X-Git-Url: http://git.bitcoin.ninja/index.cgi?a=blobdiff_plain;f=src%2Fln%2Fpeer_handler.rs;h=8094f256195d2fa5e1dd5c20c1f44ef3c3489570;hb=56f16eaa4df0de13a59f6524562a8d8a45b6c2ea;hp=81ae8ca3863363e17aeca9ac6fb3bfc61a78bb04;hpb=97488ad36e4e22cc1d6ae3832a0cb6c1bcb1dc94;p=rust-lightning

diff --git a/src/ln/peer_handler.rs b/src/ln/peer_handler.rs
index 81ae8ca3..8094f256 100644
--- a/src/ln/peer_handler.rs
+++ b/src/ln/peer_handler.rs
@@ -1,43 +1,65 @@
+//! Top level peer message handling and socket handling logic lives here.
+//!
+//! Instead of actually servicing sockets ourselves we require that you implement the
+//! SocketDescriptor interface and use that to receive actions which you should perform on the
+//! socket, and call into PeerManager with bytes read from the socket. The PeerManager will then
+//! call into the provided message handlers (probably a ChannelManager and Router) with messages
+//! they should handle, and encoding/sending response messages.
+
 use secp256k1::key::{SecretKey,PublicKey};
 
 use ln::msgs;
-use util::ser::{Writer, Reader, Writeable, Readable};
+use util::ser::{Writeable, Writer, Readable};
 use ln::peer_channel_encryptor::{PeerChannelEncryptor,NextNoiseStep};
 use util::byte_utils;
-use util::events::{EventsProvider,Event};
+use util::events::{MessageSendEvent};
 use util::logger::Logger;
 
-use std::collections::{HashMap,hash_map,LinkedList};
+use std::collections::{HashMap,hash_map,HashSet,LinkedList};
 use std::sync::{Arc, Mutex};
 use std::sync::atomic::{AtomicUsize, Ordering};
-use std::{cmp,error,mem,hash,fmt};
+use std::{cmp,error,hash,fmt};
+
+use bitcoin_hashes::sha256::Hash as Sha256;
+use bitcoin_hashes::sha256::HashEngine as Sha256Engine;
+use bitcoin_hashes::{HashEngine, Hash};
 
+/// Provides references to trait impls which handle different types of messages.
 pub struct MessageHandler {
+	/// A message handler which handles messages specific to channels. Usually this is just a
+	/// ChannelManager object.
 	pub chan_handler: Arc<msgs::ChannelMessageHandler>,
+	/// A message handler which handles messages updating our knowledge of the network channel
+	/// graph. Usually this is just a Router object.
 	pub route_handler: Arc<msgs::RoutingMessageHandler>,
 }
 
 /// Provides an object which can be used to send data to and which uniquely identifies a connection
 /// 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.
+///
 /// You probably want to just extend an int and put a file descriptor in a struct and implement
 /// send_data. Note that if you are using a higher-level net library that may close() itself, be
 /// careful to ensure you don't have races whereby you might register a new connection with an fd
 /// the same as a yet-to-be-disconnect_event()-ed.
 pub trait SocketDescriptor : cmp::Eq + hash::Hash + Clone {
-	/// Attempts to send some data from the given Vec starting at the given offset to the peer.
+	/// Attempts to send some data from the given slice to the peer.
+	///
 	/// Returns the amount of data which was sent, possibly 0 if the socket has since disconnected.
 	/// Note that in the disconnected case, a disconnect_event must still fire and further write
 	/// attempts may occur until that time.
-	/// If the returned size is smaller than data.len() - write_offset, a write_available event must
+	///
+	/// If the returned size is smaller than data.len(), a write_available event must
 	/// trigger the next time more data can be written. Additionally, until the a send_data event
 	/// completes fully, no further read_events should trigger on the same peer!
+	///
 	/// If a read_event on this descriptor had previously returned true (indicating that read
 	/// events should be paused to prevent DoS in the send buffer), resume_read may be set
 	/// indicating that read events on this descriptor should resume. A resume_read of false does
 	/// *not* imply that further read events should be paused.
-	fn send_data(&mut self, data: &Vec<u8>, write_offset: usize, resume_read: bool) -> usize;
+	fn send_data(&mut self, data: &[u8], resume_read: bool) -> usize;
 	/// Disconnect the socket pointed to by this SocketDescriptor. Once this function returns, no
 	/// more calls to write_event, read_event or disconnect_event may be made with this descriptor.
 	/// No disconnect_event should be generated as a result of this call, though obviously races
@@ -51,6 +73,8 @@ pub trait SocketDescriptor : cmp::Eq + hash::Hash + Clone {
 /// disconnect_event (unless it was provided in response to a new_*_connection event, in which case
 /// no such disconnect_event must be generated and the socket be silently disconencted).
 pub struct PeerHandleError {
+	/// Used to indicate that we probably can't make any future connections to this peer, implying
+	/// we should go ahead and force-close any channels we have with it.
 	no_connection_possible: bool,
 }
 impl fmt::Debug for PeerHandleError {
@@ -69,6 +93,12 @@ impl error::Error for PeerHandleError {
 	}
 }
 
+enum InitSyncTracker{
+	NoSyncRequested,
+	ChannelsSyncing(u64),
+	NodesSyncing(PublicKey),
+}
+
 struct Peer {
 	channel_encryptor: PeerChannelEncryptor,
 	outbound: bool,
@@ -83,44 +113,89 @@ struct Peer {
 	pending_read_buffer: Vec<u8>,
 	pending_read_buffer_pos: usize,
 	pending_read_is_header: bool,
+
+	sync_status: InitSyncTracker,
+}
+
+impl Peer {
+	/// 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
+	/// announcements/updates for the given channel_id then we will send it when we get to that
+	/// 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(&self, channel_id: u64)->bool{
+		match self.sync_status {
+			InitSyncTracker::NoSyncRequested => true,
+			InitSyncTracker::ChannelsSyncing(i) => i < channel_id,
+			InitSyncTracker::NodesSyncing(_) => true,
+		}
+	}
 }
 
 struct PeerHolder<Descriptor: SocketDescriptor> {
 	peers: HashMap<Descriptor, Peer>,
+	/// Added to by do_read_event for cases where we pushed a message onto the send buffer but
+	/// didn't call do_attempt_write_data to avoid reentrancy. Cleared in process_events()
+	peers_needing_send: HashSet<Descriptor>,
 	/// Only add to this set when noise completes:
 	node_id_to_descriptor: HashMap<PublicKey, Descriptor>,
 }
 struct MutPeerHolder<'a, Descriptor: SocketDescriptor + 'a> {
 	peers: &'a mut HashMap<Descriptor, Peer>,
+	peers_needing_send: &'a mut HashSet<Descriptor>,
 	node_id_to_descriptor: &'a mut HashMap<PublicKey, Descriptor>,
 }
 impl<Descriptor: SocketDescriptor> PeerHolder<Descriptor> {
 	fn borrow_parts(&mut self) -> MutPeerHolder<Descriptor> {
 		MutPeerHolder {
 			peers: &mut self.peers,
+			peers_needing_send: &mut self.peers_needing_send,
 			node_id_to_descriptor: &mut self.node_id_to_descriptor,
 		}
 	}
 }
 
