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// Copyright (c) Tailscale Inc & AUTHORS
// SPDX-License-Identifier: BSD-3-Clause
package magicsock
import (
"bufio"
"context"
"encoding/binary"
"errors"
"fmt"
"math"
"math/rand"
"net"
"net/netip"
"reflect"
"runtime"
"sync"
"sync/atomic"
"time"
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"golang.org/x/crypto/poly1305"
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xmaps "golang.org/x/exp/maps"
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"golang.org/x/net/ipv4"
"golang.org/x/net/ipv6"
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"tailscale.com/disco"
"tailscale.com/ipn/ipnstate"
"tailscale.com/net/stun"
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"tailscale.com/net/tstun"
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"tailscale.com/tailcfg"
"tailscale.com/tstime/mono"
"tailscale.com/types/key"
"tailscale.com/types/logger"
"tailscale.com/util/mak"
"tailscale.com/util/ringbuffer"
)
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var mtuProbePingSizesV4 [ ] int
var mtuProbePingSizesV6 [ ] int
func init ( ) {
for _ , m := range tstun . WireMTUsToProbe {
mtuProbePingSizesV4 = append ( mtuProbePingSizesV4 , pktLenToPingSize ( m , false ) )
mtuProbePingSizesV6 = append ( mtuProbePingSizesV6 , pktLenToPingSize ( m , true ) )
}
}
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// endpoint is a wireguard/conn.Endpoint. In wireguard-go and kernel WireGuard
// there is only one endpoint for a peer, but in Tailscale we distribute a
// number of possible endpoints for a peer which would include the all the
// likely addresses at which a peer may be reachable. This endpoint type holds
// the information required that when WiregGuard-Go wants to send to a
// particular peer (essentally represented by this endpoint type), the send
// function can use the currnetly best known Tailscale endpoint to send packets
// to the peer.
type endpoint struct {
// atomically accessed; declared first for alignment reasons
lastRecv mono . Time
numStopAndResetAtomic int64
debugUpdates * ringbuffer . RingBuffer [ EndpointChange ]
// These fields are initialized once and never modified.
c * Conn
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nodeID tailcfg . NodeID
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publicKey key . NodePublic // peer public key (for WireGuard + DERP)
publicKeyHex string // cached output of publicKey.UntypedHexString
fakeWGAddr netip . AddrPort // the UDP address we tell wireguard-go we're using
nodeAddr netip . Addr // the node's first tailscale address; used for logging & wireguard rate-limiting (Issue 6686)
disco atomic . Pointer [ endpointDisco ] // if the peer supports disco, the key and short string
// mu protects all following fields.
mu sync . Mutex // Lock ordering: Conn.mu, then endpoint.mu
heartBeatTimer * time . Timer // nil when idle
lastSend mono . Time // last time there was outgoing packets sent to this peer (from wireguard-go)
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lastFullPing mono . Time // last time we pinged all disco or wireguard only endpoints
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derpAddr netip . AddrPort // fallback/bootstrap path, if non-zero (non-zero for well-behaved clients)
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bestAddr addrQuality // best non-DERP path; zero if none
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bestAddrAt mono . Time // time best address re-confirmed
trustBestAddrUntil mono . Time // time when bestAddr expires
sentPing map [ stun . TxID ] sentPing
endpointState map [ netip . AddrPort ] * endpointState
isCallMeMaybeEP map [ netip . AddrPort ] bool
// The following fields are related to the new "silent disco"
// implementation that's a WIP as of 2022-10-20.
// See #540 for background.
heartbeatDisabled bool
expired bool // whether the node has expired
isWireguardOnly bool // whether the endpoint is WireGuard only
}
// endpointDisco is the current disco key and short string for an endpoint. This
// structure is immutable.
type endpointDisco struct {
key key . DiscoPublic // for discovery messages.
short string // ShortString of discoKey.
}
type sentPing struct {
to netip . AddrPort
at mono . Time
timer * time . Timer // timeout timer
purpose discoPingPurpose
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size int // size of the disco message
resCB * pingResultAndCallback // or nil for internal use
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}
// endpointState is some state and history for a specific endpoint of
// a endpoint. (The subject is the endpoint.endpointState
// map key)
type endpointState struct {
// all fields guarded by endpoint.mu
// lastPing is the last (outgoing) ping time.
lastPing mono . 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
// lastGotPingTxID contains the TxID for the last incoming ping. This is
// used to de-dup incoming pings that we may see on both the raw disco
// socket on Linux, and UDP socket. We cannot rely solely on the raw socket
// disco handling due to https://github.com/tailscale/tailscale/issues/7078.
lastGotPingTxID stun . TxID
// callMeMaybeTime, if non-zero, is the time this endpoint
// was advertised last via a call-me-maybe disco message.
callMeMaybeTime 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
}
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// clear removes all derived / probed state from an endpointState.
func ( s * endpointState ) clear ( ) {
* s = endpointState {
index : s . index ,
lastGotPing : s . lastGotPing ,
}
}
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// pongHistoryCount is how many pongReply values we keep per endpointState
const pongHistoryCount = 64
type pongReply struct {
latency time . Duration
pongAt mono . Time // when we received the pong
from netip . AddrPort // the pong's src (usually same as endpoint map key)
pongSrc netip . AddrPort // what they reported they heard
}
// EndpointChange is a structure containing information about changes made to a
// particular endpoint. This is not a stable interface and could change at any
// time.
type EndpointChange struct {
When time . Time // when the change occurred
What string // what this change is
From any ` json:",omitempty" ` // information about the previous state
To any ` json:",omitempty" ` // information about the new state
}
// shouldDeleteLocked reports whether we should delete this endpoint.
func ( st * endpointState ) shouldDeleteLocked ( ) bool {
switch {
case ! st . callMeMaybeTime . IsZero ( ) :
return false
case st . lastGotPing . IsZero ( ) :
// This was an endpoint from the network map. Is it still in the network map?
return st . index == indexSentinelDeleted
default :
// This was an endpoint discovered at runtime.
return time . Since ( st . lastGotPing ) > sessionActiveTimeout
}
}
// latencyLocked returns the most recent latency measurement, if any.
