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protocol.rs
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protocol.rs
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// Copyright 2020 Sigma Prime Pty 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.
use crate::config::ValidationMode;
use crate::handler::HandlerEvent;
use crate::rpc_proto::proto;
use crate::topic::TopicHash;
use crate::types::{
ControlAction, MessageId, PeerInfo, PeerKind, RawMessage, Rpc, Subscription, SubscriptionAction,
};
use crate::ValidationError;
use asynchronous_codec::{Decoder, Encoder, Framed};
use byteorder::{BigEndian, ByteOrder};
use bytes::BytesMut;
use futures::future;
use futures::prelude::*;
use libp2p_core::{InboundUpgrade, OutboundUpgrade, UpgradeInfo};
use libp2p_identity::{PeerId, PublicKey};
use libp2p_swarm::StreamProtocol;
use quick_protobuf::Writer;
use std::pin::Pin;
use void::Void;
pub(crate) const SIGNING_PREFIX: &[u8] = b"libp2p-pubsub:";
pub(crate) const GOSSIPSUB_1_1_0_PROTOCOL: ProtocolId = ProtocolId {
protocol: StreamProtocol::new("/meshsub/1.1.0"),
kind: PeerKind::Gossipsubv1_1,
};
pub(crate) const GOSSIPSUB_1_0_0_PROTOCOL: ProtocolId = ProtocolId {
protocol: StreamProtocol::new("/meshsub/1.0.0"),
kind: PeerKind::Gossipsub,
};
pub(crate) const FLOODSUB_PROTOCOL: ProtocolId = ProtocolId {
protocol: StreamProtocol::new("/floodsub/1.0.0"),
kind: PeerKind::Floodsub,
};
/// Implementation of [`InboundUpgrade`] and [`OutboundUpgrade`] for the Gossipsub protocol.
#[derive(Debug, Clone)]
pub struct ProtocolConfig {
/// The Gossipsub protocol id to listen on.
pub(crate) protocol_ids: Vec<ProtocolId>,
/// The maximum transmit size for a packet.
pub(crate) max_transmit_size: usize,
/// Determines the level of validation to be done on incoming messages.
pub(crate) validation_mode: ValidationMode,
}
impl Default for ProtocolConfig {
fn default() -> Self {
Self {
max_transmit_size: 65536,
validation_mode: ValidationMode::Strict,
protocol_ids: vec![GOSSIPSUB_1_1_0_PROTOCOL, GOSSIPSUB_1_0_0_PROTOCOL],
}
}
}
/// The protocol ID
#[derive(Clone, Debug, PartialEq)]
pub struct ProtocolId {
/// The RPC message type/name.
pub protocol: StreamProtocol,
/// The type of protocol we support
pub kind: PeerKind,
}
impl AsRef<str> for ProtocolId {
fn as_ref(&self) -> &str {
self.protocol.as_ref()
}
}
impl UpgradeInfo for ProtocolConfig {
type Info = ProtocolId;
type InfoIter = Vec<Self::Info>;
fn protocol_info(&self) -> Self::InfoIter {
self.protocol_ids.clone()
}
}
impl<TSocket> InboundUpgrade<TSocket> for ProtocolConfig
where
TSocket: AsyncRead + AsyncWrite + Unpin + Send + 'static,
{
type Output = (Framed<TSocket, GossipsubCodec>, PeerKind);
type Error = Void;
type Future = Pin<Box<dyn Future<Output = Result<Self::Output, Self::Error>> + Send>>;
fn upgrade_inbound(self, socket: TSocket, protocol_id: Self::Info) -> Self::Future {
Box::pin(future::ok((
Framed::new(
socket,
GossipsubCodec::new(self.max_transmit_size, self.validation_mode),
),
protocol_id.kind,
)))
}
}
impl<TSocket> OutboundUpgrade<TSocket> for ProtocolConfig
where
TSocket: AsyncWrite + AsyncRead + Unpin + Send + 'static,
{
type Output = (Framed<TSocket, GossipsubCodec>, PeerKind);
type Error = Void;
type Future = Pin<Box<dyn Future<Output = Result<Self::Output, Self::Error>> + Send>>;
fn upgrade_outbound(self, socket: TSocket, protocol_id: Self::Info) -> Self::Future {
Box::pin(future::ok((
Framed::new(
socket,
GossipsubCodec::new(self.max_transmit_size, self.validation_mode),
),
protocol_id.kind,
)))
}
}
/* Gossip codec for the framing */
pub struct GossipsubCodec {
/// Determines the level of validation performed on incoming messages.
