X-Git-Url: http://git.bitcoin.ninja/index.cgi?a=blobdiff_plain;f=lightning%2Fsrc%2Fln%2Fpeer_handler.rs;h=bb4b076b1bef313c72486a5d00b3494b66fdbaef;hb=ba1349982ba28657c9e2d03a5b02c3ecc054b5cc;hp=3775c27e4dff9b0c001303e1ea859b5856431d33;hpb=be4bb58573ab6f56f363496574d64fa83074364b;p=rust-lightning

diff --git a/lightning/src/ln/peer_handler.rs b/lightning/src/ln/peer_handler.rs
index 3775c27e..bb4b076b 100644
--- a/lightning/src/ln/peer_handler.rs
+++ b/lightning/src/ln/peer_handler.rs
@@ -18,6 +18,7 @@
 use bitcoin::secp256k1::{self, Secp256k1, SecretKey, PublicKey};
 
 use crate::chain::keysinterface::{KeysManager, NodeSigner, Recipient};
+use crate::events::{MessageSendEvent, MessageSendEventsProvider, OnionMessageProvider};
 use crate::ln::features::{InitFeatures, NodeFeatures};
 use crate::ln::msgs;
 use crate::ln::msgs::{ChannelMessageHandler, LightningError, NetAddress, OnionMessageHandler, RoutingMessageHandler};
@@ -29,7 +30,6 @@ use crate::ln::wire::Encode;
 use crate::onion_message::{CustomOnionMessageContents, CustomOnionMessageHandler, SimpleArcOnionMessenger, SimpleRefOnionMessenger};
 use crate::routing::gossip::{NetworkGraph, P2PGossipSync, NodeId};
 use crate::util::atomic_counter::AtomicCounter;
-use crate::util::events::{MessageSendEvent, MessageSendEventsProvider, OnionMessageProvider};
 use crate::util::logger::Logger;
 
 use crate::prelude::*;
@@ -46,16 +46,23 @@ use bitcoin::hashes::sha256::Hash as Sha256;
 use bitcoin::hashes::sha256::HashEngine as Sha256Engine;
 use bitcoin::hashes::{HashEngine, Hash};
 
-/// Handler for BOLT1-compliant messages.
+/// A handler provided to [`PeerManager`] for reading and handling custom messages.
+///
+/// [BOLT 1] specifies a custom message type range for use with experimental or application-specific
+/// messages. `CustomMessageHandler` allows for user-defined handling of such types. See the
+/// [`lightning_custom_message`] crate for tools useful in composing more than one custom handler.
+///
+/// [BOLT 1]: https://github.com/lightning/bolts/blob/master/01-messaging.md
+/// [`lightning_custom_message`]: https://docs.rs/lightning_custom_message/latest/lightning_custom_message
 pub trait CustomMessageHandler: wire::CustomMessageReader {
-	/// Called with the message type that was received and the buffer to be read.
-	/// Can return a `MessageHandlingError` if the message could not be handled.
+	/// Handles the given message sent from `sender_node_id`, possibly producing messages for
+	/// [`CustomMessageHandler::get_and_clear_pending_msg`] to return and thus for [`PeerManager`]
+	/// to send.
 	fn handle_custom_message(&self, msg: Self::CustomMessage, sender_node_id: &PublicKey) -> Result<(), LightningError>;
 
-	/// Gets the list of pending messages which were generated by the custom message
-	/// handler, clearing the list in the process. The first tuple element must
-	/// correspond to the intended recipients node ids. If no connection to one of the
-	/// specified node does not exist, the message is simply not sent to it.
+	/// Returns the list of pending messages that were generated by the handler, clearing the list
+	/// in the process. Each message is paired with the node id of the intended recipient. If no
+	/// connection to the node exists, then the message is simply not sent.
 	fn get_and_clear_pending_msg(&self) -> Vec<(PublicKey, Self::CustomMessage)>;
 }
 
@@ -72,7 +79,7 @@ impl RoutingMessageHandler for IgnoringMessageHandler {
 	fn get_next_channel_announcement(&self, _starting_point: u64) ->
 		Option<(msgs::ChannelAnnouncement, Option<msgs::ChannelUpdate>, Option<msgs::ChannelUpdate>)> { None }
 	fn get_next_node_announcement(&self, _starting_point: Option<&NodeId>) -> Option<msgs::NodeAnnouncement> { None }
-	fn peer_connected(&self, _their_node_id: &PublicKey, _init: &msgs::Init) -> Result<(), ()> { Ok(()) }
+	fn peer_connected(&self, _their_node_id: &PublicKey, _init: &msgs::Init, _inbound: bool) -> Result<(), ()> { Ok(()) }
 	fn handle_reply_channel_range(&self, _their_node_id: &PublicKey, _msg: msgs::ReplyChannelRange) -> Result<(), LightningError> { Ok(()) }
 	fn handle_reply_short_channel_ids_end(&self, _their_node_id: &PublicKey, _msg: msgs::ReplyShortChannelIdsEnd) -> Result<(), LightningError> { Ok(()) }
 	fn handle_query_channel_range(&self, _their_node_id: &PublicKey, _msg: msgs::QueryChannelRange) -> Result<(), LightningError> { Ok(()) }
@@ -88,8 +95,8 @@ impl OnionMessageProvider for IgnoringMessageHandler {
 }
 impl OnionMessageHandler for IgnoringMessageHandler {
 	fn handle_onion_message(&self, _their_node_id: &PublicKey, _msg: &msgs::OnionMessage) {}
-	fn peer_connected(&self, _their_node_id: &PublicKey, _init: &msgs::Init) -> Result<(), ()> { Ok(()) }
-	fn peer_disconnected(&self, _their_node_id: &PublicKey, _no_connection_possible: bool) {}
+	fn peer_connected(&self, _their_node_id: &PublicKey, _init: &msgs::Init, _inbound: bool) -> Result<(), ()> { Ok(()) }
+	fn peer_disconnected(&self, _their_node_id: &PublicKey) {}
 	fn provided_node_features(&self) -> NodeFeatures { NodeFeatures::empty() }
 	fn provided_init_features(&self, _their_node_id: &PublicKey) -> InitFeatures {
 		InitFeatures::empty()
@@ -223,8 +230,8 @@ impl ChannelMessageHandler for ErroringMessageHandler {
 	}
 	// msgs::ChannelUpdate does not contain the channel_id field, so we just drop them.
 	fn handle_channel_update(&self, _their_node_id: &PublicKey, _msg: &msgs::ChannelUpdate) {}
-	fn peer_disconnected(&self, _their_node_id: &PublicKey, _no_connection_possible: bool) {}
-	fn peer_connected(&self, _their_node_id: &PublicKey, _init: &msgs::Init) -> Result<(), ()> { Ok(()) }
+	fn peer_disconnected(&self, _their_node_id: &PublicKey) {}
+	fn peer_connected(&self, _their_node_id: &PublicKey, _init: &msgs::Init, _inbound: bool) -> Result<(), ()> { Ok(()) }
 	fn handle_error(&self, _their_node_id: &PublicKey, _msg: &msgs::ErrorMessage) {}
 	fn provided_node_features(&self) -> NodeFeatures { NodeFeatures::empty() }
 	fn provided_init_features(&self, _their_node_id: &PublicKey) -> InitFeatures {
@@ -277,7 +284,7 @@ pub struct MessageHandler<CM: Deref, RM: Deref, OM: Deref> where
 /// to a remote host. You will need to be able to generate multiple of these which meet Eq and
 /// implement Hash to meet the PeerManager API.
 ///
-/// For efficiency, Clone should be relatively cheap for this type.
+/// For efficiency, [`Clone`] should be relatively cheap for this type.
 ///
 /// Two descriptors may compare equal (by [`cmp::Eq`] and [`hash::Hash`]) as long as the original
 /// has been disconnected, the [`PeerManager`] has been informed of the disconnection (either by it
@@ -315,16 +322,7 @@ pub trait SocketDescriptor : cmp::Eq + hash::Hash + Clone {
 /// generate no further read_event/write_buffer_space_avail/socket_disconnected calls for the
 /// descriptor.
 #[derive(Clone)]
-pub struct PeerHandleError {
-	/// Used to indicate that we probably can't make any future connections to this peer (e.g.
-	/// because we required features that our peer was missing, or vice versa).
-	///
-	/// While LDK's [`ChannelManager`] will not do it automatically, you likely wish to force-close
-	/// any channels with this peer or check for new versions of LDK.
-	///
-	/// [`ChannelManager`]: crate::ln::channelmanager::ChannelManager
-	pub no_connection_possible: bool,
-}
+pub struct PeerHandleError { }
 impl fmt::Debug for PeerHandleError {
 	fn fmt(&self, formatter: &mut fmt::Formatter) -> Result<(), fmt::Error> {
 		formatter.write_str("Peer Sent Invalid Data")
@@ -393,6 +391,12 @@ struct Peer {
 	/// We cache a `NodeId` here to avoid serializing peers' keys every time we forward gossip
 	/// messages in `PeerManager`. Use `Peer::set_their_node_id` to modify this field.
 	their_node_id: Option<(PublicKey, NodeId)>,
+	/// The features provided in the peer's [`msgs::Init`] message.
+	///
+	/// This is set only after we've processed the [`msgs::Init`] message and called relevant
+	/// `peer_connected` handler methods. Thus, this field is set *iff* we've finished our
+	/// handshake and can talk to this peer normally (though use [`Peer::handshake_complete`] to
+	/// check this.
 	their_features: Option<InitFeatures>,
 	their_net_address: Option<NetAddress>,
 
