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// Copyright 2018 Parity Technologies (UK) Ltd.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the "Software"),
// to deal in the Software without restriction, including without limitation
// the rights to use, copy, modify, merge, publish, distribute, sublicense,
// and/or sell copies of the Software, and to permit persons to whom the
// Software is furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
// DEALINGS IN THE SOFTWARE.
//! The Kademlia connection protocol upgrade and associated message types.
//!
//! The connection protocol upgrade is provided by [`KademliaProtocolConfig`], with the
//! request and response types [`KadRequestMsg`] and [`KadResponseMsg`], respectively.
//! The upgrade's output is a `Sink + Stream` of messages. The `Stream` component is used
//! to poll the underlying transport for incoming messages, and the `Sink` component
//! is used to send messages to remote peers.
use crate::dht_proto as proto;
use crate::record::{self, Record};
use asynchronous_codec::Framed;
use bytes::BytesMut;
use codec::UviBytes;
use futures::prelude::*;
use instant::Instant;
use libp2p_core::upgrade::{InboundUpgrade, OutboundUpgrade, UpgradeInfo};
use libp2p_core::{Multiaddr, PeerId};
use prost::Message;
use std::{borrow::Cow, convert::TryFrom, time::Duration};
use std::{io, iter};
use unsigned_varint::codec;
/// The protocol name used for negotiating with multistream-select.
pub const DEFAULT_PROTO_NAME: &[u8] = b"/ipfs/kad/1.0.0";
/// The default maximum size for a varint length-delimited packet.
pub const DEFAULT_MAX_PACKET_SIZE: usize = 16 * 1024;
/// Status of our connection to a node reported by the Kademlia protocol.
#[derive(Copy, Clone, PartialEq, Eq, Debug, Hash)]
pub enum KadConnectionType {
/// Sender hasn't tried to connect to peer.
NotConnected = 0,
/// Sender is currently connected to peer.
Connected = 1,
/// Sender was recently connected to peer.
CanConnect = 2,
/// Sender tried to connect to peer but failed.
CannotConnect = 3,
}
impl From<proto::message::ConnectionType> for KadConnectionType {
fn from(raw: proto::message::ConnectionType) -> KadConnectionType {
use proto::message::ConnectionType::*;
match raw {
NotConnected => KadConnectionType::NotConnected,
Connected => KadConnectionType::Connected,
CanConnect => KadConnectionType::CanConnect,
CannotConnect => KadConnectionType::CannotConnect,
}
}
}
impl From<KadConnectionType> for proto::message::ConnectionType {
fn from(val: KadConnectionType) -> Self {
use proto::message::ConnectionType::*;
match val {
KadConnectionType::NotConnected => NotConnected,
KadConnectionType::Connected => Connected,
KadConnectionType::CanConnect => CanConnect,
KadConnectionType::CannotConnect => CannotConnect,
}
}
}
/// Information about a peer, as known by the sender.
#[derive(Debug, Clone, PartialEq, Eq)]
pub struct KadPeer {
/// Identifier of the peer.
pub node_id: PeerId,
/// The multiaddresses that the sender think can be used in order to reach the peer.
pub multiaddrs: Vec<Multiaddr>,
/// How the sender is connected to that remote.
pub connection_ty: KadConnectionType,
}
// Builds a `KadPeer` from a corresponding protobuf message.
impl TryFrom<proto::message::Peer> for KadPeer {
type Error = io::Error;
fn try_from(peer: proto::message::Peer) -> Result<KadPeer, Self::Error> {
// TODO: this is in fact a CID; not sure if this should be handled in `from_bytes` or
// as a special case here
let node_id = PeerId::from_bytes(&peer.id).map_err(|_| invalid_data("invalid peer id"))?;
let mut addrs = Vec::with_capacity(peer.addrs.len());
for addr in peer.addrs.into_iter() {
match Multiaddr::try_from(addr) {
Ok(a) => addrs.push(a),
Err(e) => {
log::debug!("Unable to parse multiaddr: {e}");
}
};
}
let connection_ty = proto::message::ConnectionType::from_i32(peer.connection)
.ok_or_else(|| invalid_data("unknown connection type"))?
.into();
Ok(KadPeer {
node_id,
multiaddrs: addrs,
connection_ty,
})
}
}
impl From<KadPeer> for proto::message::Peer {
fn from(peer: KadPeer) -> Self {
proto::message::Peer {
id: peer.node_id.to_bytes(),
addrs: peer.multiaddrs.into_iter().map(|a| a.to_vec()).collect(),
connection: {
let ct: proto::message::ConnectionType = peer.connection_ty.into();
ct as i32
},
}
}
}
/// Configuration for a Kademlia connection upgrade. When applied to a connection, turns this
/// connection into a `Stream + Sink` whose items are of type `KadRequestMsg` and `KadResponseMsg`.