// endpoint.mu must be held.
func ( st * endpointState ) latencyLocked ( ) ( lat time . Duration , ok bool ) {
if len ( st . recentPongs ) == 0 {
return 0 , false
}
return st . recentPongs [ st . recentPong ] . latency , true
}
// endpoint.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
}
func ( de * endpoint ) deleteEndpointLocked ( why string , ep netip . AddrPort ) {
de . debugUpdates . Add ( EndpointChange {
When : time . Now ( ) ,
What : "deleteEndpointLocked-" + why ,
From : ep ,
} )
delete ( de . endpointState , ep )
if de . bestAddr . AddrPort == ep {
de . debugUpdates . Add ( EndpointChange {
When : time . Now ( ) ,
What : "deleteEndpointLocked-bestAddr-" + why ,
From : de . bestAddr ,
} )
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de . bestAddr = addrQuality { }
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}
}
// 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 * endpoint ) initFakeUDPAddr ( ) {
var addr [ 16 ] byte
addr [ 0 ] = 0xfd
addr [ 1 ] = 0x00
binary . BigEndian . PutUint64 ( addr [ 2 : ] , uint64 ( reflect . ValueOf ( de ) . Pointer ( ) ) )
de . fakeWGAddr = netip . AddrPortFrom ( netip . AddrFrom16 ( addr ) . Unmap ( ) , 12345 )
}
// noteRecvActivity records receive activity on de, and invokes
// Conn.noteRecvActivity no more than once every 10s.
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func ( de * endpoint ) noteRecvActivity ( ipp netip . AddrPort ) {
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now := mono . Now ( )
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// TODO(raggi): this probably applies relatively equally well to disco
// managed endpoints, but that would be a less conservative change.
if de . isWireguardOnly {
de . mu . Lock ( )
de . bestAddr . AddrPort = ipp
de . bestAddrAt = now
de . trustBestAddrUntil = now . Add ( 5 * time . Second )
de . mu . Unlock ( )
}
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elapsed := now . Sub ( de . lastRecv . LoadAtomic ( ) )
if elapsed > 10 * time . Second {
de . lastRecv . StoreAtomic ( now )
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if de . c . noteRecvActivity == nil {
return
}
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de . c . noteRecvActivity ( de . publicKey )
}
}
func ( de * endpoint ) discoShort ( ) string {
var short string
if d := de . disco . Load ( ) ; d != nil {
short = d . short
}
return short
}
// 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 * endpoint ) String ( ) string {
return fmt . Sprintf ( "magicsock.endpoint{%v, %v}" , de . publicKey . ShortString ( ) , de . discoShort ( ) )
}
func ( de * endpoint ) ClearSrc ( ) { }
func ( de * endpoint ) SrcToString ( ) string { panic ( "unused" ) } // unused by wireguard-go
func ( de * endpoint ) SrcIP ( ) netip . Addr { panic ( "unused" ) } // unused by wireguard-go
func ( de * endpoint ) DstToString ( ) string { return de . publicKeyHex }
func ( de * endpoint ) DstIP ( ) netip . Addr { return de . nodeAddr } // see tailscale/tailscale#6686
func ( de * endpoint ) DstToBytes ( ) [ ] byte { return packIPPort ( de . fakeWGAddr ) }
// 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. If the endpoint is WireGuard only and does not have
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// latency information, a bool is returned to indicate that the
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// WireGuard latency discovery pings should be sent.
//
// de.mu must be held.
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//
// TODO(val): Rewrite the addrFor*Locked() variations to share code.
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func ( de * endpoint ) addrForSendLocked ( now mono . Time ) ( udpAddr , derpAddr netip . AddrPort , sendWGPing bool ) {
udpAddr = de . bestAddr . AddrPort
if udpAddr . IsValid ( ) && ! now . After ( de . trustBestAddrUntil ) {
return udpAddr , netip . AddrPort { } , false
}
if de . isWireguardOnly {
// If the endpoint is wireguard-only, we don't have a DERP
// address to send to, so we have to send to the UDP address.
udpAddr , shouldPing := de . addrForWireGuardSendLocked ( now )
return udpAddr , netip . AddrPort { } , shouldPing
}
// We had a bestAddr but it expired so send both to it
// and DERP.
return udpAddr , de . derpAddr , false
}
// addrForWireGuardSendLocked returns the address that should be used for
// sending the next packet. If a packet has never or not recently been sent to
// the endpoint, then a randomly selected address for the endpoint is returned,
// as well as a bool indiciating that WireGuard discovery pings should be started.
// If the addresses have latency information available, then the address with the
// best latency is used.
//
// de.mu must be held.
func ( de * endpoint ) addrForWireGuardSendLocked ( now mono . Time ) ( udpAddr netip . AddrPort , shouldPing bool ) {
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if len ( de . endpointState ) == 0 {
de . c . logf ( "magicsock: addrForSendWireguardLocked: [unexpected] no candidates available for endpoint" )
return udpAddr , false
}
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// lowestLatency is a high duration initially, so we
// can be sure we're going to have a duration lower than this
// for the first latency retrieved.
lowestLatency := time . Hour
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var oldestPing mono . Time
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for ipp , state := range de . endpointState {
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if oldestPing . IsZero ( ) {
oldestPing = state . lastPing
} else if state . lastPing . Before ( oldestPing ) {
oldestPing = state . lastPing
}
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if latency , ok := state . latencyLocked ( ) ; ok {
if latency < lowestLatency || latency == lowestLatency && ipp . Addr ( ) . Is6 ( ) {
// If we have the same latency,IPv6 is prioritized.