@@ -421,9 +425,18 @@ struct Peer {
 	/// `channel_announcement` at all - we set this unconditionally but unset it every time we
 	/// check if we're gossip-processing-backlogged).
 	received_channel_announce_since_backlogged: bool,
+
+	inbound_connection: bool,
 }
 
 impl Peer {
+	/// True after we've processed the [`msgs::Init`] message and called relevant `peer_connected`
+	/// handler methods. Thus, this implies we've finished our handshake and can talk to this peer
+	/// normally.
+	fn handshake_complete(&self) -> bool {
+		self.their_features.is_some()
+	}
+
 	/// Returns true if the channel announcements/updates for the given channel should be
 	/// forwarded to this peer.
 	/// If we are sending our routing table to this peer and we have not yet sent channel
@@ -431,6 +444,7 @@ impl Peer {
 	/// point and we shouldn't send it yet to avoid sending duplicate updates. If we've already
 	/// sent the old versions, we should send the update, and so return true here.
 	fn should_forward_channel_announcement(&self, channel_id: u64) -> bool {
+		if !self.handshake_complete() { return false; }
 		if self.their_features.as_ref().unwrap().supports_gossip_queries() &&
 			!self.sent_gossip_timestamp_filter {
 				return false;
@@ -444,6 +458,7 @@ impl Peer {
 
 	/// Similar to the above, but for node announcements indexed by node_id.
 	fn should_forward_node_announcement(&self, node_id: NodeId) -> bool {
+		if !self.handshake_complete() { return false; }
 		if self.their_features.as_ref().unwrap().supports_gossip_queries() &&
 			!self.sent_gossip_timestamp_filter {
 				return false;
@@ -470,19 +485,20 @@ impl Peer {
 	fn should_buffer_gossip_backfill(&self) -> bool {
 		self.pending_outbound_buffer.is_empty() && self.gossip_broadcast_buffer.is_empty()
 			&& self.msgs_sent_since_pong < BUFFER_DRAIN_MSGS_PER_TICK
+			&& self.handshake_complete()
 	}
 
 	/// Determines if we should push an onion message onto a peer's outbound buffer. This is checked
 	/// every time the peer's buffer may have been drained.
 	fn should_buffer_onion_message(&self) -> bool {
-		self.pending_outbound_buffer.is_empty()
+		self.pending_outbound_buffer.is_empty() && self.handshake_complete()
 			&& self.msgs_sent_since_pong < BUFFER_DRAIN_MSGS_PER_TICK
 	}
 
 	/// Determines if we should push additional gossip broadcast messages onto a peer's outbound
 	/// buffer. This is checked every time the peer's buffer may have been drained.
 	fn should_buffer_gossip_broadcast(&self) -> bool {
-		self.pending_outbound_buffer.is_empty()
+		self.pending_outbound_buffer.is_empty() && self.handshake_complete()
 			&& self.msgs_sent_since_pong < BUFFER_DRAIN_MSGS_PER_TICK
 	}
 
@@ -506,7 +522,7 @@ impl Peer {
 /// SimpleRefPeerManager is the more appropriate type. Defining these type aliases prevents
 /// issues such as overly long function definitions.
 ///
-/// (C-not exported) as `Arc`s don't make sense in bindings.
+/// This is not exported to bindings users as `Arc`s don't make sense in bindings.
 pub type SimpleArcPeerManager<SD, M, T, F, C, L> = PeerManager<SD, Arc<SimpleArcChannelManager<M, T, F, L>>, Arc<P2PGossipSync<Arc<NetworkGraph<Arc<L>>>, Arc<C>, Arc<L>>>, Arc<SimpleArcOnionMessenger<L>>, Arc<L>, IgnoringMessageHandler, Arc<KeysManager>>;
 
 /// SimpleRefPeerManager is a type alias for a PeerManager reference, and is the reference
@@ -516,7 +532,7 @@ pub type SimpleArcPeerManager<SD, M, T, F, C, L> = PeerManager<SD, Arc<SimpleArc
 /// But if this is not necessary, using a reference is more efficient. Defining these type aliases
 /// helps with issues such as long function definitions.
 ///
-/// (C-not exported) as general type aliases don't make sense in bindings.
+/// This is not exported to bindings users as general type aliases don't make sense in bindings.
 pub type SimpleRefPeerManager<'a, 'b, 'c, 'd, 'e, 'f, 'g, 'h, 'i, 'j, 'k, 'l, 'm, SD, M, T, F, C, L> = PeerManager<SD, SimpleRefChannelManager<'a, 'b, 'c, 'd, 'e, 'f, 'g, 'm, M, T, F, L>, &'f P2PGossipSync<&'g NetworkGraph<&'f L>, &'h C, &'f L>, &'i SimpleRefOnionMessenger<'j, 'k, L>, &'f L, IgnoringMessageHandler, &'c KeysManager>;
 
