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package swarm_test
import (
"context"
"net"
"sync"
"testing"
"time"
"github.com/libp2p/go-libp2p/core/network"
"github.com/libp2p/go-libp2p/core/peer"
"github.com/libp2p/go-libp2p/core/peerstore"
testutil "github.com/libp2p/go-libp2p/core/test"
"github.com/libp2p/go-libp2p/p2p/net/swarm"
swarmt "github.com/libp2p/go-libp2p/p2p/net/swarm/testing"
"github.com/libp2p/go-libp2p-testing/ci"
ma "github.com/multiformats/go-multiaddr"
madns "github.com/multiformats/go-multiaddr-dns"
manet "github.com/multiformats/go-multiaddr/net"
"github.com/stretchr/testify/require"
)
func closeSwarms ( swarms [ ] * swarm . Swarm ) {
for _ , s := range swarms {
s . Close ( )
}
}
func TestBasicDialPeer ( t * testing . T ) {
swarms := makeSwarms ( t , 2 )
defer closeSwarms ( swarms )
s1 := swarms [ 0 ]
s2 := swarms [ 1 ]
s1 . Peerstore ( ) . AddAddrs ( s2 . LocalPeer ( ) , s2 . ListenAddresses ( ) , peerstore . PermanentAddrTTL )
c , err := s1 . DialPeer ( context . Background ( ) , s2 . LocalPeer ( ) )
require . NoError ( t , err )
s , err := c . NewStream ( context . Background ( ) )
require . NoError ( t , err )
s . Close ( )
}
func TestBasicDialPeerWithResolver ( t * testing . T ) {
mockResolver := madns . MockResolver { IP : make ( map [ string ] [ ] net . IPAddr ) }
ipaddr , err := net . ResolveIPAddr ( "ip4" , "127.0.0.1" )
require . NoError ( t , err )
mockResolver . IP [ "example.com" ] = [ ] net . IPAddr { * ipaddr }
resolver , err := madns . NewResolver ( madns . WithDomainResolver ( "example.com" , & mockResolver ) )
require . NoError ( t , err )
swarms := makeSwarms ( t , 2 , swarmt . WithSwarmOpts ( swarm . WithMultiaddrResolver ( resolver ) ) )
defer closeSwarms ( swarms )
s1 := swarms [ 0 ]
s2 := swarms [ 1 ]
// Change the multiaddr from /ip4/127.0.0.1/... to /dns4/example.com/... so
// that the resovler has to resolve this
var s2Addrs [ ] ma . Multiaddr
for _ , a := range s2 . ListenAddresses ( ) {
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_ , rest , _ := ma . SplitFunc ( a , func ( c ma . Component ) bool {
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return c . Protocol ( ) . Code == ma . P_TCP || c . Protocol ( ) . Code == ma . P_UDP
} ,
)
if rest != nil {
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e , _ := ma . StringCast ( "/dns4/example.com" )
s2Addrs = append ( s2Addrs , e . Encapsulate ( rest ) )
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}
}
s1 . Peerstore ( ) . AddAddrs ( s2 . LocalPeer ( ) , s2Addrs , peerstore . PermanentAddrTTL )
c , err := s1 . DialPeer ( context . Background ( ) , s2 . LocalPeer ( ) )
require . NoError ( t , err )
s , err := c . NewStream ( context . Background ( ) )
require . NoError ( t , err )
s . Close ( )
}
func TestDialWithNoListeners ( t * testing . T ) {
s1 := makeDialOnlySwarm ( t )
swarms := makeSwarms ( t , 1 )
defer closeSwarms ( swarms )