// TODO(catzkorn): Consider a small increase in latency to use
// IPv6 in comparison to IPv4, when possible.
lowestLatency = latency
udpAddr = ipp
}
}
}
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needPing := len ( de . endpointState ) > 1 && now . Sub ( oldestPing ) > wireguardPingInterval
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if ! udpAddr . IsValid ( ) {
candidates := xmaps . Keys ( de . endpointState )
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// Randomly select an address to use until we retrieve latency information
// and give it a short trustBestAddrUntil time so we avoid flapping between
// addresses while waiting on latency information to be populated.
udpAddr = candidates [ rand . Intn ( len ( candidates ) ) ]
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}
de . bestAddr . AddrPort = udpAddr
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// Only extend trustBestAddrUntil by one second to avoid packet
// reordering and/or CPU usage from random selection during the first
// second. We should receive a response due to a WireGuard handshake in
// less than one second in good cases, in which case this will be then
// extended to 15 seconds.
de . trustBestAddrUntil = now . Add ( time . Second )
return udpAddr , needPing
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}
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// addrForPingSizeLocked returns the address(es) that should be used for sending
// the next ping. It will only return addrs with a large enough path MTU to
// permit a ping payload of size bytes to be delivered (DERP is always one such
// addr as it is a TCP connection). If it returns a zero-value udpAddr, then we
// should continue probing the MTU of all paths to this endpoint. Zero, one, or
// both of the returned UDP address and DERP address may be non-zero.
//
// de.mu must be held.
func ( de * endpoint ) addrForPingSizeLocked ( now mono . Time , size int ) ( udpAddr , derpAddr netip . AddrPort ) {
if size == 0 {
udpAddr , derpAddr , _ = de . addrForSendLocked ( now )
return
}
udpAddr = de . bestAddr . AddrPort
pathMTU := de . bestAddr . wireMTU
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requestedMTU := pingSizeToPktLen ( size , udpAddr . Addr ( ) . Is6 ( ) )
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mtuOk := requestedMTU <= pathMTU
if udpAddr . IsValid ( ) && mtuOk {
if ! now . After ( de . trustBestAddrUntil ) {
return udpAddr , netip . AddrPort { }
}
// We had a bestAddr with large enough MTU but it expired, so
// send both to it and DERP.
return udpAddr , de . derpAddr
}
// The UDP address isn't valid or it doesn't have a path MTU big enough
// for the packet. Return a zero-value udpAddr to signal that we should
// keep probing the path MTU to all addresses for this endpoint, and a
// valid DERP addr to signal that we should also send via DERP.
return netip . AddrPort { } , de . derpAddr
}
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// heartbeat is called every heartbeatInterval to keep the best UDP path alive,
// or kick off discovery of other paths.
func ( de * endpoint ) heartbeat ( ) {
de . mu . Lock ( )
defer de . mu . Unlock ( )
de . heartBeatTimer = nil
if de . heartbeatDisabled {
// If control override to disable heartBeatTimer set, return early.
return
}
if de . lastSend . IsZero ( ) {
// Shouldn't happen.
return
}
if mono . Since ( de . lastSend ) > sessionActiveTimeout {
// Session's idle. Stop heartbeating.
de . c . dlogf ( "[v1] magicsock: disco: ending heartbeats for idle session to %v (%v)" , de . publicKey . ShortString ( ) , de . discoShort ( ) )
return
}
now := mono . Now ( )
udpAddr , _ , _ := de . addrForSendLocked ( now )
if udpAddr . IsValid ( ) {
// We have a preferred path. Ping that every 2 seconds.
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de . startDiscoPingLocked ( udpAddr , now , pingHeartbeat , 0 , nil )
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}
if de . wantFullPingLocked ( now ) {
de . sendDiscoPingsLocked ( now , true )
}
de . heartBeatTimer = time . AfterFunc ( heartbeatInterval , de . heartbeat )
}
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// setHeartbeatDisabled sets heartbeatDisabled to the provided value.
func ( de * endpoint ) setHeartbeatDisabled ( v bool ) {
de . mu . Lock ( )
defer de . mu . Unlock ( )
de . heartbeatDisabled = v
}
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// wantFullPingLocked reports whether we should ping to all our peers looking for
// a better path.
//
// de.mu must be held.
func ( de * endpoint ) wantFullPingLocked ( now mono . Time ) bool {
if runtime . GOOS == "js" {
return false
}
if ! de . bestAddr . IsValid ( ) || de . lastFullPing . IsZero ( ) {
return true
}
if now . After ( de . trustBestAddrUntil ) {
return true
}
if de . bestAddr . latency <= goodEnoughLatency {
return false
}
if now . Sub ( de . lastFullPing ) >= upgradeInterval {
return true
}
return false
}
func ( de * endpoint ) noteActiveLocked ( ) {
de . lastSend = mono . Now ( )
if de . heartBeatTimer == nil && ! de . heartbeatDisabled {
de . heartBeatTimer = time . AfterFunc ( heartbeatInterval , de . heartbeat )
}
}
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// MaxDiscoPingSize is the largest useful ping message size that we
// can send - the maximum packet size minus the IPv4 and UDP headers.
var MaxDiscoPingSize = tstun . MaxPacketSize - 20 - 8
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type pingResultAndCallback struct {
taken atomic . Bool // first CompareAndSwamp from false to true takes ownership of res
res * ipnstate . PingResult
cb func ( * ipnstate . PingResult )
}
func ( p * pingResultAndCallback ) reply ( ) bool {
return p != nil && p . taken . CompareAndSwap ( false , true )
}
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// discoPing starts a disco-level ping for the "tailscale ping" command (or other
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// callers, such as c2n). res is value to call cb with, already partially
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// filled. cb must be called at most once. Once called, ownership of res passes to cb.
