// Copyright 2015-2017 Parity Technologies (UK) Ltd. // This file is part of Parity. // Parity is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // Parity is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // You should have received a copy of the GNU General Public License // along with Parity. If not, see . use std::collections::{HashMap, HashSet}; use std::fmt::{self, Display, Formatter}; use std::hash::{Hash, Hasher}; use std::net::{SocketAddr, ToSocketAddrs, SocketAddrV4, SocketAddrV6, Ipv4Addr, Ipv6Addr}; use std::path::PathBuf; use std::str::FromStr; use std::{fs, mem, slice}; use ethereum_types::H512; use rlp::*; use network::{Error, ErrorKind, AllowIP, IpFilter}; use discovery::{TableUpdates, NodeEntry}; use ip_utils::*; use serde_json; /// Node public key pub type NodeId = H512; #[derive(Debug, Clone)] /// Node address info pub struct NodeEndpoint { /// IP(V4 or V6) address pub address: SocketAddr, /// Conneciton port. pub udp_port: u16 } impl NodeEndpoint { pub fn udp_address(&self) -> SocketAddr { match self.address { SocketAddr::V4(a) => SocketAddr::V4(SocketAddrV4::new(a.ip().clone(), self.udp_port)), SocketAddr::V6(a) => SocketAddr::V6(SocketAddrV6::new(a.ip().clone(), self.udp_port, a.flowinfo(), a.scope_id())), } } pub fn is_allowed(&self, filter: &IpFilter) -> bool { (self.is_allowed_by_predefined(&filter.predefined) || filter.custom_allow.iter().any(|ipnet| { self.address.ip().is_within(ipnet) })) && !filter.custom_block.iter().any(|ipnet| { self.address.ip().is_within(ipnet) }) } pub fn is_allowed_by_predefined(&self, filter: &AllowIP) -> bool { match filter { &AllowIP::All => true, &AllowIP::Private => self.address.ip().is_usable_private(), &AllowIP::Public => self.address.ip().is_usable_public(), &AllowIP::None => false, } } pub fn from_rlp(rlp: &UntrustedRlp) -> Result { let tcp_port = rlp.val_at::(2)?; let udp_port = rlp.val_at::(1)?; let addr_bytes = rlp.at(0)?.data()?; let address = match addr_bytes.len() { 4 => Ok(SocketAddr::V4(SocketAddrV4::new(Ipv4Addr::new(addr_bytes[0], addr_bytes[1], addr_bytes[2], addr_bytes[3]), tcp_port))), 16 => unsafe { let o: *const u16 = mem::transmute(addr_bytes.as_ptr()); let o = slice::from_raw_parts(o, 8); Ok(SocketAddr::V6(SocketAddrV6::new(Ipv6Addr::new(o[0], o[1], o[2], o[3], o[4], o[5], o[6], o[7]), tcp_port, 0, 0))) }, _ => Err(DecoderError::RlpInconsistentLengthAndData) }?; Ok(NodeEndpoint { address: address, udp_port: udp_port }) } pub fn to_rlp(&self, rlp: &mut RlpStream) { match self.address { SocketAddr::V4(a) => { rlp.append(&(&a.ip().octets()[..])); } SocketAddr::V6(a) => unsafe { let o: *const u8 = mem::transmute(a.ip().segments().as_ptr()); rlp.append(&slice::from_raw_parts(o, 16)); } }; rlp.append(&self.udp_port); rlp.append(&self.address.port()); } pub fn to_rlp_list(&self, rlp: &mut RlpStream) { rlp.begin_list(3); self.to_rlp(rlp); } /// Validates that the port is not 0 and address IP is specified pub fn is_valid(&self) -> bool { self.udp_port != 0 && self.address.port() != 0 && match self.address { SocketAddr::V4(a) => !a.ip().is_unspecified(), SocketAddr::V6(a) => !a.ip().is_unspecified() } } } impl FromStr for NodeEndpoint { type Err = Error; /// Create endpoint from string. Performs name resolution if given a host name. fn