+#[cfg(not(any(target_pointer_width = "32", target_pointer_width = "64")))]
+fn _check_usize_is_32_or_64() {
+	// See below, less than 32 bit pointers may be unsafe here!
+	unsafe { mem::transmute::<*const usize, [u8; 4]>(panic!()); }
+}
+
+/// A PeerManager manages a set of peers, described by their SocketDescriptor and marshalls socket
+/// events into messages which it passes on to its MessageHandlers.
 pub struct PeerManager<Descriptor: SocketDescriptor> {
 	message_handler: MessageHandler,
 	peers: Mutex<PeerHolder<Descriptor>>,
-	pending_events: Mutex<Vec<Event>>,
 	our_node_secret: SecretKey,
+	ephemeral_key_midstate: Sha256Engine,
+
+	// Usize needs to be at least 32 bits to avoid overflowing both low and high. If usize is 64
+	// bits we will never realistically count into high:
+	peer_counter_low: AtomicUsize,
+	peer_counter_high: AtomicUsize,
+
 	initial_syncs_sent: AtomicUsize,
 	logger: Arc<Logger>,
 }
 
+struct VecWriter(Vec<u8>);
+impl Writer for VecWriter {
+	fn write_all(&mut self, buf: &[u8]) -> Result<(), ::std::io::Error> {
+		self.0.extend_from_slice(buf);
+		Ok(())
+	}
+	fn size_hint(&mut self, size: usize) {
+		self.0.reserve_exact(size);
+	}
+}
+
 macro_rules! encode_msg {
 	($msg: expr, $msg_code: expr) => {{
-		let mut w = Writer::new(::std::io::Cursor::new(vec![]));
-		0u16.write(&mut w).unwrap();
-		$msg.write(&mut w).unwrap();
-		let mut msg = w.into_inner().into_inner();
-		let len = msg.len();
-		msg[..2].copy_from_slice(&byte_utils::be16_to_array(len as u16 - 2));
-		msg
+		let mut msg = VecWriter(Vec::new());
+		($msg_code as u16).write(&mut msg).unwrap();
+		$msg.write(&mut msg).unwrap();
+		msg.0
 	}}
 }
 
@@ -130,18 +205,31 @@ const INITIAL_SYNCS_TO_SEND: usize = 5;
 /// Manages and reacts to connection events. You probably want to use file descriptors as PeerIds.
 /// PeerIds may repeat, but only after disconnect_event() has been called.
 impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
-	pub fn new(message_handler: MessageHandler, our_node_secret: SecretKey, logger: Arc<Logger>) -> PeerManager<Descriptor> {
+	/// 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
+	/// cryptographically secure random bytes.
+	pub fn new(message_handler: MessageHandler, our_node_secret: SecretKey, ephemeral_random_data: &[u8; 32], logger: Arc<Logger>) -> PeerManager<Descriptor> {
+		let mut ephemeral_key_midstate = Sha256::engine();
+		ephemeral_key_midstate.input(ephemeral_random_data);
+
 		PeerManager {
 			message_handler: message_handler,
-			peers: Mutex::new(PeerHolder { peers: HashMap::new(), node_id_to_descriptor: HashMap::new() }),
-			pending_events: Mutex::new(Vec::new()),
+			peers: Mutex::new(PeerHolder {
+				peers: HashMap::new(),
+				peers_needing_send: HashSet::new(),
+				node_id_to_descriptor: HashMap::new()
+			}),
 			our_node_secret: our_node_secret,
+			ephemeral_key_midstate,
+			peer_counter_low: AtomicUsize::new(0),
+			peer_counter_high: AtomicUsize::new(0),
 			initial_syncs_sent: AtomicUsize::new(0),
 			logger,
 		}
 	}
 
 	/// Get the list of node ids for peers which have completed the initial handshake.
+	///
 	/// For outbound connections, this will be the same as the their_node_id parameter passed in to
 	/// new_outbound_connection, however entries will only appear once the initial handshake has
 	/// completed and we are sure the remote peer has the private key for the given node_id.
@@ -155,14 +243,29 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 		}).collect()
 	}
 
+	fn get_ephemeral_key(&self) -> SecretKey {
+		let mut ephemeral_hash = self.ephemeral_key_midstate.clone();
+		let low = self.peer_counter_low.fetch_add(1, Ordering::AcqRel);
+		let high = if low == 0 {
+			self.peer_counter_high.fetch_add(1, Ordering::AcqRel)
+		} else {
+			self.peer_counter_high.load(Ordering::Acquire)
+		};
+		ephemeral_hash.input(&byte_utils::le64_to_array(low as u64));
+		ephemeral_hash.input(&byte_utils::le64_to_array(high as u64));
+		SecretKey::from_slice(&Sha256::from_engine(ephemeral_hash).into_inner()).expect("You broke SHA-256!")
+	}
+
 	/// Indicates a new outbound connection has been established to a node with the given node_id.
 	/// Note that if an Err is returned here you MUST NOT call disconnect_event for the new
 	/// descriptor but must disconnect the connection immediately.
-	/// Returns some bytes to send to the remote node.
+	///
+	/// 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 has a
 	/// disconnect_event.
 	pub fn new_outbound_connection(&self, their_node_id: PublicKey, descriptor: Descriptor) -> Result<Vec<u8>, PeerHandleError> {
-		let mut peer_encryptor = PeerChannelEncryptor::new_outbound(their_node_id.clone());
+		let mut peer_encryptor = PeerChannelEncryptor::new_outbound(their_node_id.clone(), self.get_ephemeral_key());
 		let res = peer_encryptor.get_act_one().to_vec();
 		let pending_read_buffer = [0; 50].to_vec(); // Noise act two is 50 bytes
 
@@ -170,7 +273,7 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 		if peers.peers.insert(descriptor, Peer {
 			channel_encryptor: peer_encryptor,
 			outbound: true,
-			their_node_id: Some(their_node_id),
+			their_node_id: None,
 			their_global_features: None,
 			their_local_features: None,
 
@@ -181,6 +284,8 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 			pending_read_buffer: pending_read_buffer,
 			pending_read_buffer_pos: 0,
 			pending_read_is_header: false,
+
+			sync_status: InitSyncTracker::NoSyncRequested,
 		}).is_some() {
 			panic!("PeerManager driver duplicated descriptors!");
 		};
@@ -188,10 +293,12 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 	}
 
 	/// Indicates a new inbound connection has been established.
+	///
 	/// May refuse the connection by returning an Err, but will never write bytes to the remote end
 	/// (outbound connector always speaks first). Note that if an Err is returned here you MUST NOT
 	/// call disconnect_event for the new descriptor but must disconnect the connection
 	/// immediately.
+	///
 	/// Panics if descriptor is duplicative with some other descriptor which has not yet has a
 	/// disconnect_event.
 	pub fn new_inbound_connection(&self, descriptor: Descriptor) -> Result<(), PeerHandleError> {
@@ -213,22 +320,76 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 			pending_read_buffer: pending_read_buffer,
 			pending_read_buffer_pos: 0,
 			pending_read_is_header: false,
+
+			sync_status: InitSyncTracker::NoSyncRequested,
 		}).is_some() {
 			panic!("PeerManager driver duplicated descriptors!");
 		};
 		Ok(())
 	}
 