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func ( de * endpoint ) discoPing ( res * ipnstate . PingResult , size int , cb func ( * ipnstate . PingResult ) ) {
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de . mu . Lock ( )
defer de . mu . Unlock ( )
if de . expired {
res . Err = errExpired . Error ( )
cb ( res )
return
}
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if size > MaxDiscoPingSize {
res . Err = errPingTooBig . Error ( )
cb ( res )
return
}
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resCB := & pingResultAndCallback { res : res , cb : cb }
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now := mono . Now ( )
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udpAddr , derpAddr := de . addrForPingSizeLocked ( now , size )
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if derpAddr . IsValid ( ) {
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de . startDiscoPingLocked ( derpAddr , now , pingCLI , size , resCB )
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}
if udpAddr . IsValid ( ) && 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.
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de . startDiscoPingLocked ( udpAddr , now , pingCLI , size , resCB )
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} else {
for ep := range de . endpointState {
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de . startDiscoPingLocked ( ep , now , pingCLI , size , resCB )
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}
}
de . noteActiveLocked ( )
}
var (
errExpired = errors . New ( "peer's node key has expired" )
errNoUDPOrDERP = errors . New ( "no UDP or DERP addr" )
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errPingTooBig = errors . New ( "ping size too big" )
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)
func ( de * endpoint ) send ( buffs [ ] [ ] byte ) error {
de . mu . Lock ( )
if de . expired {
de . mu . Unlock ( )
return errExpired
}
now := mono . Now ( )
udpAddr , derpAddr , startWGPing := de . addrForSendLocked ( now )
if de . isWireguardOnly {
if startWGPing {
de . sendWireGuardOnlyPingsLocked ( now )
}
} else if ! udpAddr . IsValid ( ) || now . After ( de . trustBestAddrUntil ) {
de . sendDiscoPingsLocked ( now , true )
}
de . noteActiveLocked ( )
de . mu . Unlock ( )
if ! udpAddr . IsValid ( ) && ! derpAddr . IsValid ( ) {
return errNoUDPOrDERP
}
var err error
if udpAddr . IsValid ( ) {
_ , err = de . c . sendUDPBatch ( udpAddr , buffs )
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// If the error is known to indicate that the endpoint is no longer
// usable, clear the endpoint statistics so that the next send will
// re-evaluate the best endpoint.
if err != nil && isBadEndpointErr ( err ) {
de . noteBadEndpoint ( udpAddr )
}
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// TODO(raggi): needs updating for accuracy, as in error conditions we may have partial sends.
if stats := de . c . stats . Load ( ) ; err == nil && stats != nil {
var txBytes int
for _ , b := range buffs {
txBytes += len ( b )
}
stats . UpdateTxPhysical ( de . nodeAddr , udpAddr , txBytes )
}
}
if derpAddr . IsValid ( ) {
allOk := true
for _ , buff := range buffs {
ok , _ := de . c . sendAddr ( derpAddr , de . publicKey , buff )
if stats := de . c . stats . Load ( ) ; stats != nil {
stats . UpdateTxPhysical ( de . nodeAddr , derpAddr , len ( buff ) )
}
if ! ok {
allOk = false
}
}
if allOk {
return nil
}
}
return err
}
func ( de * endpoint ) discoPingTimeout ( txid stun . TxID ) {
de . mu . Lock ( )
defer de . mu . Unlock ( )
sp , ok := de . sentPing [ txid ]
if ! ok {
return
}
if debugDisco ( ) || ! de . bestAddr . IsValid ( ) || mono . Now ( ) . After ( de . trustBestAddrUntil ) {
de . c . dlogf ( "[v1] magicsock: disco: timeout waiting for pong %x from %v (%v, %v)" , txid [ : 6 ] , sp . to , de . publicKey . ShortString ( ) , de . discoShort ( ) )
}
de . removeSentDiscoPingLocked ( txid , sp )
}
// forgetDiscoPing is called by a timer when a ping either fails to send or
// has taken too long to get a pong reply.
func ( de * endpoint ) forgetDiscoPing ( txid stun . TxID ) {
de . mu . Lock ( )
defer de . mu . Unlock ( )
if sp , ok := de . sentPing [ txid ] ; ok {
de . removeSentDiscoPingLocked ( txid , sp )
}
}
func ( de * endpoint ) removeSentDiscoPingLocked ( 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 )
}
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// discoPingSize is the size of a complete disco ping packet, without any padding.
const discoPingSize = len ( disco . Magic ) + key . DiscoPublicRawLen + disco . NonceLen +
poly1305 . TagSize + disco . MessageHeaderLen + disco . PingLen
// sendDiscoPing sends a ping with the provided txid to ep using de's discoKey. size
// is the desired disco message size, including all disco headers but excluding IP/UDP
// headers.
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//
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// The caller (startDiscoPingLocked) should've already recorded the ping in
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// sentPing and set up the timer.
//
// The caller should use de.discoKey as the discoKey argument.
// It is passed in so that sendDiscoPing doesn't need to lock de.mu.
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func ( de * endpoint ) sendDiscoPing ( ep netip . AddrPort , discoKey key . DiscoPublic , txid stun . TxID , size int , logLevel discoLogLevel ) {
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size = min ( size , MaxDiscoPingSize )
padding := max ( size - discoPingSize , 0 )
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sent , _ := de . c . sendDiscoMessage ( ep , de . publicKey , discoKey , & disco . Ping {
TxID : [ 12 ] byte ( txid ) ,
NodeKey : de . c . publicKeyAtomic . Load ( ) ,
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Padding : padding ,
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} , logLevel )
if ! sent {
de . forgetDiscoPing ( txid )
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return
}
if size != 0 {
metricSentDiscoPeerMTUProbes . Add ( 1 )
metricSentDiscoPeerMTUProbeBytes . Add ( int64 ( pingSizeToPktLen ( size , ep . Addr ( ) . Is6 ( ) ) ) )
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}
}
// discoPingPurpose is the reason why a discovery ping message was sent.
type discoPingPurpose int
//go:generate go run tailscale.com/cmd/addlicense -file discopingpurpose_string.go go run golang.org/x/tools/cmd/stringer -type=discoPingPurpose -trimprefix=ping
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
)
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// startDiscoPingLocked sends a disco ping to ep in a separate goroutine. resCB,
// if non-nil, means that a caller external to the magicsock package internals
// is interested in the result (such as a CLI "tailscale ping" or a c2n ping
// request, etc)
func ( de * endpoint ) startDiscoPingLocked ( ep netip . AddrPort , now mono . Time , purpose discoPingPurpose , size int , resCB * pingResultAndCallback ) {
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if runtime . GOOS == "js" {
return
}
epDisco := de . disco . Load ( )
if epDisco == nil {
return
}
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
}
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// If we are doing a discovery ping or a CLI ping with no specified size
// to a non DERP address, then probe the MTU. Otherwise just send the
// one specified ping.