from_str(s: &str) -> Result { let address = s.to_socket_addrs().map(|mut i| i.next()); match address { Ok(Some(a)) => Ok(NodeEndpoint { address: a, udp_port: a.port() }), Ok(_) => Err(ErrorKind::AddressResolve(None).into()), Err(e) => Err(ErrorKind::AddressResolve(Some(e)).into()) } } } #[derive(PartialEq, Eq, Copy, Clone)] pub enum PeerType { _Required, Optional } pub struct Node { pub id: NodeId, pub endpoint: NodeEndpoint, pub peer_type: PeerType, pub attempts: u32, pub failures: u32, } const DEFAULT_FAILURE_PERCENTAGE: usize = 50; impl Node { pub fn new(id: NodeId, endpoint: NodeEndpoint) -> Node { Node { id: id, endpoint: endpoint, peer_type: PeerType::Optional, attempts: 0, failures: 0, } } /// Returns the node's failure percentage (0..100) in buckets of 5%. If there are 0 connection attempts for this /// node the default failure percentage is returned (50%). pub fn failure_percentage(&self) -> usize { if self.attempts == 0 { DEFAULT_FAILURE_PERCENTAGE } else { (self.failures * 100 / self.attempts / 5 * 5) as usize } } } impl Display for Node { fn fmt(&self, f: &mut Formatter) -> fmt::Result { if self.endpoint.udp_port != self.endpoint.address.port() { write!(f, "enode://{}@{}+{}", self.id.hex(), self.endpoint.address, self.endpoint.udp_port)?; } else { write!(f, "enode://{}@{}", self.id.hex(), self.endpoint.address)?; } Ok(()) } } impl FromStr for Node { type Err = Error; fn from_str(s: &str) -> Result { let (id, endpoint) = if s.len() > 136 && &s[0..8] == "enode://" && &s[136..137] == "@" { (s[8..136].parse().map_err(|_| ErrorKind::InvalidNodeId)?, NodeEndpoint::from_str(&s[137..])?) } else { (NodeId::new(), NodeEndpoint::from_str(s)?) }; Ok(Node { id: id, endpoint: endpoint, peer_type: PeerType::Optional, attempts: 0, failures: 0, }) } } impl PartialEq for Node { fn eq(&self, other: &Self) -> bool { self.id == other.id } } impl Eq for Node {} impl Hash for Node { fn hash(&self, state: &mut H) where H: Hasher { self.id.hash(state) } } const MAX_NODES: usize = 1024; const NODES_FILE: &str = "nodes.json"; /// Node table backed by disk file. pub struct NodeTable { nodes: HashMap, useless_nodes: HashSet, path: Option, } impl NodeTable { pub fn new(path: Option) -> NodeTable { NodeTable { path: path.clone(), nodes: NodeTable::load(path), useless_nodes: HashSet::new(), } } /// Add a node to table pub fn add_node(&mut self, mut node: Node) { // preserve attempts and failure counter let (attempts, failures) = self.nodes.get(&node.id).map_or((0, 0), |n| (n.attempts, n.failures)); node.attempts = attempts; node.failures = failures; self.nodes.insert(node.id.clone(), node); } fn ordered_entries(&self) -> Vec<&Node> { let mut refs: Vec<&Node> = self.nodes.values() .filter(|n| !self.useless_nodes.contains(&n.id)) .collect(); refs.sort_by(|a, b| { a.failure_percentage().cmp(&b.failure_percentage()) .then_with(|| a.failures.cmp(&b.failures)) .then_with(|| b.attempts.cmp(&a.attempts)) // we use reverse ordering for number of attempts }); refs } /// Returns node ids sorted by failure percentage, for nodes with the same failure percentage the absolute number of /// failures is considered. pub fn nodes(&self, filter: IpFilter) -> Vec { self.ordered_entries().iter() .filter(|n| n.endpoint.is_allowed(&filter)) .map(|n| n.id) .collect() } /// Ordered