s2 := swarms [ 0 ]
s1 . Peerstore ( ) . AddAddrs ( s2 . LocalPeer ( ) , s2 . ListenAddresses ( ) , peerstore . PermanentAddrTTL )
c , err := s1 . DialPeer ( context . Background ( ) , s2 . LocalPeer ( ) )
require . NoError ( t , err )
s , err := c . NewStream ( context . Background ( ) )
require . NoError ( t , err )
s . Close ( )
}
func acceptAndHang ( l net . Listener ) {
conns := make ( [ ] net . Conn , 0 , 10 )
for {
c , err := l . Accept ( )
if err != nil {
break
}
if c != nil {
conns = append ( conns , c )
}
}
for _ , c := range conns {
c . Close ( )
}
}
func TestSimultDials ( t * testing . T ) {
ctx := context . Background ( )
swarms := makeSwarms ( t , 2 , swarmt . OptDisableReuseport )
defer closeSwarms ( swarms )
// connect everyone
{
var wg sync . WaitGroup
errs := make ( chan error , 20 ) // 2 connect calls in each of the 10 for-loop iterations
connect := func ( s * swarm . Swarm , dst peer . ID , addr ma . Multiaddr ) {
// copy for other peer
log . Debugf ( "TestSimultOpen: connecting: %s --> %s (%s)" , s . LocalPeer ( ) , dst , addr )
s . Peerstore ( ) . AddAddr ( dst , addr , peerstore . TempAddrTTL )
if _ , err := s . DialPeer ( ctx , dst ) ; err != nil {
errs <- err
}
wg . Done ( )
}
ifaceAddrs0 , err := swarms [ 0 ] . InterfaceListenAddresses ( )
if err != nil {
t . Fatal ( err )
}
ifaceAddrs1 , err := swarms [ 1 ] . InterfaceListenAddresses ( )
if err != nil {
t . Fatal ( err )
}
log . Info ( "Connecting swarms simultaneously." )
for i := 0 ; i < 10 ; i ++ { // connect 10x for each.
wg . Add ( 2 )
go connect ( swarms [ 0 ] , swarms [ 1 ] . LocalPeer ( ) , ifaceAddrs1 [ 0 ] )
go connect ( swarms [ 1 ] , swarms [ 0 ] . LocalPeer ( ) , ifaceAddrs0 [ 0 ] )
}
wg . Wait ( )
close ( errs )
for err := range errs {
if err != nil {
t . Fatal ( "error swarm dialing to peer" , err )
}
}
}
// should still just have 1, at most 2 connections :)
c01l := len ( swarms [ 0 ] . ConnsToPeer ( swarms [ 1 ] . LocalPeer ( ) ) )
if c01l > 2 {
t . Error ( "0->1 has" , c01l )
}
c10l := len ( swarms [ 1 ] . ConnsToPeer ( swarms [ 0 ] . LocalPeer ( ) ) )
if c10l > 2 {
t . Error ( "1->0 has" , c10l )
}
}
func newSilentPeer ( t * testing . T ) ( peer . ID , ma . Multiaddr , net . Listener ) {
dst := testutil . RandPeerIDFatal ( t )
lst , err := net . Listen ( "tcp4" , "localhost:0" )
if err != nil {
t . Fatal ( err )
}
addr , err := manet . FromNetAddr ( lst . Addr ( ) )
if err != nil {
t . Fatal ( err )
}
addrs , err := manet . ResolveUnspecifiedAddresses ( [ ] ma . Multiaddr { addr } , nil )
if err != nil {
t . Fatal ( err )
}
t . Log ( "new silent peer:" , dst , addrs [ 0 ] )
return dst , addrs [ 0 ] , lst
}
func TestDialWait ( t * testing . T ) {
const dialTimeout = 5 * time . Second
swarms := makeSwarms ( t , 1 , swarmt . WithSwarmOpts ( swarm . WithDialTimeout ( dialTimeout ) ) )
s1 := swarms [ 0 ]
defer s1 . Close ( )
// dial to a non-existent peer.