validation_mode: ValidationMode,
/// The codec to handle common encoding/decoding of protobuf messages
codec: quick_protobuf_codec::Codec<proto::RPC>,
}
impl GossipsubCodec {
pub fn new(max_length: usize, validation_mode: ValidationMode) -> GossipsubCodec {
let codec = quick_protobuf_codec::Codec::new(max_length);
GossipsubCodec {
validation_mode,
codec,
}
}
/// Verifies a gossipsub message. This returns either a success or failure. All errors
/// are logged, which prevents error handling in the codec and handler. We simply drop invalid
/// messages and log warnings, rather than propagating errors through the codec.
fn verify_signature(message: &proto::Message) -> bool {
use quick_protobuf::MessageWrite;
let Some(from) = message.from.as_ref() else {
tracing::debug!("Signature verification failed: No source id given");
return false;
};
let Ok(source) = PeerId::from_bytes(from) else {
tracing::debug!("Signature verification failed: Invalid Peer Id");
return false;
};
let Some(signature) = message.signature.as_ref() else {
tracing::debug!("Signature verification failed: No signature provided");
return false;
};
// If there is a key value in the protobuf, use that key otherwise the key must be
// obtained from the inlined source peer_id.
let public_key = match message.key.as_deref().map(PublicKey::try_decode_protobuf) {
Some(Ok(key)) => key,
_ => match PublicKey::try_decode_protobuf(&source.to_bytes()[2..]) {
Ok(v) => v,
Err(_) => {
tracing::warn!("Signature verification failed: No valid public key supplied");
return false;
}
},
};
// The key must match the peer_id
if source != public_key.to_peer_id() {
tracing::warn!(
"Signature verification failed: Public key doesn't match source peer id"
);
return false;
}
// Construct the signature bytes
let mut message_sig = message.clone();
message_sig.signature = None;
message_sig.key = None;
let mut buf = Vec::with_capacity(message_sig.get_size());
let mut writer = Writer::new(&mut buf);
message_sig
.write_message(&mut writer)
.expect("Encoding to succeed");
let mut signature_bytes = SIGNING_PREFIX.to_vec();
signature_bytes.extend_from_slice(&buf);
public_key.verify(&signature_bytes, signature)
}
}
impl Encoder for GossipsubCodec {
type Item<'a> = proto::RPC;
type Error = quick_protobuf_codec::Error;
fn encode(&mut self, item: Self::Item<'_>, dst: &mut BytesMut) -> Result<(), Self::Error> {
self.codec.encode(item, dst)
}
}
impl Decoder for GossipsubCodec {
type Item = HandlerEvent;
type Error = quick_protobuf_codec::Error;
fn decode(&mut self, src: &mut BytesMut) -> Result<Option<Self::Item>, Self::Error> {
let Some(rpc) = self.codec.decode(src)? else {
return Ok(None);
};
// Store valid messages.
let mut messages = Vec::with_capacity(rpc.publish.len());
// Store any invalid messages.
let mut invalid_messages = Vec::new();
for message in rpc.publish.into_iter() {
// Keep track of the type of invalid message.
let mut invalid_kind = None;
let mut verify_signature = false;
let mut verify_sequence_no = false;
let mut verify_source = false;
match self.validation_mode {
ValidationMode::Strict => {
// Validate everything
verify_signature = true;
verify_sequence_no = true;
verify_source = true;
}
ValidationMode::Permissive => {
// If the fields exist, validate them
if message.signature.is_some() {
verify_signature = true;
}
if message.seqno.is_some() {
verify_sequence_no = true;
}
if message.from.is_some() {
verify_source = true;
}
}
ValidationMode::Anonymous => {
if message.signature.is_some() {
tracing::warn!(
"Signature field was non-empty and anonymous validation mode is set"
);
invalid_kind = Some(ValidationError::SignaturePresent);
} else if message.seqno.is_some() {
tracing::warn!(
"Sequence number was non-empty and anonymous validation mode is set"
);
invalid_kind = Some(ValidationError::SequenceNumberPresent);
} else if message.from.is_some() {
tracing::warn!("Message dropped. Message source was non-empty and anonymous validation mode is set");
invalid_kind = Some(ValidationError::MessageSourcePresent);
}
}
ValidationMode::None => {}
}
// If the initial validation logic failed, add the message to invalid messages and
// continue processing the others.