 /// A PeerManager manages a set of peers, described by their [`SocketDescriptor`] and marshalls
@@ -531,10 +547,10 @@ pub type SimpleRefPeerManager<'a, 'b, 'c, 'd, 'e, 'f, 'g, 'h, 'i, 'j, 'k, 'l, 'm
 /// [`PeerManager`] functions related to the same connection must occur only in serial, making new
 /// calls only after previous ones have returned.
 ///
-/// Rather than using a plain PeerManager, it is preferable to use either a SimpleArcPeerManager
-/// a SimpleRefPeerManager, for conciseness. See their documentation for more details, but
-/// essentially you should default to using a SimpleRefPeerManager, and use a
-/// SimpleArcPeerManager when you require a PeerManager with a static lifetime, such as when
+/// Rather than using a plain [`PeerManager`], it is preferable to use either a [`SimpleArcPeerManager`]
+/// a [`SimpleRefPeerManager`], for conciseness. See their documentation for more details, but
+/// essentially you should default to using a [`SimpleRefPeerManager`], and use a
+/// [`SimpleArcPeerManager`] when you require a `PeerManager` with a static lifetime, such as when
 /// you're using lightning-net-tokio.
 ///
 /// [`read_event`]: PeerManager::read_event
@@ -622,7 +638,7 @@ impl<Descriptor: SocketDescriptor, CM: Deref, OM: Deref, L: Deref, NS: Deref> Pe
 	/// `OnionMessageHandler`. No routing message handler is used and network graph messages are
 	/// ignored.
 	///
-	/// ephemeral_random_data is used to derive per-connection ephemeral keys and must be
+	/// `ephemeral_random_data` is used to derive per-connection ephemeral keys and must be
 	/// cryptographically secure random bytes.
 	///
 	/// `current_time` is used as an always-increasing counter that survives across restarts and is
@@ -630,7 +646,7 @@ impl<Descriptor: SocketDescriptor, CM: Deref, OM: Deref, L: Deref, NS: Deref> Pe
 	/// timestamp, however if it is not available a persistent counter that increases once per
 	/// minute should suffice.
 	///
-	/// (C-not exported) as we can't export a PeerManager with a dummy route handler
+	/// This is not exported to bindings users as we can't export a PeerManager with a dummy route handler
 	pub fn new_channel_only(channel_message_handler: CM, onion_message_handler: OM, current_time: u32, ephemeral_random_data: &[u8; 32], logger: L, node_signer: NS) -> Self {
 		Self::new(MessageHandler {
 			chan_handler: channel_message_handler,
@@ -654,10 +670,10 @@ impl<Descriptor: SocketDescriptor, RM: Deref, L: Deref, NS: Deref> PeerManager<D
 	/// timestamp, however if it is not available a persistent counter that increases once per
 	/// minute should suffice.
 	///
-	/// ephemeral_random_data is used to derive per-connection ephemeral keys and must be
+	/// `ephemeral_random_data` is used to derive per-connection ephemeral keys and must be
 	/// cryptographically secure random bytes.
 	///
-	/// (C-not exported) as we can't export a PeerManager with a dummy channel handler
+	/// This is not exported to bindings users as we can't export a PeerManager with a dummy channel handler
 	pub fn new_routing_only(routing_message_handler: RM, current_time: u32, ephemeral_random_data: &[u8; 32], logger: L, node_signer: NS) -> Self {
 		Self::new(MessageHandler {
 			chan_handler: ErroringMessageHandler::new(),
@@ -716,8 +732,9 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 		CMH::Target: CustomMessageHandler,
 		NS::Target: NodeSigner
 {
-	/// Constructs a new PeerManager with the given message handlers and node_id secret key
-	/// ephemeral_random_data is used to derive per-connection ephemeral keys and must be
+	/// Constructs a new `PeerManager` with the given message handlers.
+	///
+	/// `ephemeral_random_data` is used to derive per-connection ephemeral keys and must be
 	/// cryptographically secure random bytes.
 	///
 	/// `current_time` is used as an always-increasing counter that survives across restarts and is
@@ -764,8 +781,7 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 		let peers = self.peers.read().unwrap();
 		peers.values().filter_map(|peer_mutex| {
 			let p = peer_mutex.lock().unwrap();
-			if !p.channel_encryptor.is_ready_for_encryption() || p.their_features.is_none() ||
-				p.their_node_id.is_none() {
+			if !p.handshake_complete() {
 				return None;
 			}
 			Some((p.their_node_id.unwrap().0, p.their_net_address.clone()))
@@ -791,42 +807,49 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 	/// Returns a small number of bytes to send to the remote node (currently always 50).
 	///
 	/// Panics if descriptor is duplicative with some other descriptor which has not yet been
-	/// [`socket_disconnected()`].
+	/// [`socket_disconnected`].
 	///
-	/// [`socket_disconnected()`]: PeerManager::socket_disconnected
+	/// [`socket_disconnected`]: PeerManager::socket_disconnected
 	pub fn new_outbound_connection(&self, their_node_id: PublicKey, descriptor: Descriptor, remote_network_address: Option<NetAddress>) -> Result<Vec<u8>, PeerHandleError> {
 		let mut peer_encryptor = PeerChannelEncryptor::new_outbound(their_node_id.clone(), self.get_ephemeral_key());
 		let res = peer_encryptor.get_act_one(&self.secp_ctx).to_vec();
 		let pending_read_buffer = [0; 50].to_vec(); // Noise act two is 50 bytes
 
 		let mut peers = self.peers.write().unwrap();
-		if peers.insert(descriptor, Mutex::new(Peer {
-			channel_encryptor: peer_encryptor,
-			their_node_id: None,
-			their_features: None,
-			their_net_address: remote_network_address,
-
-			pending_outbound_buffer: LinkedList::new(),
-			pending_outbound_buffer_first_msg_offset: 0,
-			gossip_broadcast_buffer: LinkedList::new(),
-			awaiting_write_event: false,
-
-			pending_read_buffer,
-			pending_read_buffer_pos: 0,
-			pending_read_is_header: false,
-
-			sync_status: InitSyncTracker::NoSyncRequested,
-
-			msgs_sent_since_pong: 0,
-			awaiting_pong_timer_tick_intervals: 0,
-			received_message_since_timer_tick: false,
-			sent_gossip_timestamp_filter: false,
-
-			received_channel_announce_since_backlogged: false,
-		})).is_some() {
-			panic!("PeerManager driver duplicated descriptors!");
-		};
-		Ok(res)
+		match peers.entry(descriptor) {
+			hash_map::Entry::Occupied(_) => {
+				debug_assert!(false, "PeerManager driver duplicated descriptors!");
+				Err(PeerHandleError {})
+			},
+			hash_map::Entry::Vacant(e) => {
+				e.insert(Mutex::new(Peer {
+					channel_encryptor: peer_encryptor,
+					their_node_id: None,
+					their_features: None,
+					their_net_address: remote_network_address,
+
+					pending_outbound_buffer: LinkedList::new(),
+					pending_outbound_buffer_first_msg_offset: 0,
+					gossip_broadcast_buffer: LinkedList::new(),
+					awaiting_write_event: false,
+
+					pending_read_buffer,
+					pending_read_buffer_pos: 0,
+					pending_read_is_header: false,
+
+					sync_status: InitSyncTracker::NoSyncRequested,
+
+					msgs_sent_since_pong: 0,
+					awaiting_pong_timer_tick_intervals: 0,
+					received_message_since_timer_tick: false,
+					sent_gossip_timestamp_filter: false,
+
+					received_channel_announce_since_backlogged: false,
+					inbound_connection: false,
+				}));
+				Ok(res)
+			}
+		}
 	}
 