list of all entries by failure percentage, for nodes with the same failure percentage the absolute /// number of failures is considered. pub fn entries(&self) -> Vec { self.ordered_entries().iter().map(|n| NodeEntry { endpoint: n.endpoint.clone(), id: n.id.clone(), }).collect() } /// Get particular node pub fn get_mut(&mut self, id: &NodeId) -> Option<&mut Node> { self.nodes.get_mut(id) } /// Check if a node exists in the table. pub fn contains(&self, id: &NodeId) -> bool { self.nodes.contains_key(id) } /// Apply table changes coming from discovery pub fn update(&mut self, mut update: TableUpdates, reserved: &HashSet) { for (_, node) in update.added.drain() { let entry = self.nodes.entry(node.id.clone()).or_insert_with(|| Node::new(node.id.clone(), node.endpoint.clone())); entry.endpoint = node.endpoint; } for r in update.removed { if !reserved.contains(&r) { self.nodes.remove(&r); } } } /// Increase failure counte for a node pub fn note_failure(&mut self, id: &NodeId) { if let Some(node) = self.nodes.get_mut(id) { node.failures += 1; } } /// Mark as useless, no further attempts to connect until next call to `clear_useless`. pub fn mark_as_useless(&mut self, id: &NodeId) { self.useless_nodes.insert(id.clone()); } /// Atempt to connect to useless nodes again. pub fn clear_useless(&mut self) { self.useless_nodes.clear(); } /// Save the nodes.json file. pub fn save(&self) { let mut path = match self.path { Some(ref path) => PathBuf::from(path), None => return, }; if let Err(e) = fs::create_dir_all(&path) { warn!("Error creating node table directory: {:?}", e); return; } path.push(NODES_FILE); let node_ids = self.nodes(IpFilter::default()); let nodes = node_ids.into_iter() .map(|id| self.nodes.get(&id).expect("self.nodes() only returns node IDs from self.nodes")) .take(MAX_NODES) .map(|node| node.clone()) .map(Into::into) .collect(); let table = json::NodeTable { nodes }; match fs::File::create(&path) { Ok(file) => { if let Err(e) = serde_json::to_writer_pretty(file, &table) { warn!("Error writing node table file: {:?}", e); } }, Err(e) => { warn!("Error creating node table file: {:?}", e); } } } fn load(path: Option) -> HashMap { let path = match path { Some(path) => PathBuf::from(path).join(NODES_FILE), None => return Default::default(), }; let file = match fs::File::open(&path) { Ok(file) => file, Err(e) => { debug!("Error opening node table file: {:?}", e); return Default::default(); }, }; let res: Result = serde_json::from_reader(file); match res { Ok(table) => { table.nodes.into_iter() .filter_map(|n| n.into_node()) .map(|n| (n.id.clone(), n)) .collect() }, Err(e) => { warn!("Error reading node table file: {:?}", e); Default::default() }, } } } impl Drop for NodeTable { fn drop(&mut self) { self.save(); } } /// Check if node url is valid pub fn validate_node_url(url: &str) -> Option { match Node::from_str(url) { Ok(_) => None, Err(e) => Some(e) } } mod json { use super::*; #[derive(Serialize, Deserialize)] pub struct NodeTable { pub nodes: Vec, } #[derive(Serialize, Deserialize)] pub struct Node { pub url: String, pub attempts: u32, pub failures: u32, } impl Node { pub fn into_node(self) -> Option { match super::Node::from_str(&self.url) { Ok(mut node) => { node.attempts = self.attempts; node.failures = self.failures; Some(node) }, _ => None, } } } impl<'a> From<&'a super::Node> for Node { fn from(node: &'a super::Node) -> Self { Node { url: format!