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tailscale/wgengine/magicsock/magicsock.go

3819 lines
108 KiB
Go

// Copyright (c) 2019 Tailscale Inc & AUTHORS All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// Package magicsock implements a socket that can change its communication path while
// in use, actively searching for the best way to communicate.
package magicsock
import (
"bufio"
"context"
crand "crypto/rand"
"encoding/binary"
"errors"
"fmt"
"hash/fnv"
"math"
"math/rand"
"net"
"os"
"reflect"
"sort"
"strconv"
"strings"
"sync"
"sync/atomic"
"syscall"
"time"
"github.com/golang/groupcache/lru"
"github.com/tailscale/wireguard-go/conn"
"github.com/tailscale/wireguard-go/device"
"github.com/tailscale/wireguard-go/wgcfg"
"go4.org/mem"
"golang.org/x/crypto/nacl/box"
"golang.org/x/time/rate"
"inet.af/netaddr"
"tailscale.com/control/controlclient"
"tailscale.com/derp"
"tailscale.com/derp/derphttp"
"tailscale.com/disco"
"tailscale.com/ipn/ipnstate"
"tailscale.com/net/dnscache"
"tailscale.com/net/interfaces"
"tailscale.com/net/netcheck"
"tailscale.com/net/netns"
"tailscale.com/net/stun"
"tailscale.com/syncs"
"tailscale.com/tailcfg"
"tailscale.com/types/key"
"tailscale.com/types/logger"
"tailscale.com/types/nettype"
"tailscale.com/types/opt"
"tailscale.com/types/structs"
"tailscale.com/version"
)
// Various debugging and experimental tweakables, set by environment
// variable.
var (
// logPacketDests prints the known addresses for a peer every time
// they change, in the legacy (non-discovery) endpoint code only.
logPacketDests, _ = strconv.ParseBool(os.Getenv("TS_DEBUG_LOG_PACKET_DESTS"))
// debugDisco prints verbose logs of active discovery events as
// they happen.
debugDisco, _ = strconv.ParseBool(os.Getenv("TS_DEBUG_DISCO"))
// debugOmitLocalAddresses removes all local interface addresses
// from magicsock's discovered local endpoints. Used in some tests.
debugOmitLocalAddresses, _ = strconv.ParseBool(os.Getenv("TS_DEBUG_OMIT_LOCAL_ADDRS"))
// debugUseDerpRoute temporarily (2020-03-22) controls whether DERP
// reverse routing is enabled (Issue 150). It will become always true
// later.
debugUseDerpRouteEnv = os.Getenv("TS_DEBUG_ENABLE_DERP_ROUTE")
debugUseDerpRoute, _ = strconv.ParseBool(debugUseDerpRouteEnv)
// logDerpVerbose logs all received DERP packets, including their
// full payload.
logDerpVerbose, _ = strconv.ParseBool(os.Getenv("TS_DEBUG_DERP"))
// debugReSTUNStopOnIdle unconditionally enables the "shut down
// STUN if magicsock is idle" behavior that normally only triggers
// on mobile devices, lowers the shutdown interval, and logs more
// verbosely about idle measurements.
debugReSTUNStopOnIdle, _ = strconv.ParseBool(os.Getenv("TS_DEBUG_RESTUN_STOP_ON_IDLE"))
)
// useDerpRoute reports whether magicsock should enable the DERP
// return path optimization (Issue 150).
func useDerpRoute() bool {
if debugUseDerpRouteEnv != "" {
return debugUseDerpRoute
}
ob := controlclient.DERPRouteFlag()
if v, ok := ob.Get(); ok {
return v
}
return false
}
// inTest reports whether the running program is a test that set the
// IN_TS_TEST environment variable.
//
// Unlike the other debug tweakables above, this one needs to be
// checked every time at runtime, because tests set this after program
// startup.
func inTest() bool {
inTest, _ := strconv.ParseBool(os.Getenv("IN_TS_TEST"))
return inTest
}
// A Conn routes UDP packets and actively manages a list of its endpoints.
// It implements wireguard/conn.Bind.
type Conn struct {
pconnPort uint16 // the preferred port from opts.Port; 0 means auto
pconn4 *RebindingUDPConn
pconn6 *RebindingUDPConn // non-nil if IPv6 available
epFunc func(endpoints []string)
derpActiveFunc func()
logf logger.Logf
sendLogLimit *rate.Limiter
netChecker *netcheck.Client
idleFunc func() time.Duration // nil means unknown
noteRecvActivity func(tailcfg.DiscoKey) // or nil, see Options.NoteRecvActivity
// bufferedIPv4From and bufferedIPv4Packet are owned by
// ReceiveIPv4, and used when both a DERP and IPv4 packet arrive
// at the same time. It stores the IPv4 packet for use in the next call.
bufferedIPv4From netaddr.IPPort // if non-zero, then bufferedIPv4Packet is valid
bufferedIPv4Packet []byte // the received packet (reused, owned by ReceiveIPv4)
connCtx context.Context // closed on Conn.Close
connCtxCancel func() // closes connCtx
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
// stunReceiveFunc holds the current STUN packet processing func.
// Its Loaded value is always non-nil.
stunReceiveFunc atomic.Value // of func(p []byte, fromAddr *net.UDPAddr)
udpRecvCh chan udpReadResult
derpRecvCh chan derpReadResult
// packetListener optionally specifies a test hook to open a PacketConn.
packetListener nettype.PacketListener
// ============================================================
mu sync.Mutex // guards all following fields; see userspaceEngine lock ordering rules
muCond *sync.Cond
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
started bool // Start was called
closed bool // Close was called
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
endpointsUpdateActive bool
wantEndpointsUpdate string // true if non-empty; string is reason
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
lastEndpoints []string
peerSet map[key.Public]struct{}
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
discoPrivate key.Private
discoPublic tailcfg.DiscoKey // public of discoPrivate
discoShort string // ShortString of discoPublic (to save logging work later)
nodeOfDisco map[tailcfg.DiscoKey]*tailcfg.Node
discoOfNode map[tailcfg.NodeKey]tailcfg.DiscoKey
discoOfAddr map[netaddr.IPPort]tailcfg.DiscoKey // validated non-DERP paths only
endpointOfDisco map[tailcfg.DiscoKey]*discoEndpoint // those with activity only
sharedDiscoKey map[tailcfg.DiscoKey]*[32]byte // nacl/box precomputed key
// addrsByUDP is a map of every remote ip:port to a priority
// list of endpoint addresses for a peer.
// The priority list is provided by wgengine configuration.
//
// Given a wgcfg describing:
// machineA: 10.0.0.1:1, 10.0.0.2:2
// machineB: 10.0.0.3:3
// the addrsByUDP map contains:
// 10.0.0.1:1 -> [10.0.0.1:1, 10.0.0.2:2]
// 10.0.0.2:2 -> [10.0.0.1:1, 10.0.0.2:2]
// 10.0.0.3:3 -> [10.0.0.3:3]
addrsByUDP map[netaddr.IPPort]*AddrSet
// addrsByKey maps from public keys (as seen by incoming DERP
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
// packets) to its AddrSet (the same values as in addrsByUDP).
addrsByKey map[key.Public]*AddrSet
netInfoFunc func(*tailcfg.NetInfo) // nil until set
netInfoLast *tailcfg.NetInfo
derpMap *tailcfg.DERPMap // nil (or zero regions/nodes) means DERP is disabled
netMap *controlclient.NetworkMap
privateKey key.Private
everHadKey bool // whether we ever had a non-zero private key
myDerp int // nearest DERP region ID; 0 means none/unknown
derpStarted chan struct{} // closed on first connection to DERP; for tests & cleaner Close
activeDerp map[int]activeDerp // DERP regionID -> connection to a node in that region
prevDerp map[int]*syncs.WaitGroupChan
// derpRoute contains optional alternate routes to use as an
// optimization instead of contacting a peer via their home
// DERP connection. If they sent us a message on a different
// DERP connection (which should really only be on our DERP
// home connection, or what was once our home), then we
// remember that route here to optimistically use instead of
// creating a new DERP connection back to their home.
derpRoute map[key.Public]derpRoute
// peerLastDerp tracks which DERP node we last used to speak with a
// peer. It's only used to quiet logging, so we only log on change.
peerLastDerp map[key.Public]int
// noV4 and noV6 are whether IPv4 and IPv6 are known to be
// missing. They're only used to suppress log spam. The name
// is named negatively because in early start-up, we don't yet
// necessarily have a netcheck.Report and don't want to skip
// logging.
noV4, noV6 syncs.AtomicBool
}
// derpRoute is a route entry for a public key, saying that a certain
// peer should be available at DERP node derpID, as long as the
// current connection for that derpID is dc. (but dc should not be
// used to write directly; it's owned by the read/write loops)
type derpRoute struct {
derpID int
dc *derphttp.Client // don't use directly; see comment above
}
// removeDerpPeerRoute removes a DERP route entry previously added by addDerpPeerRoute.
func (c *Conn) removeDerpPeerRoute(peer key.Public, derpID int, dc *derphttp.Client) {
c.mu.Lock()
defer c.mu.Unlock()
r2 := derpRoute{derpID, dc}
if r, ok := c.derpRoute[peer]; ok && r == r2 {
delete(c.derpRoute, peer)
}
}
// addDerpPeerRoute adds a DERP route entry, noting that peer was seen
// on DERP node derpID, at least on the connection identified by dc.
// See issue 150 for details.
func (c *Conn) addDerpPeerRoute(peer key.Public, derpID int, dc *derphttp.Client) {
c.mu.Lock()
defer c.mu.Unlock()
if c.derpRoute == nil {
c.derpRoute = make(map[key.Public]derpRoute)
}
r := derpRoute{derpID, dc}
c.derpRoute[peer] = r
}
// DerpMagicIP is a fake WireGuard endpoint IP address that means
// to use DERP. When used, the port number of the WireGuard endpoint
// is the DERP server number to use.
//
// Mnemonic: 3.3.40 are numbers above the keys D, E, R, P.
const DerpMagicIP = "127.3.3.40"
var derpMagicIP = net.ParseIP(DerpMagicIP).To4()
var derpMagicIPAddr = netaddr.IPv4(127, 3, 3, 40)
// activeDerp contains fields for an active DERP connection.
type activeDerp struct {
c *derphttp.Client
cancel context.CancelFunc
writeCh chan<- derpWriteRequest
// lastWrite is the time of the last request for its write
// channel (currently even if there was no write).
// It is always non-nil and initialized to a non-zero Time[
lastWrite *time.Time
createTime time.Time
}
// DefaultPort is the default port to listen on.
// The current default (zero) means to auto-select a random free port.
const DefaultPort = 0
// Options contains options for Listen.
type Options struct {
// Logf optionally provides a log function to use.
// Must not be nil.
Logf logger.Logf
// Port is the port to listen on.
// Zero means to pick one automatically.
Port uint16
// EndpointsFunc optionally provides a func to be called when
// endpoints change. The called func does not own the slice.
EndpointsFunc func(endpoint []string)
// DERPActiveFunc optionally provides a func to be called when
// a connection is made to a DERP server.
DERPActiveFunc func()
// IdleFunc optionally provides a func to return how long
// it's been since a TUN packet was sent or received.
IdleFunc func() time.Duration
// PacketListener optionally specifies how to create PacketConns.
// It's meant for testing.
PacketListener nettype.PacketListener
// NoteRecvActivity, if provided, is a func for magicsock to
// call whenever it receives a packet from a a
// discovery-capable peer if it's been more than ~10 seconds
// since the last one. (10 seconds is somewhat arbitrary; the
// sole user just doesn't need or want it called on every
// packet, just every minute or two for Wireguard timeouts,
// and 10 seconds seems like a good trade-off between often
// enough and not too often.) The provided func is called while
// holding userspaceEngine.wgLock and likely calls
// Conn.CreateEndpoint, which acquires Conn.mu. As such, you should
// not hold
NoteRecvActivity func(tailcfg.DiscoKey)
}
func (o *Options) logf() logger.Logf {
if o.Logf == nil {
panic("must provide magicsock.Options.logf")
}
return o.Logf
}
func (o *Options) endpointsFunc() func([]string) {
if o == nil || o.EndpointsFunc == nil {
return func([]string) {}
}
return o.EndpointsFunc
}
func (o *Options) derpActiveFunc() func() {
if o == nil || o.DERPActiveFunc == nil {
return func() {}
}
return o.DERPActiveFunc
}
// newConn is the error-free, network-listening-side-effect-free based
// of NewConn. Mostly for tests.
func newConn() *Conn {
c := &Conn{
sendLogLimit: rate.NewLimiter(rate.Every(1*time.Minute), 1),
addrsByUDP: make(map[netaddr.IPPort]*AddrSet),
addrsByKey: make(map[key.Public]*AddrSet),
derpRecvCh: make(chan derpReadResult),
udpRecvCh: make(chan udpReadResult),
derpStarted: make(chan struct{}),
peerLastDerp: make(map[key.Public]int),
endpointOfDisco: make(map[tailcfg.DiscoKey]*discoEndpoint),
sharedDiscoKey: make(map[tailcfg.DiscoKey]*[32]byte),
discoOfAddr: make(map[netaddr.IPPort]tailcfg.DiscoKey),
}
c.muCond = sync.NewCond(&c.mu)
return c
}
// NewConn creates a magic Conn listening on opts.Port.
// As the set of possible endpoints for a Conn changes, the
// callback opts.EndpointsFunc is called.
//
// It doesn't start doing anything until Start is called.
func NewConn(opts Options) (*Conn, error) {
c := newConn()
c.pconnPort = opts.Port
c.logf = opts.logf()
c.epFunc = opts.endpointsFunc()
c.derpActiveFunc = opts.derpActiveFunc()
c.idleFunc = opts.IdleFunc
c.packetListener = opts.PacketListener
c.noteRecvActivity = opts.NoteRecvActivity
if err := c.initialBind(); err != nil {
return nil, err
}
c.connCtx, c.connCtxCancel = context.WithCancel(context.Background())
c.netChecker = &netcheck.Client{
Logf: logger.WithPrefix(c.logf, "netcheck: "),
GetSTUNConn4: func() netcheck.STUNConn { return c.pconn4 },
}
if c.pconn6 != nil {
c.netChecker.GetSTUNConn6 = func() netcheck.STUNConn { return c.pconn6 }
}
c.ignoreSTUNPackets()
return c, nil
}
func (c *Conn) Start() {
c.mu.Lock()
if c.started {
panic("duplicate Start call")
}
c.started = true
c.mu.Unlock()
c.ReSTUN("initial")
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
// We assume that LinkChange notifications are plumbed through well
// on our mobile clients, so don't do the timer thing to save radio/battery/CPU/etc.
if !version.IsMobile() {
go c.periodicReSTUN()
}
go c.periodicDerpCleanup()
}
func (c *Conn) donec() <-chan struct{} { return c.connCtx.Done() }
// ignoreSTUNPackets sets a STUN packet processing func that does nothing.
func (c *Conn) ignoreSTUNPackets() {
c.stunReceiveFunc.Store(func([]byte, netaddr.IPPort) {})
}
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
// c.mu must NOT be held.
func (c *Conn) updateEndpoints(why string) {
defer func() {
c.mu.Lock()
defer c.mu.Unlock()
why := c.wantEndpointsUpdate
c.wantEndpointsUpdate = ""
if why != "" && !c.closed {
go c.updateEndpoints(why)
} else {
c.endpointsUpdateActive = false
c.muCond.Broadcast()
}
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
}()
c.logf("magicsock: starting endpoint update (%s)", why)
endpoints, reasons, err := c.determineEndpoints(c.connCtx)
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
if err != nil {
c.logf("magicsock: endpoint update (%s) failed: %v", why, err)
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
// TODO(crawshaw): are there any conditions under which
// we should trigger a retry based on the error here?
return
}
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
if c.setEndpoints(endpoints) {
c.logEndpointChange(endpoints, reasons)
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
c.epFunc(endpoints)
}
}
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
// setEndpoints records the new endpoints, reporting whether they're changed.