 	/// Indicates a new inbound connection has been established to a node with an optional remote
@@ -841,41 +864,48 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 	/// the connection immediately.
 	///
 	/// Panics if descriptor is duplicative with some other descriptor which has not yet been
-	/// [`socket_disconnected()`].
+	/// [`socket_disconnected`].
 	///
-	/// [`socket_disconnected()`]: PeerManager::socket_disconnected
+	/// [`socket_disconnected`]: PeerManager::socket_disconnected
 	pub fn new_inbound_connection(&self, descriptor: Descriptor, remote_network_address: Option<NetAddress>) -> Result<(), PeerHandleError> {
 		let peer_encryptor = PeerChannelEncryptor::new_inbound(&self.node_signer);
 		let pending_read_buffer = [0; 50].to_vec(); // Noise act one is 50 bytes
 
 		let mut peers = self.peers.write().unwrap();
-		if peers.insert(descriptor, Mutex::new(Peer {
-			channel_encryptor: peer_encryptor,
-			their_node_id: None,
-			their_features: None,
-			their_net_address: remote_network_address,
-
-			pending_outbound_buffer: LinkedList::new(),
-			pending_outbound_buffer_first_msg_offset: 0,
-			gossip_broadcast_buffer: LinkedList::new(),
-			awaiting_write_event: false,
-
-			pending_read_buffer,
-			pending_read_buffer_pos: 0,
-			pending_read_is_header: false,
-
-			sync_status: InitSyncTracker::NoSyncRequested,
-
-			msgs_sent_since_pong: 0,
-			awaiting_pong_timer_tick_intervals: 0,
-			received_message_since_timer_tick: false,
-			sent_gossip_timestamp_filter: false,
-
-			received_channel_announce_since_backlogged: false,
-		})).is_some() {
-			panic!("PeerManager driver duplicated descriptors!");
-		};
-		Ok(())
+		match peers.entry(descriptor) {
+			hash_map::Entry::Occupied(_) => {
+				debug_assert!(false, "PeerManager driver duplicated descriptors!");
+				Err(PeerHandleError {})
+			},
+			hash_map::Entry::Vacant(e) => {
+				e.insert(Mutex::new(Peer {
+					channel_encryptor: peer_encryptor,
+					their_node_id: None,
+					their_features: None,
+					their_net_address: remote_network_address,
+
+					pending_outbound_buffer: LinkedList::new(),
+					pending_outbound_buffer_first_msg_offset: 0,
+					gossip_broadcast_buffer: LinkedList::new(),
+					awaiting_write_event: false,
+
+					pending_read_buffer,
+					pending_read_buffer_pos: 0,
+					pending_read_is_header: false,
+
+					sync_status: InitSyncTracker::NoSyncRequested,
+
+					msgs_sent_since_pong: 0,
+					awaiting_pong_timer_tick_intervals: 0,
+					received_message_since_timer_tick: false,
+					sent_gossip_timestamp_filter: false,
+
+					received_channel_announce_since_backlogged: false,
+					inbound_connection: true,
+				}));
+				Ok(())
+			}
+		}
 	}
 
 	fn peer_should_read(&self, peer: &mut Peer) -> bool {
@@ -982,7 +1012,7 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 	/// May call [`send_data`] on the descriptor passed in (or an equal descriptor) before
 	/// returning. Thus, be very careful with reentrancy issues! The invariants around calling
 	/// [`write_buffer_space_avail`] in case a write did not fully complete must still hold - be
-	/// ready to call `[write_buffer_space_avail`] again if a write call generated here isn't
+	/// ready to call [`write_buffer_space_avail`] again if a write call generated here isn't
 	/// sufficient!
 	///
 	/// [`send_data`]: SocketDescriptor::send_data
@@ -994,7 +1024,7 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 				// This is most likely a simple race condition where the user found that the socket
 				// was writeable, then we told the user to `disconnect_socket()`, then they called
 				// this method. Return an error to make sure we get disconnected.
-				return Err(PeerHandleError { no_connection_possible: false });
+				return Err(PeerHandleError { });
 			},
 			Some(peer_mutex) => {
 				let mut peer = peer_mutex.lock().unwrap();
@@ -1027,7 +1057,7 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 			Ok(res) => Ok(res),
 			Err(e) => {
 				log_trace!(self.logger, "Peer sent invalid data or we decided to disconnect due to a protocol error");
-				self.disconnect_event_internal(peer_descriptor, e.no_connection_possible);
+				self.disconnect_event_internal(peer_descriptor);
 				Err(e)
 			}
 		}
@@ -1060,7 +1090,7 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 				// This is most likely a simple race condition where the user read some bytes
 				// from the socket, then we told the user to `disconnect_socket()`, then they
 				// called this method. Return an error to make sure we get disconnected.
-				return Err(PeerHandleError { no_connection_possible: false });
+				return Err(PeerHandleError { });
 			},
 			Some(peer_mutex) => {
 				let mut read_pos = 0;
@@ -1074,7 +1104,7 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 										msgs::ErrorAction::DisconnectPeer { msg: _ } => {
 											//TODO: Try to push msg
 											log_debug!(self.logger, "Error handling message{}; disconnecting peer with: {}", OptionalFromDebugger(&peer_node_id), e.err);
-											return Err(PeerHandleError{ no_connection_possible: false });
+											return Err(PeerHandleError { });
 										},
 										msgs::ErrorAction::IgnoreAndLog(level) => {
 											log_given_level!(self.logger, level, "Error handling message{}; ignoring: {}", OptionalFromDebugger(&peer_node_id), e.err);
@@ -1124,10 +1154,14 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 						macro_rules! insert_node_id {
 							() => {
 								match self.node_id_to_descriptor.lock().unwrap().entry(peer.their_node_id.unwrap().0) {
-									hash_map::Entry::Occupied(_) => {
+									hash_map::Entry::Occupied(e) => {
 										log_trace!(self.logger, "Got second connection with {}, closing", log_pubkey!(peer.their_node_id.unwrap().0));
 										peer.their_node_id = None; // Unset so that we don't generate a peer_disconnected event
-										return Err(PeerHandleError{ no_connection_possible: false })
+										// Check that the peers map is consistent with the
+										// node_id_to_descriptor map, as this has been broken
+										// before.
+										debug_assert!(peers.get(e.get()).is_some());
+										return Err(PeerHandleError { })
 									},
 									hash_map::Entry::Vacant(entry) => {
 										log_debug!(self.logger, "Finished noise handshake for connection with {}", log_pubkey!(peer.their_node_id.unwrap().0));
@@ -1184,7 +1218,7 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 									if peer.pending_read_buffer.capacity() > 8192 { peer.pending_read_buffer = Vec::new(); }
 									peer.pending_read_buffer.resize(msg_len as usize + 16, 0);
 									if msg_len < 2 { // Need at least the message type tag
-										return Err(PeerHandleError{ no_connection_possible: false });
+										return Err(PeerHandleError { });
 									}
 									peer.pending_read_is_header = false;
 								} else {
@@ -1227,19 +1261,19 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 												(msgs::DecodeError::UnknownRequiredFeature, ty) => {
 													log_gossip!(self.logger, "Received a message with an unknown required feature flag or TLV, you may want to update!");
 													self.enqueue_message(peer, &msgs::WarningMessage { channel_id: [0; 32], data: format!("Received an unknown required feature/TLV in message type {:?}", ty) });
-													return Err(PeerHandleError { no_connection_possible: false });
+													return Err(PeerHandleError { });
 												}
-												(msgs::DecodeError::UnknownVersion, _) => return Err(PeerHandleError { no_connection_possible: false }),
+												(msgs::DecodeError::UnknownVersion, _) => return Err(PeerHandleError { }),
 												(msgs::DecodeError::InvalidValue, _) => {
 													log_debug!(self.logger, "Got an invalid value while deserializing message");
-													return Err(PeerHandleError { no_connection_possible: false });
+													return Err(PeerHandleError { });
 												}
 												(msgs::DecodeError::ShortRead, _) => {
 													log_debug!(self.logger, "Deserialization failed due to shortness of message");
-													return Err(PeerHandleError { no_connection_possible: false });
+													return Err(PeerHandleError { });
 												}
-												(msgs::DecodeError::BadLengthDescriptor, _) => return Err(PeerHandleError { no_connection_possible: false }),
-												(msgs::DecodeError::Io(_), _) => return Err(PeerHandleError { no_connection_possible: false }),
+												(msgs::DecodeError::BadLengthDescriptor, _) => return Err(PeerHandleError { }),
+												(msgs::DecodeError::Io(_), _) => return Err(PeerHandleError { }),
 											}
 										}
 									};
@@ -1291,10 +1325,10 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 		if let wire::Message::Init(msg) = message {
 			if msg.features.requires_unknown_bits() {
 				log_debug!(self.logger, "Peer features required unknown version bits");
-				return Err(PeerHandleError{ no_connection_possible: true }.into());
+				return Err(PeerHandleError { }.into());
 			}
 			if peer_lock.their_features.is_some() {
-				return Err(PeerHandleError{ no_connection_possible: false }.into());
+				return Err(PeerHandleError { }.into());
 			}
 