// Default to sending a single ping of the specified size
sizes := [ ] int { size }
if de . c . PeerMTUEnabled ( ) {
isDerp := ep . Addr ( ) == tailcfg . DerpMagicIPAddr
if ! isDerp && ( ( purpose == pingDiscovery ) || ( purpose == pingCLI && size == 0 ) ) {
de . c . dlogf ( "[v1] magicsock: starting MTU probe" )
sizes = mtuProbePingSizesV4
if ep . Addr ( ) . Is6 ( ) {
sizes = mtuProbePingSizesV6
}
}
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}
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logLevel := discoLog
if purpose == pingHeartbeat {
logLevel = discoVerboseLog
}
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for _ , s := range sizes {
txid := stun . NewTxID ( )
de . sentPing [ txid ] = sentPing {
to : ep ,
at : now ,
timer : time . AfterFunc ( pingTimeoutDuration , func ( ) { de . discoPingTimeout ( txid ) } ) ,
purpose : purpose ,
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resCB : resCB ,
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size : s ,
}
go de . sendDiscoPing ( ep , epDisco . key , txid , s , logLevel )
}
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}
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// sendDiscoPingsLocked starts pinging all of ep's endpoints.
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func ( de * endpoint ) sendDiscoPingsLocked ( now mono . Time , sendCallMeMaybe bool ) {
de . lastFullPing = now
var sentAny bool
for ep , st := range de . endpointState {
if st . shouldDeleteLocked ( ) {
de . deleteEndpointLocked ( "sendPingsLocked" , ep )
continue
}
if runtime . GOOS == "js" {
continue
}
if ! st . lastPing . IsZero ( ) && now . Sub ( st . lastPing ) < discoPingInterval {
continue
}
firstPing := ! sentAny
sentAny = true
if firstPing && sendCallMeMaybe {
de . c . dlogf ( "[v1] magicsock: disco: send, starting discovery for %v (%v)" , de . publicKey . ShortString ( ) , de . discoShort ( ) )
}
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de . startDiscoPingLocked ( ep , now , pingDiscovery , 0 , nil )
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}
derpAddr := de . derpAddr
if sentAny && sendCallMeMaybe && derpAddr . IsValid ( ) {
// Have our magicsock.Conn figure out its STUN endpoint (if
// it doesn't know already) and then send a CallMeMaybe
// message to our 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.
go de . c . enqueueCallMeMaybe ( derpAddr , de )
}
}
// sendWireGuardOnlyPingsLocked evaluates all available addresses for
// a WireGuard only endpoint and initates an ICMP ping for useable
// addresses.
func ( de * endpoint ) sendWireGuardOnlyPingsLocked ( now mono . Time ) {
if runtime . GOOS == "js" {
return
}
// Normally the we only send pings at a low rate as the decision to start
// sending a ping sets bestAddrAtUntil with a reasonable time to keep trying
// that address, however, if that code changed we may want to be sure that
// we don't ever send excessive pings to avoid impact to the client/user.
if ! now . After ( de . lastFullPing . Add ( 10 * time . Second ) ) {
return
}
de . lastFullPing = now
for ipp := range de . endpointState {
if ipp . Addr ( ) . Is4 ( ) && de . c . noV4 . Load ( ) {
continue
}
if ipp . Addr ( ) . Is6 ( ) && de . c . noV6 . Load ( ) {
continue
}
go de . sendWireGuardOnlyPing ( ipp , now )
}
}
// sendWireGuardOnlyPing sends a ICMP ping to a WireGuard only address to
// discover the latency.
func ( de * endpoint ) sendWireGuardOnlyPing ( ipp netip . AddrPort , now mono . Time ) {
ctx , cancel := context . WithTimeout ( de . c . connCtx , 5 * time . Second )
defer cancel ( )
de . setLastPing ( ipp , now )
addr := & net . IPAddr {
IP : net . IP ( ipp . Addr ( ) . AsSlice ( ) ) ,
Zone : ipp . Addr ( ) . Zone ( ) ,
}
p := de . c . getPinger ( )
if p == nil {
de . c . logf ( "[v2] magicsock: sendWireGuardOnlyPingLocked: pinger is nil" )
return
}
latency , err := p . Send ( ctx , addr , nil )
if err != nil {
de . c . logf ( "[v2] magicsock: sendWireGuardOnlyPingLocked: %s" , err )
return
}
de . mu . Lock ( )
defer de . mu . Unlock ( )
state , ok := de . endpointState [ ipp ]
if ! ok {
return
}
state . addPongReplyLocked ( pongReply {
latency : latency ,
pongAt : now ,
from : ipp ,
pongSrc : netip . AddrPort { } , // We don't know this.
} )
}
// setLastPing sets lastPing on the endpointState to now.
func ( de * endpoint ) setLastPing ( ipp netip . AddrPort , now mono . Time ) {
de . mu . Lock ( )
defer de . mu . Unlock ( )
state , ok := de . endpointState [ ipp ]
if ! ok {
return
}
state . lastPing = now
}
// updateFromNode updates the endpoint based on a tailcfg.Node from a NetMap
// update.
