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//! Kitsune Config Tuning Params
/// How long kitsune should wait before timing out when joining the network.
pub const JOIN_NETWORK_TIMEOUT: std::time::Duration = std::time::Duration::from_secs(20);
/// Fifteen minutes
pub const RECENT_THRESHOLD_DEFAULT: std::time::Duration = std::time::Duration::from_secs(60 * 15);
/// Wrapper for the actual KitsuneP2pTuningParams struct
/// so the widely used type def can be an Arc<>
pub mod tuning_params_struct {
use ghost_actor::dependencies::tracing;
use std::collections::HashMap;
macro_rules! mk_tune {
($($(#[doc = $doc:expr])* $i:ident: $t:ty = $d:expr,)*) => {
/// Network tuning parameters.
/// This is serialized carefully so all the values can be represented
/// as strings in YAML - and we will be able to proceed with a printed
/// warning for tuning params that are removed, but still specified in
/// configs.
#[non_exhaustive]
#[derive(Clone, Debug, PartialEq)]
pub struct KitsuneP2pTuningParams {
$(
$(#[doc = $doc])*
pub $i: $t,
)*
}
impl Default for KitsuneP2pTuningParams {
fn default() -> Self {
Self {
$(
$i: $d,
)*
}
}
}
impl serde::Serialize for KitsuneP2pTuningParams {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
where
S: serde::Serializer,
{
use serde::ser::SerializeMap;
let mut m = serializer.serialize_map(None)?;
$(
m.serialize_entry(
stringify!($i),
&format!("{}", &self.$i),
)?;
)*
m.end()
}
}
impl<'de> serde::Deserialize<'de> for KitsuneP2pTuningParams {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
where
D: serde::Deserializer<'de>,
{
let result = <HashMap<String, String>>::deserialize(deserializer)?;
let mut out = KitsuneP2pTuningParams::default();
for (k, v) in result.into_iter() {
match k.as_str() {
$(
stringify!($i) => match v.parse::<$t>() {
Ok(v) => out.$i = v,
Err(e) => tracing::warn!("failed to parse {}: {}", k, e),
},
)*
_ => tracing::warn!("INVALID TUNING PARAM: '{}'", k),
}
}
Ok(out)
}
}
};
}
mk_tune! {
/// Gossip strategy to use. [Default: "sharded-gossip"]
gossip_strategy: String = "sharded-gossip".to_string(),
/// Delay between gossip loop iteration. [Default: 1s]
gossip_loop_iteration_delay_ms: u32 = 1000,
/// The gossip loop will attempt to rate-limit output
/// to this count megabits per second. [Default: 10.0]
gossip_outbound_target_mbps: f64 = 10.0,
/// The gossip loop will attempt to rate-limit input
/// to this count megabits per second. [Default: 10.0]
gossip_inbound_target_mbps: f64 = 10.0,
/// The gossip loop will attempt to rate-limit outbound
/// traffic for the historic loop (if there is one)
/// to this count megabits per second. [Default: 10.0]
gossip_historic_outbound_target_mbps: f64 = 10.0,
/// The gossip loop will attempt to rate-limit inbound
/// traffic for the historic loop (if there is one)
/// to this count megabits per second. [Default: 10.0]
gossip_historic_inbound_target_mbps: f64 = 10.0,
/// The gossip loop accomodates this amount of excess capacity
/// before enacting the target rate limit, expressed as a ratio
/// of the target rate limit. For instance, if the historic
/// outbound target is 10mbps, a burst ratio of 50 will allow
/// an extra 500mb of outbound traffic before the target rate
/// limiting kicks in (and this extra capacity will take 50
/// seconds to "refill"). [Default: 100]
gossip_burst_ratio: f64 = 100.0,
/// How long should we hold off talking to a peer
/// we've previously spoken successfully to.
/// [Default: 1 minute]
gossip_peer_on_success_next_gossip_delay_ms: u32 = 1000 * 60,
/// How long should we hold off talking to a peer
/// we've previously gotten errors speaking to.
/// [Default: 5 minute]
gossip_peer_on_error_next_gossip_delay_ms: u32 = 1000 * 60 * 5,
/// How often should we update and publish our agent info?
/// [Default: 5 minutes]
gossip_agent_info_update_interval_ms: u32 = 1000 * 60 * 5,
/// How frequently we should locally sync when there is
/// no new data. Agents arc can change so this shouldn't
/// be too long. [Default: 1 minutes]
gossip_local_sync_delay_ms: u32 = 1000 * 60,
/// The target redundancy is the number of peers we expect to hold any
/// given Op.
gossip_redundancy_target: f64 = 100.0,
/// The max number of bytes of op data to send in a single message.