 			log_info!(self.logger, "Received peer Init message from {}: {}", log_pubkey!(their_node_id), msg.features);
@@ -1304,24 +1338,24 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 				peer_lock.sync_status = InitSyncTracker::ChannelsSyncing(0);
 			}
 
-			if let Err(()) = self.message_handler.route_handler.peer_connected(&their_node_id, &msg) {
+			if let Err(()) = self.message_handler.route_handler.peer_connected(&their_node_id, &msg, peer_lock.inbound_connection) {
 				log_debug!(self.logger, "Route Handler decided we couldn't communicate with peer {}", log_pubkey!(their_node_id));
-				return Err(PeerHandleError{ no_connection_possible: true }.into());
+				return Err(PeerHandleError { }.into());
 			}
-			if let Err(()) = self.message_handler.chan_handler.peer_connected(&their_node_id, &msg) {
+			if let Err(()) = self.message_handler.chan_handler.peer_connected(&their_node_id, &msg, peer_lock.inbound_connection) {
 				log_debug!(self.logger, "Channel Handler decided we couldn't communicate with peer {}", log_pubkey!(their_node_id));
-				return Err(PeerHandleError{ no_connection_possible: true }.into());
+				return Err(PeerHandleError { }.into());
 			}
-			if let Err(()) = self.message_handler.onion_message_handler.peer_connected(&their_node_id, &msg) {
+			if let Err(()) = self.message_handler.onion_message_handler.peer_connected(&their_node_id, &msg, peer_lock.inbound_connection) {
 				log_debug!(self.logger, "Onion Message Handler decided we couldn't communicate with peer {}", log_pubkey!(their_node_id));
-				return Err(PeerHandleError{ no_connection_possible: true }.into());
+				return Err(PeerHandleError { }.into());
 			}
 
 			peer_lock.their_features = Some(msg.features);
 			return Ok(None);
 		} else if peer_lock.their_features.is_none() {
 			log_debug!(self.logger, "Peer {} sent non-Init first message", log_pubkey!(their_node_id));
-			return Err(PeerHandleError{ no_connection_possible: false }.into());
+			return Err(PeerHandleError { }.into());
 		}
 
 		if let wire::Message::GossipTimestampFilter(_msg) = message {
@@ -1373,7 +1407,7 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 				}
 				self.message_handler.chan_handler.handle_error(&their_node_id, &msg);
 				if msg.channel_id == [0; 32] {
-					return Err(PeerHandleError{ no_connection_possible: true }.into());
+					return Err(PeerHandleError { }.into());
 				}
 			},
 			wire::Message::Warning(msg) => {
@@ -1503,8 +1537,7 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 			// Unknown messages:
 			wire::Message::Unknown(type_id) if message.is_even() => {
 				log_debug!(self.logger, "Received unknown even message of type {}, disconnecting peer!", type_id);
-				// Fail the channel if message is an even, unknown type as per BOLT #1.
-				return Err(PeerHandleError{ no_connection_possible: true }.into());
+				return Err(PeerHandleError { }.into());
 			},
 			wire::Message::Unknown(type_id) => {
 				log_trace!(self.logger, "Received unknown odd message of type {}, ignoring", type_id);
@@ -1524,10 +1557,12 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 
 				for (_, peer_mutex) in peers.iter() {
 					let mut peer = peer_mutex.lock().unwrap();
-					if !peer.channel_encryptor.is_ready_for_encryption() || peer.their_features.is_none() ||
+					if !peer.handshake_complete() ||
 							!peer.should_forward_channel_announcement(msg.contents.short_channel_id) {
 						continue
 					}
+					debug_assert!(peer.their_node_id.is_some());
+					debug_assert!(peer.channel_encryptor.is_ready_for_encryption());
 					if peer.buffer_full_drop_gossip_broadcast() {
 						log_gossip!(self.logger, "Skipping broadcast message to {:?} as its outbound buffer is full", peer.their_node_id);
 						continue;
@@ -1549,10 +1584,12 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 
 				for (_, peer_mutex) in peers.iter() {
 					let mut peer = peer_mutex.lock().unwrap();
-					if !peer.channel_encryptor.is_ready_for_encryption() || peer.their_features.is_none() ||
+					if !peer.handshake_complete() ||
 							!peer.should_forward_node_announcement(msg.contents.node_id) {
 						continue
 					}
+					debug_assert!(peer.their_node_id.is_some());
+					debug_assert!(peer.channel_encryptor.is_ready_for_encryption());
 					if peer.buffer_full_drop_gossip_broadcast() {
 						log_gossip!(self.logger, "Skipping broadcast message to {:?} as its outbound buffer is full", peer.their_node_id);
 						continue;
@@ -1574,10 +1611,12 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 
 				for (_, peer_mutex) in peers.iter() {
 					let mut peer = peer_mutex.lock().unwrap();
-					if !peer.channel_encryptor.is_ready_for_encryption() || peer.their_features.is_none() ||
+					if !peer.handshake_complete() ||
 							!peer.should_forward_channel_announcement(msg.contents.short_channel_id)  {
 						continue
 					}
+					debug_assert!(peer.their_node_id.is_some());
+					debug_assert!(peer.channel_encryptor.is_ready_for_encryption());
 					if peer.buffer_full_drop_gossip_broadcast() {
 						log_gossip!(self.logger, "Skipping broadcast message to {:?} as its outbound buffer is full", peer.their_node_id);
 						continue;
@@ -1657,7 +1696,7 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 							Some(descriptor) => match peers.get(&descriptor) {
 								Some(peer_mutex) => {
 									let peer_lock = peer_mutex.lock().unwrap();
-									if peer_lock.their_features.is_none() {
+									if !peer_lock.handshake_complete() {
 										continue;
 									}
 									peer_lock
@@ -1877,24 +1916,21 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 				// thread can be holding the peer lock if we have the global write
 				// lock).
 