s2p , s2addr , s2l := newSilentPeer ( t )
go acceptAndHang ( s2l )
defer s2l . Close ( )
s1 . Peerstore ( ) . AddAddr ( s2p , s2addr , peerstore . PermanentAddrTTL )
before := time . Now ( )
if c , err := s1 . DialPeer ( context . Background ( ) , s2p ) ; err == nil {
defer c . Close ( )
t . Fatal ( "error swarm dialing to unknown peer worked..." , err )
} else {
t . Log ( "correctly got error:" , err )
}
duration := time . Since ( before )
if duration < dialTimeout * swarm . DialAttempts {
t . Error ( "< dialTimeout * DialAttempts not being respected" , duration , dialTimeout * swarm . DialAttempts )
}
if duration > 2 * dialTimeout * swarm . DialAttempts {
t . Error ( "> 2*dialTimeout * DialAttempts not being respected" , duration , 2 * dialTimeout * swarm . DialAttempts )
}
if ! s1 . Backoff ( ) . Backoff ( s2p , s2addr ) {
t . Error ( "s2 should now be on backoff" )
}
}
func TestDialBackoff ( t * testing . T ) {
if ci . IsRunning ( ) {
t . Skip ( "travis will never have fun with this test" )
}
const dialTimeout = 100 * time . Millisecond
ctx := context . Background ( )
swarms := makeSwarms ( t , 2 , swarmt . WithSwarmOpts ( swarm . WithDialTimeout ( dialTimeout ) ) )
defer closeSwarms ( swarms )
s1 := swarms [ 0 ]
s2 := swarms [ 1 ]
s2addrs , err := s2 . InterfaceListenAddresses ( )
require . NoError ( t , err )
s1 . Peerstore ( ) . AddAddrs ( s2 . LocalPeer ( ) , s2addrs , peerstore . PermanentAddrTTL )
// dial to a non-existent peer.
s3p , s3addr , s3l := newSilentPeer ( t )
go acceptAndHang ( s3l )
defer s3l . Close ( )
s1 . Peerstore ( ) . AddAddr ( s3p , s3addr , peerstore . PermanentAddrTTL )
// in this test we will:
// 1) dial 10x to each node.
// 2) all dials should hang
// 3) s1->s2 should succeed.
// 4) s1->s3 should not (and should place s3 on backoff)
// 5) disconnect entirely
// 6) dial 10x to each node again
// 7) s3 dials should all return immediately (except 1)
// 8) s2 dials should all hang, and succeed
// 9) last s3 dial ends, unsuccessful
dialOnlineNode := func ( dst peer . ID , times int ) <- chan bool {
ch := make ( chan bool )
for i := 0 ; i < times ; i ++ {
go func ( ) {
if _ , err := s1 . DialPeer ( ctx , dst ) ; err != nil {
t . Error ( "error dialing" , dst , err )
ch <- false
} else {
ch <- true
}
} ( )
}
return ch
}
dialOfflineNode := func ( dst peer . ID , times int ) <- chan bool {
ch := make ( chan bool )
for i := 0 ; i < times ; i ++ {
go func ( ) {
if c , err := s1 . DialPeer ( ctx , dst ) ; err != nil {
ch <- false
} else {
t . Error ( "succeeded in dialing" , dst )
ch <- true
c . Close ( )
}
} ( )
}
return ch
}
{
// 1) dial 10x to each node.
N := 10
s2done := dialOnlineNode ( s2 . LocalPeer ( ) , N )
s3done := dialOfflineNode ( s3p , N )
// when all dials should be done by:
dialTimeout1x := time . After ( dialTimeout )
dialTimeout10Ax := time . After ( dialTimeout * 2 * 10 ) // DialAttempts * 10)
// 2) all dials should hang
select {
case <- s2done :
t . Error ( "s2 should not happen immediately" )
case <- s3done :
t . Error ( "s3 should not happen yet" )
case <- time . After ( time . Millisecond ) :
// s2 may finish very quickly, so let's get out.
}
// 3) s1->s2 should succeed.