// It takes ownership of the slice.
func (c *Conn) setEndpoints(endpoints []string) (changed bool) {
c.mu.Lock()
defer c.mu.Unlock()
if stringsEqual(endpoints, c.lastEndpoints) {
return false
}
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
c.lastEndpoints = endpoints
return true
}
func (c *Conn) updateNetInfo(ctx context.Context) (*netcheck.Report, error) {
c.mu.Lock()
dm := c.derpMap
c.mu.Unlock()
if dm == nil {
return new(netcheck.Report), nil
}
ctx, cancel := context.WithTimeout(ctx, 2*time.Second)
defer cancel()
c.stunReceiveFunc.Store(c.netChecker.ReceiveSTUNPacket)
defer c.ignoreSTUNPackets()
report, err := c.netChecker.GetReport(ctx, dm)
if err != nil {
return nil, err
}
c.noV4.Set(!report.IPv4)
c.noV6.Set(!report.IPv6)
ni := &tailcfg.NetInfo{
DERPLatency: map[string]float64{},
MappingVariesByDestIP: report.MappingVariesByDestIP,
HairPinning: report.HairPinning,
UPnP: report.UPnP,
PMP: report.PMP,
PCP: report.PCP,
}
for rid, d := range report.RegionV4Latency {
ni.DERPLatency[fmt.Sprintf("%d-v4", rid)] = d.Seconds()
}
for rid, d := range report.RegionV6Latency {
ni.DERPLatency[fmt.Sprintf("%d-v6", rid)] = d.Seconds()
}
ni.WorkingIPv6.Set(report.IPv6)
ni.WorkingUDP.Set(report.UDP)
ni.PreferredDERP = report.PreferredDERP
if ni.PreferredDERP == 0 {
// Perhaps UDP is blocked. Pick a deterministic but arbitrary
// one.
ni.PreferredDERP = c.pickDERPFallback()
}
if !c.setNearestDERP(ni.PreferredDERP) {
ni.PreferredDERP = 0
}
// TODO: set link type
c.callNetInfoCallback(ni)
return report, nil
}
var processStartUnixNano = time.Now().UnixNano()
// pickDERPFallback returns a non-zero but deterministic DERP node to
// connect to. This is only used if netcheck couldn't find the
// nearest one (for instance, if UDP is blocked and thus STUN latency
// checks aren't working).
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
//
// c.mu must NOT be held.
func (c *Conn) pickDERPFallback() int {
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
c.mu.Lock()
defer c.mu.Unlock()
if !c.wantDerpLocked() {
return 0
}
ids := c.derpMap.RegionIDs()
if len(ids) == 0 {
// No DERP regions in non-nil map.
return 0
}
// See where our peers are.
var (
peersOnDerp = map[int]int{}
best int
bestCount int
)
for _, as := range c.addrsByKey {
if id := as.derpID(); id != 0 {
peersOnDerp[id]++
if v := peersOnDerp[id]; v > bestCount {
bestCount = v
best = id
}
}
}
// If we already had selected something in the past and it has
// any peers, stay on it. If there are no peers, though, also
// stay where we are.
if c.myDerp != 0 && (best == 0 || peersOnDerp[c.myDerp] != 0) {
return c.myDerp
}
// Otherwise pick wherever the most peers are.
if best != 0 {
return best
}
// Otherwise just pick something randomly.
h := fnv.New64()
h.Write([]byte(fmt.Sprintf("%p/%d", c, processStartUnixNano))) // arbitrary
return ids[rand.New(rand.NewSource(int64(h.Sum64()))).Intn(len(ids))]
}
// callNetInfoCallback calls the NetInfo callback (if previously
// registered with SetNetInfoCallback) if ni has substantially changed
// since the last state.
//
// callNetInfoCallback takes ownership of ni.
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
//
// c.mu must NOT be held.
func (c *Conn) callNetInfoCallback(ni *tailcfg.NetInfo) {
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
c.mu.Lock()
defer c.mu.Unlock()
if ni.BasicallyEqual(c.netInfoLast) {
return
}
c.netInfoLast = ni
if c.netInfoFunc != nil {
c.logf("magicsock: netInfo update: %+v", ni)
go c.netInfoFunc(ni)
}
}
func (c *Conn) SetNetInfoCallback(fn func(*tailcfg.NetInfo)) {
if fn == nil {
panic("nil NetInfoCallback")
}
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
c.mu.Lock()
last := c.netInfoLast
c.netInfoFunc = fn
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
c.mu.Unlock()
if last != nil {
fn(last)
}
}
// peerForIP returns the Node in nm that's responsible for
// handling the given IP address.
func peerForIP(nm *controlclient.NetworkMap, ip netaddr.IP) (n *tailcfg.Node, ok bool) {
if nm == nil {
return nil, false
}
wgIP := wgcfg.IP{Addr: ip.As16()}
// Check for exact matches before looking for subnet matches.
for _, p := range nm.Peers {
for _, a := range p.Addresses {
if a.IP == wgIP {
return p, true
}
}
}
for _, p := range nm.Peers {
for _, cidr := range p.AllowedIPs {
if cidr.Contains(wgIP) {
return p, true
}
}
}
return nil, false
}
// Ping handles a "tailscale ping" CLI query.
func (c *Conn) Ping(ip netaddr.IP, cb func(*ipnstate.PingResult)) {
c.mu.Lock()
defer c.mu.Unlock()
res := &ipnstate.PingResult{IP: ip.String()}
if c.privateKey.IsZero() {
res.Err = "local tailscaled stopped"
cb(res)
return
}
peer, ok := peerForIP(c.netMap, ip)
if !ok {
res.Err = "no matching peer"
cb(res)
return
}
if len(peer.Addresses) > 0 {
res.NodeIP = peer.Addresses[0].IP.String()
}
res.NodeName = peer.Name // prefer DNS name
if res.NodeName == "" {
res.NodeName = peer.Hostinfo.Hostname // else hostname
} else {
if i := strings.Index(res.NodeName, "."); i != -1 {
res.NodeName = res.NodeName[:i]
}
}
dk, ok := c.discoOfNode[peer.Key]
if !ok {
res.Err = "no discovery key for peer (pre 0.100?)"
cb(res)
return
}
de, ok := c.endpointOfDisco[dk]
if !ok {
c.mu.Unlock() // temporarily release
if c.noteRecvActivity != nil {
c.noteRecvActivity(dk)
}
c.mu.Lock() // re-acquire
// re-check at least basic invariant:
if c.privateKey.IsZero() {
res.Err = "local tailscaled stopped"
cb(res)
return
}
de, ok = c.endpointOfDisco[dk]
if !ok {
res.Err = "internal error: failed to create endpoint for discokey"
cb(res)
return
}
c.logf("magicsock: started peer %v for ping to %v", dk.ShortString(), peer.Key.ShortString())
}
de.cliPing(res, cb)
}
// c.mu must be held
func (c *Conn) populateCLIPingResponseLocked(res *ipnstate.PingResult, latency time.Duration, ep netaddr.IPPort) {
res.LatencySeconds = latency.Seconds()
if ep.IP != derpMagicIPAddr {
res.Endpoint = ep.String()
return
}
regionID := int(ep.Port)
res.DERPRegionID = regionID
if c.derpMap != nil {
if dr, ok := c.derpMap.Regions[regionID]; ok {
res.DERPRegionCode = dr.RegionCode
}
}
}
// DiscoPublicKey returns the discovery public key.
func (c *Conn) DiscoPublicKey() tailcfg.DiscoKey {
c.mu.Lock()
defer c.mu.Unlock()
if c.discoPrivate.IsZero() {
priv := key.NewPrivate()
c.discoPrivate = priv
c.discoPublic = tailcfg.DiscoKey(priv.Public())
c.discoShort = c.discoPublic.ShortString()
c.logf("magicsock: disco key = %v", c.discoShort)
}
return c.discoPublic
}
// PeerHasDiscoKey reports whether peer k supports discovery keys (client version 0.100.0+).
func (c *Conn) PeerHasDiscoKey(k tailcfg.NodeKey) bool {
c.mu.Lock()
defer c.mu.Unlock()
_, ok := c.discoOfNode[k]
return ok
}
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
// c.mu must NOT be held.
func (c *Conn) setNearestDERP(derpNum int) (wantDERP bool) {
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
c.mu.Lock()
defer c.mu.Unlock()
if !c.wantDerpLocked() {
c.myDerp = 0
return false
}
if derpNum == c.myDerp {
// No change.
return true
}
c.myDerp = derpNum
if c.privateKey.IsZero() {
// No private key yet, so DERP connections won't come up anyway.
// Return early rather than ultimately log a couple lines of noise.
return true
}
// On change, notify all currently connected DERP servers and
// start connecting to our home DERP if we are not already.
dr := c.derpMap.Regions[derpNum]
if dr == nil {
c.logf("[unexpected] magicsock: derpMap.Regions[%v] is nil", derpNum)
} else {
c.logf("magicsock: home is now derp-%v (%v)", derpNum, c.derpMap.Regions[derpNum].RegionCode)
}
for i, ad := range c.activeDerp {
go ad.c.NotePreferred(i == c.myDerp)
}
c.goDerpConnect(derpNum)
return true
}
// goDerpConnect starts a goroutine to start connecting to the given
// DERP node.
//
// c.mu may be held, but does not need to be.
func (c *Conn) goDerpConnect(node int) {
if node == 0 {
return
}
go c.derpWriteChanOfAddr(netaddr.IPPort{IP: derpMagicIPAddr, Port: uint16(node)}, key.Public{})
}
// determineEndpoints returns the machine's endpoint addresses. It
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
// does a STUN lookup (via netcheck) to determine its public address.
//
// c.mu must NOT be held.
func (c *Conn) determineEndpoints(ctx context.Context) (ipPorts []string, reasons map[string]string, err error) {
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
nr, err := c.updateNetInfo(ctx)
if err != nil {
c.logf("magicsock.Conn.determineEndpoints: updateNetInfo: %v", err)
return nil, nil, err
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
}
already := make(map[string]string) // endpoint -> how it was found
var eps []string // unique endpoints
addAddr := func(s, reason string) {
if debugOmitLocalAddresses && (reason == "localAddresses" || reason == "socket") {
return
}
if _, ok := already[s]; !ok {
already[s] = reason
eps = append(eps, s)
}
}
if nr.GlobalV4 != "" {
addAddr(nr.GlobalV4, "stun")
// If they're behind a hard NAT and are using a fixed
// port locally, assume they might've added a static
// port mapping on their router to the same explicit
// port that tailscaled is running with. Worst case
// it's an invalid candidate mapping.
if nr.MappingVariesByDestIP.EqualBool(true) && c.pconnPort != 0 {
if ip, _, err := net.SplitHostPort(nr.GlobalV4); err == nil {
addAddr(net.JoinHostPort(ip, strconv.Itoa(int(c.pconnPort))), "port_in")
}
}
}
if nr.GlobalV6 != "" {
addAddr(nr.GlobalV6, "stun")
}
c.ignoreSTUNPackets()
if localAddr := c.pconn4.LocalAddr(); localAddr.IP.IsUnspecified() {
ips, loopback, err := interfaces.LocalAddresses()
if err != nil {
return nil, nil, err
}
reason := "localAddresses"
if len(ips) == 0 && len(eps) == 0 {
// Only include loopback addresses if we have no
// interfaces at all to use as endpoints and don't
// have a public IPv4 or IPv6 address. This allows
// for localhost testing when you're on a plane and
// offline, for example.
ips = loopback
reason = "loopback"
}
for _, ipStr := range ips {
addAddr(net.JoinHostPort(ipStr, fmt.Sprint(localAddr.Port)), reason)
}
} else {
// Our local endpoint is bound to a particular address.
// Do not offer addresses on other local interfaces.
addAddr(localAddr.String(), "socket")
}
// Note: the endpoints are intentionally returned in priority order,
// from "farthest but most reliable" to "closest but least
// reliable." Addresses returned from STUN should be globally
// addressable, but might go farther on the network than necessary.
// Local interface addresses might have lower latency, but not be
// globally addressable.
//
// The STUN address(es) are always first so that legacy wireguard
// can use eps[0] as its only known endpoint address (although that's
// obviously non-ideal).
return eps, already, nil
}
func stringsEqual(x, y []string) bool {
if len(x) != len(y) {
return false
}
for i := range x {
if x[i] != y[i] {
return false
}
}
return true
}
func (c *Conn) LocalPort() uint16 {
laddr := c.pconn4.LocalAddr()
return uint16(laddr.Port)
}
func shouldSprayPacket(b []byte) bool {
if len(b) < 4 {
return false
}
msgType := binary.LittleEndian.Uint32(b[:4])
switch msgType {
case device.MessageInitiationType,
device.MessageResponseType,
device.MessageCookieReplyType: // TODO: necessary?
return true
}
return false
}
const sprayPeriod = 3 * time.Second
// appendDests appends to dsts the destinations that b should be
// written to in order to reach as. Some of the returned IPPorts may
// be fake addrs representing DERP servers.
//
// It also returns as's current roamAddr, if any.
func (as *AddrSet) appendDests(dsts []netaddr.IPPort, b []byte) (_ []netaddr.IPPort, roamAddr netaddr.IPPort) {
spray := shouldSprayPacket(b) // true for handshakes
now := as.timeNow()
as.mu.Lock()
defer as.mu.Unlock()
as.lastSend = now
// Some internal invariant checks.
if len(as.addrs) != len(as.ipPorts) {
panic(fmt.Sprintf("lena %d != leni %d", len(as.addrs), len(as.ipPorts)))
}
if n1, n2 := as.roamAddr != nil, as.roamAddrStd != nil; n1 != n2 {
panic(fmt.Sprintf("roamnil %v != roamstdnil %v", n1, n2))
}
// Spray logic.
//
// After exchanging a handshake with a peer, we send some outbound
// packets to every endpoint of that peer. These packets are spaced out
// over several seconds to make sure that our peer has an opportunity to
// send its own spray packet to us before we are done spraying.
//
// Multiple packets are necessary because we have to both establish the
// NAT mappings between two peers *and use* the mappings to switch away
// from DERP to a higher-priority UDP endpoint.
const sprayFreq = 250 * time.Millisecond
if spray {
as.lastSpray = now
as.stopSpray = now.Add(sprayPeriod)
// Reset our favorite route on new handshakes so we
// can downgrade to a worse path if our better path
// goes away. (https://github.com/tailscale/tailscale/issues/92)
as.curAddr = -1
} else if now.Before(as.stopSpray) {
// We are in the spray window. If it has been sprayFreq since we
// last sprayed a packet, spray this packet.
if now.Sub(as.lastSpray) >= sprayFreq {
spray = true
as.lastSpray = now
}
}
// Pick our destination address(es).
wgengine/magicsock: fix destination selection logic to work with DERP. The effect is subtle: when we're not spraying packets, and have not yet figured out a curAddr, and we're not spraying, we end up sending to whatever the first IP is in the iteration order. In English, that means "when we have no idea where to send packets, and we've given up on sending to everyone, just send to the first addr we see in the list." This is, in general, what we want, because the addrs are in sorted preference order, low to high, and DERP is the least preferred destination. So, when we have no idea where to send, send to DERP, right? ... Except for very historical reasons, appendDests iterated through addresses in _reverse_ order, most preferred to least preferred. crawshaw@ believes this was part of the earliest handshaking algorithm magicsock had, where it slowly iterated through possible destinations and poked handshakes to them one at a time. Anyway, because of this historical reverse iteration, in the case described above of "we have no idea where to send", the code would end up sending to the _most_ preferred candidate address, rather than the _least_ preferred. So when in doubt, we'd end up firing packets into the blackhole of some LAN address that doesn't work, and connectivity would not work. This case only comes up if all your non-DERP connectivity options have failed, so we more or less failed to detect it because we didn't have a pathological test box deployed. Worse, codependent bug 2839854994f204a9e95e4d8d410490bb4f25e1fe made DERP accidentally work sometimes anyway by incorrectly exploiting roamAddr behavior, albeit at the cost of making DERP traffic symmetric. In fixing DERP to once again be asymmetric, we effectively removed the bandaid that was concealing this bug. Signed-Off-By: David Anderson <danderson@tailscale.com>
5 years ago
switch {
case spray:
// This packet is being sprayed to all addresses.
for i := range as.ipPorts {
dsts = append(dsts, as.ipPorts[i])
}
wgengine/magicsock: fix destination selection logic to work with DERP. The effect is subtle: when we're not spraying packets, and have not yet figured out a curAddr, and we're not spraying, we end up sending to whatever the first IP is in the iteration order. In English, that means "when we have no idea where to send packets, and we've given up on sending to everyone, just send to the first addr we see in the list." This is, in general, what we want, because the addrs are in sorted preference order, low to high, and DERP is the least preferred destination. So, when we have no idea where to send, send to DERP, right? ... Except for very historical reasons, appendDests iterated through addresses in _reverse_ order, most preferred to least preferred. crawshaw@ believes this was part of the earliest handshaking algorithm magicsock had, where it slowly iterated through possible destinations and poked handshakes to them one at a time. Anyway, because of this historical reverse iteration, in the case described above of "we have no idea where to send", the code would end up sending to the _most_ preferred candidate address, rather than the _least_ preferred. So when in doubt, we'd end up firing packets into the blackhole of some LAN address that doesn't work, and connectivity would not work. This case only comes up if all your non-DERP connectivity options have failed, so we more or less failed to detect it because we didn't have a pathological test box deployed. Worse, codependent bug 2839854994f204a9e95e4d8d410490bb4f25e1fe made DERP accidentally work sometimes anyway by incorrectly exploiting roamAddr behavior, albeit at the cost of making DERP traffic symmetric. In fixing DERP to once again be asymmetric, we effectively removed the bandaid that was concealing this bug. Signed-Off-By: David Anderson <danderson@tailscale.com>
5 years ago
if as.roamAddr != nil {
dsts = append(dsts, *as.roamAddr)
}
wgengine/magicsock: fix destination selection logic to work with DERP. The effect is subtle: when we're not spraying packets, and have not yet figured out a curAddr, and we're not spraying, we end up sending to whatever the first IP is in the iteration order. In English, that means "when we have no idea where to send packets, and we've given up on sending to everyone, just send to the first addr we see in the list." This is, in general, what we want, because the addrs are in sorted preference order, low to high, and DERP is the least preferred destination. So, when we have no idea where to send, send to DERP, right? ... Except for very historical reasons, appendDests iterated through addresses in _reverse_ order, most preferred to least preferred. crawshaw@ believes this was part of the earliest handshaking algorithm magicsock had, where it slowly iterated through possible destinations and poked handshakes to them one at a time. Anyway, because of this historical reverse iteration, in the case described above of "we have no idea where to send", the code would end up sending to the _most_ preferred candidate address, rather than the _least_ preferred. So when in doubt, we'd end up firing packets into the blackhole of some LAN address that doesn't work, and connectivity would not work. This case only comes up if all your non-DERP connectivity options have failed, so we more or less failed to detect it because we didn't have a pathological test box deployed. Worse, codependent bug 2839854994f204a9e95e4d8d410490bb4f25e1fe made DERP accidentally work sometimes anyway by incorrectly exploiting roamAddr behavior, albeit at the cost of making DERP traffic symmetric. In fixing DERP to once again be asymmetric, we effectively removed the bandaid that was concealing this bug. Signed-Off-By: David Anderson <danderson@tailscale.com>
5 years ago
case as.roamAddr != nil:
// We have a roaming address, prefer it over other addrs.