-	fn do_attempt_write_data(descriptor: &mut Descriptor, peer: &mut Peer) {
+	fn do_attempt_write_data(&self, descriptor: &mut Descriptor, peer: &mut Peer) {
+		macro_rules! encode_and_send_msg {
+			($msg: expr, $msg_code: expr) => {
+				{
+					log_trace!(self, "Encoding and sending sync update message of type {} to {}", $msg_code, log_pubkey!(peer.their_node_id.unwrap()));
+					peer.pending_outbound_buffer.push_back(peer.channel_encryptor.encrypt_message(&encode_msg!($msg, $msg_code)[..]));
+				}
+			}
+		}
+		const MSG_BUFF_SIZE: usize = 10;
 		while !peer.awaiting_write_event {
+			if peer.pending_outbound_buffer.len() < MSG_BUFF_SIZE {
+				match peer.sync_status {
+					InitSyncTracker::NoSyncRequested => {},
+					InitSyncTracker::ChannelsSyncing(c) if c < 0xffff_ffff_ffff_ffff => {
+						let steps = ((MSG_BUFF_SIZE - peer.pending_outbound_buffer.len() + 2) / 3) as u8;
+						let all_messages = self.message_handler.route_handler.get_next_channel_announcements(0, steps);
+						for &(ref announce, ref update_a, ref update_b) in all_messages.iter() {
+							encode_and_send_msg!(announce, 256);
+							encode_and_send_msg!(update_a, 258);
+							encode_and_send_msg!(update_b, 258);
+							peer.sync_status = InitSyncTracker::ChannelsSyncing(announce.contents.short_channel_id + 1);
+						}
+						if all_messages.is_empty() || all_messages.len() != steps as usize {
+							peer.sync_status = InitSyncTracker::ChannelsSyncing(0xffff_ffff_ffff_ffff);
+						}
+					},
+					InitSyncTracker::ChannelsSyncing(c) if c == 0xffff_ffff_ffff_ffff => {
+						let steps = (MSG_BUFF_SIZE - peer.pending_outbound_buffer.len()) as u8;
+						let all_messages = self.message_handler.route_handler.get_next_node_announcements(None, steps);
+						for msg in all_messages.iter() {
+							encode_and_send_msg!(msg, 256);
+							peer.sync_status = InitSyncTracker::NodesSyncing(msg.contents.node_id);
+						}
+						if all_messages.is_empty() || all_messages.len() != steps as usize {
+							peer.sync_status = InitSyncTracker::NoSyncRequested;
+						}
+					},
+					InitSyncTracker::ChannelsSyncing(_) => unreachable!(),
+					InitSyncTracker::NodesSyncing(key) => {
+						let steps = (MSG_BUFF_SIZE - peer.pending_outbound_buffer.len()) as u8;
+						let all_messages = self.message_handler.route_handler.get_next_node_announcements(Some(&key), steps);
+						for msg in all_messages.iter() {
+							encode_and_send_msg!(msg, 256);
+							peer.sync_status = InitSyncTracker::NodesSyncing(msg.contents.node_id);
+						}
+						if all_messages.is_empty() || all_messages.len() != steps as usize {
+							peer.sync_status = InitSyncTracker::NoSyncRequested;
+						}
+					},
+				}
+			}
+
 			if {
 				let next_buff = match peer.pending_outbound_buffer.front() {
 					None => return,
 					Some(buff) => buff,
 				};
-				let should_be_reading = peer.pending_outbound_buffer.len() < 10;
 
-				let data_sent = descriptor.send_data(next_buff, peer.pending_outbound_buffer_first_msg_offset, should_be_reading);
+				let should_be_reading = peer.pending_outbound_buffer.len() < MSG_BUFF_SIZE;
+				let pending = &next_buff[peer.pending_outbound_buffer_first_msg_offset..];
+				let data_sent = descriptor.send_data(pending, should_be_reading);
 				peer.pending_outbound_buffer_first_msg_offset += data_sent;
 				if peer.pending_outbound_buffer_first_msg_offset == next_buff.len() { true } else { false }
 			} {
@@ -241,35 +402,37 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 	}
 
 	/// Indicates that there is room to write data to the given socket descriptor.
+	///
 	/// May return an Err to indicate that the connection should be closed.
+	///
 	/// Will most likely call send_data on the descriptor passed in (or the descriptor handed into
-	/// new_*_connection) before returning. Thus, be very careful with reentrancy issues! The
+	/// new_*\_connection) before returning. Thus, be very careful with reentrancy issues! The
 	/// invariants around calling write_event in case a write did not fully complete must still
 	/// hold - be ready to call write_event again if a write call generated here isn't sufficient!
-	/// Panics if the descriptor was not previously registered in a new_*_connection event.
+	/// Panics if the descriptor was not previously registered in a new_\*_connection event.
 	pub fn write_event(&self, descriptor: &mut Descriptor) -> Result<(), PeerHandleError> {
 		let mut peers = self.peers.lock().unwrap();
 		match peers.peers.get_mut(descriptor) {
 			None => panic!("Descriptor for write_event is not already known to PeerManager"),
 			Some(peer) => {
 				peer.awaiting_write_event = false;
-				Self::do_attempt_write_data(descriptor, peer);
+				self.do_attempt_write_data(descriptor, peer);
 			}
 		};
 		Ok(())
 	}
 
