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use libp2p_identify as identify ;
use libp2p_identity as identity ;
use libp2p_kad ::store ::MemoryStore ;
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use libp2p_kad ::{ Behaviour , Config , Event , Mode } ;
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use libp2p_swarm ::{ Swarm , SwarmEvent } ;
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use libp2p_swarm_test ::SwarmExt ;
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use Event ::* ;
use MyBehaviourEvent ::* ;
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#[ async_std::test ]
async fn server_gets_added_to_routing_table_by_client ( ) {
let _ = env_logger ::try_init ( ) ;
let mut client = Swarm ::new_ephemeral ( MyBehaviour ::new ) ;
let mut server = Swarm ::new_ephemeral ( MyBehaviour ::new ) ;
server . listen ( ) . await ;
client . connect ( & mut server ) . await ;
let server_peer_id = * server . local_peer_id ( ) ;
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async_std ::task ::spawn ( server . loop_on_next ( ) ) ;
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let peer = client
. wait ( | e | match e {
SwarmEvent ::Behaviour ( Kad ( RoutingUpdated { peer , .. } ) ) = > Some ( peer ) ,
_ = > None ,
} )
. await ;
assert_eq! ( peer , server_peer_id ) ;
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}
#[ async_std::test ]
async fn two_servers_add_each_other_to_routing_table ( ) {
let _ = env_logger ::try_init ( ) ;
let mut server1 = Swarm ::new_ephemeral ( MyBehaviour ::new ) ;
let mut server2 = Swarm ::new_ephemeral ( MyBehaviour ::new ) ;
server2 . listen ( ) . await ;
server1 . connect ( & mut server2 ) . await ;
let server1_peer_id = * server1 . local_peer_id ( ) ;
let server2_peer_id = * server2 . local_peer_id ( ) ;
match libp2p_swarm_test ::drive ( & mut server1 , & mut server2 ) . await {
(
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[ Identify ( _ ) , Identify ( _ ) , Kad ( RoutingUpdated { peer : peer1 , .. } ) ]
| [ Identify ( _ ) , Kad ( RoutingUpdated { peer : peer1 , .. } ) , Identify ( _ ) ] ,
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[ Identify ( _ ) , Identify ( _ ) ] ,
) = > {
assert_eq! ( peer1 , server2_peer_id ) ;
}
other = > panic! ( " Unexpected events: {other:?} " ) ,
}
server1 . listen ( ) . await ;
server2 . connect ( & mut server1 ) . await ;
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async_std ::task ::spawn ( server1 . loop_on_next ( ) ) ;
let peer = server2
. wait ( | e | match e {
SwarmEvent ::Behaviour ( Kad ( RoutingUpdated { peer , .. } ) ) = > Some ( peer ) ,
_ = > None ,
} )
. await ;
assert_eq! ( peer , server1_peer_id ) ;
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}
#[ async_std::test ]
async fn adding_an_external_addresses_activates_server_mode_on_existing_connections ( ) {
let _ = env_logger ::try_init ( ) ;
let mut client = Swarm ::new_ephemeral ( MyBehaviour ::new ) ;
let mut server = Swarm ::new_ephemeral ( MyBehaviour ::new ) ;
let server_peer_id = * server . local_peer_id ( ) ;
let ( memory_addr , _ ) = server . listen ( ) . await ;
// Remove memory address to simulate a server that doesn't know its external address.
server . remove_external_address ( & memory_addr ) ;
client . dial ( memory_addr . clone ( ) ) . unwrap ( ) ;
// Do the usual identify send/receive dance.
match libp2p_swarm_test ::drive ( & mut client , & mut server ) . await {
( [ Identify ( _ ) , Identify ( _ ) ] , [ Identify ( _ ) , Identify ( _ ) ] ) = > { }
other = > panic! ( " Unexpected events: {other:?} " ) ,
}
// Server learns its external address (this could be through AutoNAT or some other mechanism).
server . add_external_address ( memory_addr ) ;
// The server reconfigured its connection to the client to be in server mode, pushes that information to client which as a result updates its routing table.
match libp2p_swarm_test ::drive ( & mut client , & mut server ) . await {
(
[ Identify ( identify ::Event ::Received { .. } ) , Kad ( RoutingUpdated { peer : peer1 , .. } ) ] ,
[ Identify ( identify ::Event ::Pushed { .. } ) ] ,
) = > {
assert_eq! ( peer1 , server_peer_id ) ;
}
other = > panic! ( " Unexpected events: {other:?} " ) ,
}
}
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#[ async_std::test ]
async fn set_client_to_server_mode ( ) {
let _ = env_logger ::try_init ( ) ;
let mut client = Swarm ::new_ephemeral ( MyBehaviour ::new ) ;
client . behaviour_mut ( ) . kad . set_mode ( Some ( Mode ::Client ) ) ;
let mut server = Swarm ::new_ephemeral ( MyBehaviour ::new ) ;
server . listen ( ) . await ;
client . connect ( & mut server ) . await ;
let server_peer_id = * server . local_peer_id ( ) ;
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let client_event = client . wait ( | e | match e {
SwarmEvent ::Behaviour ( Kad ( RoutingUpdated { peer , .. } ) ) = > Some ( peer ) ,
_ = > None ,
} ) ;
let server_event = server . wait ( | e | match e {
SwarmEvent ::Behaviour ( Identify ( identify ::Event ::Received { info , .. } ) ) = > Some ( info ) ,
_ = > None ,
} ) ;
let ( peer , info ) = futures ::future ::join ( client_event , server_event ) . await ;
assert_eq! ( peer , server_peer_id ) ;
assert! ( info
. protocols
. iter ( )
. all ( | proto | libp2p_kad ::PROTOCOL_NAME . ne ( proto ) ) ) ;
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client . behaviour_mut ( ) . kad . set_mode ( Some ( Mode ::Server ) ) ;
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async_std ::task ::spawn ( client . loop_on_next ( ) ) ;
let info = server
. wait ( | e | match e {
SwarmEvent ::Behaviour ( Identify ( identify ::Event ::Received { info , .. } ) ) = > Some ( info ) ,
_ = > None ,
} )
. await ;
assert! ( info
. protocols
. iter ( )
. any ( | proto | libp2p_kad ::PROTOCOL_NAME . eq ( proto ) ) ) ;
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}
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#[ derive(libp2p_swarm::NetworkBehaviour) ]
#[ behaviour(prelude = " libp2p_swarm::derive_prelude " ) ]
struct MyBehaviour {
identify : identify ::Behaviour ,
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kad : Behaviour < MemoryStore > ,
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}
impl MyBehaviour {
fn new ( k : identity ::Keypair ) -> Self {
let local_peer_id = k . public ( ) . to_peer_id ( ) ;
Self {
identify : identify ::Behaviour ::new ( identify ::Config ::new (
" /test/1.0.0 " . to_owned ( ) ,
k . public ( ) ,
) ) ,
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kad : Behaviour ::with_config (
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local_peer_id ,
MemoryStore ::new ( local_peer_id ) ,
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Config ::default ( ) ,
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) ,
}
}
}