// TODO(danderson): this is not correct, there's no reason
// roamAddr should be special like this.
dsts = append(dsts, *as.roamAddr)
wgengine/magicsock: fix destination selection logic to work with DERP. The effect is subtle: when we're not spraying packets, and have not yet figured out a curAddr, and we're not spraying, we end up sending to whatever the first IP is in the iteration order. In English, that means "when we have no idea where to send packets, and we've given up on sending to everyone, just send to the first addr we see in the list." This is, in general, what we want, because the addrs are in sorted preference order, low to high, and DERP is the least preferred destination. So, when we have no idea where to send, send to DERP, right? ... Except for very historical reasons, appendDests iterated through addresses in _reverse_ order, most preferred to least preferred. crawshaw@ believes this was part of the earliest handshaking algorithm magicsock had, where it slowly iterated through possible destinations and poked handshakes to them one at a time. Anyway, because of this historical reverse iteration, in the case described above of "we have no idea where to send", the code would end up sending to the _most_ preferred candidate address, rather than the _least_ preferred. So when in doubt, we'd end up firing packets into the blackhole of some LAN address that doesn't work, and connectivity would not work. This case only comes up if all your non-DERP connectivity options have failed, so we more or less failed to detect it because we didn't have a pathological test box deployed. Worse, codependent bug 2839854994f204a9e95e4d8d410490bb4f25e1fe made DERP accidentally work sometimes anyway by incorrectly exploiting roamAddr behavior, albeit at the cost of making DERP traffic symmetric. In fixing DERP to once again be asymmetric, we effectively removed the bandaid that was concealing this bug. Signed-Off-By: David Anderson <danderson@tailscale.com>
5 years ago
case as.curAddr != -1:
if as.curAddr >= len(as.addrs) {
as.Logf("[unexpected] magicsock bug: as.curAddr >= len(as.addrs): %d >= %d", as.curAddr, len(as.addrs))
break
}
wgengine/magicsock: fix destination selection logic to work with DERP. The effect is subtle: when we're not spraying packets, and have not yet figured out a curAddr, and we're not spraying, we end up sending to whatever the first IP is in the iteration order. In English, that means "when we have no idea where to send packets, and we've given up on sending to everyone, just send to the first addr we see in the list." This is, in general, what we want, because the addrs are in sorted preference order, low to high, and DERP is the least preferred destination. So, when we have no idea where to send, send to DERP, right? ... Except for very historical reasons, appendDests iterated through addresses in _reverse_ order, most preferred to least preferred. crawshaw@ believes this was part of the earliest handshaking algorithm magicsock had, where it slowly iterated through possible destinations and poked handshakes to them one at a time. Anyway, because of this historical reverse iteration, in the case described above of "we have no idea where to send", the code would end up sending to the _most_ preferred candidate address, rather than the _least_ preferred. So when in doubt, we'd end up firing packets into the blackhole of some LAN address that doesn't work, and connectivity would not work. This case only comes up if all your non-DERP connectivity options have failed, so we more or less failed to detect it because we didn't have a pathological test box deployed. Worse, codependent bug 2839854994f204a9e95e4d8d410490bb4f25e1fe made DERP accidentally work sometimes anyway by incorrectly exploiting roamAddr behavior, albeit at the cost of making DERP traffic symmetric. In fixing DERP to once again be asymmetric, we effectively removed the bandaid that was concealing this bug. Signed-Off-By: David Anderson <danderson@tailscale.com>
5 years ago
// No roaming addr, but we've seen packets from a known peer
// addr, so keep using that one.
dsts = append(dsts, as.ipPorts[as.curAddr])
wgengine/magicsock: fix destination selection logic to work with DERP. The effect is subtle: when we're not spraying packets, and have not yet figured out a curAddr, and we're not spraying, we end up sending to whatever the first IP is in the iteration order. In English, that means "when we have no idea where to send packets, and we've given up on sending to everyone, just send to the first addr we see in the list." This is, in general, what we want, because the addrs are in sorted preference order, low to high, and DERP is the least preferred destination. So, when we have no idea where to send, send to DERP, right? ... Except for very historical reasons, appendDests iterated through addresses in _reverse_ order, most preferred to least preferred. crawshaw@ believes this was part of the earliest handshaking algorithm magicsock had, where it slowly iterated through possible destinations and poked handshakes to them one at a time. Anyway, because of this historical reverse iteration, in the case described above of "we have no idea where to send", the code would end up sending to the _most_ preferred candidate address, rather than the _least_ preferred. So when in doubt, we'd end up firing packets into the blackhole of some LAN address that doesn't work, and connectivity would not work. This case only comes up if all your non-DERP connectivity options have failed, so we more or less failed to detect it because we didn't have a pathological test box deployed. Worse, codependent bug 2839854994f204a9e95e4d8d410490bb4f25e1fe made DERP accidentally work sometimes anyway by incorrectly exploiting roamAddr behavior, albeit at the cost of making DERP traffic symmetric. In fixing DERP to once again be asymmetric, we effectively removed the bandaid that was concealing this bug. Signed-Off-By: David Anderson <danderson@tailscale.com>
5 years ago
default:
// We know nothing about how to reach this peer, and we're not
// spraying. Use the first address in the array, which will
// usually be a DERP address that guarantees connectivity.
if len(as.ipPorts) > 0 {
dsts = append(dsts, as.ipPorts[0])
wgengine/magicsock: fix destination selection logic to work with DERP. The effect is subtle: when we're not spraying packets, and have not yet figured out a curAddr, and we're not spraying, we end up sending to whatever the first IP is in the iteration order. In English, that means "when we have no idea where to send packets, and we've given up on sending to everyone, just send to the first addr we see in the list." This is, in general, what we want, because the addrs are in sorted preference order, low to high, and DERP is the least preferred destination. So, when we have no idea where to send, send to DERP, right? ... Except for very historical reasons, appendDests iterated through addresses in _reverse_ order, most preferred to least preferred. crawshaw@ believes this was part of the earliest handshaking algorithm magicsock had, where it slowly iterated through possible destinations and poked handshakes to them one at a time. Anyway, because of this historical reverse iteration, in the case described above of "we have no idea where to send", the code would end up sending to the _most_ preferred candidate address, rather than the _least_ preferred. So when in doubt, we'd end up firing packets into the blackhole of some LAN address that doesn't work, and connectivity would not work. This case only comes up if all your non-DERP connectivity options have failed, so we more or less failed to detect it because we didn't have a pathological test box deployed. Worse, codependent bug 2839854994f204a9e95e4d8d410490bb4f25e1fe made DERP accidentally work sometimes anyway by incorrectly exploiting roamAddr behavior, albeit at the cost of making DERP traffic symmetric. In fixing DERP to once again be asymmetric, we effectively removed the bandaid that was concealing this bug. Signed-Off-By: David Anderson <danderson@tailscale.com>
5 years ago
}
}
wgengine/magicsock: fix destination selection logic to work with DERP. The effect is subtle: when we're not spraying packets, and have not yet figured out a curAddr, and we're not spraying, we end up sending to whatever the first IP is in the iteration order. In English, that means "when we have no idea where to send packets, and we've given up on sending to everyone, just send to the first addr we see in the list." This is, in general, what we want, because the addrs are in sorted preference order, low to high, and DERP is the least preferred destination. So, when we have no idea where to send, send to DERP, right? ... Except for very historical reasons, appendDests iterated through addresses in _reverse_ order, most preferred to least preferred. crawshaw@ believes this was part of the earliest handshaking algorithm magicsock had, where it slowly iterated through possible destinations and poked handshakes to them one at a time. Anyway, because of this historical reverse iteration, in the case described above of "we have no idea where to send", the code would end up sending to the _most_ preferred candidate address, rather than the _least_ preferred. So when in doubt, we'd end up firing packets into the blackhole of some LAN address that doesn't work, and connectivity would not work. This case only comes up if all your non-DERP connectivity options have failed, so we more or less failed to detect it because we didn't have a pathological test box deployed. Worse, codependent bug 2839854994f204a9e95e4d8d410490bb4f25e1fe made DERP accidentally work sometimes anyway by incorrectly exploiting roamAddr behavior, albeit at the cost of making DERP traffic symmetric. In fixing DERP to once again be asymmetric, we effectively removed the bandaid that was concealing this bug. Signed-Off-By: David Anderson <danderson@tailscale.com>
5 years ago
if logPacketDests {
as.Logf("spray=%v; roam=%v; dests=%v", spray, as.roamAddr, dsts)
}
if as.roamAddr != nil {
roamAddr = *as.roamAddr
}
return dsts, roamAddr
}
var errNoDestinations = errors.New("magicsock: no destinations")
func (c *Conn) Send(b []byte, ep conn.Endpoint) error {
var as *AddrSet
switch v := ep.(type) {
default:
panic(fmt.Sprintf("[unexpected] Endpoint type %T", v))
case *discoEndpoint:
return v.send(b)
case *singleEndpoint:
addr := (*net.UDPAddr)(v)
if addr.IP.Equal(derpMagicIP) {
c.logf("magicsock: [unexpected] DERP BUG: attempting to send packet to DERP address %v", addr)
return nil
}
_, err := c.sendUDPStd(addr, b)
return err
case *AddrSet:
as = v
}
var addrBuf [8]netaddr.IPPort
dsts, roamAddr := as.appendDests(addrBuf[:0], b)
if len(dsts) == 0 {
return errNoDestinations
}
var success bool
var ret error
for _, addr := range dsts {
sent, err := c.sendAddr(addr, as.publicKey, b)
if sent {
success = true
} else if ret == nil {
ret = err
}
if err != nil && addr != roamAddr && c.sendLogLimit.Allow() {
if c.connCtx.Err() == nil { // don't log if we're closed
c.logf("magicsock: Conn.Send(%v): %v", addr, err)
}
}
}
if success {
return nil
}
return ret
}
var errConnClosed = errors.New("Conn closed")
var errDropDerpPacket = errors.New("too many DERP packets queued; dropping")
// sendUDP sends UDP packet b to ipp.
// See sendAddr's docs on the return value meanings.
func (c *Conn) sendUDP(ipp netaddr.IPPort, b []byte) (sent bool, err error) {
ua := ipp.UDPAddr()
defer netaddr.PutUDPAddr(ua)
return c.sendUDPStd(ua, b)
}
// sendUDP sends UDP packet b to addr.
// See sendAddr's docs on the return value meanings.
func (c *Conn) sendUDPStd(addr *net.UDPAddr, b []byte) (sent bool, err error) {
switch {
case addr.IP.To4() != nil:
_, err = c.pconn4.WriteTo(b, addr)
if err != nil && c.noV4.Get() {
return false, nil
}
case len(addr.IP) == net.IPv6len:
if c.pconn6 == nil {
// ignore IPv6 dest if we don't have an IPv6 address.
return false, nil
}
_, err = c.pconn6.WriteTo(b, addr)
if err != nil && c.noV6.Get() {
return false, nil
}
default:
panic("bogus sendUDPStd addr type")
}
return err == nil, err
}
// sendAddr sends packet b to addr, which is either a real UDP address
// or a fake UDP address representing a DERP server (see derpmap.go).
// The provided public key identifies the recipient.
//
// The returned err is whether there was an error writing when it
// should've worked.
// The returned sent is whether a packet went out at all.
// An example of when they might be different: sending to an
// IPv6 address when the local machine doesn't have IPv6 support
// returns (false, nil); it's not an error, but nothing was sent.
func (c *Conn) sendAddr(addr netaddr.IPPort, pubKey key.Public, b []byte) (sent bool, err error) {
if addr.IP != derpMagicIPAddr {
return c.sendUDP(addr, b)
}
ch := c.derpWriteChanOfAddr(addr, pubKey)
if ch == nil {
return false, nil
}
// TODO(bradfitz): this makes garbage for now; we could use a
// buffer pool later. Previously we passed ownership of this
// to derpWriteRequest and waited for derphttp.Client.Send to
// complete, but that's too slow while holding wireguard-go
// internal locks.
pkt := make([]byte, len(b))
copy(pkt, b)
select {
case <-c.donec():
return false, errConnClosed
case ch <- derpWriteRequest{addr, pubKey, pkt}:
return true, nil
default:
// Too many writes queued. Drop packet.
return false, errDropDerpPacket
}
}
// bufferedDerpWritesBeforeDrop is how many packets writes can be
// queued up the DERP client to write on the wire before we start
// dropping.
//
// TODO: this is currently arbitrary. Figure out something better?
const bufferedDerpWritesBeforeDrop = 32
// derpWriteChanOfAddr returns a DERP client for fake UDP addresses that
// represent DERP servers, creating them as necessary. For real UDP
// addresses, it returns nil.
//
// If peer is non-zero, it can be used to find an active reverse
// path, without using addr.
func (c *Conn) derpWriteChanOfAddr(addr netaddr.IPPort, peer key.Public) chan<- derpWriteRequest {
if addr.IP != derpMagicIPAddr {
return nil
}
regionID := int(addr.Port)
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
c.mu.Lock()
defer c.mu.Unlock()
if !c.wantDerpLocked() || c.closed {
return nil
}
if c.privateKey.IsZero() {
c.logf("magicsock: DERP lookup of %v with no private key; ignoring", addr)
return nil
}
// See if we have a connection open to that DERP node ID
// first. If so, might as well use it. (It's a little
// arbitrary whether we use this one vs. the reverse route
// below when we have both.)
ad, ok := c.activeDerp[regionID]
if ok {
*ad.lastWrite = time.Now()
c.setPeerLastDerpLocked(peer, regionID, regionID)
return ad.writeCh
}
// If we don't have an open connection to the peer's home DERP
// node, see if we have an open connection to a DERP node
// where we'd heard from that peer already. For instance,
// perhaps peer's home is Frankfurt, but they dialed our home DERP
// node in SF to reach us, so we can reply to them using our
// SF connection rather than dialing Frankfurt. (Issue 150)
if !peer.IsZero() && useDerpRoute() {
if r, ok := c.derpRoute[peer]; ok {
if ad, ok := c.activeDerp[r.derpID]; ok && ad.c == r.dc {
c.setPeerLastDerpLocked(peer, r.derpID, regionID)
*ad.lastWrite = time.Now()
return ad.writeCh
}
}
}
why := "home-keep-alive"
if !peer.IsZero() {
why = peerShort(peer)
}
c.logf("magicsock: adding connection to derp-%v for %v", regionID, why)
firstDerp := false
if c.activeDerp == nil {
firstDerp = true
c.activeDerp = make(map[int]activeDerp)
c.prevDerp = make(map[int]*syncs.WaitGroupChan)
}
if c.derpMap == nil || c.derpMap.Regions[regionID] == nil {
return nil
}
// Note that derphttp.NewClient does not dial the server
// so it is safe to do under the mu lock.
dc := derphttp.NewRegionClient(c.privateKey, c.logf, func() *tailcfg.DERPRegion {
if c.connCtx.Err() != nil {
// If we're closing, don't try to acquire the lock.