 	/// Indicates that data was read from the given socket descriptor.
+	///
 	/// May return an Err to indicate that the connection should be closed.
-	/// Will very likely call send_data on the descriptor passed in (or a descriptor handed into
-	/// new_*_connection) before returning. Thus, be very careful with reentrancy issues! The
-	/// invariants around calling write_event in case a write did not fully complete must still
-	/// hold. Note that this function will often call send_data on many peers before returning, not
-	/// just this peer!
+	///
+	/// Will *not* call back into send_data on any descriptors to avoid reentrancy complexity.
+	/// Thus, however, you almost certainly want to call process_events() after any read_event to
+	/// generate send_data calls to handle responses.
+	///
 	/// If Ok(true) is returned, further read_events should not be triggered until a write_event on
-	/// this file descriptor has resume_read set (preventing DoS issues in the send buffer). Note
-	/// that this must be true even if a send_data call with resume_read=true was made during the
-	/// course of this function!
+	/// this file descriptor has resume_read set (preventing DoS issues in the send buffer).
+	///
 	/// Panics if the descriptor was not previously registered in a new_*_connection event.
 	pub fn read_event(&self, peer_descriptor: &mut Descriptor, data: Vec<u8>) -> Result<bool, PeerHandleError> {
 		match self.do_read_event(peer_descriptor, data) {
@@ -308,6 +471,7 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 									{
 										log_trace!(self, "Encoding and sending message of type {} to {}", $msg_code, log_pubkey!(peer.their_node_id.unwrap()));
 										peer.pending_outbound_buffer.push_back(peer.channel_encryptor.encrypt_message(&encode_msg!($msg, $msg_code)[..]));
+										peers.peers_needing_send.insert(peer_descriptor.clone());
 									}
 								}
 							}
@@ -349,22 +513,25 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 										Ok(x) => x,
 										Err(e) => {
 											match e {
-												msgs::DecodeError::UnknownRealmByte => return Err(PeerHandleError{ no_connection_possible: false }),
+												msgs::DecodeError::UnknownVersion => return Err(PeerHandleError{ no_connection_possible: false }),
 												msgs::DecodeError::UnknownRequiredFeature => {
-													log_debug!(self, "Got a channel/node announcement with an known required feature flag, you may want to udpate!");
+													log_debug!(self, "Got a channel/node announcement with an known required feature flag, you may want to update!");
 													continue;
 												},
-												msgs::DecodeError::BadPublicKey => return Err(PeerHandleError{ no_connection_possible: false }),
-												msgs::DecodeError::BadSignature => return Err(PeerHandleError{ no_connection_possible: false }),
-												msgs::DecodeError::BadText => return Err(PeerHandleError{ no_connection_possible: false }),
-												msgs::DecodeError::ShortRead => return Err(PeerHandleError{ no_connection_possible: false }),
+												msgs::DecodeError::InvalidValue => {
+													log_debug!(self, "Got an invalid value while deserializing message");
+													return Err(PeerHandleError{ no_connection_possible: false });
+												},
+												msgs::DecodeError::ShortRead => {
+													log_debug!(self, "Deserialization failed due to shortness of message");
+													return Err(PeerHandleError{ no_connection_possible: false });
+												},
 												msgs::DecodeError::ExtraAddressesPerType => {
 													log_debug!(self, "Error decoding message, ignoring due to lnd spec incompatibility. See https://github.com/lightningnetwork/lnd/issues/1407");
 													continue;
 												},
 												msgs::DecodeError::BadLengthDescriptor => return Err(PeerHandleError{ no_connection_possible: false }),
 												msgs::DecodeError::Io(_) => return Err(PeerHandleError{ no_connection_possible: false }),
-												msgs::DecodeError::InvalidValue => panic!("should not happen with message decoding"),
 											}
 										}
 									};
@@ -375,10 +542,14 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 								() => {
 									match peers.node_id_to_descriptor.entry(peer.their_node_id.unwrap()) {
 										hash_map::Entry::Occupied(_) => {
+											log_trace!(self, "Got second connection with {}, closing", log_pubkey!(peer.their_node_id.unwrap()));
 											peer.their_node_id = None; // Unset so that we don't generate a peer_disconnected event
 											return Err(PeerHandleError{ no_connection_possible: false })
 										},
-										hash_map::Entry::Vacant(entry) => entry.insert(peer_descriptor.clone()),
+										hash_map::Entry::Vacant(entry) => {
+											log_trace!(self, "Finished noise handshake for connection with {}", log_pubkey!(peer.their_node_id.unwrap()));
+											entry.insert(peer_descriptor.clone())
+										},
 									};
 								}
 							}
@@ -386,16 +557,17 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 							let next_step = peer.channel_encryptor.get_noise_step();
 							match next_step {
 								NextNoiseStep::ActOne => {
-									let act_two = try_potential_handleerror!(peer.channel_encryptor.process_act_one_with_key(&peer.pending_read_buffer[..], &self.our_node_secret)).to_vec();
+									let act_two = try_potential_handleerror!(peer.channel_encryptor.process_act_one_with_keys(&peer.pending_read_buffer[..], &self.our_node_secret, self.get_ephemeral_key())).to_vec();
 									peer.pending_outbound_buffer.push_back(act_two);
 									peer.pending_read_buffer = [0; 66].to_vec(); // act three is 66 bytes long
 								},
 								NextNoiseStep::ActTwo => {
-									let act_three = try_potential_handleerror!(peer.channel_encryptor.process_act_two(&peer.pending_read_buffer[..], &self.our_node_secret)).to_vec();
-									peer.pending_outbound_buffer.push_back(act_three);
+									let (act_three, their_node_id) = try_potential_handleerror!(peer.channel_encryptor.process_act_two(&peer.pending_read_buffer[..], &self.our_node_secret));
+									peer.pending_outbound_buffer.push_back(act_three.to_vec());
 									peer.pending_read_buffer = [0; 18].to_vec(); // Message length header is 18 bytes
 									peer.pending_read_is_header = true;
 
+									peer.their_node_id = Some(their_node_id);
 									insert_node_id!();
 									let mut local_features = msgs::LocalFeatures::new();
 									if self.initial_syncs_sent.load(Ordering::Acquire) < INITIAL_SYNCS_TO_SEND {
@@ -435,22 +607,37 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 										log_trace!(self, "Received message of type {} from {}", msg_type, log_pubkey!(peer.their_node_id.unwrap()));
 										if msg_type != 16 && peer.their_global_features.is_none() {
 											// Need an init message as first message
+											log_trace!(self, "Peer {} sent non-Init first message", log_pubkey!(peer.their_node_id.unwrap()));
 											return Err(PeerHandleError{ no_connection_possible: false });
 										}
-										let mut reader = Reader::new(::std::io::Cursor::new(&msg_data[2..]));
+										let mut reader = ::std::io::Cursor::new(&msg_data[2..]);
 										match msg_type {
 											// Connection control:
 											16 => {
 												let msg = try_potential_decodeerror!(msgs::Init::read(&mut reader));
 												if msg.global_features.requires_unknown_bits() {
+													log_info!(self, "Peer global features required unknown version bits");
 													return Err(PeerHandleError{ no_connection_possible: true });
 												}
 												if msg.local_features.requires_unknown_bits() {
+													log_info!(self, "Peer local features required unknown version bits");
 													return Err(PeerHandleError{ no_connection_possible: true });
 												}
 												if peer.their_global_features.is_some() {
 													return Err(PeerHandleError{ no_connection_possible: false });
 												}
+
+												log_info!(self, "Received peer Init message: data_loss_protect: {}, initial_routing_sync: {}, upfront_shutdown_script: {}, unkown local flags: {}, unknown global flags: {}",
+													if msg.local_features.supports_data_loss_protect() { "supported" } else { "not supported"},
+													if msg.local_features.initial_routing_sync() { "requested" } else { "not requested" },
+													if msg.local_features.supports_upfront_shutdown_script() { "supported" } else { "not supported"},
+													if msg.local_features.supports_unknown_bits() { "present" } else { "none" },
+													if msg.global_features.supports_unknown_bits() { "present" } else { "none" });
+
+												if msg.local_features.initial_routing_sync() {
+													peer.sync_status = InitSyncTracker::ChannelsSyncing(0);
+													peers.peers_needing_send.insert(peer_descriptor.clone());
+												}
 												peer.their_global_features = Some(msg.global_features);
 												peer.their_local_features = Some(msg.local_features);
 
@@ -460,15 +647,14 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 														self.initial_syncs_sent.fetch_add(1, Ordering::AcqRel);
 														local_features.set_initial_routing_sync();
 													}
+
 													encode_and_send_msg!(msgs::Init {
 														global_features: msgs::GlobalFeatures::new(),
 														local_features,
 													}, 16);
 												}
 
