use super::methods::*; use crate::rpc::{ codec::{ base::{BaseInboundCodec, BaseOutboundCodec}, ssz_snappy::{SSZSnappyInboundCodec, SSZSnappyOutboundCodec}, InboundCodec, OutboundCodec, }, methods::{MaxErrorLen, ResponseTermination, MAX_ERROR_LEN}, MaxRequestBlocks, MAX_REQUEST_BLOCKS, }; use futures::future::BoxFuture; use futures::prelude::{AsyncRead, AsyncWrite}; use futures::{FutureExt, SinkExt, StreamExt}; use libp2p::core::{InboundUpgrade, OutboundUpgrade, ProtocolName, UpgradeInfo}; use ssz::Encode; use ssz_types::VariableList; use std::io; use std::marker::PhantomData; use std::time::Duration; use strum::{AsStaticRef, AsStaticStr}; use tokio_io_timeout::TimeoutStream; use tokio_util::{ codec::Framed, compat::{Compat, FuturesAsyncReadCompatExt}, }; use types::{BeaconBlock, EthSpec, Hash256, MainnetEthSpec, Signature, SignedBeaconBlock}; lazy_static! { // Note: Hardcoding the `EthSpec` type for `SignedBeaconBlock` as min/max values is // same across different `EthSpec` implementations. pub static ref SIGNED_BEACON_BLOCK_MIN: usize = SignedBeaconBlock:: { message: BeaconBlock::empty(&MainnetEthSpec::default_spec()), signature: Signature::empty(), } .as_ssz_bytes() .len(); pub static ref SIGNED_BEACON_BLOCK_MAX: usize = SignedBeaconBlock:: { message: BeaconBlock::full(&MainnetEthSpec::default_spec()), signature: Signature::empty(), } .as_ssz_bytes() .len(); pub static ref BLOCKS_BY_ROOT_REQUEST_MIN: usize = VariableList::::from(Vec::::new()) .as_ssz_bytes() .len(); pub static ref BLOCKS_BY_ROOT_REQUEST_MAX: usize = VariableList::::from(vec![ Hash256::zero(); MAX_REQUEST_BLOCKS as usize ]) .as_ssz_bytes() .len(); pub static ref ERROR_TYPE_MIN: usize = VariableList::::from(Vec::::new()) .as_ssz_bytes() .len(); pub static ref ERROR_TYPE_MAX: usize = VariableList::::from(vec![ 0u8; MAX_ERROR_LEN as usize ]) .as_ssz_bytes() .len(); } /// The maximum bytes that can be sent across the RPC. const MAX_RPC_SIZE: usize = 1_048_576; // 1M /// The protocol prefix the RPC protocol id. const PROTOCOL_PREFIX: &str = "/eth2/beacon_chain/req"; /// Time allowed for the first byte of a request to arrive before we time out (Time To First Byte). const TTFB_TIMEOUT: u64 = 5; /// The number of seconds to wait for the first bytes of a request once a protocol has been /// established before the stream is terminated. const REQUEST_TIMEOUT: u64 = 15; /// Protocol names to be used. #[derive(Debug, Clone, Copy)] pub enum Protocol { /// The Status protocol name. Status, /// The Goodbye protocol name. Goodbye, /// The `BlocksByRange` protocol name. BlocksByRange, /// The `BlocksByRoot` protocol name. BlocksByRoot, /// The `Ping` protocol name. Ping, /// The `MetaData` protocol name. MetaData, } /// RPC Versions #[derive(Debug, Clone, PartialEq, Eq)] pub enum Version { /// Version 1 of RPC V1, } /// RPC Encondings supported. #[derive(Debug, Clone, PartialEq, Eq)] pub enum Encoding { SSZSnappy, } impl std::fmt::Display for Protocol { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { let repr = match self { Protocol::Status => "status", Protocol::Goodbye => "goodbye", Protocol::BlocksByRange => "beacon_blocks_by_range", Protocol::BlocksByRoot => "beacon_blocks_by_root", Protocol::Ping => "ping", Protocol::MetaData => "metadata", }; f.write_str(repr) } } impl std::fmt::Display for Encoding { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { let repr = match self { Encoding::SSZSnappy => "ssz_snappy", }; f.write_str(repr) } } impl std::fmt::Display for Version { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { let repr = match self { Version::V1 => "1", }; f.write_str(repr) } } #[derive(Debug, Clone)] pub struct RPCProtocol { pub phantom: PhantomData, } impl UpgradeInfo for RPCProtocol { type Info = ProtocolId; type InfoIter = Vec; /// The list of supported RPC protocols for Lighthouse. fn