// We might already be in Conn.Close and the Lock would deadlock.
return nil
}
c.mu.Lock()
defer c.mu.Unlock()
if c.derpMap == nil {
return nil
}
return c.derpMap.Regions[regionID]
})
dc.NotePreferred(c.myDerp == regionID)
dc.DNSCache = dnscache.Get()
ctx, cancel := context.WithCancel(c.connCtx)
ch := make(chan derpWriteRequest, bufferedDerpWritesBeforeDrop)
ad.c = dc
ad.writeCh = ch
ad.cancel = cancel
ad.lastWrite = new(time.Time)
*ad.lastWrite = time.Now()
ad.createTime = time.Now()
c.activeDerp[regionID] = ad
c.logActiveDerpLocked()
c.setPeerLastDerpLocked(peer, regionID, regionID)
// Build a startGate for the derp reader+writer
// goroutines, so they don't start running until any
// previous generation is closed.
startGate := syncs.ClosedChan()
if prev := c.prevDerp[regionID]; prev != nil {
startGate = prev.DoneChan()
}
// And register a WaitGroup(Chan) for this generation.
wg := syncs.NewWaitGroupChan()
wg.Add(2)
c.prevDerp[regionID] = wg
if firstDerp {
startGate = c.derpStarted
go func() {
dc.Connect(ctx)
close(c.derpStarted)
c.muCond.Broadcast()
}()
}
go c.runDerpReader(ctx, addr, dc, wg, startGate)
go c.runDerpWriter(ctx, dc, ch, wg, startGate)
go c.derpActiveFunc()
return ad.writeCh
}
// setPeerLastDerpLocked notes that peer is now being written to via
// the provided DERP regionID, and that the peer advertises a DERP
// home region ID of homeID.
//
// If there's any change, it logs.
//
// c.mu must be held.
func (c *Conn) setPeerLastDerpLocked(peer key.Public, regionID, homeID int) {
if peer.IsZero() {
return
}
old := c.peerLastDerp[peer]
if old == regionID {
return
}
c.peerLastDerp[peer] = regionID
var newDesc string
switch {
case regionID == homeID && regionID == c.myDerp:
newDesc = "shared home"
case regionID == homeID:
newDesc = "their home"
case regionID == c.myDerp:
newDesc = "our home"
case regionID != homeID:
newDesc = "alt"
}
if old == 0 {
c.logf("magicsock: derp route for %s set to derp-%d (%s)", peerShort(peer), regionID, newDesc)
} else {
c.logf("magicsock: derp route for %s changed from derp-%d => derp-%d (%s)", peerShort(peer), old, regionID, newDesc)
}
}
// derpReadResult is the type sent by runDerpClient to ReceiveIPv4
// when a DERP packet is available.
//
// Notably, it doesn't include the derp.ReceivedPacket because we
// don't want to give the receiver access to the aliased []byte. To
// get at the packet contents they need to call copyBuf to copy it
// out, which also releases the buffer.
type derpReadResult struct {
regionID int
n int // length of data received
src key.Public // may be zero until server deployment if v2+
// copyBuf is called to copy the data to dst. It returns how
// much data was copied, which will be n if dst is large
// enough. copyBuf can only be called once.
copyBuf func(dst []byte) int
}
// runDerpReader runs in a goroutine for the life of a DERP
// connection, handling received packets.
func (c *Conn) runDerpReader(ctx context.Context, derpFakeAddr netaddr.IPPort, dc *derphttp.Client, wg *syncs.WaitGroupChan, startGate <-chan struct{}) {
defer wg.Decr()
defer dc.Close()
select {
case <-startGate:
case <-ctx.Done():
return
}
didCopy := make(chan struct{}, 1)
regionID := int(derpFakeAddr.Port)
res := derpReadResult{regionID: regionID}
var pkt derp.ReceivedPacket
res.copyBuf = func(dst []byte) int {
n := copy(dst, pkt.Data)
didCopy <- struct{}{}
return n
}
// peerPresent is the set of senders we know are present on this
// connection, based on messages we've received from the server.
peerPresent := map[key.Public]bool{}
for {
msg, err := dc.Recv()
if err == derphttp.ErrClientClosed {
return
}
if err != nil {
// Forget that all these peers have routes.
for peer := range peerPresent {
delete(peerPresent, peer)
c.removeDerpPeerRoute(peer, regionID, dc)
}
select {
case <-ctx.Done():
return
default:
}
c.ReSTUN("derp-close")
c.logf("magicsock: [%p] derp.Recv(derp-%d): %v", dc, regionID, err)
// Avoid excessive spinning.
// TODO: use a backoff timer, perhaps between 10ms and 500ms?
// Don't want to sleep too long. For now 250ms seems fine.
select {
case <-ctx.Done():
return
case <-time.After(250 * time.Millisecond):
}
continue
}
switch m := msg.(type) {
case derp.ReceivedPacket:
pkt = m
res.n = len(m.Data)
res.src = m.Source
if logDerpVerbose {
c.logf("magicsock: got derp-%v packet: %q", regionID, m.Data)
}
// If this is a new sender we hadn't seen before, remember it and
// register a route for this peer.
if _, ok := peerPresent[m.Source]; !ok {
peerPresent[m.Source] = true
c.addDerpPeerRoute(m.Source, regionID, dc)
}
default:
// Ignore.
// TODO: handle endpoint notification messages.
continue
}
select {
case <-ctx.Done():
return
case c.derpRecvCh <- res:
select {
case <-ctx.Done():
return
case <-didCopy:
continue
}
}
}
}
type derpWriteRequest struct {
addr netaddr.IPPort
pubKey key.Public
b []byte // copied; ownership passed to receiver
}
// runDerpWriter runs in a goroutine for the life of a DERP
// connection, handling received packets.
func (c *Conn) runDerpWriter(ctx context.Context, dc *derphttp.Client, ch <-chan derpWriteRequest, wg *syncs.WaitGroupChan, startGate <-chan struct{}) {
defer wg.Decr()
select {
case <-startGate:
case <-ctx.Done():
return
}
for {
select {
case <-ctx.Done():
return
case wr := <-ch:
err := dc.Send(wr.pubKey, wr.b)
if err != nil {
c.logf("magicsock: derp.Send(%v): %v", wr.addr, err)
}
}
}
}
// findEndpoint maps from a UDP address to a WireGuard endpoint, for
// ReceiveIPv4/ReceiveIPv6.
// The provided addr and ipp must match.
//
// TODO(bradfitz): add a fast path that returns nil here for normal
// wireguard-go transport packets; wireguard-go only uses this
// Endpoint for the relatively rare non-data packets; but we need the
// Endpoint to find the UDPAddr to return to wireguard anyway, so no
// benefit unless we can, say, always return the same fake UDPAddr for
// all packets.
func (c *Conn) findEndpoint(ipp netaddr.IPPort, addr *net.UDPAddr) conn.Endpoint {
c.mu.Lock()
defer c.mu.Unlock()
// See if they have a discoEndpoint, for a set of peers
// both supporting active discovery.
if dk, ok := c.discoOfAddr[ipp]; ok {
if ep, ok := c.endpointOfDisco[dk]; ok {
return ep
}
}
// Pre-disco: look up their AddrSet.
if as, ok := c.addrsByUDP[ipp]; ok {
return as
}
// Pre-disco: the peer that sent this packet has roamed beyond
// the knowledge provided by the control server. If the
// packet is valid wireguard will call UpdateDst on the
// original endpoint using this addr.
return (*singleEndpoint)(addr)
}
type udpReadResult struct {
_ structs.Incomparable
n int
err error
addr *net.UDPAddr
ipp netaddr.IPPort
}
// aLongTimeAgo is a non-zero time, far in the past, used for
// immediate cancellation of network operations.
var aLongTimeAgo = time.Unix(233431200, 0)
// awaitUDP4 reads a single IPv4 UDP packet (or an error) and sends it
// to c.udpRecvCh, skipping over (but handling) any STUN replies.
func (c *Conn) awaitUDP4(b []byte) {
for {
n, pAddr, err := c.pconn4.ReadFrom(b)
if err != nil {
select {
case c.udpRecvCh <- udpReadResult{err: err}:
case <-c.donec():
}
return
}
addr := pAddr.(*net.UDPAddr)
ipp, ok := c.pconn4.ippCache.IPPort(addr)
if !ok {
continue
}
if stun.Is(b[:n]) {
c.stunReceiveFunc.Load().(func([]byte, netaddr.IPPort))(b[:n], ipp)
continue
}
if c.handleDiscoMessage(b[:n], ipp) {
continue
}
select {
case c.udpRecvCh <- udpReadResult{n: n, addr: addr, ipp: ipp}:
case <-c.donec():
}
return
}
}
// wgRecvAddr returns the net.UDPAddr we tell wireguard-go the address
// from which we received a packet for an endpoint.
//
// ipp is required. addr can be optionally provided.
func wgRecvAddr(e conn.Endpoint, ipp netaddr.IPPort, addr *net.UDPAddr) *net.UDPAddr {
if ipp == (netaddr.IPPort{}) {
panic("zero ipp")
}
if de, ok := e.(*discoEndpoint); ok {
return de.fakeWGAddrStd
}
if addr != nil {
return addr
}
return ipp.UDPAddr()
}
// noteRecvActivityFromEndpoint calls the c.noteRecvActivity hook if
// e is a discovery-capable peer and this is the first receive activity
// it's got in awhile (in last 10 seconds).
//
// This should be called whenever a packet arrives from e.
func (c *Conn) noteRecvActivityFromEndpoint(e conn.Endpoint) {
de, ok := e.(*discoEndpoint)
if ok && c.noteRecvActivity != nil && de.isFirstRecvActivityInAwhile() {
c.noteRecvActivity(de.discoKey)
}
}
func (c *Conn) ReceiveIPv4(b []byte) (n int, ep conn.Endpoint, addr *net.UDPAddr, err error) {
Top:
// First, process any buffered packet from earlier.
if from := c.bufferedIPv4From; from != (netaddr.IPPort{}) {
c.bufferedIPv4From = netaddr.IPPort{}
addr = from.UDPAddr()
ep := c.findEndpoint(from, addr)
c.noteRecvActivityFromEndpoint(ep)
return copy(b, c.bufferedIPv4Packet), ep, wgRecvAddr(ep, from, addr), nil
}
go c.awaitUDP4(b)
// Once the above goroutine has started, it owns b until it writes
// to udpRecvCh. The code below must not access b until it's
// completed a successful receive on udpRecvCh.
var addrSet *AddrSet
var discoEp *discoEndpoint
var ipp netaddr.IPPort
var didNoteRecvActivity bool
select {
case dm := <-c.derpRecvCh:
// Cancel the pconn read goroutine
c.pconn4.SetReadDeadline(aLongTimeAgo)
// Wait for the UDP-reading goroutine to be done, since it's currently
// the owner of the b []byte buffer:
select {
case um := <-c.udpRecvCh:
if um.err != nil {
// The normal case. The SetReadDeadline interrupted
// the read and we get an error which we now ignore.
} else {
// The pconn.ReadFrom succeeded and was about to send,
// but DERP sent first. So now we have both ready.
// Save the UDP packet away for use by the next
// ReceiveIPv4 call.
c.bufferedIPv4From = um.ipp
c.bufferedIPv4Packet = append(c.bufferedIPv4Packet[:0], b[:um.n]...)
}
c.pconn4.SetReadDeadline(time.Time{})
case <-c.donec():
return 0, nil, nil, errors.New("Conn closed")
}
var regionID int
n, regionID = dm.n, dm.regionID
ncopy := dm.copyBuf(b)
if ncopy != n {
err = fmt.Errorf("received DERP packet of length %d that's too big for WireGuard ReceiveIPv4 buf size %d", n, ncopy)
c.logf("magicsock: %v", err)
return 0, nil, nil, err
}
ipp = netaddr.IPPort{IP: derpMagicIPAddr, Port: uint16(regionID)}
if c.handleDiscoMessage(b[:n], ipp) {
goto Top
}
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
c.mu.Lock()
if dk, ok := c.discoOfNode[tailcfg.NodeKey(dm.src)]; ok {
discoEp = c.endpointOfDisco[dk]
// If we know about the node (it's in discoOfNode) but don't know about the
// endpoint, that's because it's an idle peer that doesn't yet exist in the
// wireguard config. So run the receive hook, if defined, which should
// create the wireguard peer.
if discoEp == nil && c.noteRecvActivity != nil {
didNoteRecvActivity = true
c.mu.Unlock() // release lock before calling noteRecvActivity
c.noteRecvActivity(dk) // (calls back into CreateEndpoint)
// Now require the lock. No invariants need to be rechecked; just
// 1-2 map lookups follow that are harmless if, say, the peer has
// been deleted during this time. In that case we'll treate it as a
// legacy pre-disco UDP receive and hand it to wireguard which'll
// likely just drop it.
c.mu.Lock()
discoEp = c.endpointOfDisco[dk]
c.logf("magicsock: DERP packet received from idle peer %v; created=%v", dm.src.ShortString(), discoEp != nil)
}
}
if discoEp == nil {
addrSet = c.addrsByKey[dm.src]
}
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
c.mu.Unlock()
if addrSet == nil && discoEp == nil {
key := wgcfg.Key(dm.src)
c.logf("magicsock: DERP packet from unknown key: %s", key.ShortString())
}
case um := <-c.udpRecvCh:
if um.err != nil {
return 0, nil, nil, err
}
n, addr, ipp = um.n, um.addr, um.ipp
case <-c.donec():
// Socket has been shut down. All the producers of packets
// respond to the context cancellation and go away, so we have
// to also unblock and return an error, to inform wireguard-go
// that this socket has gone away.
//
// Specifically, wireguard-go depends on its bind.Conn having
// the standard socket behavior, which is that a Close()
// unblocks any concurrent Read()s. wireguard-go itself calls
// Clos() on magicsock, and expects ReceiveIPv4 to unblock
// with an error so it can clean up.
return 0, nil, nil, errors.New("socket closed")
}
if addrSet != nil {
ep = addrSet
} else if discoEp != nil {
ep = discoEp
} else {
ep = c.findEndpoint(ipp, addr)
}
if !didNoteRecvActivity {
c.noteRecvActivityFromEndpoint(ep)
}
return n, ep, wgRecvAddr(ep, ipp, addr), nil
}
func (c *Conn) ReceiveIPv6(b []byte) (int, conn.Endpoint, *net.UDPAddr, error) {
if c.pconn6 == nil {
return 0, nil, nil, syscall.EAFNOSUPPORT
}
for {
n, pAddr, err := c.pconn6.ReadFrom(b)
if err != nil {
return 0, nil, nil, err
}
addr := pAddr.(*net.UDPAddr)
ipp, ok := c.pconn6.ippCache.IPPort(addr)
if !ok {
continue
}
if stun.Is(b[:n]) {
c.stunReceiveFunc.Load().(func([]byte, netaddr.IPPort))(b[:n], ipp)
continue
}
if c.handleDiscoMessage(b[:n], ipp) {
continue
}
ep := c.findEndpoint(ipp, addr)
c.noteRecvActivityFromEndpoint(ep)
return n, ep, wgRecvAddr(ep, ipp, addr), nil
}
}
// discoLogLevel controls the verbosity of discovery log messages.
type discoLogLevel int
const (
// discoLog means that a message should be logged.
discoLog discoLogLevel = iota
// discoVerboseLog means that a message should only be logged
// in TS_DEBUG_DISCO mode.
discoVerboseLog
)
func (c *Conn) sendDiscoMessage(dst netaddr.IPPort, dstKey tailcfg.NodeKey, dstDisco tailcfg.DiscoKey, m disco.Message, logLevel discoLogLevel) (sent bool, err error) {
c.mu.Lock()
if c.closed {
c.mu.Unlock()
return false, errConnClosed
}
var nonce [disco.NonceLen]byte
if _, err := crand.Read(nonce[:]); err != nil {
panic(err) // worth dying for
}
pkt := make([]byte, 0, 512) // TODO: size it correctly? pool? if it matters.
pkt = append(pkt, disco.Magic...)
pkt = append(pkt, c.discoPublic[:]...)
pkt = append(pkt, nonce[:]...)
sharedKey := c.sharedDiscoKeyLocked(dstDisco)
c.mu.Unlock()
pkt = box.SealAfterPrecomputation(pkt, m.AppendMarshal(nil), &nonce, sharedKey)
sent, err = c.sendAddr(dst, key.Public(dstKey), pkt)
if sent {
if logLevel == discoLog || (logLevel == discoVerboseLog && debugDisco) {
c.logf("magicsock: disco: %v->%v (%v, %v) sent %v", c.discoShort, dstDisco.ShortString(), dstKey.ShortString(), derpStr(dst.String()), disco.MessageSummary(m))
}
} else if err == nil {
// Can't send. (e.g. no IPv6 locally)
} else {
c.logf("magicsock: disco: failed to send %T to %v: %v", m, dst, err)
}
return sent, err
}
// handleDiscoMessage reports whether msg was a Tailscale inter-node discovery message
// that was handled.
//
// A discovery message has the form:
//
// * magic [6]byte
// * senderDiscoPubKey [32]byte
// * nonce [24]byte
// * naclbox of payload (see tailscale.com/disco package for inner payload format)
//
// For messages received over DERP, the addr will be derpMagicIP (with
// port being the region)
func (c *Conn) handleDiscoMessage(msg []byte, src netaddr.IPPort) bool {
const headerLen = len(disco.Magic) + len(tailcfg.DiscoKey{}) + disco.NonceLen
if len(msg) < headerLen || string(msg[:len(disco.Magic)]) != disco.Magic {
return false
}
var sender tailcfg.DiscoKey
copy(sender[:], msg[len(disco.Magic):])
c.mu.Lock()
defer c.mu.Unlock()
if c.closed {
return true
}
if debugDisco {
c.logf("magicsock: disco: got disco-looking frame from %v", sender.ShortString())
}
if c.privateKey.IsZero() {
// Ignore disco messages when we're stopped.
return false
}
if c.discoPrivate.IsZero() {
if debugDisco {
c.logf("magicsock: disco: ignoring disco-looking frame, no local key")
}
return false
}
peerNode, ok := c.nodeOfDisco[sender]
if !ok {
if debugDisco {
c.logf("magicsock: disco: ignoring disco-looking frame, don't know node for %v", sender.ShortString())
}
// Returning false keeps passing it down, to WireGuard.