-												for msg in self.message_handler.chan_handler.peer_connected(&peer.their_node_id.unwrap()) {
-													encode_and_send_msg!(msg, 136);
-												}
+												self.message_handler.chan_handler.peer_connected(&peer.their_node_id.unwrap());
 											},
 											17 => {
 												let msg = try_potential_decodeerror!(msgs::ErrorMessage::read(&mut reader));
@@ -505,18 +691,16 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 											// Channel control:
 											32 => {
 												let msg = try_potential_decodeerror!(msgs::OpenChannel::read(&mut reader));
-												let resp = try_potential_handleerror!(self.message_handler.chan_handler.handle_open_channel(&peer.their_node_id.unwrap(), &msg));
-												encode_and_send_msg!(resp, 33);
+												try_potential_handleerror!(self.message_handler.chan_handler.handle_open_channel(&peer.their_node_id.unwrap(), peer.their_local_features.clone().unwrap(), &msg));
 											},
 											33 => {
 												let msg = try_potential_decodeerror!(msgs::AcceptChannel::read(&mut reader));
-												try_potential_handleerror!(self.message_handler.chan_handler.handle_accept_channel(&peer.their_node_id.unwrap(), &msg));
+												try_potential_handleerror!(self.message_handler.chan_handler.handle_accept_channel(&peer.their_node_id.unwrap(), peer.their_local_features.clone().unwrap(), &msg));
 											},
 
 											34 => {
 												let msg = try_potential_decodeerror!(msgs::FundingCreated::read(&mut reader));
-												let resp = try_potential_handleerror!(self.message_handler.chan_handler.handle_funding_created(&peer.their_node_id.unwrap(), &msg));
-												encode_and_send_msg!(resp, 35);
+												try_potential_handleerror!(self.message_handler.chan_handler.handle_funding_created(&peer.their_node_id.unwrap(), &msg));
 											},
 											35 => {
 												let msg = try_potential_decodeerror!(msgs::FundingSigned::read(&mut reader));
@@ -524,29 +708,16 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 											},
 											36 => {
 												let msg = try_potential_decodeerror!(msgs::FundingLocked::read(&mut reader));
-												let resp_option = try_potential_handleerror!(self.message_handler.chan_handler.handle_funding_locked(&peer.their_node_id.unwrap(), &msg));
-												match resp_option {
-													Some(resp) => encode_and_send_msg!(resp, 259),
-													None => {},
-												}
+												try_potential_handleerror!(self.message_handler.chan_handler.handle_funding_locked(&peer.their_node_id.unwrap(), &msg));
 											},
 
 											38 => {
 												let msg = try_potential_decodeerror!(msgs::Shutdown::read(&mut reader));
-												let resp_options = try_potential_handleerror!(self.message_handler.chan_handler.handle_shutdown(&peer.their_node_id.unwrap(), &msg));
-												if let Some(resp) = resp_options.0 {
-													encode_and_send_msg!(resp, 38);
-												}
-												if let Some(resp) = resp_options.1 {
-													encode_and_send_msg!(resp, 39);
-												}
+												try_potential_handleerror!(self.message_handler.chan_handler.handle_shutdown(&peer.their_node_id.unwrap(), &msg));
 											},
 											39 => {
 												let msg = try_potential_decodeerror!(msgs::ClosingSigned::read(&mut reader));
-												let resp_option = try_potential_handleerror!(self.message_handler.chan_handler.handle_closing_signed(&peer.their_node_id.unwrap(), &msg));
-												if let Some(resp) = resp_option {
-													encode_and_send_msg!(resp, 39);
-												}
+												try_potential_handleerror!(self.message_handler.chan_handler.handle_closing_signed(&peer.their_node_id.unwrap(), &msg));
 											},
 
 											128 => {
@@ -559,10 +730,7 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 											},
 											131 => {
 												let msg = try_potential_decodeerror!(msgs::UpdateFailHTLC::read(&mut reader));
-												let chan_update = try_potential_handleerror!(self.message_handler.chan_handler.handle_update_fail_htlc(&peer.their_node_id.unwrap(), &msg));
-												if let Some(update) = chan_update {
-													self.message_handler.route_handler.handle_htlc_fail_channel_update(&update);
-												}
+												try_potential_handleerror!(self.message_handler.chan_handler.handle_update_fail_htlc(&peer.their_node_id.unwrap(), &msg));
 											},
 											135 => {
 												let msg = try_potential_decodeerror!(msgs::UpdateFailMalformedHTLC::read(&mut reader));
@@ -571,30 +739,11 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 
 											132 => {
 												let msg = try_potential_decodeerror!(msgs::CommitmentSigned::read(&mut reader));
-												let resps = try_potential_handleerror!(self.message_handler.chan_handler.handle_commitment_signed(&peer.their_node_id.unwrap(), &msg));
-												encode_and_send_msg!(resps.0, 133);
-												if let Some(resp) = resps.1 {
-													encode_and_send_msg!(resp, 132);
-												}
+												try_potential_handleerror!(self.message_handler.chan_handler.handle_commitment_signed(&peer.their_node_id.unwrap(), &msg));
 											},
 											133 => {
 												let msg = try_potential_decodeerror!(msgs::RevokeAndACK::read(&mut reader));
-												let resp_option = try_potential_handleerror!(self.message_handler.chan_handler.handle_revoke_and_ack(&peer.their_node_id.unwrap(), &msg));
-												match resp_option {
-													Some(resps) => {
-														for resp in resps.update_add_htlcs {
-															encode_and_send_msg!(resp, 128);
-														}
-														for resp in resps.update_fulfill_htlcs {
-															encode_and_send_msg!(resp, 130);
-														}
-														for resp in resps.update_fail_htlcs {
-															encode_and_send_msg!(resp, 131);
-														}
-														encode_and_send_msg!(resps.commitment_signed, 132);
-													},
-													None => {},
-												}
+												try_potential_handleerror!(self.message_handler.chan_handler.handle_revoke_and_ack(&peer.their_node_id.unwrap(), &msg));
 											},
 											134 => {
 												let msg = try_potential_decodeerror!(msgs::UpdateFee::read(&mut reader));
@@ -602,28 +751,7 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 											},
 											136 => {
 												let msg = try_potential_decodeerror!(msgs::ChannelReestablish::read(&mut reader));
-												let (funding_locked, revoke_and_ack, commitment_update) = try_potential_handleerror!(self.message_handler.chan_handler.handle_channel_reestablish(&peer.their_node_id.unwrap(), &msg));
-												if let Some(lock_msg) = funding_locked {
-													encode_and_send_msg!(lock_msg, 36);
-												}
-												if let Some(revoke_msg) = revoke_and_ack {
-													encode_and_send_msg!(revoke_msg, 133);
-												}
-												match commitment_update {
-													Some(resps) => {
-														for resp in resps.update_add_htlcs {
-															encode_and_send_msg!(resp, 128);
-														}
-														for resp in resps.update_fulfill_htlcs {
-															encode_and_send_msg!(resp, 130);
-														}
-														for resp in resps.update_fail_htlcs {
-															encode_and_send_msg!(resp, 131);
-														}
-														encode_and_send_msg!(resps.commitment_signed, 132);
-													},
-													None => {},
-												}
+												try_potential_handleerror!(self.message_handler.chan_handler.handle_channel_reestablish(&peer.their_node_id.unwrap(), &msg));
 											},
 