// TODO: if, as suspected, we can confirm with Protocol Labs that each open Kademlia substream does
// only one request, then we can change the output of the `InboundUpgrade` and
// `OutboundUpgrade` to be just a single message
#[derive(Debug, Clone)]
pub struct KademliaProtocolConfig {
protocol_names: Vec<Cow<'static, [u8]>>,
/// Maximum allowed size of a packet.
max_packet_size: usize,
}
impl KademliaProtocolConfig {
/// Returns the configured protocol name.
pub fn protocol_names(&self) -> &[Cow<'static, [u8]>] {
&self.protocol_names
}
/// Modifies the protocol names used on the wire. Can be used to create incompatibilities
/// between networks on purpose.
pub fn set_protocol_names(&mut self, names: Vec<Cow<'static, [u8]>>) {
self.protocol_names = names;
}
/// Modifies the maximum allowed size of a single Kademlia packet.
pub fn set_max_packet_size(&mut self, size: usize) {
self.max_packet_size = size;
}
}
impl Default for KademliaProtocolConfig {
fn default() -> Self {
KademliaProtocolConfig {
protocol_names: iter::once(Cow::Borrowed(DEFAULT_PROTO_NAME)).collect(),
max_packet_size: DEFAULT_MAX_PACKET_SIZE,
}
}
}
impl UpgradeInfo for KademliaProtocolConfig {
type Info = Cow<'static, [u8]>;
type InfoIter = std::vec::IntoIter<Self::Info>;
fn protocol_info(&self) -> Self::InfoIter {
self.protocol_names.clone().into_iter()
}
}
impl<C> InboundUpgrade<C> for KademliaProtocolConfig
where
C: AsyncRead + AsyncWrite + Unpin,
{
type Output = KadInStreamSink<C>;
type Future = future::Ready<Result<Self::Output, io::Error>>;
type Error = io::Error;
fn upgrade_inbound(self, incoming: C, _: Self::Info) -> Self::Future {
let mut codec = UviBytes::default();
codec.set_max_len(self.max_packet_size);
future::ok(
Framed::new(incoming, codec)
.err_into()
.with::<_, _, fn(_) -> _, _>(|response| {
let proto_struct = resp_msg_to_proto(response);
let mut buf = Vec::with_capacity(proto_struct.encoded_len());
proto_struct
.encode(&mut buf)
.expect("Vec<u8> provides capacity as needed");
future::ready(Ok(io::Cursor::new(buf)))
})
.and_then::<_, fn(_) -> _>(|bytes| {
let request = match proto::Message::decode(bytes) {
Ok(r) => r,
Err(err) => return future::ready(Err(err.into())),
};
future::ready(proto_to_req_msg(request))
}),
)
}
}
impl<C> OutboundUpgrade<C> for KademliaProtocolConfig
where
C: AsyncRead + AsyncWrite + Unpin,
{
type Output = KadOutStreamSink<C>;
type Future = future::Ready<Result<Self::Output, io::Error>>;
type Error = io::Error;
fn upgrade_outbound(self, incoming: C, _: Self::Info) -> Self::Future {
let mut codec = UviBytes::default();
codec.set_max_len(self.max_packet_size);
future::ok(
Framed::new(incoming, codec)
.err_into()
.with::<_, _, fn(_) -> _, _>(|request| {
let proto_struct = req_msg_to_proto(request);
let mut buf = Vec::with_capacity(proto_struct.encoded_len());
proto_struct
.encode(&mut buf)
.expect("Vec<u8> provides capacity as needed");
future::ready(Ok(io::Cursor::new(buf)))
})
.and_then::<_, fn(_) -> _>(|bytes| {
let response = match proto::Message::decode(bytes) {
Ok(r) => r,
Err(err) => return future::ready(Err(err.into())),
};
future::ready(proto_to_resp_msg(response))
}),
)
}
}
/// Sink of responses and stream of requests.
pub type KadInStreamSink<S> = KadStreamSink<S, KadResponseMsg, KadRequestMsg>;
/// Sink of requests and stream of responses.
pub type KadOutStreamSink<S> = KadStreamSink<S, KadRequestMsg, KadResponseMsg>;
pub type KadStreamSink<S, A, B> = stream::AndThen<
sink::With<
stream::ErrInto<Framed<S, UviBytes<io::Cursor<Vec<u8>>>>, io::Error>,
io::Cursor<Vec<u8>>,
A,
future::Ready<Result<io::Cursor<Vec<u8>>, io::Error>>,
fn(A) -> future::Ready<Result<io::Cursor<Vec<u8>>, io::Error>>,
>,
future::Ready<Result<B, io::Error>>,
fn(BytesMut) -> future::Ready<Result<B, io::Error>>,
>;
/// Request that we can send to a peer or that we received from a peer.