// WireGuard will almost surely reject it, but give it a chance.
return false
}
needsRecvActivityCall := false
de, endpointFound0 := c.endpointOfDisco[sender]
if !endpointFound0 {
// We don't have an active endpoint for this sender but we knew about the node, so
// it's an idle endpoint that doesn't yet exist in the wireguard config. We now have
// to notify the userspace engine (via noteRecvActivity) so wireguard-go can create
// an Endpoint (ultimately calling our CreateEndpoint).
if debugDisco {
c.logf("magicsock: disco: got message from inactive peer %v", sender.ShortString())
}
if c.noteRecvActivity == nil {
c.logf("magicsock: [unexpected] have node without endpoint, without c.noteRecvActivity hook")
return false
}
needsRecvActivityCall = true
} else {
needsRecvActivityCall = de.isFirstRecvActivityInAwhile()
}
if needsRecvActivityCall && c.noteRecvActivity != nil {
// We can't hold Conn.mu while calling noteRecvActivity.
// noteRecvActivity acquires userspaceEngine.wgLock (and per our
// lock ordering rules: wgLock must come first), and also calls
// back into our Conn.CreateEndpoint, which would double-acquire
// Conn.mu.
c.mu.Unlock()
c.noteRecvActivity(sender)
c.mu.Lock() // re-acquire
// Now, recheck invariants that might've changed while we'd
// released the lock, which isn't much:
if c.closed || c.privateKey.IsZero() {
return true
}
de, ok = c.endpointOfDisco[sender]
if !ok {
if _, ok := c.nodeOfDisco[sender]; !ok {
// They just disappeared while we'd released the lock.
return false
}
c.logf("magicsock: [unexpected] lazy endpoint not created for %v, %v", peerNode.Key.ShortString(), sender.ShortString())
return false
}
if !endpointFound0 {
c.logf("magicsock: lazy endpoint created via disco message for %v, %v", peerNode.Key.ShortString(), sender.ShortString())
}
}
// First, do we even know (and thus care) about this sender? If not,
// don't bother decrypting it.
var nonce [disco.NonceLen]byte
copy(nonce[:], msg[len(disco.Magic)+len(key.Public{}):])
sealedBox := msg[headerLen:]
payload, ok := box.OpenAfterPrecomputation(nil, sealedBox, &nonce, c.sharedDiscoKeyLocked(sender))
if !ok {
// This might be have been intended for a previous
// disco key. When we restart we get a new disco key
// and old packets might've still been in flight (or
// scheduled). This is particularly the case for LANs
// or non-NATed endpoints.
// Don't log in normal case. Pass on to wireguard, in case
// it's actually a a wireguard packet (super unlikely,
// but).
if debugDisco {
c.logf("magicsock: disco: failed to open naclbox from %v (wrong rcpt?)", sender)
}
// TODO(bradfitz): add some counter for this that logs rarely
return false
}
dm, err := disco.Parse(payload)
if debugDisco {
c.logf("magicsock: disco: disco.Parse = %T, %v", dm, err)
}
if err != nil {
// Couldn't parse it, but it was inside a correctly
// signed box, so just ignore it, assuming it's from a
// newer version of Tailscale that we don't
// understand. Not even worth logging about, lest it
// be too spammy for old clients.
// TODO(bradfitz): add some counter for this that logs rarely
return true
}
switch dm := dm.(type) {
case *disco.Ping:
c.handlePingLocked(dm, de, src, sender, peerNode)
case *disco.Pong:
if de == nil {
return true
}
de.handlePongConnLocked(dm, src)
case disco.CallMeMaybe:
if src.IP != derpMagicIPAddr {
// CallMeMaybe messages should only come via DERP.
c.logf("[unexpected] CallMeMaybe packets should only come via DERP")
return true
}
if de != nil {
c.logf("magicsock: disco: %v<-%v (%v, %v) got call-me-maybe", c.discoShort, de.discoShort, de.publicKey.ShortString(), derpStr(src.String()))
go de.handleCallMeMaybe()
}
}
return true
}
func (c *Conn) handlePingLocked(dm *disco.Ping, de *discoEndpoint, src netaddr.IPPort, sender tailcfg.DiscoKey, peerNode *tailcfg.Node) {
if peerNode == nil {
c.logf("magicsock: disco: [unexpected] ignoring ping from unknown peer Node")
return
}
likelyHeartBeat := src == de.lastPingFrom && time.Since(de.lastPingTime) < 5*time.Second
de.lastPingFrom = src
de.lastPingTime = time.Now()
if !likelyHeartBeat || debugDisco {
c.logf("magicsock: disco: %v<-%v (%v, %v) got ping tx=%x", c.discoShort, de.discoShort, peerNode.Key.ShortString(), src, dm.TxID[:6])
}
// Remember this route if not present.
c.setAddrToDiscoLocked(src, sender, nil)
de.addCandidateEndpoint(src)
ipDst := src
discoDest := sender
go c.sendDiscoMessage(ipDst, peerNode.Key, discoDest, &disco.Pong{
TxID: dm.TxID,
Src: src,
}, discoVerboseLog)
}
// setAddrToDiscoLocked records that newk is at src.
//
// c.mu must be held.
//
// If the caller already has a discoEndpoint mutex held as well, it
// can be passed in as alreadyLocked so it won't be re-acquired during
// any lazy cleanup of the mapping.
func (c *Conn) setAddrToDiscoLocked(src netaddr.IPPort, newk tailcfg.DiscoKey, alreadyLocked *discoEndpoint) {
oldk, ok := c.discoOfAddr[src]
if ok && oldk == newk {
return
}
if ok {
c.logf("magicsock: disco: changing mapping of %v from %x=>%x", src, oldk.ShortString(), newk.ShortString())
} else {
c.logf("magicsock: disco: adding mapping of %v to %v", src, newk.ShortString())
}
c.discoOfAddr[src] = newk
if !ok {
c.cleanDiscoOfAddrLocked(alreadyLocked)
}
}
// cleanDiscoOfAddrLocked lazily checks a few entries in c.discoOfAddr
// and deletes them if they're stale. It has no pointers in it so we
// don't go through the effort of keeping it aggressively
// pruned. Instead, we lazily clean it whenever it grows.
//
// c.mu must be held.
//
// If the caller already has a discoEndpoint mutex held as well, it
// can be passed in as alreadyLocked so it won't be re-acquired.
func (c *Conn) cleanDiscoOfAddrLocked(alreadyLocked *discoEndpoint) {
// If it's small enough, don't worry about it.
if len(c.discoOfAddr) < 16 {
return
}
const checkEntries = 5 // per one unit of growth
// Take advantage of Go's random map iteration to check & clean
// a few entries.
n := 0
for ipp, dk := range c.discoOfAddr {
n++
if n > checkEntries {
return
}
de, ok := c.endpointOfDisco[dk]
if !ok {
// This discokey isn't even known anymore. Clean.
delete(c.discoOfAddr, ipp)
continue
}
if de != alreadyLocked {
de.mu.Lock()
}
if _, ok := de.endpointState[ipp]; !ok {
// The discoEndpoint no longer knows about that endpoint.
// It must've changed. Clean.
delete(c.discoOfAddr, ipp)
}
if de != alreadyLocked {
de.mu.Unlock()
}
}
}
func (c *Conn) sharedDiscoKeyLocked(k tailcfg.DiscoKey) *[32]byte {
if v, ok := c.sharedDiscoKey[k]; ok {
return v
}
shared := new([32]byte)
box.Precompute(shared, key.Public(k).B32(), c.discoPrivate.B32())
c.sharedDiscoKey[k] = shared
return shared
}
// SetPrivateKey sets the connection's private key.
//
// This is only used to be able prove our identity when connecting to
// DERP servers.
//
// If the private key changes, any DERP connections are torn down &
// recreated when needed.
func (c *Conn) SetPrivateKey(privateKey wgcfg.PrivateKey) error {
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
c.mu.Lock()
defer c.mu.Unlock()
oldKey, newKey := c.privateKey, key.Private(privateKey)
if newKey == oldKey {
return nil
}
c.privateKey = newKey
if oldKey.IsZero() {
c.everHadKey = true
c.logf("magicsock: SetPrivateKey called (init)")
if c.started {
go c.ReSTUN("set-private-key")
}
} else if newKey.IsZero() {
c.logf("magicsock: SetPrivateKey called (zeroed)")
c.closeAllDerpLocked("zero-private-key")
} else {
c.logf("magicsock: SetPrivateKey called (changed)")
c.closeAllDerpLocked("new-private-key")
}
// Key changed. Close existing DERP connections and reconnect to home.
if c.myDerp != 0 && !newKey.IsZero() {
c.logf("magicsock: private key changed, reconnecting to home derp-%d", c.myDerp)
c.goDerpConnect(c.myDerp)
}
if newKey.IsZero() {
for _, de := range c.endpointOfDisco {
de.stopAndReset()
}
}
return nil
}
// UpdatePeers is called when the set of WireGuard peers changes. It
// then removes any state for old peers.
//
// The caller passes ownership of newPeers map to UpdatePeers.
func (c *Conn) UpdatePeers(newPeers map[key.Public]struct{}) {
c.mu.Lock()
defer c.mu.Unlock()
oldPeers := c.peerSet
c.peerSet = newPeers
// Clean up any key.Public-keyed maps for peers that no longer
// exist.
for peer := range oldPeers {
if _, ok := newPeers[peer]; !ok {
delete(c.addrsByKey, peer)
delete(c.derpRoute, peer)
delete(c.peerLastDerp, peer)
}
}
if len(oldPeers) == 0 && len(newPeers) > 0 {
go c.ReSTUN("non-zero-peers")
}
}
// SetDERPMap controls which (if any) DERP servers are used.
// A nil value means to disable DERP; it's disabled by default.
func (c *Conn) SetDERPMap(dm *tailcfg.DERPMap) {
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
c.mu.Lock()
defer c.mu.Unlock()
if reflect.DeepEqual(dm, c.derpMap) {
return
}
c.derpMap = dm
if dm == nil {
c.closeAllDerpLocked("derp-disabled")
return
}
if c.started {
go c.ReSTUN("derp-map-update")
}
}
func nodesEqual(x, y []*tailcfg.Node) bool {
if len(x) != len(y) {
return false
}
for i := range x {
if !x[i].Equal(y[i]) {
return false
}
}
return true
}
// SetNetworkMap is called when the control client gets a new network
// map from the control server. It must always be non-nil.
//
// It should not use the DERPMap field of NetworkMap; that's
// conditionally sent to SetDERPMap instead.
func (c *Conn) SetNetworkMap(nm *controlclient.NetworkMap) {
c.mu.Lock()
defer c.mu.Unlock()
if c.netMap != nil && nodesEqual(c.netMap.Peers, nm.Peers) {
return
}
numDisco := 0
for _, n := range nm.Peers {
if n.DiscoKey.IsZero() {
continue
}
numDisco++
if ep, ok := c.endpointOfDisco[n.DiscoKey]; ok {
ep.updateFromNode(n)
}
}
c.logf("magicsock: got updated network map; %d peers (%d with discokey)", len(nm.Peers), numDisco)
c.netMap = nm
// Build and/or update node<->disco maps, only reallocating if
// the set of discokeys changed.
for pass := 1; pass <= 2; pass++ {
if c.nodeOfDisco == nil || pass == 2 {
c.nodeOfDisco = map[tailcfg.DiscoKey]*tailcfg.Node{}
c.discoOfNode = map[tailcfg.NodeKey]tailcfg.DiscoKey{}
}
for _, n := range nm.Peers {
if !n.DiscoKey.IsZero() {
c.nodeOfDisco[n.DiscoKey] = n
if old, ok := c.discoOfNode[n.Key]; ok && old != n.DiscoKey {
c.logf("magicsock: node %s changed discovery key from %x to %x", n.Key.ShortString(), old[:8], n.DiscoKey[:8])
}
c.discoOfNode[n.Key] = n.DiscoKey
}
}
if len(c.nodeOfDisco) == numDisco && len(c.discoOfNode) == numDisco {
break
}
}
// Clean c.endpointOfDisco for discovery keys that are no longer present.
for dk, de := range c.endpointOfDisco {
if _, ok := c.nodeOfDisco[dk]; !ok {
de.stopAndReset()
delete(c.endpointOfDisco, dk)
delete(c.sharedDiscoKey, dk)
}
}
}
func (c *Conn) wantDerpLocked() bool { return c.derpMap != nil }
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
// c.mu must be held.
func (c *Conn) closeAllDerpLocked(why string) {
if len(c.activeDerp) == 0 {
return // without the useless log statement
}
for i := range c.activeDerp {
c.closeDerpLocked(i, why)
}
c.logActiveDerpLocked()
}
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
// c.mu must be held.
// It is the responsibility of the caller to call logActiveDerpLocked after any set of closes.
func (c *Conn) closeDerpLocked(node int, why string) {
if ad, ok := c.activeDerp[node]; ok {
c.logf("magicsock: closing connection to derp-%v (%v), age %v", node, why, time.Since(ad.createTime).Round(time.Second))
go ad.c.Close()
ad.cancel()
delete(c.activeDerp, node)
}
}
// c.mu must be held.
func (c *Conn) logActiveDerpLocked() {
now := time.Now()
c.logf("magicsock: %v active derp conns%s", len(c.activeDerp), logger.ArgWriter(func(buf *bufio.Writer) {
if len(c.activeDerp) == 0 {
return
}
buf.WriteString(":")
c.foreachActiveDerpSortedLocked(func(node int, ad activeDerp) {
fmt.Fprintf(buf, " derp-%d=cr%v,wr%v", node, simpleDur(now.Sub(ad.createTime)), simpleDur(now.Sub(*ad.lastWrite)))
})
}))
}
func (c *Conn) logEndpointChange(endpoints []string, reasons map[string]string) {
c.logf("magicsock: endpoints changed: %s", logger.ArgWriter(func(buf *bufio.Writer) {
for i, ep := range endpoints {
if i > 0 {
buf.WriteString(", ")
}
fmt.Fprintf(buf, "%s (%s)", ep, reasons[ep])
}
}))
}
// c.mu must be held.
func (c *Conn) foreachActiveDerpSortedLocked(fn func(regionID int, ad activeDerp)) {
if len(c.activeDerp) < 2 {
for id, ad := range c.activeDerp {
fn(id, ad)
}
return
}
ids := make([]int, 0, len(c.activeDerp))
for id := range c.activeDerp {
ids = append(ids, id)
}
sort.Ints(ids)
for _, id := range ids {
fn(id, c.activeDerp[id])
}
}
func (c *Conn) cleanStaleDerp() {
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
c.mu.Lock()
defer c.mu.Unlock()
const inactivityTime = 60 * time.Second
tooOld := time.Now().Add(-inactivityTime)
dirty := false
for i, ad := range c.activeDerp {
if i == c.myDerp {
continue
}
if ad.lastWrite.Before(tooOld) {
c.closeDerpLocked(i, "idle")
dirty = true
}
}
if dirty {
c.logActiveDerpLocked()
}
}
// DERPs reports the number of active DERP connections.
func (c *Conn) DERPs() int {
c.mu.Lock()
defer c.mu.Unlock()
return len(c.activeDerp)
}
func (c *Conn) SetMark(value uint32) error { return nil }
func (c *Conn) LastMark() uint32 { return 0 }
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
// Close closes the connection.
//
// Only the first close does anything. Any later closes return nil.
func (c *Conn) Close() error {
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
c.mu.Lock()
if c.closed {
c.mu.Unlock()
return nil
}
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
defer c.mu.Unlock()
for _, ep := range c.endpointOfDisco {
ep.stopAndReset()
}
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
c.closed = true
c.connCtxCancel()
c.closeAllDerpLocked("conn-close")
if c.pconn6 != nil {
c.pconn6.Close()
}
err := c.pconn4.Close()
// Wait on goroutines updating right at the end, once everything is
// already closed. We want everything else in the Conn to be
// consistently in the closed state before we release mu to wait
// on the endpoint updater & derphttp.Connect.
for c.goroutinesRunningLocked() {
c.muCond.Wait()
}
return err
}
func (c *Conn) goroutinesRunningLocked() bool {
if c.endpointsUpdateActive {
return true
}
// The goroutine running dc.Connect in derpWriteChanOfAddr may linger
// and appear to leak, as observed in https://github.com/tailscale/tailscale/issues/554.
// This is despite the underlying context being cancelled by connCtxCancel above.
// To avoid this condition, we must wait on derpStarted here
// to ensure that this goroutine has exited by the time Close returns.