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func ( de * endpoint ) updateFromNode ( n tailcfg . NodeView , heartbeatDisabled bool ) {
if ! n . Valid ( ) {
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panic ( "nil node when updating endpoint" )
}
de . mu . Lock ( )
defer de . mu . Unlock ( )
de . heartbeatDisabled = heartbeatDisabled
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de . expired = n . Expired ( )
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epDisco := de . disco . Load ( )
var discoKey key . DiscoPublic
if epDisco != nil {
discoKey = epDisco . key
}
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if discoKey != n . DiscoKey ( ) {
de . c . logf ( "[v1] magicsock: disco: node %s changed from %s to %s" , de . publicKey . ShortString ( ) , discoKey , n . DiscoKey ( ) )
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de . disco . Store ( & endpointDisco {
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key : n . DiscoKey ( ) ,
short : n . DiscoKey ( ) . ShortString ( ) ,
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} )
de . debugUpdates . Add ( EndpointChange {
When : time . Now ( ) ,
What : "updateFromNode-resetLocked" ,
} )
de . resetLocked ( )
}
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if n . DERP ( ) == "" {
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if de . derpAddr . IsValid ( ) {
de . debugUpdates . Add ( EndpointChange {
When : time . Now ( ) ,
What : "updateFromNode-remove-DERP" ,
From : de . derpAddr ,
} )
}
de . derpAddr = netip . AddrPort { }
} else {
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newDerp , _ := netip . ParseAddrPort ( n . DERP ( ) )
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if de . derpAddr != newDerp {
de . debugUpdates . Add ( EndpointChange {
When : time . Now ( ) ,
What : "updateFromNode-DERP" ,
From : de . derpAddr ,
To : newDerp ,
} )
}
de . derpAddr = newDerp
}
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de . setEndpointsLocked ( n . Endpoints ( ) )
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}
func ( de * endpoint ) setEndpointsLocked ( eps interface {
LenIter ( ) [ ] struct { }
At ( i int ) netip . AddrPort
} ) {
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for _ , st := range de . endpointState {
st . index = indexSentinelDeleted // assume deleted until updated in next loop
}
var newIpps [ ] netip . AddrPort
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for i := range eps . LenIter ( ) {
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if i > math . MaxInt16 {
// Seems unlikely.
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break
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}
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ipp := eps . At ( i )
if ! ipp . IsValid ( ) {
de . c . logf ( "magicsock: bogus netmap endpoint from %v" , eps )
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continue
}
if st , ok := de . endpointState [ ipp ] ; ok {
st . index = int16 ( i )
} else {
de . endpointState [ ipp ] = & endpointState { index : int16 ( i ) }
newIpps = append ( newIpps , ipp )
}
}
if len ( newIpps ) > 0 {
de . debugUpdates . Add ( EndpointChange {
When : time . Now ( ) ,
What : "updateFromNode-new-Endpoints" ,
To : newIpps ,
} )
}
// 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 ( "updateFromNode" , ep )
}
}
}
// addCandidateEndpoint adds ep as an endpoint to which we should send
// future pings. If there is an existing endpointState for ep, and forRxPingTxID
// matches the last received ping TxID, this function reports true, otherwise
// false.
//
// This is called once we've already verified that we got a valid
// discovery message from de via ep.
func ( de * endpoint ) addCandidateEndpoint ( ep netip . AddrPort , forRxPingTxID stun . TxID ) ( duplicatePing bool ) {
de . mu . Lock ( )
defer de . mu . Unlock ( )
if st , ok := de . endpointState [ ep ] ; ok {
duplicatePing = forRxPingTxID == st . lastGotPingTxID
if ! duplicatePing {
st . lastGotPingTxID = forRxPingTxID
}
if st . lastGotPing . IsZero ( ) {
// Already-known endpoint from the network map.
return duplicatePing
}
st . lastGotPing = time . Now ( )
return duplicatePing
}
// Newly discovered endpoint. Exciting!
de . c . dlogf ( "[v1] magicsock: disco: adding %v as candidate endpoint for %v (%s)" , ep , de . discoShort ( ) , de . publicKey . ShortString ( ) )
de . endpointState [ ep ] = & endpointState {
lastGotPing : time . Now ( ) ,
lastGotPingTxID : forRxPingTxID ,
}
// 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 ( "addCandidateEndpoint" , ep )
}
}
size2 := len ( de . endpointState )
de . c . dlogf ( "[v1] magicsock: disco: addCandidateEndpoint pruned %v candidate set from %v to %v entries" , size , size2 )
}
return false
}
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// clearBestAddrLocked clears the bestAddr and related fields such that future
// packets will re-evaluate the best address to send to next.
//
// de.mu must be held.
func ( de * endpoint ) clearBestAddrLocked ( ) {
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de . bestAddr = addrQuality { }
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de . bestAddrAt = 0
de . trustBestAddrUntil = 0
}
// noteBadEndpoint marks ipp as a bad endpoint that would need to be
// re-evaluated before future use, this should be called for example if a send
// to ipp fails due to a host unreachable error or similar.
func ( de * endpoint ) noteBadEndpoint ( ipp netip . AddrPort ) {
de . mu . Lock ( )
defer de . mu . Unlock ( )
de . clearBestAddrLocked ( )
if st , ok := de . endpointState [ ipp ] ; ok {
st . clear ( )
}
}
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// noteConnectivityChange is called when connectivity changes enough
// that we should question our earlier assumptions about which paths
// work.
func ( de * endpoint ) noteConnectivityChange ( ) {
de . mu . Lock ( )
defer de . mu . Unlock ( )
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de . clearBestAddrLocked ( )
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for k := range de . endpointState {
de . endpointState [ k ] . clear ( )
}
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}
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// pingSizeToPktLen calculates the minimum path MTU that would permit
// a disco ping message of length size to reach its target at
// addr. size is the length of the entire disco message including
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// disco headers. If size is zero, assume it is the safe wire MTU.
func pingSizeToPktLen ( size int , is6 bool ) tstun . WireMTU {
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if size == 0 {
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return tstun . SafeWireMTU ( )
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}
headerLen := ipv4 . HeaderLen
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if is6 {
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headerLen = ipv6 . HeaderLen
}
headerLen += 8 // UDP header length
return tstun . WireMTU ( size + headerLen )
}
// pktLenToPingSize calculates the ping payload size that would
// create a disco ping message whose on-the-wire length is exactly mtu
// bytes long. If mtu is zero or less than the minimum ping size, then
// no MTU probe is desired and return zero for an unpadded ping.