/// Payloads larger than this are split into multiple batches.
gossip_max_batch_size: u32 = 16_000_000,
/// Should gossip dynamically resize storage arcs?
gossip_dynamic_arcs: bool = true,
/// Allow only the first agent to join the space to
/// have a sized storage arc. [Default: false]
/// This is an experimental feature that sets the first
/// agent to join as the full arc and all other later
/// agents to empty.
/// It should not be used in production unless you understand
/// what you are doing.
gossip_single_storage_arc_per_space: bool = false,
/// Default timeout for rpc single. [Default: 30s]
default_rpc_single_timeout_ms: u32 = 1000 * 30,
/// Default agent count for rpc multi. [Default: 3]
default_rpc_multi_remote_agent_count: u8 = 3,
/// Default remote request grace ms. [Default: 3s]
/// If we already have results from other sources,
/// but made any additional outgoing remote requests,
/// we'll wait at least this long for additional responses.
default_rpc_multi_remote_request_grace_ms: u64 = 1000 * 3,
/// Default agent expires after milliseconds. [Default: 20 minutes]
agent_info_expires_after_ms: u32 = 1000 * 60 * 20,
/// Tls in-memory session storage capacity. [Default: 512]
tls_in_mem_session_storage: u32 = 512,
/// How often should NAT nodes refresh their proxy contract?
/// [Default: 2 minutes]
proxy_keepalive_ms: u32 = 1000 * 60 * 2,
/// How often should proxy nodes prune their ProxyTo list?
/// Note - to function this should be > proxy_keepalive_ms.
/// [Default: 5 minutes]
proxy_to_expire_ms: u32 = 1000 * 60 * 5,
/// Mainly used as the for_each_concurrent limit,
/// this restricts the number of active polled futures
/// on a single thread.
/// [Default: 4096]
concurrent_limit_per_thread: usize = 4096,
/// tx2 quic max_idle_timeout
/// [Default: 30 seconds]
tx2_quic_max_idle_timeout_ms: u32 = 1000 * 30,
/// tx2 pool max connection count
/// [Default: 4096]
tx2_pool_max_connection_count: usize = 4096,
/// tx2 channel count per connection
/// [Default: 2]
tx2_channel_count_per_connection: usize = 2,
/// tx2 timeout used for passive background operations
/// like reads / responds.
/// [Default: 30 seconds]
tx2_implicit_timeout_ms: u32 = 1000 * 30,
/// tx2 initial connect retry delay
/// (note, this delay is currenty exponentially backed off--
/// multiplied by 2x on every loop)
/// [Default: 200 ms]
tx2_initial_connect_retry_delay_ms: usize = 200,
/// if you would like to be able to use an external tool
/// to debug the QUIC messages sent and received by kitsune
/// you'll need the decryption keys.
/// The default of `"no_keylog"` is secure and will not write any keys
/// Setting this to `"env_keylog"` will write to a keylog specified
/// by the `SSLKEYLOGFILE` environment variable, or do nothing if
/// it is not set, or is not writable.
danger_tls_keylog: String = "no_keylog".to_string(),
/// Set the cutoff time when gossip switches over from recent
/// to historical gossip. This is dangerous, because gossip may not be
/// possible with nodes using a different setting for this threshold.
/// Do not change this except in testing environments.
/// [Default: 15 minutes]
danger_gossip_recent_threshold_secs: u64 = super::RECENT_THRESHOLD_DEFAULT.as_secs(),
/// Don't publish ops, only rely on gossip. Useful for testing the efficacy of gossip.
disable_publish: bool = false,
/// Disable recent gossip. Useful for testing Historical gossip in isolation.
disable_recent_gossip: bool = false,
/// Disable historical gossip. Useful for testing Recent gossip in isolation.
disable_historical_gossip: bool = false,
}
impl KitsuneP2pTuningParams {
/// Generate a KitsuneTimeout instance
/// based on the tuning parameter tx2_implicit_timeout_ms
pub fn implicit_timeout(&self) -> crate::KitsuneTimeout {
crate::KitsuneTimeout::from_millis(self.tx2_implicit_timeout_ms as u64)
}
/// Get the gossip recent threshold param as a proper Duration
pub fn danger_gossip_recent_threshold(&self) -> std::time::Duration {
std::time::Duration::from_secs(self.danger_gossip_recent_threshold_secs)
}
/// returns true if we should initialize a tls keylog
/// based on the `SSLKEYLOGFILE` environment variable
pub fn use_env_tls_keylog(&self) -> bool {
self.danger_tls_keylog == "env_keylog"
}
}
}
/// We don't want to clone these tuning params over-and-over.
/// They should normally be passed around as an Arc.
pub type KitsuneP2pTuningParams = std::sync::Arc<tuning_params_struct::KitsuneP2pTuningParams>;