0g-storage-node/node/network/src/config.rs

352 lines
13 KiB
Rust

use crate::types::GossipKind;
use crate::{Enr, PeerIdSerialized};
use directory::{
DEFAULT_BEACON_NODE_DIR, DEFAULT_HARDCODED_NETWORK, DEFAULT_NETWORK_DIR, DEFAULT_ROOT_DIR,
};
use discv5::{Discv5Config, Discv5ConfigBuilder};
use libp2p::gossipsub::{
FastMessageId, GossipsubConfig, GossipsubConfigBuilder, GossipsubMessage, MessageId,
RawGossipsubMessage, ValidationMode,
};
use libp2p::Multiaddr;
use serde_derive::{Deserialize, Serialize};
use sha2::{Digest, Sha256};
use std::path::PathBuf;
use std::time::Duration;
/// The maximum transmit size of gossip messages in bytes post-merge.
const GOSSIP_MAX_SIZE_POST_MERGE: usize = 10 * 1_048_576; // 10M
/// The cache time is set to accommodate the circulation time of an attestation.
///
/// The p2p spec declares that we accept attestations within the following range:
///
/// ```ignore
/// ATTESTATION_PROPAGATION_SLOT_RANGE = 32
/// attestation.data.slot + ATTESTATION_PROPAGATION_SLOT_RANGE >= current_slot >= attestation.data.slot
/// ```
///
/// Therefore, we must accept attestations across a span of 33 slots (where each slot is 12
/// seconds). We add an additional second to account for the 500ms gossip clock disparity, and
/// another 500ms for "fudge factor".
pub const DUPLICATE_CACHE_TIME: Duration = Duration::from_secs(33 * 12 + 1);
// We treat uncompressed messages as invalid and never use the INVALID_SNAPPY_DOMAIN as in the
// specification. We leave it here for posterity.
// const MESSAGE_DOMAIN_INVALID_SNAPPY: [u8; 4] = [0, 0, 0, 0];
const MESSAGE_DOMAIN_VALID_SNAPPY: [u8; 4] = [1, 0, 0, 0];
/// The maximum size of gossip messages.
pub fn gossip_max_size() -> usize {
GOSSIP_MAX_SIZE_POST_MERGE
}
#[derive(Clone, Debug, Serialize, Deserialize)]
#[serde(default)]
/// Network configuration for lighthouse.
pub struct Config {
/// Data directory where node's keyfile is stored
pub network_dir: PathBuf,
/// IP address to listen on.
pub listen_address: std::net::IpAddr,
/// The TCP port that libp2p listens on.
pub libp2p_port: u16,
/// UDP port that discovery listens on.
pub discovery_port: u16,
/// The address to broadcast to peers about which address we are listening on. None indicates
/// that no discovery address has been set in the CLI args.
pub enr_address: Option<std::net::IpAddr>,
/// The udp port to broadcast to peers in order to reach back for discovery.
pub enr_udp_port: Option<u16>,
/// The tcp port to broadcast to peers in order to reach back for libp2p services.
pub enr_tcp_port: Option<u16>,
/// Target number of connected peers.
pub target_peers: usize,
/// Gossipsub configuration parameters.
#[serde(skip)]
pub gs_config: GossipsubConfig,
/// Discv5 configuration parameters.
#[serde(skip)]
pub discv5_config: Discv5Config,
/// List of nodes to initially connect to.
pub boot_nodes_enr: Vec<Enr>,
/// List of nodes to initially connect to, on Multiaddr format.
pub boot_nodes_multiaddr: Vec<Multiaddr>,
/// List of libp2p nodes to initially connect to.
pub libp2p_nodes: Vec<Multiaddr>,
/// List of trusted libp2p nodes which are not scored.
pub trusted_peers: Vec<PeerIdSerialized>,
/// Client version
pub client_version: String,
/// Disables the discovery protocol from starting.
pub disable_discovery: bool,
/// Attempt to construct external port mappings with UPnP.
pub upnp_enabled: bool,
/// Subscribe to all subnets for the duration of the runtime.
pub subscribe_all_subnets: bool,
/// Import/aggregate all attestations recieved on subscribed subnets for the duration of the
/// runtime.
pub import_all_attestations: bool,
/// A setting specifying a range of values that tune the network parameters of lighthouse. The
/// lower the value the less bandwidth used, but the slower messages will be received.
pub network_load: u8,
/// Indicates if the user has set the network to be in private mode. Currently this
/// prevents sending client identifying information over identify.
pub private: bool,
/// Shutdown beacon node after sync is completed.
pub shutdown_after_sync: bool,
/// List of extra topics to initially subscribe to as strings.
pub topics: Vec<GossipKind>,
/// Whether metrics are enabled.
pub metrics_enabled: bool,
}
impl Default for Config {
/// Generate a default network configuration.
fn default() -> Self {
// WARNING: this directory default should be always overwritten with parameters
// from cli for specific networks.
let network_dir = dirs::home_dir()
.unwrap_or_else(|| PathBuf::from("."))