// We only do this if derpWriteChanOfAddr has executed at least once:
// on the first run, it sets firstDerp := true and spawns the aforementioned goroutine.
// To detect this, we check activeDerp, which is initialized to non-nil on the first run.
if c.activeDerp != nil {
select {
case <-c.derpStarted:
break
default:
return true
}
}
return false
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
}
func maxIdleBeforeSTUNShutdown() time.Duration {
if debugReSTUNStopOnIdle {
return time.Minute
}
return 5 * time.Minute
}
func (c *Conn) shouldDoPeriodicReSTUN() bool {
c.mu.Lock()
defer c.mu.Unlock()
if len(c.peerSet) == 0 {
// No peers, so not worth doing.
return false
}
// If it turns out this optimization was a mistake, we can
// override it from the control server without waiting for a
// new software rollout:
if c.netMap != nil && c.netMap.Debug != nil && c.netMap.Debug.ForceBackgroundSTUN && !debugReSTUNStopOnIdle {
return true
}
if f := c.idleFunc; f != nil {
idleFor := f()
if debugReSTUNStopOnIdle {
c.logf("magicsock: periodicReSTUN: idle for %v", idleFor.Round(time.Second))
}
if idleFor > maxIdleBeforeSTUNShutdown() {
if debugReSTUNStopOnIdle || version.IsMobile() { // TODO: make this unconditional later
return false
}
}
}
return true
}
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
func (c *Conn) periodicReSTUN() {
prand := rand.New(rand.NewSource(time.Now().UnixNano()))
dur := func() time.Duration {
// Just under 30s, a common UDP NAT timeout (Linux at least)
return time.Duration(20+prand.Intn(7)) * time.Second
}
timer := time.NewTimer(dur())
defer timer.Stop()
var lastIdleState opt.Bool
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
for {
select {
case <-c.donec():
return
case <-timer.C:
doReSTUN := c.shouldDoPeriodicReSTUN()
if !lastIdleState.EqualBool(doReSTUN) {
if doReSTUN {
c.logf("magicsock: periodicReSTUN enabled")
} else {
c.logf("magicsock: periodicReSTUN disabled due to inactivity")
}
lastIdleState.Set(doReSTUN)
}
if doReSTUN {
c.ReSTUN("periodic")
}
timer.Reset(dur())
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
}
}
}
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
func (c *Conn) periodicDerpCleanup() {
ticker := time.NewTicker(15 * time.Second) // arbitrary
defer ticker.Stop()
for {
select {
case <-c.donec():
return
case <-ticker.C:
c.cleanStaleDerp()
}
}
}
// ReSTUN triggers an address discovery.
// The provided why string is for debug logging only.
func (c *Conn) ReSTUN(why string) {
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
c.mu.Lock()
defer c.mu.Unlock()
if !c.started {
panic("call to ReSTUN before Start")
}
if c.closed {
// raced with a shutdown.
return
}
// If the user stopped the app, stop doing work. (When the
// user stops Tailscale via the GUI apps, ipn/local.go
// reconfigures the engine with a zero private key.)
//
// This used to just check c.privateKey.IsZero, but that broke
// some end-to-end tests tests that didn't ever set a private
// key somehow. So for now, only stop doing work if we ever
// had a key, which helps real users, but appeases tests for
// now. TODO: rewrite those tests to be less brittle or more
// realistic.
if c.privateKey.IsZero() && c.everHadKey {
c.logf("magicsock: ReSTUN(%q) ignored; stopped, no private key", why)
return
}
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
if c.endpointsUpdateActive {
if c.wantEndpointsUpdate != why {
c.logf("magicsock: ReSTUN: endpoint update active, need another later (%q)", why)
wgengine/magicsock: don't interrupt endpoint updates, merge all mutex into one Before, endpoint updates were constantly being interrupted and resumed on Linux due to tons of LinkChange messages from over-zealous Linux netlink messages (from router_linux.go) Now that endpoint updates are fast and bounded in time anyway, just let them run to completion, but note that another needs to be scheduled after. Now logs went from pages of noise to just: root@taildoc:~# grep -i -E 'stun|endpoint update' log 2020/03/13 08:51:29 magicsock.Conn: starting endpoint update (initial) 2020/03/13 08:51:30 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:31 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:31 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:33 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:33 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") 2020/03/13 08:51:35 magicsock.Conn: starting endpoint update (link-change-minor) 2020/03/13 08:51:35 magicsock.Conn.ReSTUN: endpoint update active, need another later ("link-change-minor") Or, seen in another run: 2020/03/13 08:45:41 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:09 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:46:21 magicsock.Conn: starting endpoint update (link-change-major) 2020/03/13 08:46:37 magicsock.Conn: starting endpoint update (periodic) 2020/03/13 08:47:05 magicsock.Conn: starting endpoint update (periodic) Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
5 years ago
c.wantEndpointsUpdate = why
}
} else {
c.endpointsUpdateActive = true
go c.updateEndpoints(why)
}
}
func (c *Conn) initialBind() error {
if err := c.bind1(&c.pconn4, "udp4"); err != nil {
return err
}
if err := c.bind1(&c.pconn6, "udp6"); err != nil {
c.logf("magicsock: ignoring IPv6 bind failure: %v", err)
}
return nil
}
func (c *Conn) listenPacket(ctx context.Context, network, addr string) (net.PacketConn, error) {
if c.packetListener != nil {
return c.packetListener.ListenPacket(ctx, network, addr)
}
return netns.Listener().ListenPacket(ctx, network, addr)
}
func (c *Conn) bind1(ruc **RebindingUDPConn, which string) error {
host := ""
if inTest() {
host = "127.0.0.1"
}
var pc net.PacketConn
var err error
listenCtx := context.Background() // unused without DNS name to resolve
if c.pconnPort == 0 && DefaultPort != 0 {
pc, err = c.listenPacket(listenCtx, which, fmt.Sprintf("%s:%d", host, DefaultPort))
if err != nil {
c.logf("magicsock: bind: default port %s/%v unavailable; picking random", which, DefaultPort)
}
}
if pc == nil {
pc, err = c.listenPacket(listenCtx, which, fmt.Sprintf("%s:%d", host, c.pconnPort))
}
if err != nil {
c.logf("magicsock: bind(%s/%v): %v", which, c.pconnPort, err)
return fmt.Errorf("magicsock: bind: %s/%d: %v", which, c.pconnPort, err)
}
if *ruc == nil {
*ruc = new(RebindingUDPConn)
}
(*ruc).Reset(pc)
return nil
}
// Rebind closes and re-binds the UDP sockets.
// It should be followed by a call to ReSTUN.
func (c *Conn) Rebind() {
host := ""
if inTest() {
host = "127.0.0.1"
}
listenCtx := context.Background() // unused without DNS name to resolve
if c.pconnPort != 0 {
c.pconn4.mu.Lock()
if err := c.pconn4.pconn.Close(); err != nil {
c.logf("magicsock: link change close failed: %v", err)
}
packetConn, err := c.listenPacket(listenCtx, "udp4", fmt.Sprintf("%s:%d", host, c.pconnPort))
if err == nil {
c.logf("magicsock: link change rebound port: %d", c.pconnPort)
c.pconn4.pconn = packetConn.(*net.UDPConn)
c.pconn4.mu.Unlock()
return
}
c.logf("magicsock: link change unable to bind fixed port %d: %v, falling back to random port", c.pconnPort, err)
c.pconn4.mu.Unlock()
}
c.logf("magicsock: link change, binding new port")
packetConn, err := c.listenPacket(listenCtx, "udp4", host+":0")
if err != nil {
c.logf("magicsock: link change failed to bind new port: %v", err)
return
}
c.pconn4.Reset(packetConn.(*net.UDPConn))
c.mu.Lock()
c.closeAllDerpLocked("rebind")
haveKey := !c.privateKey.IsZero()
c.mu.Unlock()
if haveKey {
c.goDerpConnect(c.myDerp)
}
c.resetAddrSetStates()
}
// resetAddrSetStates resets the preferred address for all peers and
// re-enables spraying.
// This is called when connectivity changes enough that we no longer
// trust the old routes.
func (c *Conn) resetAddrSetStates() {
c.mu.Lock()
defer c.mu.Unlock()
for _, as := range c.addrsByKey {
as.curAddr = -1
as.stopSpray = as.timeNow().Add(sprayPeriod)
}
for _, de := range c.endpointOfDisco {
de.noteConnectivityChange()
}
}
// AddrSet is a set of UDP addresses that implements wireguard/conn.Endpoint.
//
// This is the legacy endpoint for peers that don't support discovery;
// it predates discoEndpoint.
type AddrSet struct {
publicKey key.Public // peer public key used for DERP communication
// addrs is an ordered priority list provided by wgengine,
// sorted from expensive+slow+reliable at the begnining to
// fast+cheap at the end. More concretely, it's typically:
//
// [DERP fakeip:node, Global IP:port, LAN ip:port]
//
// But there could be multiple or none of each.
addrs []net.UDPAddr
ipPorts []netaddr.IPPort // same as addrs, in different form
// clock, if non-nil, is used in tests instead of time.Now.
clock func() time.Time
Logf logger.Logf // must not be nil
mu sync.Mutex // guards following fields
lastSend time.Time
// roamAddr is non-nil if/when we receive a correctly signed
// WireGuard packet from an unexpected address. If so, we
// remember it and send responses there in the future, but
// this should hopefully never be used (or at least used
// rarely) in the case that all the components of Tailscale
// are correctly learning/sharing the network map details.
roamAddr *netaddr.IPPort
roamAddrStd *net.UDPAddr
// curAddr is an index into addrs of the highest-priority
// address a valid packet has been received from so far.
// If no valid packet from addrs has been received, curAddr is -1.
curAddr int
// stopSpray is the time after which we stop spraying packets.
stopSpray time.Time
// lastSpray is the last time we sprayed a packet.
lastSpray time.Time
// loggedLogPriMask is a bit field of that tracks whether
// we've already logged about receiving a packet from a low
// priority ("low-pri") address when we already have curAddr
// set to a better one. This is only to suppress some
// redundant logs.
loggedLogPriMask uint32
}
// derpID returns this AddrSet's home DERP node, or 0 if none is found.
func (as *AddrSet) derpID() int {
for _, ua := range as.addrs {
if ua.IP.Equal(derpMagicIP) {
return ua.Port
}
}
return 0
}
func (as *AddrSet) timeNow() time.Time {
if as.clock != nil {
return as.clock()
}
return time.Now()
}
var noAddr, _ = netaddr.FromStdAddr(net.ParseIP("127.127.127.127"), 127, "")
func (a *AddrSet) dst() netaddr.IPPort {
a.mu.Lock()
defer a.mu.Unlock()
if a.roamAddr != nil {
return *a.roamAddr
}
if len(a.addrs) == 0 {
return noAddr
}
i := a.curAddr
if i == -1 {
i = 0
}
return a.ipPorts[i]
}
// packUDPAddr packs a UDPAddr in the form wanted by WireGuard.
func packUDPAddr(ua *net.UDPAddr) []byte {
ip := ua.IP.To4()
if ip == nil {
ip = ua.IP
}
b := make([]byte, 0, len(ip)+2)
b = append(b, ip...)
b = append(b, byte(ua.Port))
b = append(b, byte(ua.Port>>8))
return b
}
// packIPPort packs an IPPort into the form wanted by WireGuard.
func packIPPort(ua netaddr.IPPort) []byte {
ip := ua.IP.Unmap()
a := ip.As16()
ipb := a[:]
if ip.Is4() {
ipb = ipb[12:]
}
b := make([]byte, 0, len(ipb)+2)
b = append(b, ipb...)
b = append(b, byte(ua.Port))
b = append(b, byte(ua.Port>>8))
return b
}
func (a *AddrSet) DstToBytes() []byte {
return packIPPort(a.dst())
}
func (a *AddrSet) DstToString() string {
dst := a.dst()
return dst.String()
}
func (a *AddrSet) DstIP() net.IP {
return a.dst().IP.IPAddr().IP // TODO: add netaddr accessor to cut an alloc here?
}
func (a *AddrSet) SrcIP() net.IP { return nil }
func (a *AddrSet) SrcToString() string { return "" }
func (a *AddrSet) ClearSrc() {}
func (a *AddrSet) UpdateDst(new *net.UDPAddr) error {
if new.IP.Equal(derpMagicIP) {
// Never consider DERP addresses as a viable candidate for
// either curAddr or roamAddr. It's only ever a last resort
// choice, never a preferred choice.
// This is a hot path for established connections.
return nil
}
a.mu.Lock()
defer a.mu.Unlock()
if a.roamAddrStd != nil && equalUDPAddr(new, a.roamAddrStd) {
// Packet from the current roaming address, no logging.
// This is a hot path for established connections.
return nil
}
if a.roamAddr == nil && a.curAddr >= 0 && equalUDPAddr(new, &a.addrs[a.curAddr]) {
// Packet from current-priority address, no logging.
// This is a hot path for established connections.
return nil
}
newa, ok := netaddr.FromStdAddr(new.IP, new.Port, new.Zone)
if !ok {
return nil
}
index := -1
for i := range a.addrs {
if equalUDPAddr(new, &a.addrs[i]) {
index = i
break
}
}
publicKey := wgcfg.Key(a.publicKey)
pk := publicKey.ShortString()
old := "<none>"
if a.curAddr >= 0 {
old = a.addrs[a.curAddr].String()
}
switch {
case index == -1:
if a.roamAddr == nil {
a.Logf("magicsock: rx %s from roaming address %s, set as new priority", pk, new)
} else {
a.Logf("magicsock: rx %s from roaming address %s, replaces roaming address %s", pk, new, a.roamAddr)
}
a.roamAddr = &newa
a.roamAddrStd = new
case a.roamAddr != nil:
a.Logf("magicsock: rx %s from known %s (%d), replaces roaming address %s", pk, new, index, a.roamAddr)
a.roamAddr = nil
a.roamAddrStd = nil
a.curAddr = index
a.loggedLogPriMask = 0
case a.curAddr == -1:
a.Logf("magicsock: rx %s from %s (%d/%d), set as new priority", pk, new, index, len(a.addrs))
a.curAddr = index
a.loggedLogPriMask = 0
case index < a.curAddr:
if 1 <= index && index <= 32 && (a.loggedLogPriMask&1<<(index-1)) == 0 {
a.Logf("magicsock: rx %s from low-pri %s (%d), keeping current %s (%d)", pk, new, index, old, a.curAddr)
a.loggedLogPriMask |= 1 << (index - 1)
}
default: // index > a.curAddr
a.Logf("magicsock: rx %s from %s (%d/%d), replaces old priority %s", pk, new, index, len(a.addrs), old)
a.curAddr = index
a.loggedLogPriMask = 0
}
return nil
}
func equalUDPAddr(x, y *net.UDPAddr) bool {
return x.Port == y.Port && x.IP.Equal(y.IP)
}
func (a *AddrSet) String() string {
a.mu.Lock()
defer a.mu.Unlock()
buf := new(strings.Builder)
buf.WriteByte('[')
if a.roamAddr != nil {
buf.WriteString("roam:")
sbPrintAddr(buf, *a.roamAddrStd)
}
for i, addr := range a.addrs {
if i > 0 || a.roamAddr != nil {
buf.WriteString(", ")
}
sbPrintAddr(buf, addr)
if a.curAddr == i {
buf.WriteByte('*')
}
}
buf.WriteByte(']')
return buf.String()
}
func (as *AddrSet) populatePeerStatus(ps *ipnstate.PeerStatus) {
as.mu.Lock()
defer as.mu.Unlock()
ps.LastWrite = as.lastSend
for i, ua := range as.addrs {
if ua.IP.Equal(derpMagicIP) {
continue
}
uaStr := ua.String()
ps.Addrs = append(ps.Addrs, uaStr)
if as.curAddr == i {
ps.CurAddr = uaStr
}
}
if as.roamAddr != nil {
ps.CurAddr = udpAddrDebugString(*as.roamAddrStd)
}
}
func (a *AddrSet) Addrs() []wgcfg.Endpoint {
var eps []wgcfg.Endpoint
for _, addr := range a.addrs {
eps = append(eps, wgcfg.Endpoint{
Host: addr.IP.String(),
Port: uint16(addr.Port),
})
}
a.mu.Lock()
defer a.mu.Unlock()
if a.roamAddr != nil {
eps = append(eps, wgcfg.Endpoint{
Host: a.roamAddr.IP.String(),
Port: uint16(a.roamAddr.Port),
})
}
return eps
}
// CreateBind is called by WireGuard to create a UDP binding.
func (c *Conn) CreateBind(uint16) (conn.Bind, uint16, error) {
return c, c.LocalPort(), nil
}
// CreateEndpoint is called by WireGuard to connect to an endpoint.
//
// The key is the public key of the peer and addrs is either:
//
// 1) a comma-separated list of UDP ip:ports (the the peer doesn't have a discovery key)
// 2) "<hex-discovery-key>.disco.tailscale:12345", a magic value that means the peer
// is running code that supports active discovery, so CreateEndpoint returns
// a discoEndpoint.