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func pktLenToPingSize ( mtu tstun . WireMTU , is6 bool ) int {
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if mtu == 0 {
return 0
}
headerLen := ipv4 . HeaderLen
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if is6 {
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headerLen = ipv6 . HeaderLen
}
headerLen += 8 // UDP header length
if mtu < tstun . WireMTU ( headerLen ) {
return 0
}
return int ( mtu ) - headerLen
}
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// handlePongConnLocked handles a Pong message (a reply to an earlier ping).
// It should be called with the Conn.mu held.
//
// It reports whether m.TxID corresponds to a ping that this endpoint sent.
func ( de * endpoint ) handlePongConnLocked ( m * disco . Pong , di * discoInfo , src netip . AddrPort ) ( knownTxID bool ) {
de . mu . Lock ( )
defer de . mu . Unlock ( )
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isDerp := src . Addr ( ) == tailcfg . DerpMagicIPAddr
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sp , ok := de . sentPing [ m . TxID ]
if ! ok {
// This is not a pong for a ping we sent.
return false
}
knownTxID = true // for naked returns below
de . removeSentDiscoPingLocked ( m . TxID , sp )
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pktLen := int ( pingSizeToPktLen ( sp . size , sp . to . Addr ( ) . Is6 ( ) ) )
if sp . size != 0 {
m := getPeerMTUsProbedMetric ( tstun . WireMTU ( pktLen ) )
m . Add ( 1 )
if metricMaxPeerMTUProbed . Value ( ) < int64 ( pktLen ) {
metricMaxPeerMTUProbed . Set ( int64 ( pktLen ) )
}
}
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now := mono . 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 . peerMap . setNodeKeyForIPPort ( src , de . publicKey )
st . addPongReplyLocked ( pongReply {
latency : latency ,
pongAt : now ,
from : src ,
pongSrc : m . Src ,
} )
}
if sp . purpose != pingHeartbeat {
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de . c . dlogf ( "[v1] magicsock: disco: %v<-%v (%v, %v) got pong tx=%x latency=%v pktlen=%v pong.src=%v%v" , de . c . discoShort , de . discoShort ( ) , de . publicKey . ShortString ( ) , src , m . TxID [ : 6 ] , latency . Round ( time . Millisecond ) , pktLen , m . Src , logger . ArgWriter ( func ( bw * bufio . Writer ) {
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if sp . to != src {
fmt . Fprintf ( bw , " ping.to=%v" , sp . to )
}
} ) )
}
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// Currently only CLI ping uses this callback.
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if sp . resCB . reply ( ) {
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if sp . purpose == pingCLI {
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de . c . populateCLIPingResponseLocked ( sp . resCB . res , latency , sp . to )
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}
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go sp . resCB . cb ( sp . resCB . res )
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}
// 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 {
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thisPong := addrQuality { sp . to , latency , tstun . WireMTU ( pingSizeToPktLen ( sp . size , sp . to . Addr ( ) . Is6 ( ) ) ) }
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if betterAddr ( thisPong , de . bestAddr ) {
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de . c . logf ( "magicsock: disco: node %v %v now using %v mtu=%v tx=%x" , de . publicKey . ShortString ( ) , de . discoShort ( ) , sp . to , thisPong . wireMTU , m . TxID [ : 6 ] )
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de . debugUpdates . Add ( EndpointChange {
When : time . Now ( ) ,
What : "handlePingLocked-bestAddr-update" ,
From : de . bestAddr ,
To : thisPong ,
} )
de . bestAddr = thisPong
}
if de . bestAddr . AddrPort == thisPong . AddrPort {
de . debugUpdates . Add ( EndpointChange {
When : time . Now ( ) ,
What : "handlePingLocked-bestAddr-latency" ,
From : de . bestAddr ,
To : thisPong ,
} )
de . bestAddr . latency = latency
de . bestAddrAt = now
de . trustBestAddrUntil = now . Add ( trustUDPAddrDuration )
}
}
return
}
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// addrQuality is an IPPort with an associated latency and path mtu.
type addrQuality struct {
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netip . AddrPort
latency time . Duration
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wireMTU tstun . WireMTU
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}
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func ( a addrQuality ) String ( ) string {
return fmt . Sprintf ( "%v@%v+%v" , a . AddrPort , a . latency , a . wireMTU )
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}
// betterAddr reports whether a is a better addr to use than b.
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func betterAddr ( a , b addrQuality ) bool {
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if a . AddrPort == b . AddrPort {
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if a . wireMTU > b . wireMTU {
// TODO(val): Think harder about the case of lower
// latency and smaller or unknown MTU, and higher
// latency but larger MTU. Probably in most cases the
// largest MTU will also be the lowest latency but we
// can't depend on that.
return true
}
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return false
}
if ! b . IsValid ( ) {
return true
}
if ! a . IsValid ( ) {
return false
}
// Each address starts with a set of points (from 0 to 100) that
// represents how much faster they are than the highest-latency
// endpoint. For example, if a has latency 200ms and b has latency
// 190ms, then a starts with 0 points and b starts with 5 points since
// it's 5% faster.
var aPoints , bPoints int
if a . latency > b . latency && a . latency > 0 {
bPoints = int ( 100 - ( ( b . latency * 100 ) / a . latency ) )
} else if b . latency > 0 {
aPoints = int ( 100 - ( ( a . latency * 100 ) / b . latency ) )
}
// Prefer private IPs over public IPs as long as the latencies are
// roughly equivalent, since it's less likely that a user will have to
// pay for the bandwidth in a cloud environment.