.join(DEFAULT_ROOT_DIR)
.join(DEFAULT_HARDCODED_NETWORK)
.join(DEFAULT_BEACON_NODE_DIR)
.join(DEFAULT_NETWORK_DIR);
// Note: Using the default config here. Use `gossipsub_config` function for getting
// Lighthouse specific configuration for gossipsub.
let gs_config = GossipsubConfigBuilder::default()
.build()
.expect("valid gossipsub configuration");
// Discv5 Unsolicited Packet Rate Limiter
let filter_rate_limiter = Some(
discv5::RateLimiterBuilder::new()
.total_n_every(300, Duration::from_secs(1)) // Allow bursts, average 300 per second
.ip_n_every(300, Duration::from_secs(1)) // Allow bursts, average 300 per second
.node_n_every(300, Duration::from_secs(1)) // Allow bursts, average 300 per second
.build()
.expect("The total rate limit has been specified"),
);
// discv5 configuration
let discv5_config = Discv5ConfigBuilder::new()
.enable_packet_filter()
.session_cache_capacity(5000)
.request_timeout(Duration::from_secs(1))
.query_peer_timeout(Duration::from_secs(2))
.query_timeout(Duration::from_secs(30))
.request_retries(1)
.enr_peer_update_min(10)
.query_parallelism(5)
.disable_report_discovered_peers()
.ip_limit() // limits /24 IP's in buckets.
.incoming_bucket_limit(8) // half the bucket size
.filter_rate_limiter(filter_rate_limiter)
.filter_max_bans_per_ip(Some(5))
.filter_max_nodes_per_ip(Some(10))
.table_filter(|enr| enr.ip().map_or(false, |ip| is_global(&ip))) // Filter non-global IPs
.ban_duration(Some(Duration::from_secs(3600)))
.ping_interval(Duration::from_secs(300))
.build();
// NOTE: Some of these get overridden by the corresponding CLI default values.
Config {
network_dir,
listen_address: "0.0.0.0".parse().expect("valid ip address"),
libp2p_port: 9000,
discovery_port: 9000,
enr_address: None,
enr_udp_port: None,
enr_tcp_port: None,
target_peers: 50,
gs_config,
discv5_config,
boot_nodes_enr: vec![],
boot_nodes_multiaddr: vec![],
libp2p_nodes: vec![],
trusted_peers: vec![],
client_version: zgs_version::version_with_platform(),
disable_discovery: false,
upnp_enabled: true,
network_load: 3,
private: false,
subscribe_all_subnets: false,
import_all_attestations: false,
shutdown_after_sync: false,
topics: Vec::new(),
metrics_enabled: false,
}
}
}
/// Controls sizes of gossipsub meshes to tune a Lighthouse node's bandwidth/performance.
pub struct NetworkLoad {
pub name: &'static str,
pub mesh_n_low: usize,
pub outbound_min: usize,
pub mesh_n: usize,
pub mesh_n_high: usize,
pub gossip_lazy: usize,
pub history_gossip: usize,
pub heartbeat_interval: Duration,
}
impl From<u8> for NetworkLoad {
fn from(load: u8) -> NetworkLoad {
match load {
1 => NetworkLoad {
name: "Low",
mesh_n_low: 1,
outbound_min: 1,
mesh_n: 3,
mesh_n_high: 4,
gossip_lazy: 3,
history_gossip: 3,
heartbeat_interval: Duration::from_millis(1200),
},
2 => NetworkLoad {
name: "Low",
mesh_n_low: 2,
outbound_min: 2,
mesh_n: 4,
mesh_n_high: 8,
gossip_lazy: 3,
history_gossip: 3,
heartbeat_interval: Duration::from_millis(1000),
},
3 => NetworkLoad {
name: "Average",
mesh_n_low: 3,
outbound_min: 2,
mesh_n: 5,
mesh_n_high: 10,
gossip_lazy: 3,
history_gossip: 3,
heartbeat_interval: Duration::from_millis(700),
},
4 => NetworkLoad {
name: "Average",
mesh_n_low: 4,
outbound_min: 3,
mesh_n: 8,
mesh_n_high: 12,
gossip_lazy: 3,
history_gossip: 3,
heartbeat_interval: Duration::from_millis(700),
},
// 5 and above
_ => NetworkLoad {
name: "High",
mesh_n_low: 5,
outbound_min: 3,
mesh_n: 10,
mesh_n_high: 15,
gossip_lazy: 5,
history_gossip: 6,
heartbeat_interval: Duration::from_millis(500),
},
}
}
}
/// Return a Lighthouse specific `GossipsubConfig` where the `message_id_fn` depends on the current fork.