-				if let Some(mut descriptor) = self.node_id_to_descriptor.lock().unwrap().remove(&node_id) {
+				let descriptor_opt = self.node_id_to_descriptor.lock().unwrap().remove(&node_id);
+				if let Some(mut descriptor) = descriptor_opt {
 					if let Some(peer_mutex) = peers.remove(&descriptor) {
+						let mut peer = peer_mutex.lock().unwrap();
 						if let Some(msg) = msg {
 							log_trace!(self.logger, "Handling DisconnectPeer HandleError event in peer_handler for node {} with message {}",
 									log_pubkey!(node_id),
 									msg.data);
-							let mut peer = peer_mutex.lock().unwrap();
 							self.enqueue_message(&mut *peer, &msg);
 							// This isn't guaranteed to work, but if there is enough free
 							// room in the send buffer, put the error message there...
 							self.do_attempt_write_data(&mut descriptor, &mut *peer, false);
-						} else {
-							log_trace!(self.logger, "Handling DisconnectPeer HandleError event in peer_handler for node {} with no message", log_pubkey!(node_id));
 						}
-					}
-					descriptor.disconnect_socket();
-					self.message_handler.chan_handler.peer_disconnected(&node_id, false);
-					self.message_handler.onion_message_handler.peer_disconnected(&node_id, false);
+						self.do_disconnect(descriptor, &*peer, "DisconnectPeer HandleError");
+					} else { debug_assert!(false, "Missing connection for peer"); }
 				}
 			}
 		}
@@ -1902,10 +1938,26 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 
 	/// Indicates that the given socket descriptor's connection is now closed.
 	pub fn socket_disconnected(&self, descriptor: &Descriptor) {
-		self.disconnect_event_internal(descriptor, false);
+		self.disconnect_event_internal(descriptor);
+	}
+
+	fn do_disconnect(&self, mut descriptor: Descriptor, peer: &Peer, reason: &'static str) {
+		if !peer.handshake_complete() {
+			log_trace!(self.logger, "Disconnecting peer which hasn't completed handshake due to {}", reason);
+			descriptor.disconnect_socket();
+			return;
+		}
+
+		debug_assert!(peer.their_node_id.is_some());
+		if let Some((node_id, _)) = peer.their_node_id {
+			log_trace!(self.logger, "Disconnecting peer with id {} due to {}", node_id, reason);
+			self.message_handler.chan_handler.peer_disconnected(&node_id);
+			self.message_handler.onion_message_handler.peer_disconnected(&node_id);
+		}
+		descriptor.disconnect_socket();
 	}
 
-	fn disconnect_event_internal(&self, descriptor: &Descriptor, no_connection_possible: bool) {
+	fn disconnect_event_internal(&self, descriptor: &Descriptor) {
 		let mut peers = self.peers.write().unwrap();
 		let peer_option = peers.remove(descriptor);
 		match peer_option {
@@ -1917,12 +1969,12 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 			Some(peer_lock) => {
 				let peer = peer_lock.lock().unwrap();
 				if let Some((node_id, _)) = peer.their_node_id {
-					log_trace!(self.logger,
-						"Handling disconnection of peer {}, with {}future connection to the peer possible.",
-						log_pubkey!(node_id), if no_connection_possible { "no " } else { "" });
-					self.node_id_to_descriptor.lock().unwrap().remove(&node_id);
-					self.message_handler.chan_handler.peer_disconnected(&node_id, no_connection_possible);
-					self.message_handler.onion_message_handler.peer_disconnected(&node_id, no_connection_possible);
+					log_trace!(self.logger, "Handling disconnection of peer {}", log_pubkey!(node_id));
+					let removed = self.node_id_to_descriptor.lock().unwrap().remove(&node_id);
+					debug_assert!(removed.is_some(), "descriptor maps should be consistent");
+					if !peer.handshake_complete() { return; }
+					self.message_handler.chan_handler.peer_disconnected(&node_id);
+					self.message_handler.onion_message_handler.peer_disconnected(&node_id);
 				}
 			}
 		};
@@ -1930,21 +1982,17 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 
 	/// Disconnect a peer given its node id.
 	///
-	/// Set `no_connection_possible` to true to prevent any further connection with this peer,
-	/// force-closing any channels we have with it.
-	///
 	/// If a peer is connected, this will call [`disconnect_socket`] on the descriptor for the
 	/// peer. Thus, be very careful about reentrancy issues.
 	///
 	/// [`disconnect_socket`]: SocketDescriptor::disconnect_socket
-	pub fn disconnect_by_node_id(&self, node_id: PublicKey, no_connection_possible: bool) {
+	pub fn disconnect_by_node_id(&self, node_id: PublicKey) {
 		let mut peers_lock = self.peers.write().unwrap();
-		if let Some(mut descriptor) = self.node_id_to_descriptor.lock().unwrap().remove(&node_id) {
-			log_trace!(self.logger, "Disconnecting peer with id {} due to client request", node_id);
-			peers_lock.remove(&descriptor);
-			self.message_handler.chan_handler.peer_disconnected(&node_id, no_connection_possible);
-			self.message_handler.onion_message_handler.peer_disconnected(&node_id, no_connection_possible);
-			descriptor.disconnect_socket();
+		if let Some(descriptor) = self.node_id_to_descriptor.lock().unwrap().remove(&node_id) {
+			let peer_opt = peers_lock.remove(&descriptor);
+			if let Some(peer_mutex) = peer_opt {
+				self.do_disconnect(descriptor, &*peer_mutex.lock().unwrap(), "client request");
+			} else { debug_assert!(false, "node_id_to_descriptor thought we had a peer"); }
 		}
 	}
 
@@ -1955,13 +2003,8 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 		let mut peers_lock = self.peers.write().unwrap();
 		self.node_id_to_descriptor.lock().unwrap().clear();
 		let peers = &mut *peers_lock;
-		for (mut descriptor, peer) in peers.drain() {
-			if let Some((node_id, _)) = peer.lock().unwrap().their_node_id {
-				log_trace!(self.logger, "Disconnecting peer with id {} due to client request to disconnect all peers", node_id);
-				self.message_handler.chan_handler.peer_disconnected(&node_id, false);
-				self.message_handler.onion_message_handler.peer_disconnected(&node_id, false);
-			}
-			descriptor.disconnect_socket();
+		for (descriptor, peer_mutex) in peers.drain() {
+			self.do_disconnect(descriptor, &*peer_mutex.lock().unwrap(), "client request to disconnect all peers");
 		}
 	}
 