for i := 0 ; i < N ; i ++ {
select {
case r := <- s2done :
if ! r {
t . Error ( "s2 should not fail" )
}
case <- s3done :
t . Error ( "s3 should not happen yet" )
case <- dialTimeout1x :
t . Error ( "s2 took too long" )
}
}
select {
case <- s2done :
t . Error ( "s2 should have no more" )
case <- s3done :
t . Error ( "s3 should not happen yet" )
case <- dialTimeout1x : // let it pass
}
// 4) s1->s3 should not (and should place s3 on backoff)
// N-1 should finish before dialTimeout1x * 2
for i := 0 ; i < N ; i ++ {
select {
case <- s2done :
t . Error ( "s2 should have no more" )
case r := <- s3done :
if r {
t . Error ( "s3 should not succeed" )
}
case <- ( dialTimeout1x ) :
if i < ( N - 1 ) {
t . Fatal ( "s3 took too long" )
}
t . Log ( "dialTimeout1x * 1.3 hit for last peer" )
case <- dialTimeout10Ax :
t . Fatal ( "s3 took too long" )
}
}
// check backoff state
if s1 . Backoff ( ) . Backoff ( s2 . LocalPeer ( ) , s2addrs [ 0 ] ) {
t . Error ( "s2 should not be on backoff" )
}
if ! s1 . Backoff ( ) . Backoff ( s3p , s3addr ) {
t . Error ( "s3 should be on backoff" )
}
// 5) disconnect entirely
for _ , c := range s1 . Conns ( ) {
c . Close ( )
}
for i := 0 ; i < 100 && len ( s1 . Conns ( ) ) > 0 ; i ++ {
<- time . After ( time . Millisecond )
}
if len ( s1 . Conns ( ) ) > 0 {
t . Fatal ( "s1 conns must exit" )
}
}
{
// 6) dial 10x to each node again
N := 10
s2done := dialOnlineNode ( s2 . LocalPeer ( ) , N )
s3done := dialOfflineNode ( s3p , N )
// when all dials should be done by:
dialTimeout1x := time . After ( dialTimeout )
dialTimeout10Ax := time . After ( dialTimeout * 2 * 10 ) // DialAttempts * 10)
// 7) s3 dials should all return immediately (except 1)
for i := 0 ; i < N - 1 ; i ++ {
select {
case <- s2done :
t . Error ( "s2 should not succeed yet" )
case r := <- s3done :
if r {
t . Error ( "s3 should not succeed" )
}
case <- dialTimeout1x :
t . Fatal ( "s3 took too long" )
}
}
// 8) s2 dials should all hang, and succeed
for i := 0 ; i < N ; i ++ {
select {
case r := <- s2done :
if ! r {
t . Error ( "s2 should succeed" )
}
// case <-s3done:
case <- ( dialTimeout1x ) :
t . Fatal ( "s3 took too long" )
}
}
// 9) the last s3 should return, failed.
select {
case <- s2done :
t . Error ( "s2 should have no more" )
case r := <- s3done :
if r {
t . Error ( "s3 should not succeed" )
}
case <- dialTimeout10Ax :
t . Fatal ( "s3 took too long" )
}
// check backoff state (the same)
if s1 . Backoff ( ) . Backoff ( s2 . LocalPeer ( ) , s2addrs [ 0 ] ) {
t . Error ( "s2 should not be on backoff" )
}
if ! s1 . Backoff ( ) . Backoff ( s3p , s3addr ) {
t . Error ( "s3 should be on backoff" )
}
}
}
func TestDialBackoffClears ( t * testing . T ) {
const dialTimeout = 3 * time . Second
swarms := makeSwarms ( t , 2 , swarmt . WithSwarmOpts ( swarm . WithDialTimeout ( dialTimeout ) ) )
defer closeSwarms ( swarms )
s1 := swarms [ 0 ]
s2 := swarms [ 1 ]
// use another address first, that accept and hang on conns
_ , s2bad , s2l := newSilentPeer ( t )
go acceptAndHang ( s2l )
defer s2l . Close ( )
// phase 1 -- dial to non-operational addresses
s1 . Peerstore ( ) . AddAddr ( s2 . LocalPeer ( ) , s2bad , peerstore . PermanentAddrTTL )
before := time . Now ( )
_ , err := s1 . DialPeer ( context . Background ( ) , s2 . LocalPeer ( ) )
require . Error ( t , err , "dialing to broken addr worked..." )
duration := time . Since ( before )
if duration < dialTimeout * swarm . DialAttempts {
t . Error ( "< dialTimeout * DialAttempts not being respected" , duration , dialTimeout * swarm . DialAttempts )
}
if duration > 2 * dialTimeout * swarm . DialAttempts {
t . Error ( "> 2*dialTimeout * DialAttempts not being respected" , duration , 2 * dialTimeout * swarm . DialAttempts )
}
require . True ( t , s1 . Backoff ( ) . Backoff ( s2 . LocalPeer ( ) , s2bad ) , "s2 should now be on backoff" )
// phase 2 -- add the working address. dial should succeed.