("{}", node), attempts: node.attempts, failures: node.failures, } } } } #[cfg(test)] mod tests { use super::*; use std::net::{SocketAddr, SocketAddrV4, Ipv4Addr}; use ethereum_types::H512; use std::str::FromStr; use tempdir::TempDir; use ipnetwork::IpNetwork; #[test] fn endpoint_parse() { let endpoint = NodeEndpoint::from_str("123.99.55.44:7770"); assert!(endpoint.is_ok()); let v4 = match endpoint.unwrap().address { SocketAddr::V4(v4address) => v4address, _ => panic!("should ve v4 address") }; assert_eq!(SocketAddrV4::new(Ipv4Addr::new(123, 99, 55, 44), 7770), v4); } #[test] fn node_parse() { assert!(validate_node_url("enode://a979fb575495b8d6db44f750317d0f4622bf4c2aa3365d6af7c284339968eef29b69ad0dce72a4d8db5ebb4968de0e3bec910127f134779fbcb0cb6d3331163c@22.99.55.44:7770").is_none()); let node = Node::from_str("enode://a979fb575495b8d6db44f750317d0f4622bf4c2aa3365d6af7c284339968eef29b69ad0dce72a4d8db5ebb4968de0e3bec910127f134779fbcb0cb6d3331163c@22.99.55.44:7770"); assert!(node.is_ok()); let node = node.unwrap(); let v4 = match node.endpoint.address { SocketAddr::V4(v4address) => v4address, _ => panic!("should ve v4 address") }; assert_eq!(SocketAddrV4::new(Ipv4Addr::new(22, 99, 55, 44), 7770), v4); assert_eq!( H512::from_str("a979fb575495b8d6db44f750317d0f4622bf4c2aa3365d6af7c284339968eef29b69ad0dce72a4d8db5ebb4968de0e3bec910127f134779fbcb0cb6d3331163c").unwrap(), node.id); } #[test] fn table_failure_percentage_order() { let node1 = Node::from_str("enode://a979fb575495b8d6db44f750317d0f4622bf4c2aa3365d6af7c284339968eef29b69ad0dce72a4d8db5ebb4968de0e3bec910127f134779fbcb0cb6d3331163c@22.99.55.44:7770").unwrap(); let node2 = Node::from_str("enode://b979fb575495b8d6db44f750317d0f4622bf4c2aa3365d6af7c284339968eef29b69ad0dce72a4d8db5ebb4968de0e3bec910127f134779fbcb0cb6d3331163c@22.99.55.44:7770").unwrap(); let node3 = Node::from_str("enode://c979fb575495b8d6db44f750317d0f4622bf4c2aa3365d6af7c284339968eef29b69ad0dce72a4d8db5ebb4968de0e3bec910127f134779fbcb0cb6d3331163c@22.99.55.44:7770").unwrap(); let node4 = Node::from_str("enode://d979fb575495b8d6db44f750317d0f4622bf4c2aa3365d6af7c284339968eef29b69ad0dce72a4d8db5ebb4968de0e3bec910127f134779fbcb0cb6d3331163c@22.99.55.44:7770").unwrap(); let id1 = H512::from_str("a979fb575495b8d6db44f750317d0f4622bf4c2aa3365d6af7c284339968eef29b69ad0dce72a4d8db5ebb4968de0e3bec910127f134779fbcb0cb6d3331163c").unwrap(); let id2 = H512::from_str("b979fb575495b8d6db44f750317d0f4622bf4c2aa3365d6af7c284339968eef29b69ad0dce72a4d8db5ebb4968de0e3bec910127f134779fbcb0cb6d3331163c").unwrap(); let id3 = H512::from_str("c979fb575495b8d6db44f750317d0f4622bf4c2aa3365d6af7c284339968eef29b69ad0dce72a4d8db5ebb4968de0e3bec910127f134779fbcb0cb6d3331163c").unwrap(); let id4 = H512::from_str("d979fb575495b8d6db44f750317d0f4622bf4c2aa3365d6af7c284339968eef29b69ad0dce72a4d8db5ebb4968de0e3bec910127f134779fbcb0cb6d3331163c").unwrap(); let mut table = NodeTable::new(None); table.add_node(node1); table.add_node(node2); table.add_node(node3); table.add_node(node4); // node 1 - failure percentage 100% table.get_mut(&id1).unwrap().attempts = 2; table.note_failure(&id1); table.note_failure(&id1); // node2 - failure percentage 33% table.get_mut(&id2).unwrap().attempts = 3; table.note_failure(&id2); // node3 - failure percentage 0% table.get_mut(&id3).unwrap().attempts = 1; // node4 - failure percentage 50% (default when no attempts) let r = table.nodes(IpFilter::default()); assert_eq!