if let Some(validation_error) = invalid_kind.take() {
let message = RawMessage {
source: None, // don't bother inform the application
data: message.data.unwrap_or_default(),
sequence_number: None, // don't inform the application
topic: TopicHash::from_raw(message.topic),
signature: None, // don't inform the application
key: message.key,
validated: false,
};
invalid_messages.push((message, validation_error));
// proceed to the next message
continue;
}
// verify message signatures if required
if verify_signature && !GossipsubCodec::verify_signature(&message) {
tracing::warn!("Invalid signature for received message");
// Build the invalid message (ignoring further validation of sequence number
// and source)
let message = RawMessage {
source: None, // don't bother inform the application
data: message.data.unwrap_or_default(),
sequence_number: None, // don't inform the application
topic: TopicHash::from_raw(message.topic),
signature: None, // don't inform the application
key: message.key,
validated: false,
};
invalid_messages.push((message, ValidationError::InvalidSignature));
// proceed to the next message
continue;
}
// ensure the sequence number is a u64
let sequence_number = if verify_sequence_no {
if let Some(seq_no) = message.seqno {
if seq_no.is_empty() {
None
} else if seq_no.len() != 8 {
tracing::debug!(
sequence_number=?seq_no,
sequence_length=%seq_no.len(),
"Invalid sequence number length for received message"
);
let message = RawMessage {
source: None, // don't bother inform the application
data: message.data.unwrap_or_default(),
sequence_number: None, // don't inform the application
topic: TopicHash::from_raw(message.topic),
signature: message.signature, // don't inform the application
key: message.key,
validated: false,
};
invalid_messages.push((message, ValidationError::InvalidSequenceNumber));
// proceed to the next message
continue;
} else {
// valid sequence number
Some(BigEndian::read_u64(&seq_no))
}
} else {
// sequence number was not present
tracing::debug!("Sequence number not present but expected");
let message = RawMessage {
source: None, // don't bother inform the application
data: message.data.unwrap_or_default(),
sequence_number: None, // don't inform the application
topic: TopicHash::from_raw(message.topic),
signature: message.signature, // don't inform the application
key: message.key,
validated: false,
};
invalid_messages.push((message, ValidationError::EmptySequenceNumber));
continue;
}
} else {
// Do not verify the sequence number, consider it empty
None
};
// Verify the message source if required
let source = if verify_source {
if let Some(bytes) = message.from {
if !bytes.is_empty() {
match PeerId::from_bytes(&bytes) {
Ok(peer_id) => Some(peer_id), // valid peer id
Err(_) => {
// invalid peer id, add to invalid messages
tracing::debug!("Message source has an invalid PeerId");
let message = RawMessage {
source: None, // don't bother inform the application
data: message.data.unwrap_or_default(),
sequence_number,
topic: TopicHash::from_raw(message.topic),
signature: message.signature, // don't inform the application
key: message.key,
validated: false,
};
invalid_messages.push((message, ValidationError::InvalidPeerId));
continue;
}
}
} else {
None
}
} else {
None
}
} else {
None
};
// This message has passed all validation, add it to the validated messages.
messages.push(RawMessage {
source,
data: message.data.unwrap_or_default(),
sequence_number,
topic: TopicHash::from_raw(message.topic),
signature: message.signature,
key: message.key,
validated: false,
});
}
let mut control_msgs = Vec::new();
if let Some(rpc_control) = rpc.control {
// Collect the gossipsub control messages
let ihave_msgs: Vec<ControlAction> = rpc_control
.ihave
.into_iter()
.map(|ihave| ControlAction::IHave {
topic_hash: TopicHash::from_raw(ihave.topic_id.unwrap_or_default()),
message_ids: ihave
.message_ids
.into_iter()
.map(MessageId::from)
.collect::<Vec<_>>(),
})
.collect();
let iwant_msgs: Vec<ControlAction> = rpc_control
.iwant
.into_iter()
.map(|iwant| ControlAction::IWant {
message_ids: iwant
.message_ids
.into_iter()
.map(MessageId::from)
.collect::<Vec<_>>(),