#[derive(Debug, Clone, PartialEq, Eq)]
pub enum KadRequestMsg {
/// Ping request.
Ping,
/// Request for the list of nodes whose IDs are the closest to `key`. The number of nodes
/// returned is not specified, but should be around 20.
FindNode {
/// The key for which to locate the closest nodes.
key: Vec<u8>,
},
/// Same as `FindNode`, but should also return the entries of the local providers list for
/// this key.
GetProviders {
/// Identifier being searched.
key: record::Key,
},
/// Indicates that this list of providers is known for this key.
AddProvider {
/// Key for which we should add providers.
key: record::Key,
/// Known provider for this key.
provider: KadPeer,
},
/// Request to get a value from the dht records.
GetValue {
/// The key we are searching for.
key: record::Key,
},
/// Request to put a value into the dht records.
PutValue { record: Record },
}
/// Response that we can send to a peer or that we received from a peer.
#[derive(Debug, Clone, PartialEq, Eq)]
pub enum KadResponseMsg {
/// Ping response.
Pong,
/// Response to a `FindNode`.
FindNode {
/// Results of the request.
closer_peers: Vec<KadPeer>,
},
/// Response to a `GetProviders`.
GetProviders {
/// Nodes closest to the key.
closer_peers: Vec<KadPeer>,
/// Known providers for this key.
provider_peers: Vec<KadPeer>,
},
/// Response to a `GetValue`.
GetValue {
/// Result that might have been found
record: Option<Record>,
/// Nodes closest to the key
closer_peers: Vec<KadPeer>,
},
/// Response to a `PutValue`.
PutValue {
/// The key of the record.
key: record::Key,
/// Value of the record.
value: Vec<u8>,
},
}
/// Converts a `KadRequestMsg` into the corresponding protobuf message for sending.
fn req_msg_to_proto(kad_msg: KadRequestMsg) -> proto::Message {
match kad_msg {
KadRequestMsg::Ping => proto::Message {
r#type: proto::message::MessageType::Ping as i32,
..proto::Message::default()
},
KadRequestMsg::FindNode { key } => proto::Message {
r#type: proto::message::MessageType::FindNode as i32,
key,
cluster_level_raw: 10,
..proto::Message::default()
},
KadRequestMsg::GetProviders { key } => proto::Message {
r#type: proto::message::MessageType::GetProviders as i32,
key: key.to_vec(),
cluster_level_raw: 10,
..proto::Message::default()
},
KadRequestMsg::AddProvider { key, provider } => proto::Message {
r#type: proto::message::MessageType::AddProvider as i32,
cluster_level_raw: 10,
key: key.to_vec(),
provider_peers: vec![provider.into()],
..proto::Message::default()
},
KadRequestMsg::GetValue { key } => proto::Message {
r#type: proto::message::MessageType::GetValue as i32,
cluster_level_raw: 10,
key: key.to_vec(),
..proto::Message::default()
},
KadRequestMsg::PutValue { record } => proto::Message {
r#type: proto::message::MessageType::PutValue as i32,
key: record.key.to_vec(),
record: Some(record_to_proto(record)),
..proto::Message::default()
},
}
}
/// Converts a `KadResponseMsg` into the corresponding protobuf message for sending.
fn resp_msg_to_proto(kad_msg: KadResponseMsg) -> proto::Message {
match kad_msg {
KadResponseMsg::Pong => proto::Message {
r#type: proto::message::MessageType::Ping as i32,
..proto::Message::default()
},
KadResponseMsg::FindNode { closer_peers } => proto::Message {
r#type: proto::message::MessageType::FindNode as i32,
cluster_level_raw: 9,
closer_peers: closer_peers.into_iter().map(KadPeer::into).collect(),
..proto::Message::default()
},
KadResponseMsg::GetProviders {
closer_peers,
provider_peers,
} => proto::Message {
r#type: proto::message::MessageType::GetProviders as i32,
cluster_level_raw: 9,
closer_peers: closer_peers.into_iter().map(KadPeer::into).collect(),
provider_peers: provider_peers.into_iter().map(KadPeer::into).collect(),
..proto::Message::default()
},
KadResponseMsg::GetValue {
record,
closer_peers,
} => proto::Message {
r#type: proto::message::MessageType::GetValue as i32,
cluster_level_raw: 9,
closer_peers: closer_peers.into_iter().map(KadPeer::into).collect(),
record: record.map(record_to_proto),
..proto::Message::default()
},
KadResponseMsg::PutValue { key, value } => proto::Message {
r#type: proto::message::MessageType::PutValue as i32,
key: key.to_vec(),
record: Some(proto::Record {
key: key.to_vec(),
value,
..proto::Record::default()
}),
..proto::Message::default()
},
}
}
/// Converts a received protobuf message into a corresponding `KadRequestMsg`.