//
// Additionally, prefer any loopback address strongly over non-loopback
// addresses.
if a . Addr ( ) . IsLoopback ( ) {
aPoints += 50
} else if a . Addr ( ) . IsPrivate ( ) {
aPoints += 20
}
if b . Addr ( ) . IsLoopback ( ) {
bPoints += 50
} else if b . Addr ( ) . IsPrivate ( ) {
bPoints += 20
}
// Prefer IPv6 for being a bit more robust, as long as
// the latencies are roughly equivalent.
if a . Addr ( ) . Is6 ( ) {
aPoints += 10
}
if b . Addr ( ) . Is6 ( ) {
bPoints += 10
}
// Don't change anything if the latency improvement is less than 1%; we
// want a bit of "stickiness" (a.k.a. hysteresis) to avoid flapping if
// there's two roughly-equivalent endpoints.
//
// Points are essentially the percentage improvement of latency vs. the
// slower endpoint; absent any boosts from private IPs, IPv6, etc., a
// will be a better address than b by a fraction of 1% or less if
// aPoints <= 1 and bPoints == 0.
if aPoints <= 1 && bPoints == 0 {
return false
}
return aPoints > bPoints
}
// 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 * endpoint ) handleCallMeMaybe ( m * disco . CallMeMaybe ) {
if runtime . GOOS == "js" {
// Nothing to do on js/wasm if we can't send UDP packets anyway.
return
}
de . mu . Lock ( )
defer de . mu . Unlock ( )
now := time . Now ( )
for ep := range de . isCallMeMaybeEP {
de . isCallMeMaybeEP [ ep ] = false // mark for deletion
}
var newEPs [ ] netip . AddrPort
for _ , ep := range m . MyNumber {
if ep . Addr ( ) . Is6 ( ) && ep . Addr ( ) . IsLinkLocalUnicast ( ) {
// We send these out, but ignore them for now.
// TODO: teach the ping code to ping on all interfaces
// for these.
continue
}
mak . Set ( & de . isCallMeMaybeEP , ep , true )
if es , ok := de . endpointState [ ep ] ; ok {
es . callMeMaybeTime = now
} else {
de . endpointState [ ep ] = & endpointState { callMeMaybeTime : now }
newEPs = append ( newEPs , ep )
}
}
if len ( newEPs ) > 0 {
de . debugUpdates . Add ( EndpointChange {
When : time . Now ( ) ,
What : "handleCallMeMaybe-new-endpoints" ,
To : newEPs ,
} )
de . c . dlogf ( "[v1] magicsock: disco: call-me-maybe from %v %v added new endpoints: %v" ,
de . publicKey . ShortString ( ) , de . discoShort ( ) ,
logger . ArgWriter ( func ( w * bufio . Writer ) {
for i , ep := range newEPs {
if i > 0 {
w . WriteString ( ", " )
}
w . WriteString ( ep . String ( ) )
}
} ) )
}
// Delete any prior CallMeMaybe endpoints that weren't included
// in this message.
for ep , want := range de . isCallMeMaybeEP {
if ! want {
delete ( de . isCallMeMaybeEP , ep )
de . deleteEndpointLocked ( "handleCallMeMaybe" , ep )
}
}
// 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 = 0
}
de . sendDiscoPingsLocked ( mono . Now ( ) , false )
}
func ( de * endpoint ) populatePeerStatus ( ps * ipnstate . PeerStatus ) {
de . mu . Lock ( )
defer de . mu . Unlock ( )
ps . Relay = de . c . derpRegionCodeOfIDLocked ( int ( de . derpAddr . Port ( ) ) )
if de . lastSend . IsZero ( ) {
return
}
now := mono . Now ( )
ps . LastWrite = de . lastSend . WallTime ( )
ps . Active = now . Sub ( de . lastSend ) < sessionActiveTimeout
if udpAddr , derpAddr , _ := de . addrForSendLocked ( now ) ; udpAddr . IsValid ( ) && ! derpAddr . IsValid ( ) {
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 transitioning from running to
// stopped state (via SetPrivateKey(zero))
func ( de * endpoint ) stopAndReset ( ) {
atomic . AddInt64 ( & de . numStopAndResetAtomic , 1 )
de . mu . Lock ( )
defer de . mu . Unlock ( )
if closing := de . c . closing . Load ( ) ; ! closing {
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if de . isWireguardOnly {
de . c . logf ( "[v1] magicsock: doing cleanup for wireguard key %s" , de . publicKey . ShortString ( ) )
} else {
de . c . logf ( "[v1] magicsock: doing cleanup for discovery key %s" , de . discoShort ( ) )
}
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}
de . debugUpdates . Add ( EndpointChange {
When : time . Now ( ) ,
What : "stopAndReset-resetLocked" ,
} )
de . resetLocked ( )
if de . heartBeatTimer != nil {
de . heartBeatTimer . Stop ( )
de . heartBeatTimer = nil
}
}
// resetLocked clears all the endpoint's p2p state, reverting it to a
// DERP-only endpoint. It does not stop the endpoint's heartbeat
// timer, if one is running.
func ( de * endpoint ) resetLocked ( ) {
de . lastSend = 0
de . lastFullPing = 0
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de . clearBestAddrLocked ( )
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for _ , es := range de . endpointState {
es . lastPing = 0
}
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if ! de . isWireguardOnly {
for txid , sp := range de . sentPing {
de . removeSentDiscoPingLocked ( txid , sp )
}
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}
}
func ( de * endpoint ) numStopAndReset ( ) int64 {
return atomic . LoadInt64 ( & de . numStopAndResetAtomic )
}
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func ( de * endpoint ) setDERPHome ( regionID uint16 ) {
de . mu . Lock ( )
defer de . mu . Unlock ( )
de . derpAddr = netip . AddrPortFrom ( tailcfg . DerpMagicIPAddr , uint16 ( regionID ) )
}