(r[0][..], id3[..]); assert_eq!(r[1][..], id2[..]); assert_eq!(r[2][..], id4[..]); assert_eq!(r[3][..], id1[..]); } #[test] fn table_save_load() { let tempdir = TempDir::new("").unwrap(); let node1 = Node::from_str("enode://a979fb575495b8d6db44f750317d0f4622bf4c2aa3365d6af7c284339968eef29b69ad0dce72a4d8db5ebb4968de0e3bec910127f134779fbcb0cb6d3331163c@22.99.55.44:7770").unwrap(); let node2 = Node::from_str("enode://b979fb575495b8d6db44f750317d0f4622bf4c2aa3365d6af7c284339968eef29b69ad0dce72a4d8db5ebb4968de0e3bec910127f134779fbcb0cb6d3331163c@22.99.55.44:7770").unwrap(); let id1 = H512::from_str("a979fb575495b8d6db44f750317d0f4622bf4c2aa3365d6af7c284339968eef29b69ad0dce72a4d8db5ebb4968de0e3bec910127f134779fbcb0cb6d3331163c").unwrap(); let id2 = H512::from_str("b979fb575495b8d6db44f750317d0f4622bf4c2aa3365d6af7c284339968eef29b69ad0dce72a4d8db5ebb4968de0e3bec910127f134779fbcb0cb6d3331163c").unwrap(); { let mut table = NodeTable::new(Some(tempdir.path().to_str().unwrap().to_owned())); table.add_node(node1); table.add_node(node2); table.get_mut(&id1).unwrap().attempts = 1; table.get_mut(&id2).unwrap().attempts = 1; table.note_failure(&id2); } { let table = NodeTable::new(Some(tempdir.path().to_str().unwrap().to_owned())); let r = table.nodes(IpFilter::default()); assert_eq!(r[0][..], id1[..]); assert_eq!(r[1][..], id2[..]); } } #[test] fn custom_allow() { let filter = IpFilter { predefined: AllowIP::None, custom_allow: vec![IpNetwork::from_str(&"10.0.0.0/8").unwrap(), IpNetwork::from_str(&"1.0.0.0/8").unwrap()], custom_block: vec![], }; assert!(!NodeEndpoint::from_str("123.99.55.44:7770").unwrap().is_allowed(&filter)); assert!(NodeEndpoint::from_str("10.0.0.1:7770").unwrap().is_allowed(&filter)); assert!(NodeEndpoint::from_str("1.0.0.55:5550").unwrap().is_allowed(&filter)); } #[test] fn custom_block() { let filter = IpFilter { predefined: AllowIP::All, custom_allow: vec![], custom_block: vec![IpNetwork::from_str(&"10.0.0.0/8").unwrap(), IpNetwork::from_str(&"1.0.0.0/8").unwrap()], }; assert!(NodeEndpoint::from_str("123.99.55.44:7770").unwrap().is_allowed(&filter)); assert!(!NodeEndpoint::from_str("10.0.0.1:7770").unwrap().is_allowed(&filter)); assert!(!NodeEndpoint::from_str("1.0.0.55:5550").unwrap().is_allowed(&filter)); } #[test] fn custom_allow_ipv6() { let filter = IpFilter { predefined: AllowIP::None, custom_allow: vec![IpNetwork::from_str(&"fc00::/8").unwrap()], custom_block: vec![], }; assert!(NodeEndpoint::from_str("[fc00::]:5550").unwrap().is_allowed(&filter)); assert!(!NodeEndpoint::from_str("[fd00::]:5550").unwrap().is_allowed(&filter)); } #[test] fn custom_block_ipv6() { let filter = IpFilter { predefined: AllowIP::All, custom_allow: vec![], custom_block: vec![IpNetwork::from_str(&"fc00::/8").unwrap()], }; assert!(!NodeEndpoint::from_str("[fc00::]:5550").unwrap().is_allowed(&filter)); assert!(NodeEndpoint::from_str("[fd00::]:5550").unwrap().is_allowed(&filter)); } }