ifaceAddrs1 , err := s2 . InterfaceListenAddresses ( )
require . NoError ( t , err )
s1 . Peerstore ( ) . AddAddrs ( s2 . LocalPeer ( ) , ifaceAddrs1 , peerstore . PermanentAddrTTL )
// backoffs are per address, not peer
c , err := s1 . DialPeer ( context . Background ( ) , s2 . LocalPeer ( ) )
require . NoError ( t , err )
defer c . Close ( )
require . False ( t , s1 . Backoff ( ) . Backoff ( s2 . LocalPeer ( ) , s2bad ) , "s2 should no longer be on backoff" )
}
func TestDialPeerFailed ( t * testing . T ) {
swarms := makeSwarms ( t , 2 , swarmt . WithSwarmOpts ( swarm . WithDialTimeout ( 100 * time . Millisecond ) ) )
defer closeSwarms ( swarms )
testedSwarm , targetSwarm := swarms [ 0 ] , swarms [ 1 ]
const expectedErrorsCount = 5
for i := 0 ; i < expectedErrorsCount ; i ++ {
_ , silentPeerAddress , silentPeerListener := newSilentPeer ( t )
go acceptAndHang ( silentPeerListener )
defer silentPeerListener . Close ( )
testedSwarm . Peerstore ( ) . AddAddr ( targetSwarm . LocalPeer ( ) , silentPeerAddress , peerstore . PermanentAddrTTL )
}
_ , err := testedSwarm . DialPeer ( context . Background ( ) , targetSwarm . LocalPeer ( ) )
require . Error ( t , err )
// dial_test.go:508: correctly get a combined error: failed to dial PEER: all dials failed
// * [/ip4/127.0.0.1/tcp/46485] failed to negotiate security protocol: context deadline exceeded
// * [/ip4/127.0.0.1/tcp/34881] failed to negotiate security protocol: context deadline exceeded
// ...
dialErr , ok := err . ( * swarm . DialError )
if ! ok {
t . Fatalf ( "expected *DialError, got %T" , err )
}
if len ( dialErr . DialErrors ) != expectedErrorsCount {
t . Errorf ( "expected %d errors, got %d" , expectedErrorsCount , len ( dialErr . DialErrors ) )
}
}
func TestDialExistingConnection ( t * testing . T ) {
swarms := makeSwarms ( t , 2 )
defer closeSwarms ( swarms )
s1 := swarms [ 0 ]
s2 := swarms [ 1 ]
// Only use one of the addresses here.
// Otherwise, we might dial TCP and QUIC simultaneously here, and end up with two connections,
// if the handshake latencies line up exactly.