//
func (c *Conn) CreateEndpoint(pubKey [32]byte, addrs string) (conn.Endpoint, error) {
c.mu.Lock()
defer c.mu.Unlock()
pk := key.Public(pubKey)
c.logf("magicsock: CreateEndpoint: key=%s: %s", pk.ShortString(), derpStr(addrs))
if strings.HasSuffix(addrs, controlclient.EndpointDiscoSuffix) {
discoHex := strings.TrimSuffix(addrs, controlclient.EndpointDiscoSuffix)
discoKey, err := key.NewPublicFromHexMem(mem.S(discoHex))
if err != nil {
return nil, fmt.Errorf("magicsock: invalid discokey endpoint %q for %v: %w", addrs, pk.ShortString(), err)
}
de := &discoEndpoint{
c: c,
publicKey: tailcfg.NodeKey(pk), // peer public key (for WireGuard + DERP)
discoKey: tailcfg.DiscoKey(discoKey), // for discovery mesages
discoShort: tailcfg.DiscoKey(discoKey).ShortString(),
wgEndpointHostPort: addrs,
sentPing: map[stun.TxID]sentPing{},
endpointState: map[netaddr.IPPort]*endpointState{},
}
de.initFakeUDPAddr()
de.updateFromNode(c.nodeOfDisco[de.discoKey])
c.endpointOfDisco[de.discoKey] = de
return de, nil
}
a := &AddrSet{
Logf: c.logf,
publicKey: pk,
curAddr: -1,
}
if addrs != "" {
for _, ep := range strings.Split(addrs, ",") {
ipp, err := netaddr.ParseIPPort(ep)
if err != nil {
return nil, fmt.Errorf("bogus address %q", ep)
}
a.ipPorts = append(a.ipPorts, ipp)
a.addrs = append(a.addrs, *ipp.UDPAddr())
}
}
// If this endpoint is being updated, remember its old set of
// endpoints so we can remove any (from c.addrsByUDP) that are
// not in the new set.
var oldIPP []netaddr.IPPort
if preva, ok := c.addrsByKey[pk]; ok {
oldIPP = preva.ipPorts
}
c.addrsByKey[pk] = a
// Add entries to c.addrsByUDP.
for _, ipp := range a.ipPorts {
if ipp.IP == derpMagicIPAddr {
continue
}
c.addrsByUDP[ipp] = a
}
// Remove previous c.addrsByUDP entries that are no longer in the new set.
for _, ipp := range oldIPP {
if ipp.IP != derpMagicIPAddr && c.addrsByUDP[ipp] != a {
delete(c.addrsByUDP, ipp)
}
}
return a, nil
}
// singleEndpoint is a wireguard-go/conn.Endpoint used for "roaming
// addressed" in releases of Tailscale that predate discovery
// messages. New peers use discoEndpoint.
type singleEndpoint net.UDPAddr
func (e *singleEndpoint) ClearSrc() {}
func (e *singleEndpoint) DstIP() net.IP { return (*net.UDPAddr)(e).IP }
func (e *singleEndpoint) SrcIP() net.IP { return nil }
func (e *singleEndpoint) SrcToString() string { return "" }
func (e *singleEndpoint) DstToString() string { return (*net.UDPAddr)(e).String() }
func (e *singleEndpoint) DstToBytes() []byte { return packUDPAddr((*net.UDPAddr)(e)) }
func (e *singleEndpoint) UpdateDst(dst *net.UDPAddr) error {
return fmt.Errorf("magicsock.singleEndpoint(%s).UpdateDst(%s): should never be called", (*net.UDPAddr)(e), dst)
}
func (e *singleEndpoint) Addrs() []wgcfg.Endpoint {
return []wgcfg.Endpoint{{
Host: e.IP.String(),
Port: uint16(e.Port),
}}
}
// RebindingUDPConn is a UDP socket that can be re-bound.
// Unix has no notion of re-binding a socket, so we swap it out for a new one.
type RebindingUDPConn struct {
// ippCache is a cache from UDPAddr => netaddr.IPPort. It's not safe for concurrent use.
// This is used by ReceiveIPv6 and awaitUDP4 (called from ReceiveIPv4).
ippCache ippCache
mu sync.Mutex
pconn net.PacketConn
}
func (c *RebindingUDPConn) Reset(pconn net.PacketConn) {
c.mu.Lock()
old := c.pconn
c.pconn = pconn
c.mu.Unlock()
if old != nil {
old.Close()
}
}
func (c *RebindingUDPConn) ReadFrom(b []byte) (int, net.Addr, error) {
for {
c.mu.Lock()
pconn := c.pconn
c.mu.Unlock()
n, addr, err := pconn.ReadFrom(b)
if err != nil {
c.mu.Lock()
pconn2 := c.pconn
c.mu.Unlock()
if pconn != pconn2 {
continue
}
}
return n, addr, err
}
}
func (c *RebindingUDPConn) LocalAddr() *net.UDPAddr {
c.mu.Lock()
defer c.mu.Unlock()
return c.pconn.LocalAddr().(*net.UDPAddr)
}
func (c *RebindingUDPConn) Close() error {
c.mu.Lock()
defer c.mu.Unlock()
return c.pconn.Close()
}
func (c *RebindingUDPConn) SetReadDeadline(t time.Time) {
c.mu.Lock()
defer c.mu.Unlock()
c.pconn.SetReadDeadline(t)
}
func (c *RebindingUDPConn) WriteToUDP(b []byte, addr *net.UDPAddr) (int, error) {
for {
c.mu.Lock()
pconn := c.pconn
c.mu.Unlock()
n, err := pconn.WriteTo(b, addr)
if err != nil {
c.mu.Lock()
pconn2 := c.pconn
c.mu.Unlock()
if pconn != pconn2 {
continue
}
}
return n, err
}
}
func (c *RebindingUDPConn) WriteTo(b []byte, addr net.Addr) (int, error) {
for {
c.mu.Lock()
pconn := c.pconn
c.mu.Unlock()
n, err := pconn.WriteTo(b, addr)
if err != nil {
c.mu.Lock()
pconn2 := c.pconn
c.mu.Unlock()
if pconn != pconn2 {
continue
}
}
return n, err
}
}
// simpleDur rounds d such that it stringifies to something short.
func simpleDur(d time.Duration) time.Duration {
if d < time.Second {
return d.Round(time.Millisecond)
}
if d < time.Minute {
return d.Round(time.Second)
}
return d.Round(time.Minute)
}
func peerShort(k key.Public) string {
k2 := wgcfg.Key(k)
return k2.ShortString()
}
func sbPrintAddr(sb *strings.Builder, a net.UDPAddr) {
is6 := a.IP.To4() == nil
if is6 {
sb.WriteByte('[')
}
fmt.Fprintf(sb, "%s", a.IP)
if is6 {
sb.WriteByte(']')
}
fmt.Fprintf(sb, ":%d", a.Port)
}
func (c *Conn) derpRegionCodeOfAddrLocked(ipPort string) string {
_, portStr, err := net.SplitHostPort(ipPort)
if err != nil {
return ""
}
regionID, err := strconv.Atoi(portStr)
if err != nil {
return ""
}
return c.derpRegionCodeOfIDLocked(regionID)
}
func (c *Conn) derpRegionCodeOfIDLocked(regionID int) string {
if c.derpMap == nil {
return ""
}
if r, ok := c.derpMap.Regions[regionID]; ok {
return r.RegionCode
}
return ""
}
func (c *Conn) UpdateStatus(sb *ipnstate.StatusBuilder) {
c.mu.Lock()
defer c.mu.Unlock()
ss := &ipnstate.PeerStatus{
PublicKey: c.privateKey.Public(),
Addrs: c.lastEndpoints,
}
if c.netMap != nil {
ss.HostName = c.netMap.Hostinfo.Hostname
ss.OS = c.netMap.Hostinfo.OS
}
if c.derpMap != nil {
derpRegion, ok := c.derpMap.Regions[c.myDerp]
if ok {
ss.Relay = derpRegion.RegionCode
}
}
if c.netMap != nil {
for _, addr := range c.netMap.Addresses {
if (addr.IP.Is4() && addr.Mask != 32) || (addr.IP.Is6() && addr.Mask != 128) {
continue
}
if ip, ok := netaddr.FromStdIP(addr.IP.IP()); ok {
sb.AddTailscaleIP(ip)
ss.TailAddr = ip.String()
}
}
}
sb.SetSelfStatus(ss)
for dk, n := range c.nodeOfDisco {
ps := &ipnstate.PeerStatus{InMagicSock: true}
ps.Addrs = append(ps.Addrs, n.Endpoints...)
ps.Relay = c.derpRegionCodeOfAddrLocked(n.DERP)
if de, ok := c.endpointOfDisco[dk]; ok {
de.populatePeerStatus(ps)
}
sb.AddPeer(key.Public(n.Key), ps)
}
// Old-style (pre-disco) peers:
for k, as := range c.addrsByKey {
ps := &ipnstate.PeerStatus{
InMagicSock: true,
Relay: c.derpRegionCodeOfIDLocked(as.derpID()),
}
as.populatePeerStatus(ps)
sb.AddPeer(k, ps)
}
c.foreachActiveDerpSortedLocked(func(node int, ad activeDerp) {
// TODO(bradfitz): add to ipnstate.StatusBuilder
//f("<li><b>derp-%v</b>: cr%v,wr%v</li>", node, simpleDur(now.Sub(ad.createTime)), simpleDur(now.Sub(*ad.lastWrite)))
})
}
func udpAddrDebugString(ua net.UDPAddr) string {
if ua.IP.Equal(derpMagicIP) {
return fmt.Sprintf("derp-%d", ua.Port)
}
return ua.String()
}
// discoEndpoint is a wireguard/conn.Endpoint for new-style peers that
// advertise a DiscoKey and participate in active discovery.
type discoEndpoint struct {
// atomically accessed; declared first for alignment reasons
lastRecvUnixAtomic int64
// These fields are initialized once and never modified.
c *Conn
publicKey tailcfg.NodeKey // peer public key (for WireGuard + DERP)
discoKey tailcfg.DiscoKey // for discovery mesages
discoShort string // ShortString of discoKey
fakeWGAddr netaddr.IPPort // the UDP address we tell wireguard-go we're using
fakeWGAddrStd *net.UDPAddr // the *net.UDPAddr form of fakeWGAddr
wgEndpointHostPort string // string from CreateEndpoint: "<hex-discovery-key>.disco.tailscale:12345"
// Owned by Conn.mu:
lastPingFrom netaddr.IPPort
lastPingTime time.Time
// mu protects all following fields.
mu sync.Mutex // Lock ordering: Conn.mu, then discoEndpoint.mu
heartBeatTimer *time.Timer // nil when idle
lastSend time.Time // last time there was outgoing packets sent to this peer (from wireguard-go)
lastFullPing time.Time // last time we pinged all endpoints
derpAddr netaddr.IPPort // fallback/bootstrap path, if non-zero (non-zero for well-behaved clients)
bestAddr netaddr.IPPort // best non-DERP path; zero if none
bestAddrLatency time.Duration
bestAddrAt time.Time // time best address re-confirmed
trustBestAddrUntil time.Time // time when bestAddr expires
sentPing map[stun.TxID]sentPing
endpointState map[netaddr.IPPort]*endpointState
pendingCLIPings []pendingCLIPing // any outstanding "tailscale ping" commands running
}
type pendingCLIPing struct {
res *ipnstate.PingResult
cb func(*ipnstate.PingResult)
}
const (
// sessionActiveTimeout is how long since the last activity we
// try to keep an established discoEndpoint peering alive.
sessionActiveTimeout = 2 * time.Minute
// upgradeInterval is how often we try to upgrade to a better path
// even if we have some non-DERP route that works.
upgradeInterval = 1 * time.Minute
// heartbeatInterval is how often pings to the best UDP address
// are sent.
heartbeatInterval = 2 * time.Second
// discoPingInterval is the minimum time between pings
// to an endpoint. (Except in the case of CallMeMaybe frames
// resetting the counter, as the first pings likely didn't through
// the firewall)
discoPingInterval = 5 * time.Second
// pingTimeoutDuration is how long we wait for a pong reply before
// assuming it's never coming.
pingTimeoutDuration = 5 * time.Second
// trustUDPAddrDuration is how long we trust a UDP address as the exclusive
// path (without using DERP) without having heard a Pong reply.
trustUDPAddrDuration = 5 * time.Second
// goodEnoughLatency is the latency at or under which we don't
// try to upgrade to a better path.
goodEnoughLatency = 5 * time.Millisecond
)
// endpointState is some state and history for a specific endpoint of
// a discoEndpoint. (The subject is the discoEndpoint.endpointState
// map key)
type endpointState struct {
// all fields guarded by discoEndpoint.mu
// lastPing is the last (outgoing) ping time.
lastPing time.Time
// lastGotPing, if non-zero, means that this was an endpoint
// that we learned about at runtime (from an incoming ping)
// and that is not in the network map. If so, we keep the time
// updated and use it to discard old candidates.
lastGotPing time.Time
recentPongs []pongReply // ring buffer up to pongHistoryCount entries
recentPong uint16 // index into recentPongs of most recent; older before, wrapped
index int16 // index in nodecfg.Node.Endpoints; meaningless if lastGotPing non-zero
}
// indexSentinelDeleted is the temporary value that endpointState.index takes while
// a discoEndpoint's endpoints are being updated from a new network map.
const indexSentinelDeleted = -1
// shouldDeleteLocked reports whether we should delete this endpoint.
func (st *endpointState) shouldDeleteLocked() bool {
switch {
case st.lastGotPing.IsZero():
// This was an endpoint from the network map. Is it still in the network map?
return st.index == indexSentinelDeleted
default:
// Thiw was an endpoint discovered at runtime.
return time.Since(st.lastGotPing) > sessionActiveTimeout
}
}
func (de *discoEndpoint) deleteEndpointLocked(ep netaddr.IPPort) {
delete(de.endpointState, ep)
if de.bestAddr == ep {
de.bestAddr = netaddr.IPPort{}
}
}
// pongHistoryCount is how many pongReply values we keep per endpointState
const pongHistoryCount = 64
type pongReply struct {
latency time.Duration
pongAt time.Time // when we received the pong
from netaddr.IPPort // the pong's src (usually same as endpoint map key)
pongSrc netaddr.IPPort // what they reported they heard
}
type sentPing struct {
to netaddr.IPPort
at time.Time
timer *time.Timer // timeout timer
purpose discoPingPurpose
}
// initFakeUDPAddr populates fakeWGAddr with a globally unique fake UDPAddr.
// The current implementation just uses the pointer value of de jammed into an IPv6
// address, but it could also be, say, a counter.
func (de *discoEndpoint) initFakeUDPAddr() {
var addr [16]byte
addr[0] = 0xfd
addr[1] = 0x00
binary.BigEndian.PutUint64(addr[2:], uint64(reflect.ValueOf(de).Pointer()))
de.fakeWGAddr = netaddr.IPPort{
IP: netaddr.IPFrom16(addr),
Port: 12345,
}
de.fakeWGAddrStd = de.fakeWGAddr.UDPAddr()
}
// isFirstRecvActivityInAwhile notes that receive activity has occured for this
// endpoint and reports whether it's been at least 10 seconds since the last
// receive activity (including having never received from this peer before).
func (de *discoEndpoint) isFirstRecvActivityInAwhile() bool {
now := time.Now().Unix()
old := atomic.LoadInt64(&de.lastRecvUnixAtomic)
if old <= now-10 {
atomic.StoreInt64(&de.lastRecvUnixAtomic, now)
return true
}
return false
}
// String exists purely so wireguard-go internals can log.Printf("%v")
// its internal conn.Endpoints and we don't end up with data races
// from fmt (via log) reading mutex fields and such.
func (de *discoEndpoint) String() string {
return fmt.Sprintf("magicsock.discoEndpoint{%v, %v}", de.publicKey.ShortString(), de.discoShort)
}
func (de *discoEndpoint) Addrs() []wgcfg.Endpoint {
// This has to be the same string that was passed to
// CreateEndpoint, otherwise Reconfig will end up recreating
// Endpoints and losing state over time.
host, portStr, err := net.SplitHostPort(de.wgEndpointHostPort)
if err != nil {
panic(err)
}
port, err := strconv.ParseUint(portStr, 10, 16)
if err != nil {
panic(err)
}
return []wgcfg.Endpoint{{Host: host, Port: uint16(port)}}
}
func (de *discoEndpoint) ClearSrc() {}
func (de *discoEndpoint) SrcToString() string { panic("unused") } // unused by wireguard-go
func (de *discoEndpoint) SrcIP() net.IP { panic("unused") } // unused by wireguard-go
func (de *discoEndpoint) DstToString() string { return de.wgEndpointHostPort }
func (de *discoEndpoint) DstIP() net.IP { panic("unused") }
func (de *discoEndpoint) DstToBytes() []byte { return packIPPort(de.fakeWGAddr) }
func (de *discoEndpoint) UpdateDst(addr *net.UDPAddr) error {
// This is called ~per packet (and requiring a mutex acquisition inside wireguard-go).
