] ) {
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return false
}
}
return true
}
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func linkByIndex ( index int ) ( netlink . Link , error ) {
link , err := netlink . LinkByIndex ( index )
if err != nil {
return nil , fmt . Errorf ( "failed to get interface: %v" , err )
}
return link , nil
}
2020-03-03 23:39:54 +00:00
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// discoverNATEndpoints uses the node's WireGuard configuration to returns a list of the most recently discovered endpoints for all nodes and peers behind NAT so that they can roam.
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// Discovered endpionts will never be DNS names, because WireGuard will always resolve them to net.UDPAddr.
func discoverNATEndpoints ( nodes map [ string ] * Node , peers map [ string ] * Peer , conf * wgtypes . Device , logger log . Logger ) map [ string ] * net . UDPAddr {
natEndpoints := make ( map [ string ] * net . UDPAddr )
keys := make ( map [ string ] wgtypes . Peer )
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for i := range conf . Peers {
2022-01-30 16:38:45 +00:00
keys [ conf . Peers [ i ] . PublicKey . String ( ) ] = conf . Peers [ i ]
2020-03-03 23:39:54 +00:00
}
for _ , n := range nodes {
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if peer , ok := keys [ n . Key . String ( ) ] ; ok && n . PersistentKeepalive != time . Duration ( 0 ) {
level . Debug ( logger ) . Log ( "msg" , "WireGuard Update NAT Endpoint" , "node" , n . Name , "endpoint" , peer . Endpoint , "former-endpoint" , n . Endpoint , "same" , peer . Endpoint . String ( ) == n . Endpoint . String ( ) , "latest-handshake" , peer . LastHandshakeTime )
// Don't update the endpoint, if there was never any handshake.
if ! peer . LastHandshakeTime . Equal ( time . Time { } ) {
natEndpoints [ n . Key . String ( ) ] = peer . Endpoint
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}
2020-03-03 23:39:54 +00:00
}
}
for _ , p := range peers {
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if peer , ok := keys [ p . PublicKey . String ( ) ] ; ok && p . PersistentKeepaliveInterval != nil {
if ! peer . LastHandshakeTime . Equal ( time . Time { } ) {
natEndpoints [ p . PublicKey . String ( ) ] = peer . Endpoint
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}
2020-03-03 23:39:54 +00:00
}
}
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level . Debug ( logger ) . Log ( "msg" , "Discovered WireGuard NAT Endpoints" , "DiscoveredEndpoints" , natEndpoints )
return natEndpoints
2020-03-03 23:39:54 +00:00
}