 											// Routing control:
@@ -667,7 +795,7 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 						}
 					}
 
-					Self::do_attempt_write_data(peer_descriptor, peer);
+					self.do_attempt_write_data(peer_descriptor, peer);
 
 					peer.pending_outbound_buffer.len() > 10 // pause_read
 				}
@@ -676,22 +804,21 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 			pause_read
 		};
 
-		self.process_events();
-
 		Ok(pause_read)
 	}
 
-	/// Checks for any events generated by our handlers and processes them. May be needed after eg
-	/// calls to ChannelManager::process_pending_htlc_forward.
+	/// Checks for any events generated by our handlers and processes them. Includes sending most
+	/// response messages as well as messages generated by calls to handler functions directly (eg
+	/// functions like ChannelManager::process_pending_htlc_forward or send_payment).
 	pub fn process_events(&self) {
-		let mut upstream_events = Vec::new();
 		{
 			// TODO: There are some DoS attacks here where you can flood someone's outbound send
 			// buffer by doing things like announcing channels on another node. We should be willing to
 			// drop optional-ish messages when send buffers get full!
 
-			let mut events_generated = self.message_handler.chan_handler.get_and_clear_pending_events();
-			let mut peers = self.peers.lock().unwrap();
+			let mut events_generated = self.message_handler.chan_handler.get_and_clear_pending_msg_events();
+			let mut peers_lock = self.peers.lock().unwrap();
+			let peers = peers_lock.borrow_parts();
 			for event in events_generated.drain(..) {
 				macro_rules! get_peer_for_forwarding {
 					($node_id: expr, $handle_no_such_peer: block) => {
@@ -717,14 +844,17 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 					}
 				}
 				match event {
-					Event::FundingGenerationReady {..} => { /* Hand upstream */ },
-					Event::FundingBroadcastSafe {..} => { /* Hand upstream */ },
-					Event::PaymentReceived {..} => { /* Hand upstream */ },
-					Event::PaymentSent {..} => { /* Hand upstream */ },
-					Event::PaymentFailed {..} => { /* Hand upstream */ },
-					Event::PendingHTLCsForwardable {..} => { /* Hand upstream */ },
-
-					Event::SendOpenChannel { ref node_id, ref msg } => {
+					MessageSendEvent::SendAcceptChannel { ref node_id, ref msg } => {
+						log_trace!(self, "Handling SendAcceptChannel event in peer_handler for node {} for channel {}",
+								log_pubkey!(node_id),
+								log_bytes!(msg.temporary_channel_id));
+						let (mut descriptor, peer) = get_peer_for_forwarding!(node_id, {
+								//TODO: Drop the pending channel? (or just let it timeout, but that sucks)
+							});
+						peer.pending_outbound_buffer.push_back(peer.channel_encryptor.encrypt_message(&encode_msg!(msg, 33)));
+						self.do_attempt_write_data(&mut descriptor, peer);
+					},
+					MessageSendEvent::SendOpenChannel { ref node_id, ref msg } => {
 						log_trace!(self, "Handling SendOpenChannel event in peer_handler for node {} for channel {}",
 								log_pubkey!(node_id),
 								log_bytes!(msg.temporary_channel_id));
@@ -732,10 +862,9 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 								//TODO: Drop the pending channel? (or just let it timeout, but that sucks)
 							});
 						peer.pending_outbound_buffer.push_back(peer.channel_encryptor.encrypt_message(&encode_msg!(msg, 32)));
-						Self::do_attempt_write_data(&mut descriptor, peer);
-						continue;
+						self.do_attempt_write_data(&mut descriptor, peer);
 					},
-					Event::SendFundingCreated { ref node_id, ref msg } => {
+					MessageSendEvent::SendFundingCreated { ref node_id, ref msg } => {
 						log_trace!(self, "Handling SendFundingCreated event in peer_handler for node {} for channel {} (which becomes {})",
 								log_pubkey!(node_id),
 								log_bytes!(msg.temporary_channel_id),
@@ -745,26 +874,41 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 								//they should just throw away this funding transaction
 							});
 						peer.pending_outbound_buffer.push_back(peer.channel_encryptor.encrypt_message(&encode_msg!(msg, 34)));
-						Self::do_attempt_write_data(&mut descriptor, peer);
-						continue;
+						self.do_attempt_write_data(&mut descriptor, peer);
+					},
+					MessageSendEvent::SendFundingSigned { ref node_id, ref msg } => {
+						log_trace!(self, "Handling SendFundingSigned event in peer_handler for node {} for channel {}",
+								log_pubkey!(node_id),
+								log_bytes!(msg.channel_id));
+						let (mut descriptor, peer) = get_peer_for_forwarding!(node_id, {
+								//TODO: generate a DiscardFunding event indicating to the wallet that
+								//they should just throw away this funding transaction
+							});
+						peer.pending_outbound_buffer.push_back(peer.channel_encryptor.encrypt_message(&encode_msg!(msg, 35)));
+						self.do_attempt_write_data(&mut descriptor, peer);
 					},
-					Event::SendFundingLocked { ref node_id, ref msg, ref announcement_sigs } => {
-						log_trace!(self, "Handling SendFundingLocked event in peer_handler for node {}{} for channel {}",
+					MessageSendEvent::SendFundingLocked { ref node_id, ref msg } => {
+						log_trace!(self, "Handling SendFundingLocked event in peer_handler for node {} for channel {}",
 								log_pubkey!(node_id),
-								if announcement_sigs.is_some() { " with announcement sigs" } else { "" },
 								log_bytes!(msg.channel_id));
 						let (mut descriptor, peer) = get_peer_for_forwarding!(node_id, {
 								//TODO: Do whatever we're gonna do for handling dropped messages
 							});
 						peer.pending_outbound_buffer.push_back(peer.channel_encryptor.encrypt_message(&encode_msg!(msg, 36)));
-						match announcement_sigs {
-							&Some(ref announce_msg) => peer.pending_outbound_buffer.push_back(peer.channel_encryptor.encrypt_message(&encode_msg!(announce_msg, 259))),
-							&None => {},
-						}
-						Self::do_attempt_write_data(&mut descriptor, peer);
-						continue;
+						self.do_attempt_write_data(&mut descriptor, peer);
 					},
-					Event::UpdateHTLCs { ref node_id, updates: msgs::CommitmentUpdate { ref update_add_htlcs, ref update_fulfill_htlcs, ref update_fail_htlcs, ref update_fail_malformed_htlcs, ref commitment_signed } } => {
+					MessageSendEvent::SendAnnouncementSignatures { ref node_id, ref msg } => {
+						log_trace!(self, "Handling SendAnnouncementSignatures event in peer_handler for node {} for channel {})",
+								log_pubkey!(node_id),
+								log_bytes!(msg.channel_id));
+						let (mut descriptor, peer) = get_peer_for_forwarding!(node_id, {
+								//TODO: generate a DiscardFunding event indicating to the wallet that
+								//they should just throw away this funding transaction
+							});
+						peer.pending_outbound_buffer.push_back(peer.channel_encryptor.encrypt_message(&encode_msg!(msg, 259)));
+						self.do_attempt_write_data(&mut descriptor, peer);
+					},
+					MessageSendEvent::UpdateHTLCs { ref node_id, updates: msgs::CommitmentUpdate { ref update_add_htlcs, ref update_fulfill_htlcs, ref update_fail_htlcs, ref update_fail_malformed_htlcs, ref update_fee, ref commitment_signed } } => {
 						log_trace!(self, "Handling UpdateHTLCs event in peer_handler for node {} with {} adds, {} fulfills, {} fails for channel {}",
 								log_pubkey!(node_id),
 								update_add_htlcs.len(),
@@ -786,11 +930,33 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 						for msg in update_fail_malformed_htlcs {
 							peer.pending_outbound_buffer.push_back(peer.channel_encryptor.encrypt_message(&encode_msg!(msg, 135)));
 						}
+						if let &Some(ref msg) = update_fee {
+							peer.pending_outbound_buffer.push_back(peer.channel_encryptor.encrypt_message(&encode_msg!(msg, 134)));
+						}
 						peer.pending_outbound_buffer.push_back(peer.channel_encryptor.encrypt_message(&encode_msg!(commitment_signed, 132)));
-						Self::do_attempt_write_data(&mut descriptor, peer);
-						continue;
+						self.do_attempt_write_data(&mut descriptor, peer);
 					},
-					Event::SendShutdown { ref node_id, ref msg } => {
+					MessageSendEvent::SendRevokeAndACK { ref node_id, ref msg } => {
+						log_trace!(self, "Handling SendRevokeAndACK event in peer_handler for node {} for channel {}",
+								log_pubkey!(node_id),
+								log_bytes!(msg.channel_id));
+						let (mut descriptor, peer) = get_peer_for_forwarding!(node_id, {
+								//TODO: Do whatever we're gonna do for handling dropped messages
+							});
+						peer.pending_outbound_buffer.push_back(peer.channel_encryptor.encrypt_message(&encode_msg!(msg, 133)));
+						self.do_attempt_write_data(&mut descriptor, peer);
+					},
+					MessageSendEvent::SendClosingSigned { ref node_id, ref msg } => {
+						log_trace!(self, "Handling SendClosingSigned event in peer_handler for node {} for channel {}",
+								log_pubkey!(node_id),
+								log_bytes!(msg.channel_id));
+						let (mut descriptor, peer) = get_peer_for_forwarding!(node_id, {
+								//TODO: Do whatever we're gonna do for handling dropped messages
+							});
+						peer.pending_outbound_buffer.push_back(peer.channel_encryptor.encrypt_message(&encode_msg!(msg, 39)));
+						self.do_attempt_write_data(&mut descriptor, peer);
+					},
+					MessageSendEvent::SendShutdown { ref node_id, ref msg } => {
 						log_trace!(self, "Handling Shutdown event in peer_handler for node {} for channel {}",
 								log_pubkey!(node_id),
 								log_bytes!(msg.channel_id));
@@ -798,17 +964,27 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 								//TODO: Do whatever we're gonna do for handling dropped messages
 							});
 						peer.pending_outbound_buffer.push_back(peer.channel_encryptor.encrypt_message(&encode_msg!(msg, 38)));
-						Self::do_attempt_write_data(&mut descriptor, peer);
-						continue;
+						self.do_attempt_write_data(&mut descriptor, peer);
 					},
-					Event::BroadcastChannelAnnouncement { ref msg, ref update_msg } => {
+					MessageSendEvent::SendChannelReestablish { ref node_id, ref msg } => {
+						log_trace!(self, "Handling SendChannelReestablish event in peer_handler for node {} for channel {}",
+								log_pubkey!(node_id),
+								log_bytes!(msg.channel_id));
+						let (mut descriptor, peer) = get_peer_for_forwarding!(node_id, {
+								//TODO: Do whatever we're gonna do for handling dropped messages
+							});
+						peer.pending_outbound_buffer.push_back(peer.channel_encryptor.encrypt_message(&encode_msg!(msg, 136)));
+						self.do_attempt_write_data(&mut descriptor, peer);
+					},
+					MessageSendEvent::BroadcastChannelAnnouncement { ref msg, ref update_msg } => {
 						log_trace!(self, "Handling BroadcastChannelAnnouncement event in peer_handler for short channel id {}", msg.contents.short_channel_id);
 						if self.message_handler.route_handler.handle_channel_announcement(msg).is_ok() && self.message_handler.route_handler.handle_channel_update(update_msg).is_ok() {
 							let encoded_msg = encode_msg!(msg, 256);
 							let encoded_update_msg = encode_msg!(update_msg, 258);
 