@@ -2002,7 +2045,7 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 				let mut peer = peer_mutex.lock().unwrap();
 				if flush_read_disabled { peer.received_channel_announce_since_backlogged = false; }
 
-				if !peer.channel_encryptor.is_ready_for_encryption() || peer.their_node_id.is_none() {
+				if !peer.handshake_complete() {
 					// The peer needs to complete its handshake before we can exchange messages. We
 					// give peers one timer tick to complete handshake, reusing
 					// `awaiting_pong_timer_tick_intervals` to track number of timer ticks taken
@@ -2014,6 +2057,8 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 					}
 					continue;
 				}
+				debug_assert!(peer.channel_encryptor.is_ready_for_encryption());
+				debug_assert!(peer.their_node_id.is_some());
 
 				loop { // Used as a `goto` to skip writing a Ping message.
 					if peer.awaiting_pong_timer_tick_intervals == -1 {
@@ -2052,21 +2097,16 @@ impl<Descriptor: SocketDescriptor, CM: Deref, RM: Deref, OM: Deref, L: Deref, CM
 		if !descriptors_needing_disconnect.is_empty() {
 			{
 				let mut peers_lock = self.peers.write().unwrap();
-				for descriptor in descriptors_needing_disconnect.iter() {
-					if let Some(peer) = peers_lock.remove(descriptor) {
-						if let Some((node_id, _)) = peer.lock().unwrap().their_node_id {
-							log_trace!(self.logger, "Disconnecting peer with id {} due to ping timeout", node_id);
+				for descriptor in descriptors_needing_disconnect {
+					if let Some(peer_mutex) = peers_lock.remove(&descriptor) {
+						let peer = peer_mutex.lock().unwrap();
+						if let Some((node_id, _)) = peer.their_node_id {
 							self.node_id_to_descriptor.lock().unwrap().remove(&node_id);
-							self.message_handler.chan_handler.peer_disconnected(&node_id, false);
-							self.message_handler.onion_message_handler.peer_disconnected(&node_id, false);
 						}
+						self.do_disconnect(descriptor, &*peer, "ping timeout");
 					}
 				}
 			}
-
-			for mut descriptor in descriptors_needing_disconnect.drain(..) {
-				descriptor.disconnect_socket();
-			}
 		}
 	}
 
@@ -2154,22 +2194,24 @@ fn is_gossip_msg(type_id: u16) -> bool {
 #[cfg(test)]
 mod tests {
 	use crate::chain::keysinterface::{NodeSigner, Recipient};
+	use crate::events;
+	use crate::ln::peer_channel_encryptor::PeerChannelEncryptor;
 	use crate::ln::peer_handler::{PeerManager, MessageHandler, SocketDescriptor, IgnoringMessageHandler, filter_addresses};
 	use crate::ln::{msgs, wire};
 	use crate::ln::msgs::NetAddress;
-	use crate::util::events;
 	use crate::util::test_utils;
 
 	use bitcoin::secp256k1::SecretKey;
 
 	use crate::prelude::*;
 	use crate::sync::{Arc, Mutex};
-	use core::sync::atomic::Ordering;
+	use core::sync::atomic::{AtomicBool, Ordering};
 
 	#[derive(Clone)]
 	struct FileDescriptor {
 		fd: u16,
 		outbound_data: Arc<Mutex<Vec<u8>>>,
+		disconnect: Arc<AtomicBool>,
 	}
 	impl PartialEq for FileDescriptor {
 		fn eq(&self, other: &Self) -> bool {
@@ -2189,7 +2231,7 @@ mod tests {
 			data.len()
 		}
 
-		fn disconnect_socket(&mut self) {}
+		fn disconnect_socket(&mut self) { self.disconnect.store(true, Ordering::Release); }
 	}
 
 	struct PeerManagerCfg {
@@ -2230,10 +2272,16 @@ mod tests {
 
 	fn establish_connection<'a>(peer_a: &PeerManager<FileDescriptor, &'a test_utils::TestChannelMessageHandler, &'a test_utils::TestRoutingMessageHandler, IgnoringMessageHandler, &'a test_utils::TestLogger, IgnoringMessageHandler, &'a test_utils::TestNodeSigner>, peer_b: &PeerManager<FileDescriptor, &'a test_utils::TestChannelMessageHandler, &'a test_utils::TestRoutingMessageHandler, IgnoringMessageHandler, &'a test_utils::TestLogger, IgnoringMessageHandler, &'a test_utils::TestNodeSigner>) -> (FileDescriptor, FileDescriptor) {
 		let id_a = peer_a.node_signer.get_node_id(Recipient::Node).unwrap();
-		let mut fd_a = FileDescriptor { fd: 1, outbound_data: Arc::new(Mutex::new(Vec::new())) };
+		let mut fd_a = FileDescriptor {
+			fd: 1, outbound_data: Arc::new(Mutex::new(Vec::new())),
+			disconnect: Arc::new(AtomicBool::new(false)),
+		};
 		let addr_a = NetAddress::IPv4{addr: [127, 0, 0, 1], port: 1000};
 		let id_b = peer_b.node_signer.get_node_id(Recipient::Node).unwrap();
-		let mut fd_b = FileDescriptor { fd: 1, outbound_data: Arc::new(Mutex::new(Vec::new())) };
+		let mut fd_b = FileDescriptor {
+			fd: 1, outbound_data: Arc::new(Mutex::new(Vec::new())),
+			disconnect: Arc::new(AtomicBool::new(false)),
+		};
 		let addr_b = NetAddress::IPv4{addr: [127, 0, 0, 1], port: 1001};
 		let initial_data = peer_b.new_outbound_connection(id_a, fd_b.clone(), Some(addr_a.clone())).unwrap();
 		peer_a.new_inbound_connection(fd_a.clone(), Some(addr_b.clone())).unwrap();
@@ -2257,24 +2305,100 @@ mod tests {
 		(fd_a.clone(), fd_b.clone())
 	}
 