pub fn gossipsub_config(network_load: u8) -> GossipsubConfig {
// The function used to generate a gossipsub message id
// We use the first 8 bytes of SHA256(data) for content addressing
let fast_gossip_message_id =
|message: &RawGossipsubMessage| FastMessageId::from(&Sha256::digest(&message.data)[..8]);
fn prefix(prefix: [u8; 4], message: &GossipsubMessage) -> Vec<u8> {
let topic_bytes = message.topic.as_str().as_bytes();
// according to: https://github.com/ethereum/consensus-specs/blob/dev/specs/merge/p2p-interface.md#the-gossip-domain-gossipsub
// the derivation of the message-id remains the same in the merge
let topic_len_bytes = topic_bytes.len().to_le_bytes();
let mut vec = Vec::with_capacity(
prefix.len() + topic_len_bytes.len() + topic_bytes.len() + message.data.len(),
);
vec.extend_from_slice(&prefix);
vec.extend_from_slice(&topic_len_bytes);
vec.extend_from_slice(topic_bytes);
vec.extend_from_slice(&message.data);
vec
}
let gossip_message_id = move |message: &GossipsubMessage| {
MessageId::from(
&Sha256::digest(prefix(MESSAGE_DOMAIN_VALID_SNAPPY, message).as_slice())[..20],
)
};
let load = NetworkLoad::from(network_load);
GossipsubConfigBuilder::default()
.max_transmit_size(gossip_max_size())
.heartbeat_interval(load.heartbeat_interval)
.mesh_n(load.mesh_n)
.mesh_n_low(load.mesh_n_low)
.mesh_outbound_min(load.outbound_min)
.mesh_n_high(load.mesh_n_high)
.gossip_lazy(load.gossip_lazy)
.fanout_ttl(Duration::from_secs(60))
.history_length(12)
.max_messages_per_rpc(Some(500)) // Responses to IWANT can be quite large
.history_gossip(load.history_gossip)
.validate_messages() // require validation before propagation
.validation_mode(ValidationMode::Strict)
.duplicate_cache_time(DUPLICATE_CACHE_TIME)
.message_id_fn(gossip_message_id)
.fast_message_id_fn(fast_gossip_message_id)
.allow_self_origin(true)
.build()
.expect("valid gossipsub configuration")
}
/// Helper function to determine if the IpAddr is a global address or not. The `is_global()`
/// function is not yet stable on IpAddr.
#[allow(clippy::nonminimal_bool)]
fn is_global(addr: &std::net::Ipv4Addr) -> bool {
// check if this address is 192.0.0.9 or 192.0.0.10. These addresses are the only two
// globally routable addresses in the 192.0.0.0/24 range.
if u32::from_be_bytes(addr.octets()) == 0xc0000009
|| u32::from_be_bytes(addr.octets()) == 0xc000000a
{
return true;
}
!addr.is_private()
&& !addr.is_loopback()
&& !addr.is_link_local()
&& !addr.is_broadcast()
&& !addr.is_documentation()
// shared
&& !(addr.octets()[0] == 100 && (addr.octets()[1] & 0b1100_0000 == 0b0100_0000)) &&!(addr.octets()[0] & 240 == 240 && !addr.is_broadcast())
// addresses reserved for future protocols (`192.0.0.0/24`)
// reserved
&& !(addr.octets()[0] == 192 && addr.octets()[1] == 0 && addr.octets()[2] == 0)
// Make sure the address is not in 0.0.0.0/8
&& addr.octets()[0] != 0
}