 							for (ref descriptor, ref mut peer) in peers.peers.iter_mut() {
-								if !peer.channel_encryptor.is_ready_for_encryption() || peer.their_global_features.is_none() {
+								if !peer.channel_encryptor.is_ready_for_encryption() || peer.their_global_features.is_none() ||
+										!peer.should_forward_channel(msg.contents.short_channel_id) {
 									continue
 								}
 								match peer.their_node_id {
@@ -821,31 +997,34 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 								}
 								peer.pending_outbound_buffer.push_back(peer.channel_encryptor.encrypt_message(&encoded_msg[..]));
 								peer.pending_outbound_buffer.push_back(peer.channel_encryptor.encrypt_message(&encoded_update_msg[..]));
-								Self::do_attempt_write_data(&mut (*descriptor).clone(), peer);
+								self.do_attempt_write_data(&mut (*descriptor).clone(), peer);
 							}
 						}
-						continue;
 					},
-					Event::BroadcastChannelUpdate { ref msg } => {
+					MessageSendEvent::BroadcastChannelUpdate { ref msg } => {
 						log_trace!(self, "Handling BroadcastChannelUpdate event in peer_handler for short channel id {}", msg.contents.short_channel_id);
 						if self.message_handler.route_handler.handle_channel_update(msg).is_ok() {
 							let encoded_msg = encode_msg!(msg, 258);
 