+	#[test]
+	#[cfg(feature = "std")]
+	fn fuzz_threaded_connections() {
+		// Spawn two threads which repeatedly connect two peers together, leading to "got second
+		// connection with peer" disconnections and rapid reconnect. This previously found an issue
+		// with our internal map consistency, and is a generally good smoke test of disconnection.
+		let cfgs = Arc::new(create_peermgr_cfgs(2));
+		// Until we have std::thread::scoped we have to unsafe { turn off the borrow checker }.
+		let peers = Arc::new(create_network(2, unsafe { &*(&*cfgs as *const _) as &'static _ }));
+
+		let start_time = std::time::Instant::now();
+		macro_rules! spawn_thread { ($id: expr) => { {
+			let peers = Arc::clone(&peers);
+			let cfgs = Arc::clone(&cfgs);
+			std::thread::spawn(move || {
+				let mut ctr = 0;
+				while start_time.elapsed() < std::time::Duration::from_secs(1) {
+					let id_a = peers[0].node_signer.get_node_id(Recipient::Node).unwrap();
+					let mut fd_a = FileDescriptor {
+						fd: $id  + ctr * 3, outbound_data: Arc::new(Mutex::new(Vec::new())),
+						disconnect: Arc::new(AtomicBool::new(false)),
+					};
+					let addr_a = NetAddress::IPv4{addr: [127, 0, 0, 1], port: 1000};
+					let mut fd_b = FileDescriptor {
+						fd: $id + ctr * 3, outbound_data: Arc::new(Mutex::new(Vec::new())),
+						disconnect: Arc::new(AtomicBool::new(false)),
+					};
+					let addr_b = NetAddress::IPv4{addr: [127, 0, 0, 1], port: 1001};
+					let initial_data = peers[1].new_outbound_connection(id_a, fd_b.clone(), Some(addr_a.clone())).unwrap();
+					peers[0].new_inbound_connection(fd_a.clone(), Some(addr_b.clone())).unwrap();
+					if peers[0].read_event(&mut fd_a, &initial_data).is_err() { break; }
+
+					while start_time.elapsed() < std::time::Duration::from_secs(1) {
+						peers[0].process_events();
+						if fd_a.disconnect.load(Ordering::Acquire) { break; }
+						let a_data = fd_a.outbound_data.lock().unwrap().split_off(0);
+						if peers[1].read_event(&mut fd_b, &a_data).is_err() { break; }
+
+						peers[1].process_events();
+						if fd_b.disconnect.load(Ordering::Acquire) { break; }
+						let b_data = fd_b.outbound_data.lock().unwrap().split_off(0);
+						if peers[0].read_event(&mut fd_a, &b_data).is_err() { break; }
+
+						cfgs[0].chan_handler.pending_events.lock().unwrap()
+							.push(crate::events::MessageSendEvent::SendShutdown {
+								node_id: peers[1].node_signer.get_node_id(Recipient::Node).unwrap(),
+								msg: msgs::Shutdown {
+									channel_id: [0; 32],
+									scriptpubkey: bitcoin::Script::new(),
+								},
+							});
+						cfgs[1].chan_handler.pending_events.lock().unwrap()
+							.push(crate::events::MessageSendEvent::SendShutdown {
+								node_id: peers[0].node_signer.get_node_id(Recipient::Node).unwrap(),
+								msg: msgs::Shutdown {
+									channel_id: [0; 32],
+									scriptpubkey: bitcoin::Script::new(),
+								},
+							});
+
+						if ctr % 2 == 0 {
+							peers[0].timer_tick_occurred();
+							peers[1].timer_tick_occurred();
+						}
+					}
+
+					peers[0].socket_disconnected(&fd_a);
+					peers[1].socket_disconnected(&fd_b);
+					ctr += 1;
+					std::thread::sleep(std::time::Duration::from_micros(1));
+				}
+			})
+		} } }
+		let thrd_a = spawn_thread!(1);
+		let thrd_b = spawn_thread!(2);
+
+		thrd_a.join().unwrap();
+		thrd_b.join().unwrap();
+	}
+
 	#[test]
 	fn test_disconnect_peer() {
 		// Simple test which builds a network of PeerManager, connects and brings them to NoiseState::Finished and
 		// push a DisconnectPeer event to remove the node flagged by id
 		let cfgs = create_peermgr_cfgs(2);
-		let chan_handler = test_utils::TestChannelMessageHandler::new();
-		let mut peers = create_network(2, &cfgs);
+		let peers = create_network(2, &cfgs);
 		establish_connection(&peers[0], &peers[1]);
 		assert_eq!(peers[0].peers.read().unwrap().len(), 1);
 
 		let their_id = peers[1].node_signer.get_node_id(Recipient::Node).unwrap();
-
-		chan_handler.pending_events.lock().unwrap().push(events::MessageSendEvent::HandleError {
+		cfgs[0].chan_handler.pending_events.lock().unwrap().push(events::MessageSendEvent::HandleError {
 			node_id: their_id,
 			action: msgs::ErrorAction::DisconnectPeer { msg: None },
 		});
-		assert_eq!(chan_handler.pending_events.lock().unwrap().len(), 1);
-		peers[0].message_handler.chan_handler = &chan_handler;
 
 		peers[0].process_events();
 		assert_eq!(peers[0].peers.read().unwrap().len(), 0);
@@ -2308,6 +2432,38 @@ mod tests {
 		assert_eq!(peers[1].read_event(&mut fd_b, &a_data).unwrap(), false);
 	}
 
+	#[test]
+	fn test_non_init_first_msg() {
+		// Simple test of the first message received over a connection being something other than
+		// Init. This results in an immediate disconnection, which previously included a spurious
+		// peer_disconnected event handed to event handlers (which would panic in
+		// `TestChannelMessageHandler` here).
+		let cfgs = create_peermgr_cfgs(2);
+		let peers = create_network(2, &cfgs);
+
+		let mut fd_dup = FileDescriptor {
+			fd: 3, outbound_data: Arc::new(Mutex::new(Vec::new())),
+			disconnect: Arc::new(AtomicBool::new(false)),
+		};
+		let addr_dup = NetAddress::IPv4{addr: [127, 0, 0, 1], port: 1003};
+		let id_a = cfgs[0].node_signer.get_node_id(Recipient::Node).unwrap();
+		peers[0].new_inbound_connection(fd_dup.clone(), Some(addr_dup.clone())).unwrap();
+
+		let mut dup_encryptor = PeerChannelEncryptor::new_outbound(id_a, SecretKey::from_slice(&[42; 32]).unwrap());
+		let initial_data = dup_encryptor.get_act_one(&peers[1].secp_ctx);
+		assert_eq!(peers[0].read_event(&mut fd_dup, &initial_data).unwrap(), false);
+		peers[0].process_events();
+
+		let a_data = fd_dup.outbound_data.lock().unwrap().split_off(0);
+		let (act_three, _) =
+			dup_encryptor.process_act_two(&a_data[..], &&cfgs[1].node_signer).unwrap();
+		assert_eq!(peers[0].read_event(&mut fd_dup, &act_three).unwrap(), false);
+
+		let not_init_msg = msgs::Ping { ponglen: 4, byteslen: 0 };
+		let msg_bytes = dup_encryptor.encrypt_message(&not_init_msg);
+		assert!(peers[0].read_event(&mut fd_dup, &msg_bytes).is_err());
+	}
+
 	#[test]
 	fn test_disconnect_all_peer() {
 		// Simple test which builds a network of PeerManager, connects and brings them to NoiseState::Finished and
@@ -2392,8 +2548,14 @@ mod tests {
 		let peers = create_network(2, &cfgs);
 
 		let a_id = peers[0].node_signer.get_node_id(Recipient::Node).unwrap();
-		let mut fd_a = FileDescriptor { fd: 1, outbound_data: Arc::new(Mutex::new(Vec::new())) };
-		let mut fd_b = FileDescriptor { fd: 1, outbound_data: Arc::new(Mutex::new(Vec::new())) };
+		let mut fd_a = FileDescriptor {
+			fd: 1, outbound_data: Arc::new(Mutex::new(Vec::new())),
+			disconnect: Arc::new(AtomicBool::new(false)),
+		};
+		let mut fd_b = FileDescriptor {
+			fd: 1, outbound_data: Arc::new(Mutex::new(Vec::new())),
+			disconnect: Arc::new(AtomicBool::new(false)),
+		};
 		let initial_data = peers[1].new_outbound_connection(a_id, fd_b.clone(), None).unwrap();
 		peers[0].new_inbound_connection(fd_a.clone(), None).unwrap();