protocol_info(&self) -> Self::InfoIter { vec![ ProtocolId::new(Protocol::Status, Version::V1, Encoding::SSZSnappy), ProtocolId::new(Protocol::Goodbye, Version::V1, Encoding::SSZSnappy), ProtocolId::new(Protocol::BlocksByRange, Version::V1, Encoding::SSZSnappy), ProtocolId::new(Protocol::BlocksByRoot, Version::V1, Encoding::SSZSnappy), ProtocolId::new(Protocol::Ping, Version::V1, Encoding::SSZSnappy), ProtocolId::new(Protocol::MetaData, Version::V1, Encoding::SSZSnappy), ] } } /// Represents the ssz length bounds for RPC messages. #[derive(Debug, PartialEq)] pub struct RpcLimits { pub min: usize, pub max: usize, } impl RpcLimits { pub fn new(min: usize, max: usize) -> Self { Self { min, max } } /// Returns true if the given length is out of bounds, false otherwise. pub fn is_out_of_bounds(&self, length: usize) -> bool { length > self.max || length < self.min } } /// Tracks the types in a protocol id. #[derive(Clone, Debug)] pub struct ProtocolId { /// The RPC message type/name. pub message_name: Protocol, /// The version of the RPC. pub version: Version, /// The encoding of the RPC. pub encoding: Encoding, /// The protocol id that is formed from the above fields. protocol_id: String, } impl ProtocolId { /// Returns min and max size for messages of given protocol id requests. pub fn rpc_request_limits(&self) -> RpcLimits { match self.message_name { Protocol::Status => RpcLimits::new( ::ssz_fixed_len(), ::ssz_fixed_len(), ), Protocol::Goodbye => RpcLimits::new( ::ssz_fixed_len(), ::ssz_fixed_len(), ), Protocol::BlocksByRange => RpcLimits::new( ::ssz_fixed_len(), ::ssz_fixed_len(), ), Protocol::BlocksByRoot => { RpcLimits::new(*BLOCKS_BY_ROOT_REQUEST_MIN, *BLOCKS_BY_ROOT_REQUEST_MAX) } Protocol::Ping => RpcLimits::new( ::ssz_fixed_len(), ::ssz_fixed_len(), ), Protocol::MetaData => RpcLimits::new(0, 0), // Metadata requests are empty } } /// Returns min and max size for messages of given protocol id responses. pub fn rpc_response_limits(&self) -> RpcLimits { match self.message_name { Protocol::Status => RpcLimits::new( ::ssz_fixed_len(), ::ssz_fixed_len(), ), Protocol::Goodbye => RpcLimits::new(0, 0), // Goodbye request has no response Protocol::BlocksByRange => { RpcLimits::new(*SIGNED_BEACON_BLOCK_MIN, *SIGNED_BEACON_BLOCK_MAX) } Protocol::BlocksByRoot => { RpcLimits::new(*SIGNED_BEACON_BLOCK_MIN, *SIGNED_BEACON_BLOCK_MAX) } Protocol::Ping => RpcLimits::new( ::ssz_fixed_len(), ::ssz_fixed_len(), ), Protocol::MetaData => RpcLimits::new( as Encode>::ssz_fixed_len(), as Encode>::ssz_fixed_len(), ), } } } /// An RPC protocol ID. impl ProtocolId { pub fn new(message_name: Protocol, version: Version, encoding: Encoding) -> Self { let protocol_id = format!( "{}/{}/{}/{}", PROTOCOL_PREFIX, message_name, version, encoding ); ProtocolId { message_name, version, encoding, protocol_id, } } } impl ProtocolName for ProtocolId { fn protocol_name(&self) -> &[u8] { self.protocol_id.as_bytes() } } /* Inbound upgrade */ // The inbound protocol reads the request, decodes it and returns the stream to the protocol // handler to respond to once ready. pub type InboundOutput = (RPCRequest, InboundFramed); pub type InboundFramed = Framed>>>, InboundCodec>; impl InboundUpgrade for RPCProtocol where TSocket: AsyncRead + AsyncWrite + Unpin + Send + 'static, TSpec: EthSpec, { type Output = InboundOutput; type Error = RPCError; type Future = BoxFuture<'static, Result>; fn upgrade_inbound(self, socket: TSocket, protocol: ProtocolId) -> Self::Future { async move { let protocol_name = protocol.message_name; // convert the socket to tokio compatible socket let socket = socket.compat(); let codec = match protocol.encoding { Encoding::SSZSnappy => { let ssz_snappy_codec = BaseInboundCodec::new(SSZSnappyInboundCodec::new(protocol, MAX_RPC_SIZE)); InboundCodec::SSZSnappy(ssz_snappy_codec) } }; let mut timed_socket = TimeoutStream::new(socket); timed_socket.set_read_timeout(Some(Duration::from_secs(TTFB_TIMEOUT))); let socket = Framed::new(Box::pin(timed_socket), codec); // MetaData requests should be empty, return the stream match protocol_name { Protocol::MetaData => Ok((RPCRequest::MetaData(PhantomData), socket)), _ => { match tokio::time::timeout( Duration::from_secs(REQUEST_TIMEOUT), socket.into_future(), ) .await { Err(e) => Err(RPCError::from(e)), Ok((Some(Ok(request)), stream)) => Ok((request, stream)), Ok((Some(Err(e)), _)) => Err(e), Ok((None, _)) => Err(RPCError::IncompleteStream), } } } } .boxed() } } /* Outbound request */ // Combines all the RPC requests into a single enum to implement `UpgradeInfo` and // `OutboundUpgrade` #[derive(Debug, Clone, PartialEq)] pub enum RPCRequest { Status(StatusMessage), Goodbye(GoodbyeReason), BlocksByRange(BlocksByRangeRequest), BlocksByRoot(BlocksByRootRequest), Ping(Ping), MetaData(PhantomData), } impl UpgradeInfo for RPCRequest { type Info = ProtocolId; type InfoIter = Vec; // add further protocols as we support more encodings/versions fn protocol_info(&self) -> Self::InfoIter { self.supported_protocols() } } /// Implements the encoding per supported protocol for `RPCRequest`. impl RPCRequest { pub fn supported_protocols(&self) -> Vec { match self { // add more protocols when versions/encodings are supported RPCRequest::Status(_) => vec![ProtocolId::new( Protocol::Status, Version::V1, Encoding::SSZSnappy, )], RPCRequest::Goodbye(_) => vec![ProtocolId::new( Protocol::Goodbye, Version::V1, Encoding::SSZSnappy, )], RPCRequest::BlocksByRange(_) => vec![ProtocolId::new( Protocol::BlocksByRange, Version::V1, Encoding::SSZSnappy, )], RPCRequest::BlocksByRoot(_) => vec![ProtocolId::new( Protocol::BlocksByRoot, Version::V1, Encoding::SSZSnappy, )], RPCRequest::Ping(_) => vec![ProtocolId::new( Protocol::Ping, Version::V1, Encoding::SSZSnappy, )], RPCRequest::MetaData(_) => vec![ProtocolId::new( Protocol::MetaData, Version::V1, Encoding::SSZSnappy, )], } } /* These functions are used in the handler for stream management */ /// Number of responses expected for this request. pub fn expected_responses(&self) -> u64 { match self { RPCRequest::Status(_) => 1, RPCRequest::Goodbye(_) => 0, RPCRequest::BlocksByRange(req) => req.count, RPCRequest::BlocksByRoot(req) => req.block_roots.len() as u64, RPCRequest::Ping(_) => 1, RPCRequest::MetaData(_) => 1, } } /// Gives the corresponding `Protocol` to this request. pub fn protocol(&self) -> Protocol { match self { RPCRequest::Status(_) => Protocol::Status, RPCRequest::Goodbye(_) => Protocol::Goodbye, RPCRequest::BlocksByRange(_) => Protocol::BlocksByRange, RPCRequest::BlocksByRoot(_) => Protocol::BlocksByRoot, RPCRequest::Ping(_) => Protocol::Ping, RPCRequest::MetaData(_) => Protocol::MetaData, } } /// Returns the `ResponseTermination` type associated with the request if a stream gets /// terminated. pub fn stream_termination(&self) -> ResponseTermination { match self { // this only gets called after `multiple_responses()` returns true. Therefore, only // variants that have `multiple_responses()` can have values. RPCRequest::BlocksByRange(_) => ResponseTermination::BlocksByRange, RPCRequest::BlocksByRoot(_) => ResponseTermination::BlocksByRoot, RPCRequest::Status(_) => unreachable!(), RPCRequest::Goodbye(_) => unreachable!(), RPCRequest::Ping(_) => unreachable!(), RPCRequest::MetaData(_) => unreachable!