///
/// Fails if the protobuf message is not a valid and supported Kademlia request message.
fn proto_to_req_msg(message: proto::Message) -> Result<KadRequestMsg, io::Error> {
let msg_type = proto::message::MessageType::from_i32(message.r#type)
.ok_or_else(|| invalid_data(format!("unknown message type: {}", message.r#type)))?;
match msg_type {
proto::message::MessageType::Ping => Ok(KadRequestMsg::Ping),
proto::message::MessageType::PutValue => {
let record = record_from_proto(message.record.unwrap_or_default())?;
Ok(KadRequestMsg::PutValue { record })
}
proto::message::MessageType::GetValue => Ok(KadRequestMsg::GetValue {
key: record::Key::from(message.key),
}),
proto::message::MessageType::FindNode => Ok(KadRequestMsg::FindNode { key: message.key }),
proto::message::MessageType::GetProviders => Ok(KadRequestMsg::GetProviders {
key: record::Key::from(message.key),
}),
proto::message::MessageType::AddProvider => {
// TODO: for now we don't parse the peer properly, so it is possible that we get
// parsing errors for peers even when they are valid; we ignore these
// errors for now, but ultimately we should just error altogether
let provider = message
.provider_peers
.into_iter()
.find_map(|peer| KadPeer::try_from(peer).ok());
if let Some(provider) = provider {
let key = record::Key::from(message.key);
Ok(KadRequestMsg::AddProvider { key, provider })
} else {
Err(invalid_data("AddProvider message with no valid peer."))
}
}
}
}
/// Converts a received protobuf message into a corresponding `KadResponseMessage`.
///
/// Fails if the protobuf message is not a valid and supported Kademlia response message.
fn proto_to_resp_msg(message: proto::Message) -> Result<KadResponseMsg, io::Error> {
let msg_type = proto::message::MessageType::from_i32(message.r#type)
.ok_or_else(|| invalid_data(format!("unknown message type: {}", message.r#type)))?;
match msg_type {
proto::message::MessageType::Ping => Ok(KadResponseMsg::Pong),
proto::message::MessageType::GetValue => {
let record = if let Some(r) = message.record {
Some(record_from_proto(r)?)
} else {
None
};
let closer_peers = message
.closer_peers
.into_iter()
.filter_map(|peer| KadPeer::try_from(peer).ok())
.collect();
Ok(KadResponseMsg::GetValue {
record,
closer_peers,
})
}
proto::message::MessageType::FindNode => {
let closer_peers = message
.closer_peers
.into_iter()
.filter_map(|peer| KadPeer::try_from(peer).ok())
.collect();
Ok(KadResponseMsg::FindNode { closer_peers })
}
proto::message::MessageType::GetProviders => {
let closer_peers = message
.closer_peers
.into_iter()
.filter_map(|peer| KadPeer::try_from(peer).ok())
.collect();
let provider_peers = message
.provider_peers
.into_iter()
.filter_map(|peer| KadPeer::try_from(peer).ok())
.collect();
Ok(KadResponseMsg::GetProviders {
closer_peers,
provider_peers,
})
}
proto::message::MessageType::PutValue => {
let key = record::Key::from(message.key);
let rec = message
.record
.ok_or_else(|| invalid_data("received PutValue message with no record"))?;
Ok(KadResponseMsg::PutValue {
key,
value: rec.value,
})
}
proto::message::MessageType::AddProvider => {
Err(invalid_data("received an unexpected AddProvider message"))
}
}
}
fn record_from_proto(record: proto::Record) -> Result<Record, io::Error> {
let key = record::Key::from(record.key);
let value = record.value;
let publisher = if !record.publisher.is_empty() {
PeerId::from_bytes(&record.publisher)
.map(Some)
.map_err(|_| invalid_data("Invalid publisher peer ID."))?