 							for (ref descriptor, ref mut peer) in peers.peers.iter_mut() {
-								if !peer.channel_encryptor.is_ready_for_encryption() || peer.their_global_features.is_none() {
+								if !peer.channel_encryptor.is_ready_for_encryption() || peer.their_global_features.is_none() ||
+										!peer.should_forward_channel(msg.contents.short_channel_id)  {
 									continue
 								}
 								peer.pending_outbound_buffer.push_back(peer.channel_encryptor.encrypt_message(&encoded_msg[..]));
-								Self::do_attempt_write_data(&mut (*descriptor).clone(), peer);
+								self.do_attempt_write_data(&mut (*descriptor).clone(), peer);
 							}
 						}
-						continue;
 					},
-					Event::HandleError { ref node_id, ref action } => {
+					MessageSendEvent::PaymentFailureNetworkUpdate { ref update } => {
+						self.message_handler.route_handler.handle_htlc_fail_channel_update(update);
+					},
+					MessageSendEvent::HandleError { ref node_id, ref action } => {
 						if let Some(ref action) = *action {
 							match *action {
 								msgs::ErrorAction::DisconnectPeer { ref msg } => {
 									if let Some(mut descriptor) = peers.node_id_to_descriptor.remove(node_id) {
+										peers.peers_needing_send.remove(&descriptor);
 										if let Some(mut peer) = peers.peers.remove(&descriptor) {
 											if let Some(ref msg) = *msg {
 												log_trace!(self, "Handling DisconnectPeer HandleError event in peer_handler for node {} with message {}",
@@ -854,7 +1033,7 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 												peer.pending_outbound_buffer.push_back(peer.channel_encryptor.encrypt_message(&encode_msg!(msg, 17)));
 												// 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);
+												self.do_attempt_write_data(&mut descriptor, &mut peer);
 											} else {
 												log_trace!(self, "Handling DisconnectPeer HandleError event in peer_handler for node {} with no message", log_pubkey!(node_id));
 											}
@@ -863,9 +1042,7 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 										self.message_handler.chan_handler.peer_disconnected(&node_id, false);
 									}
 								},
-								msgs::ErrorAction::IgnoreError => {
-									continue;
-								},
+								msgs::ErrorAction::IgnoreError => {},
 								msgs::ErrorAction::SendErrorMessage { ref msg } => {
 									log_trace!(self, "Handling SendErrorMessage HandleError event in peer_handler for node {} with message {}",
 											log_pubkey!(node_id),
@@ -874,29 +1051,30 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 										//TODO: Do whatever we're gonna do for handling dropped messages
 									});
 									peer.pending_outbound_buffer.push_back(peer.channel_encryptor.encrypt_message(&encode_msg!(msg, 17)));
-									Self::do_attempt_write_data(&mut descriptor, peer);
+									self.do_attempt_write_data(&mut descriptor, peer);
 								},
 							}
 						} else {
 							log_error!(self, "Got no-action HandleError Event in peer_handler for node {}, no such events should ever be generated!", log_pubkey!(node_id));
 						}
-						continue;
 					}
 				}
-
-				upstream_events.push(event);
 			}
-		}
 
-		let mut pending_events = self.pending_events.lock().unwrap();
-		for event in upstream_events.drain(..) {
-			pending_events.push(event);
+			for mut descriptor in peers.peers_needing_send.drain() {
+				match peers.peers.get_mut(&descriptor) {
+					Some(peer) => self.do_attempt_write_data(&mut descriptor, peer),
+					None => panic!("Inconsistent peers set state!"),
+				}
+			}
 		}
 	}
 
 	/// Indicates that the given socket descriptor's connection is now closed.
+	///
 	/// This must be called even if a PeerHandleError was given for a read_event or write_event,
-	/// but must NOT be called if a PeerHandleError was provided out of a new_*_connection event!
+	/// but must NOT be called if a PeerHandleError was provided out of a new_\*\_connection event!
+	///
 	/// Panics if the descriptor was not previously registered in a successful new_*_connection event.
 	pub fn disconnect_event(&self, descriptor: &Descriptor) {
 		self.disconnect_event_internal(descriptor, false);
@@ -904,6 +1082,7 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 
 	fn disconnect_event_internal(&self, descriptor: &Descriptor, no_connection_possible: bool) {
 		let mut peers = self.peers.lock().unwrap();
+		peers.peers_needing_send.remove(descriptor);
 		let peer_option = peers.peers.remove(descriptor);
 		match peer_option {
 			None => panic!("Descriptor for disconnect_event is not already known to PeerManager"),
@@ -920,15 +1099,6 @@ impl<Descriptor: SocketDescriptor> PeerManager<Descriptor> {
 	}
 }
 
-impl<Descriptor: SocketDescriptor> EventsProvider for PeerManager<Descriptor> {
-	fn get_and_clear_pending_events(&self) -> Vec<Event> {
-		let mut pending_events = self.pending_events.lock().unwrap();
-		let mut ret = Vec::new();
-		mem::swap(&mut ret, &mut *pending_events);
-		ret
-	}
-}
-
 #[cfg(test)]
 mod tests {
 	use ln::peer_handler::{PeerManager, MessageHandler, SocketDescriptor};
@@ -950,19 +1120,19 @@ mod tests {
 	}
 
 	impl SocketDescriptor for FileDescriptor {
-		fn send_data(&mut self, data: &Vec<u8>, write_offset: usize, _resume_read: bool) -> usize {
-			assert!(write_offset < data.len());
-			data.len() - write_offset
+		fn send_data(&mut self, data: &[u8], _resume_read: bool) -> usize {
+			data.len()
 		}
 
 		fn disconnect_socket(&mut self) {}
 	}
 
 	fn create_network(peer_count: usize) -> Vec<PeerManager<FileDescriptor>> {
-		let secp_ctx = Secp256k1::new();
 		let mut peers = Vec::new();
 		let mut rng = thread_rng();
 		let logger : Arc<Logger> = Arc::new(test_utils::TestLogger::new());
+		let mut ephemeral_bytes = [0; 32];
+		rng.fill_bytes(&mut ephemeral_bytes);
 
 		for _ in 0..peer_count {
 			let chan_handler = test_utils::TestChannelMessageHandler::new();
@@ -970,10 +1140,10 @@ mod tests {
 			let node_id = {
 				let mut key_slice = [0;32];
 				rng.fill_bytes(&mut key_slice);
-				SecretKey::from_slice(&secp_ctx, &key_slice).unwrap()
+				SecretKey::from_slice(&key_slice).unwrap()
 			};
 			let msg_handler = MessageHandler { chan_handler: Arc::new(chan_handler), route_handler: Arc::new(router) };
-			let peer = PeerManager::new(msg_handler, node_id, Arc::clone(&logger));
+			let peer = PeerManager::new(msg_handler, node_id, &ephemeral_bytes, Arc::clone(&logger));
 			peers.push(peer);
 		}
 
@@ -991,7 +1161,7 @@ mod tests {
 	#[test]
 	fn test_disconnect_peer() {
 		// Simple test which builds a network of PeerManager, connects and brings them to NoiseState::Finished and
-		// push an DisconnectPeer event to remove the node flagged by id
+		// push a DisconnectPeer event to remove the node flagged by id
 		let mut peers = create_network(2);
 		establish_connection(&peers[0], &peers[1]);
 		assert_eq!(peers[0].peers.lock().unwrap().peers.len(), 1);
@@ -1000,7 +1170,7 @@ mod tests {
 		let their_id = PublicKey::from_secret_key(&secp_ctx, &peers[1].our_node_secret);
 
 		let chan_handler = test_utils::TestChannelMessageHandler::new();
-		chan_handler.pending_events.lock().unwrap().push(events::Event::HandleError {
+		chan_handler.pending_events.lock().unwrap().push(events::MessageSendEvent::HandleError {
 			node_id: their_id,
 			action: Some(msgs::ErrorAction::DisconnectPeer { msg: None }),
 		});