(), } } } /* RPC Response type - used for outbound upgrades */ /* Outbound upgrades */ pub type OutboundFramed = Framed, OutboundCodec>; impl OutboundUpgrade for RPCRequest where TSpec: EthSpec + Send + 'static, TSocket: AsyncRead + AsyncWrite + Unpin + Send + 'static, { type Output = OutboundFramed; type Error = RPCError; type Future = BoxFuture<'static, Result>; fn upgrade_outbound(self, socket: TSocket, protocol: Self::Info) -> Self::Future { // convert to a tokio compatible socket let socket = socket.compat(); let codec = match protocol.encoding { Encoding::SSZSnappy => { let ssz_snappy_codec = BaseOutboundCodec::new(SSZSnappyOutboundCodec::new(protocol, MAX_RPC_SIZE)); OutboundCodec::SSZSnappy(ssz_snappy_codec) } }; let mut socket = Framed::new(socket, codec); async { socket.send(self).await?; socket.close().await?; Ok(socket) } .boxed() } } /// Error in RPC Encoding/Decoding. #[derive(Debug, Clone, PartialEq, AsStaticStr)] #[strum(serialize_all = "snake_case")] pub enum RPCError { /// Error when decoding the raw buffer from ssz. // NOTE: in the future a ssz::DecodeError should map to an InvalidData error #[strum(serialize = "decode_error")] SSZDecodeError(ssz::DecodeError), /// IO Error. IoError(String), /// The peer returned a valid response but the response indicated an error. ErrorResponse(RPCResponseErrorCode, String), /// Timed out waiting for a response. StreamTimeout, /// Peer does not support the protocol. UnsupportedProtocol, /// Stream ended unexpectedly. IncompleteStream, /// Peer sent invalid data. InvalidData, /// An error occurred due to internal reasons. Ex: timer failure. InternalError(&'static str), /// Negotiation with this peer timed out. NegotiationTimeout, /// Handler rejected this request. HandlerRejected, } impl From for RPCError { #[inline] fn from(err: ssz::DecodeError) -> Self { RPCError::SSZDecodeError(err) } } impl From for RPCError { fn from(_: tokio::time::error::Elapsed) -> Self { RPCError::StreamTimeout } } impl From for RPCError { fn from(err: io::Error) -> Self { RPCError::IoError(err.to_string()) } } // Error trait is required for `ProtocolsHandler` impl std::fmt::Display for RPCError { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { match *self { RPCError::SSZDecodeError(ref err) => write!(f, "Error while decoding ssz: {:?}", err), RPCError::InvalidData => write!(f, "Peer sent unexpected data"), RPCError::IoError(ref err) => write!(f, "IO Error: {}", err), RPCError::ErrorResponse(ref code, ref reason) => write!( f, "RPC response was an error: {} with reason: {}", code, reason ), RPCError::StreamTimeout => write!(f, "Stream Timeout"), RPCError::UnsupportedProtocol => write!(f, "Peer does not support the protocol"), RPCError::IncompleteStream => write!(f, "Stream ended unexpectedly"), RPCError::InternalError(ref err) => write!(f, "Internal error: {}", err), RPCError::NegotiationTimeout => write!(f, "Negotiation timeout"), RPCError::HandlerRejected => write!(f, "Handler rejected the request"), } } } impl std::error::Error for RPCError { fn source(&self) -> Option<&(dyn std::error::Error + 'static)> { match *self { // NOTE: this does have a source RPCError::SSZDecodeError(_) => None, RPCError::IoError(_) => None, RPCError::StreamTimeout => None, RPCError::UnsupportedProtocol => None, RPCError::IncompleteStream => None, RPCError::InvalidData => None, RPCError::InternalError(_) => None, RPCError::ErrorResponse(_, _) => None, RPCError::NegotiationTimeout => None, RPCError::HandlerRejected => None, } } } impl std::fmt::Display for RPCRequest { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { match self { RPCRequest::Status(status) => write!(f, "Status Message: {}", status), RPCRequest::Goodbye(reason) => write!(f, "Goodbye: {}", reason), RPCRequest::BlocksByRange(req) => write!(f, "Blocks by range: {}", req), RPCRequest::BlocksByRoot(req) => write!(f, "Blocks by root: {:?}", req), RPCRequest::Ping(ping) => write!(f, "Ping: {}", ping.data), RPCRequest::MetaData(_) => write!(f, "MetaData request"), } } } impl RPCError { /// Get a `str` representation of the error. /// Used for metrics. pub fn as_static_str(&self) -> &'static str { match self { RPCError::ErrorResponse(ref code, ..) => code.as_static(), e => e.as_static(), } } }