s1 . Peerstore ( ) . AddAddrs ( s2 . LocalPeer ( ) , s2 . ListenAddresses ( ) [ : 1 ] , peerstore . PermanentAddrTTL )
c1 , err := s1 . DialPeer ( context . Background ( ) , s2 . LocalPeer ( ) )
require . NoError ( t , err )
c2 , err := s1 . DialPeer ( context . Background ( ) , s2 . LocalPeer ( ) )
require . NoError ( t , err )
// can't use require.Equal here, as this does a deep comparison
if c1 != c2 {
t . Fatalf ( "expecting the same connection from both dials, got %s <-> %s vs %s <-> %s" , c1 . LocalMultiaddr ( ) , c1 . RemoteMultiaddr ( ) , c2 . LocalMultiaddr ( ) , c2 . RemoteMultiaddr ( ) )
}
}
func newSilentListener ( t * testing . T ) ( [ ] ma . Multiaddr , net . Listener ) {
lst , err := net . Listen ( "tcp4" , "localhost:0" )
if err != nil {
t . Fatal ( err )
}
addr , err := manet . FromNetAddr ( lst . Addr ( ) )
if err != nil {
t . Fatal ( err )
}
addrs , err := manet . ResolveUnspecifiedAddresses ( [ ] ma . Multiaddr { addr } , nil )
if err != nil {
t . Fatal ( err )
}
return addrs , lst
}
func TestDialSimultaneousJoin ( t * testing . T ) {
const dialTimeout = 3 * time . Second
swarms := makeSwarms ( t , 2 , swarmt . WithSwarmOpts ( swarm . WithDialTimeout ( dialTimeout ) ) )
defer closeSwarms ( swarms )
s1 := swarms [ 0 ]
s2 := swarms [ 1 ]
s2silentAddrs , s2silentListener := newSilentListener ( t )
go acceptAndHang ( s2silentListener )
connch := make ( chan network . Conn , 512 )
errs := make ( chan error , 2 )
// start a dial to s2 through the silent addr
go func ( ) {
s1 . Peerstore ( ) . AddAddrs ( s2 . LocalPeer ( ) , s2silentAddrs , peerstore . PermanentAddrTTL )
c , err := s1 . DialPeer ( context . Background ( ) , s2 . LocalPeer ( ) )
if err != nil {
errs <- err
connch <- nil
return
}
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t . Logf ( "first dial succeeded; conn: %+v" , c )
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connch <- c
errs <- nil
} ( )
// wait a bit for the dial to take hold
time . Sleep ( 100 * time . Millisecond )
// start a second dial to s2 that uses the real s2 addrs
go func ( ) {
s2addrs , err := s2 . InterfaceListenAddresses ( )
if err != nil {
errs <- err
return
}
s1 . Peerstore ( ) . AddAddrs ( s2 . LocalPeer ( ) , s2addrs [ : 1 ] , peerstore . PermanentAddrTTL )
c , err := s1 . DialPeer ( context . Background ( ) , s2 . LocalPeer ( ) )
if err != nil {
errs <- err
connch <- nil
return
}
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t . Logf ( "second dial succeeded; conn: %+v" , c )
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connch <- c
errs <- nil
} ( )
// wait for the second dial to finish
c2 := <- connch
// start a third dial to s2, this should get the existing connection from the successful dial
go func ( ) {
c , err := s1 . DialPeer ( context . Background ( ) , s2 . LocalPeer ( ) )
if err != nil {
errs <- err
connch <- nil
return
}
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t . Logf ( "third dial succeeded; conn: %+v" , c )
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connch <- c
errs <- nil
} ( )
c3 := <- connch
// raise any errors from the previous goroutines
for i := 0 ; i < 3 ; i ++ {
require . NoError ( t , <- errs )
}
if c2 != c3 {
t . Fatal ( "expected c2 and c3 to be the same" )
}
// next, the first dial to s2, using the silent addr should timeout; at this point the dial
// will error but the last chance check will see the existing connection and return it
select {
case c1 := <- connch :
if c1 != c2 {
t . Fatal ( "expected c1 and c2 to be the same" )
}
case <- time . After ( 2 * dialTimeout ) :
t . Fatal ( "no connection from first dial" )
}
}
func TestDialSelf ( t * testing . T ) {
swarms := makeSwarms ( t , 2 )
defer closeSwarms ( swarms )
s1 := swarms [ 0 ]
_ , err := s1 . DialPeer ( context . Background ( ) , s1 . LocalPeer ( ) )
require . ErrorIs ( t , err , swarm . ErrDialToSelf , "expected error from self dial" )
}
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func TestDialQUICDraft29 ( t * testing . T ) {
s := makeDialOnlySwarm ( t )
id := testutil . RandPeerIDFatal ( t )
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l , _ := ma . StringCast ( "/ip4/127.0.0.1/udp/1234/quic" )
s . Peerstore ( ) . AddAddr ( id , l , time . Hour )
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_ , err := s . DialPeer ( context . Background ( ) , id )
require . ErrorIs ( t , err , swarm . ErrQUICDraft29 )
require . ErrorIs ( t , err , swarm . ErrNoTransport )
}