// TODO(bradfitz): make that cheaper and/or remove it. We don't need it.
return nil
}
// addrForSendLocked returns the address(es) that should be used for
// sending the next packet. Zero, one, or both of UDP address and DERP
// addr may be non-zero.
//
// de.mu must be held.
func (de *discoEndpoint) addrForSendLocked(now time.Time) (udpAddr, derpAddr netaddr.IPPort) {
udpAddr = de.bestAddr
if udpAddr.IsZero() || now.After(de.trustBestAddrUntil) {
// We had a bestAddr but it expired so send both to it
// and DERP.
derpAddr = de.derpAddr
}
return
}
// heartbeat is called every heartbeatInterval to keep the best UDP path alive,
// or kick off discovery of other paths.
func (de *discoEndpoint) heartbeat() {
de.mu.Lock()
defer de.mu.Unlock()
de.heartBeatTimer = nil
if de.lastSend.IsZero() {
// Shouldn't happen.
return
}
if time.Since(de.lastSend) > sessionActiveTimeout {
// Session's idle. Stop heartbeating.
de.c.logf("magicsock: disco: ending heartbeats for idle session to %v (%v)", de.publicKey.ShortString(), de.discoShort)
return
}
now := time.Now()
udpAddr, _ := de.addrForSendLocked(now)
if !udpAddr.IsZero() {
// We have a preferred path. Ping that every 2 seconds.
de.startPingLocked(udpAddr, now, pingHeartbeat)
}
if de.wantFullPingLocked(now) {
de.sendPingsLocked(now, true)
}
de.heartBeatTimer = time.AfterFunc(heartbeatInterval, de.heartbeat)
}
// wantFullPingLocked reports whether we should ping to all our peers looking for
// a better path.
//
// de.mu must be held.
func (de *discoEndpoint) wantFullPingLocked(now time.Time) bool {
if de.bestAddr.IsZero() || de.lastFullPing.IsZero() {
return true
}
if now.After(de.trustBestAddrUntil) {
return true
}
if de.bestAddrLatency <= goodEnoughLatency {
return false
}
if now.Sub(de.lastFullPing) >= upgradeInterval {
return true
}
return false
}
func (de *discoEndpoint) noteActiveLocked() {
de.lastSend = time.Now()
if de.heartBeatTimer == nil {
de.heartBeatTimer = time.AfterFunc(heartbeatInterval, de.heartbeat)
}
}
// cliPing starts a ping for the "tailscale ping" command. res is value to call cb with,
// already partially filled.
func (de *discoEndpoint) cliPing(res *ipnstate.PingResult, cb func(*ipnstate.PingResult)) {
de.mu.Lock()
defer de.mu.Unlock()
de.pendingCLIPings = append(de.pendingCLIPings, pendingCLIPing{res, cb})
now := time.Now()
udpAddr, derpAddr := de.addrForSendLocked(now)
if !derpAddr.IsZero() {
de.startPingLocked(derpAddr, now, pingCLI)
}
if !udpAddr.IsZero() && now.Before(de.trustBestAddrUntil) {
// Already have an active session, so just ping the address we're using.
// Otherwise "tailscale ping" results to a node on the local network
// can look like they're bouncing between, say 10.0.0.0/9 and the peer's
// IPv6 address, both 1ms away, and it's random who replies first.
de.startPingLocked(udpAddr, now, pingCLI)
} else {
for ep := range de.endpointState {
de.startPingLocked(ep, now, pingCLI)
}
}
de.noteActiveLocked()
}
func (de *discoEndpoint) send(b []byte) error {
now := time.Now()
de.mu.Lock()
udpAddr, derpAddr := de.addrForSendLocked(now)
if udpAddr.IsZero() || now.After(de.trustBestAddrUntil) {
de.sendPingsLocked(now, true)
}
de.noteActiveLocked()
de.mu.Unlock()
if udpAddr.IsZero() && derpAddr.IsZero() {
return errors.New("no UDP or DERP addr")
}
var err error
if !udpAddr.IsZero() {
_, err = de.c.sendAddr(udpAddr, key.Public(de.publicKey), b)
}
if !derpAddr.IsZero() {
if ok, _ := de.c.sendAddr(derpAddr, key.Public(de.publicKey), b); ok && err != nil {
// UDP failed but DERP worked, so good enough:
return nil
}
}
return err
}
func (de *discoEndpoint) pingTimeout(txid stun.TxID) {
de.mu.Lock()
defer de.mu.Unlock()
sp, ok := de.sentPing[txid]
if !ok {
return
}
if debugDisco || de.bestAddr.IsZero() || time.Now().After(de.trustBestAddrUntil) {
de.c.logf("magicsock: disco: timeout waiting for pong %x from %v (%v, %v)", txid[:6], sp.to, de.publicKey.ShortString(), de.discoShort)
}
de.removeSentPingLocked(txid, sp)
}
// forgetPing is called by a timer when a ping either fails to send or
// has taken too long to get a pong reply.
func (de *discoEndpoint) forgetPing(txid stun.TxID) {
de.mu.Lock()
defer de.mu.Unlock()
if sp, ok := de.sentPing[txid]; ok {
de.removeSentPingLocked(txid, sp)
}
}
func (de *discoEndpoint) removeSentPingLocked(txid stun.TxID, sp sentPing) {
// Stop the timer for the case where sendPing failed to write to UDP.
// In the case of a timer already having fired, this is a no-op:
sp.timer.Stop()
delete(de.sentPing, txid)
}
// sendDiscoPing sends a ping with the provided txid to ep.
//
// The caller (startPingLocked) should've already been recorded the ping in
// sentPing and set up the timer.
func (de *discoEndpoint) sendDiscoPing(ep netaddr.IPPort, txid stun.TxID, logLevel discoLogLevel) {
sent, _ := de.sendDiscoMessage(ep, &disco.Ping{TxID: [12]byte(txid)}, logLevel)
if !sent {
de.forgetPing(txid)
}
}
// discoPingPurpose is the reason why a discovery ping message was sent.
type discoPingPurpose int
const (
// pingDiscovery means that purpose of a ping was to see if a
// path was valid.
pingDiscovery discoPingPurpose = iota
// pingHeartbeat means that purpose of a ping was whether a
// peer was still there.
pingHeartbeat
// pingCLI means that the user is running "tailscale ping"
// from the CLI. These types of pings can go over DERP.
pingCLI
)
func (de *discoEndpoint) startPingLocked(ep netaddr.IPPort, now time.Time, purpose discoPingPurpose) {
if purpose != pingCLI {
st, ok := de.endpointState[ep]
if !ok {
// Shouldn't happen. But don't ping an endpoint that's
// not active for us.
de.c.logf("magicsock: disco: [unexpected] attempt to ping no longer live endpoint %v", ep)
return
}
st.lastPing = now
}
txid := stun.NewTxID()
de.sentPing[txid] = sentPing{
to: ep,
at: now,
timer: time.AfterFunc(pingTimeoutDuration, func() { de.pingTimeout(txid) }),
purpose: purpose,
}
logLevel := discoLog
if purpose == pingHeartbeat {
logLevel = discoVerboseLog
}
go de.sendDiscoPing(ep, txid, logLevel)
}
func (de *discoEndpoint) sendPingsLocked(now time.Time, sendCallMeMaybe bool) {
de.lastFullPing = now
var sentAny bool
for ep, st := range de.endpointState {
if st.shouldDeleteLocked() {
de.deleteEndpointLocked(ep)
continue
}
if !st.lastPing.IsZero() && now.Sub(st.lastPing) < discoPingInterval {
continue
}
firstPing := !sentAny
sentAny = true
if firstPing && sendCallMeMaybe {
de.c.logf("magicsock: disco: send, starting discovery for %v (%v)", de.publicKey.ShortString(), de.discoShort)
}
de.startPingLocked(ep, now, pingDiscovery)
}
derpAddr := de.derpAddr
if sentAny && sendCallMeMaybe && !derpAddr.IsZero() {
// In just a bit of a time (for goroutines above to schedule and run),
// send a message to peer via DERP informing them that we've sent
// so our firewall ports are probably open and now would be a good time
// for them to connect.
time.AfterFunc(5*time.Millisecond, func() {
de.sendDiscoMessage(derpAddr, disco.CallMeMaybe{}, discoLog)
})
}
}
func (de *discoEndpoint) sendDiscoMessage(dst netaddr.IPPort, dm disco.Message, logLevel discoLogLevel) (sent bool, err error) {
return de.c.sendDiscoMessage(dst, de.publicKey, de.discoKey, dm, logLevel)
}
func (de *discoEndpoint) updateFromNode(n *tailcfg.Node) {
if n == nil {
// TODO: log, error, count? if this even happens.
return
}
de.mu.Lock()
defer de.mu.Unlock()
if n.DERP == "" {
de.derpAddr = netaddr.IPPort{}
} else {
de.derpAddr, _ = netaddr.ParseIPPort(n.DERP)
}
for _, st := range de.endpointState {
st.index = indexSentinelDeleted // assume deleted until updated in next loop
}
for i, epStr := range n.Endpoints {
if i > math.MaxInt16 {
// Seems unlikely.
continue
}
ipp, err := netaddr.ParseIPPort(epStr)
if err != nil {
de.c.logf("magicsock: bogus netmap endpoint %q", epStr)
continue
}
if st, ok := de.endpointState[ipp]; ok {
st.index = int16(i)
} else {
de.endpointState[ipp] = &endpointState{index: int16(i)}
}
}
// Now delete anything unless it's still in the network map or
// was a recently discovered endpoint.
for ep, st := range de.endpointState {
if st.shouldDeleteLocked() {
de.deleteEndpointLocked(ep)
}
}
}
// addCandidateEndpoint adds ep as an endpoint to which we should send
// future pings.
//
// This is called once we've already verified that we got a valid
// discovery message from de via ep.
func (de *discoEndpoint) addCandidateEndpoint(ep netaddr.IPPort) {
de.mu.Lock()
defer de.mu.Unlock()
if st, ok := de.endpointState[ep]; ok {
if st.lastGotPing.IsZero() {
// Already-known endpoint from the network map.
return
}
st.lastGotPing = time.Now()
return
}
// Newly discovered endpoint. Exciting!
de.c.logf("magicsock: disco: adding %v as candidate endpoint for %v (%s)", ep, de.discoShort, de.publicKey.ShortString())
de.endpointState[ep] = &endpointState{
lastGotPing: time.Now(),
}
// If for some reason this gets very large, do some cleanup.
if size := len(de.endpointState); size > 100 {
for ep, st := range de.endpointState {
if st.shouldDeleteLocked() {
de.deleteEndpointLocked(ep)
}
}
size2 := len(de.endpointState)
de.c.logf("magicsock: disco: addCandidateEndpoint pruned %v candidate set from %v to %v entries", size, size2)
}
}
// noteConnectivityChange is called when connectivity changes enough
// that we should question our earlier assumptions about which paths
// work.
func (de *discoEndpoint) noteConnectivityChange() {
de.mu.Lock()
defer de.mu.Unlock()
de.trustBestAddrUntil = time.Time{}
}
// handlePongConnLocked handles a Pong message (a reply to an earlier ping).
// It should be called with the Conn.mu held.
func (de *discoEndpoint) handlePongConnLocked(m *disco.Pong, src netaddr.IPPort) {
de.mu.Lock()
defer de.mu.Unlock()
isDerp := src.IP == derpMagicIPAddr
sp, ok := de.sentPing[m.TxID]
if !ok {
// This is not a pong for a ping we sent. Ignore.
return
}
de.removeSentPingLocked(m.TxID, sp)
now := time.Now()
latency := now.Sub(sp.at)
if !isDerp {
st, ok := de.endpointState[sp.to]
if !ok {
// This is no longer an endpoint we care about.
return
}
de.c.setAddrToDiscoLocked(src, de.discoKey, de)
st.addPongReplyLocked(pongReply{
latency: latency,
pongAt: now,
from: src,
pongSrc: m.Src,
})
}
if sp.purpose != pingHeartbeat {
de.c.logf("magicsock: disco: %v<-%v (%v, %v) got pong tx=%x latency=%v pong.src=%v%v", de.c.discoShort, de.discoShort, de.publicKey.ShortString(), src, m.TxID[:6], latency.Round(time.Millisecond), m.Src, logger.ArgWriter(func(bw *bufio.Writer) {
if sp.to != src {
fmt.Fprintf(bw, " ping.to=%v", sp.to)
}
}))
}
for _, pp := range de.pendingCLIPings {
de.c.populateCLIPingResponseLocked(pp.res, latency, sp.to)
go pp.cb(pp.res)
}
de.pendingCLIPings = nil
// Promote this pong response to our current best address if it's lower latency.
// TODO(bradfitz): decide how latency vs. preference order affects decision
if !isDerp {
if de.bestAddr.IsZero() || latency < de.bestAddrLatency {
if de.bestAddr != sp.to {
de.c.logf("magicsock: disco: node %v %v now using %v", de.publicKey.ShortString(), de.discoShort, sp.to)
de.bestAddr = sp.to
}
}
if de.bestAddr == sp.to {
de.bestAddrLatency = latency
de.bestAddrAt = now
de.trustBestAddrUntil = now.Add(trustUDPAddrDuration)
}
}
}
// discoEndpoint.mu must be held.
func (st *endpointState) addPongReplyLocked(r pongReply) {
if n := len(st.recentPongs); n < pongHistoryCount {
st.recentPong = uint16(n)
st.recentPongs = append(st.recentPongs, r)
return
}
i := st.recentPong + 1
if i == pongHistoryCount {
i = 0
}
st.recentPongs[i] = r
st.recentPong = i
}
// handleCallMeMaybe handles a CallMeMaybe discovery message via
// DERP. The contract for use of this message is that the peer has
// already sent to us via UDP, so their stateful firewall should be
// open. Now we can Ping back and make it through.
func (de *discoEndpoint) handleCallMeMaybe() {
de.mu.Lock()
defer de.mu.Unlock()
// Zero out all the lastPing times to force sendPingsLocked to send new ones,
// even if it's been less than 5 seconds ago.
for _, st := range de.endpointState {
st.lastPing = time.Time{}
}
de.sendPingsLocked(time.Now(), false)
}
func (de *discoEndpoint) populatePeerStatus(ps *ipnstate.PeerStatus) {
de.mu.Lock()
defer de.mu.Unlock()
if de.lastSend.IsZero() {
return
}
ps.LastWrite = de.lastSend
now := time.Now()
if udpAddr, derpAddr := de.addrForSendLocked(now); !udpAddr.IsZero() && derpAddr.IsZero() {
ps.CurAddr = udpAddr.String()
}
}
// stopAndReset stops timers associated with de and resets its state back to zero.
// It's called when a discovery endpoint is no longer present in the NetworkMap,
// or when magicsock is transition from running to stopped state (via SetPrivateKey(zero))
func (de *discoEndpoint) stopAndReset() {
de.mu.Lock()
defer de.mu.Unlock()
de.c.logf("magicsock: doing cleanup for discovery key %x", de.discoKey[:])
// Zero these fields so if the user re-starts the network, the discovery
// state isn't a mix of before & after two sessions.
de.lastSend = time.Time{}
de.lastFullPing = time.Time{}
de.bestAddr = netaddr.IPPort{}
de.bestAddrLatency = 0
de.bestAddrAt = time.Time{}
de.trustBestAddrUntil = time.Time{}
for _, es := range de.endpointState {
es.lastPing = time.Time{}
}
for txid, sp := range de.sentPing {
de.removeSentPingLocked(txid, sp)
}
if de.heartBeatTimer != nil {
de.heartBeatTimer.Stop()
de.heartBeatTimer = nil
}
de.pendingCLIPings = nil
}
// ippCache is a cache of *net.UDPAddr => netaddr.IPPort mappings.
//
// It's not safe for concurrent use.
type ippCache struct {
c *lru.Cache
}
// IPPort is a caching wrapper around netaddr.FromStdAddr.
//
// It is not safe for concurrent use.
func (ic *ippCache) IPPort(u *net.UDPAddr) (netaddr.IPPort, bool) {
if u == nil || len(u.IP) > 16 {
return netaddr.IPPort{}, false
}
if ic.c == nil {
ic.c = lru.New(64) // arbitrary
}
key := ippCacheKey{ipLen: uint8(len(u.IP)), port: uint16(u.Port), zone: u.Zone}
copy(key.ip[:], u.IP[:])
if v, ok := ic.c.Get(key); ok {
return v.(netaddr.IPPort), true
}
ipp, ok := netaddr.FromStdAddr(u.IP, u.Port, u.Zone)
if ok {
ic.c.Add(key, ipp)
}
return ipp, ok
}
// ippCacheKey is the cache key type used by ippCache.IPPort.
// It must be comparable, being used as a map key in the lru package.
type ippCacheKey struct {
ip [16]byte
port uint16
ipLen uint8 // bytes in ip that are valid; rest are zero
zone string
}
// derpStr replaces DERP IPs in s with "derp-".
func derpStr(s string) string { return strings.ReplaceAll(s, "127.3.3.40:", "derp-") }