} else {
None
};
let expires = if record.ttl > 0 {
Some(Instant::now() + Duration::from_secs(record.ttl as u64))
} else {
None
};
Ok(Record {
key,
value,
publisher,
expires,
})
}
fn record_to_proto(record: Record) -> proto::Record {
proto::Record {
key: record.key.to_vec(),
value: record.value,
publisher: record.publisher.map(|id| id.to_bytes()).unwrap_or_default(),
ttl: record
.expires
.map(|t| {
let now = Instant::now();
if t > now {
(t - now).as_secs() as u32
} else {
1 // because 0 means "does not expire"
}
})
.unwrap_or(0),
time_received: String::new(),
}
}
/// Creates an `io::Error` with `io::ErrorKind::InvalidData`.
fn invalid_data<E>(e: E) -> io::Error
where
E: Into<Box<dyn std::error::Error + Send + Sync>>,
{
io::Error::new(io::ErrorKind::InvalidData, e)
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn skip_invalid_multiaddr() {
let valid_multiaddr: Multiaddr = "/ip6/2001:db8::/tcp/1234".parse().unwrap();
let valid_multiaddr_bytes = valid_multiaddr.to_vec();
let invalid_multiaddr = {
let a = vec![255; 8];
assert!(Multiaddr::try_from(a.clone()).is_err());
a
};
let payload = proto::message::Peer {
id: PeerId::random().to_bytes(),
addrs: vec![valid_multiaddr_bytes, invalid_multiaddr],
connection: proto::message::ConnectionType::CanConnect.into(),
};
let peer = KadPeer::try_from(payload).expect("not to fail");
assert_eq!(peer.multiaddrs, vec![valid_multiaddr])
}
/*// TODO: restore
use self::libp2p_tcp::TcpTransport;
use self::tokio::runtime::current_thread::Runtime;
use futures::{Future, Sink, Stream};
use libp2p_core::{PeerId, PublicKey, Transport};
use multihash::{encode, Hash};
use protocol::{KadConnectionType, KadPeer, KademliaProtocolConfig};
use std::sync::mpsc;
use std::thread;
#[test]
fn correct_transfer() {
// We open a server and a client, send a message between the two, and check that they were
// successfully received.
test_one(KadMsg::Ping);
test_one(KadMsg::FindNodeReq {
key: PeerId::random(),
});
test_one(KadMsg::FindNodeRes {
closer_peers: vec![KadPeer {
node_id: PeerId::random(),
multiaddrs: vec!["/ip4/100.101.102.103/tcp/20105".parse().unwrap()],
connection_ty: KadConnectionType::Connected,
}],
});
test_one(KadMsg::GetProvidersReq {
key: encode(Hash::SHA2256, &[9, 12, 0, 245, 245, 201, 28, 95]).unwrap(),
});
test_one(KadMsg::GetProvidersRes {
closer_peers: vec![KadPeer {
node_id: PeerId::random(),
multiaddrs: vec!["/ip4/100.101.102.103/tcp/20105".parse().unwrap()],
connection_ty: KadConnectionType::Connected,
}],
provider_peers: vec![KadPeer {
node_id: PeerId::random(),
multiaddrs: vec!["/ip4/200.201.202.203/tcp/1999".parse().unwrap()],
connection_ty: KadConnectionType::NotConnected,
}],
});
test_one(KadMsg::AddProvider {
key: encode(Hash::SHA2256, &[9, 12, 0, 245, 245, 201, 28, 95]).unwrap(),
provider_peer: KadPeer {
node_id: PeerId::random(),
multiaddrs: vec!["/ip4/9.1.2.3/udp/23".parse().unwrap()],
connection_ty: KadConnectionType::Connected,
},
});
// TODO: all messages
fn test_one(msg_server: KadMsg) {
let msg_client = msg_server.clone();
let (tx, rx) = mpsc::channel();
let bg_thread = thread::spawn(move || {
let transport = TcpTransport::default().with_upgrade(KademliaProtocolConfig);
let (listener, addr) = transport
.listen_on( "/ip4/127.0.0.1/tcp/0".parse().unwrap())
.unwrap();
tx.send(addr).unwrap();
let future = listener
.into_future()
.map_err(|(err, _)| err)
.and_then(|(client, _)| client.unwrap().0)
.and_then(|proto| proto.into_future().map_err(|(err, _)| err).map(|(v, _)| v))
.map(|recv_msg| {
assert_eq!(recv_msg.unwrap(), msg_server);
()
});
let mut rt = Runtime::new().unwrap();
let _ = rt.block_on(future).unwrap();
});
let transport = TcpTransport::default().with_upgrade(KademliaProtocolConfig);
let future = transport
.dial(rx.recv().unwrap())
.unwrap()
.and_then(|proto| proto.send(msg_client))
.map(|_| ());
let mut rt = Runtime::new().unwrap();
let _ = rt.block_on(future).unwrap();
bg_thread.join().unwrap();
}
}*/
}