})
.collect();
let graft_msgs: Vec<ControlAction> = rpc_control
.graft
.into_iter()
.map(|graft| ControlAction::Graft {
topic_hash: TopicHash::from_raw(graft.topic_id.unwrap_or_default()),
})
.collect();
let mut prune_msgs = Vec::new();
for prune in rpc_control.prune {
// filter out invalid peers
let peers = prune
.peers
.into_iter()
.filter_map(|info| {
info.peer_id
.as_ref()
.and_then(|id| PeerId::from_bytes(id).ok())
.map(|peer_id|
//TODO signedPeerRecord, see https://github.com/libp2p/specs/pull/217
PeerInfo {
peer_id: Some(peer_id),
})
})
.collect::<Vec<PeerInfo>>();
let topic_hash = TopicHash::from_raw(prune.topic_id.unwrap_or_default());
prune_msgs.push(ControlAction::Prune {
topic_hash,
peers,
backoff: prune.backoff,
});
}
control_msgs.extend(ihave_msgs);
control_msgs.extend(iwant_msgs);
control_msgs.extend(graft_msgs);
control_msgs.extend(prune_msgs);
}
Ok(Some(HandlerEvent::Message {
rpc: Rpc {
messages,
subscriptions: rpc
.subscriptions
.into_iter()
.map(|sub| Subscription {
action: if Some(true) == sub.subscribe {
SubscriptionAction::Subscribe
} else {
SubscriptionAction::Unsubscribe
},
topic_hash: TopicHash::from_raw(sub.topic_id.unwrap_or_default()),
})
.collect(),
control_msgs,
},
invalid_messages,
}))
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::config::Config;
use crate::{Behaviour, ConfigBuilder};
use crate::{IdentTopic as Topic, Version};
use libp2p_identity::Keypair;
use quickcheck::*;
#[derive(Clone, Debug)]
struct Message(RawMessage);
impl Arbitrary for Message {
fn arbitrary(g: &mut Gen) -> Self {
let keypair = TestKeypair::arbitrary(g);
// generate an arbitrary GossipsubMessage using the behaviour signing functionality
let config = Config::default();
let mut gs: Behaviour =
Behaviour::new(crate::MessageAuthenticity::Signed(keypair.0), config).unwrap();
let data = (0..g.gen_range(10..10024u32))
.map(|_| u8::arbitrary(g))
.collect::<Vec<_>>();
let topic_id = TopicId::arbitrary(g).0;
Message(gs.build_raw_message(topic_id, data).unwrap())
}
}
#[derive(Clone, Debug)]
struct TopicId(TopicHash);
impl Arbitrary for TopicId {
fn arbitrary(g: &mut Gen) -> Self {
let topic_string: String = (0..g.gen_range(20..1024u32))
.map(|_| char::arbitrary(g))
.collect::<String>();
TopicId(Topic::new(topic_string).into())
}
}
#[derive(Clone)]
struct TestKeypair(Keypair);
impl Arbitrary for TestKeypair {
#[cfg(feature = "rsa")]
fn arbitrary(g: &mut Gen) -> Self {
let keypair = if bool::arbitrary(g) {
// Small enough to be inlined.
Keypair::generate_ed25519()
} else {
// Too large to be inlined.
let mut rsa_key = hex::decode("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").unwrap();
Keypair::rsa_from_pkcs8(&mut rsa_key).unwrap()
};
TestKeypair(keypair)
}
#[cfg(not(feature = "rsa"))]
fn arbitrary(_g: &mut Gen) -> Self {
// Small enough to be inlined.
TestKeypair(Keypair::generate_ed25519())
}
}
impl std::fmt::Debug for TestKeypair {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
f.debug_struct("TestKeypair")
.field("public", &self.0.public())
.finish()
}
}
#[test]
/// Test that RPC messages can be encoded and decoded successfully.
fn encode_decode() {
fn prop(message: Message) {
let message = message.0;
let rpc = Rpc {
messages: vec![message.clone()],
subscriptions: vec![],
control_msgs: vec![],
};
let mut codec = GossipsubCodec::new(u32::MAX as usize, ValidationMode::Strict);
let mut buf = BytesMut::new();
codec.encode(rpc.into_protobuf(), &mut buf).unwrap();
let decoded_rpc = codec.decode(&mut buf).unwrap().unwrap();
// mark as validated as its a published message
match decoded_rpc {
HandlerEvent::Message { mut rpc, .. } => {
rpc.messages[0].validated = true;
assert_eq!(vec![message], rpc.messages);
}
_ => panic!("Must decode a message"),
}
}
QuickCheck::new().quickcheck(prop as fn(_) -> _)
}
#[test]
fn support_floodsub_with_custom_protocol() {
let protocol_config = ConfigBuilder::default()
.protocol_id("/foosub", Version::V1_1)
.support_floodsub()
.build()
.unwrap()
.protocol_config();
assert_eq!(protocol_config.protocol_ids[0].protocol, "/foosub");
assert_eq!(protocol_config.protocol_ids[1].protocol, "/floodsub/1.0.0");
}
}