Files
nym/common/wasm/client-core/src/config/mod.rs
T
Jędrzej Stuczyński 114d92f93f Feature/gateway inbuilt nr (#3877)
* changed NymConfigTemplate trait to call 'template' by reference

* network requester lib

* introduced generic parameter to 'MixTrafficController' to allow non-remote gateways

* allowing for custom gateway sender

* types cleanup

* minor gateway cmds refactor + initial NR work

* wip

* running a NR inside gateway

note: this NR isnt tied to the gateway yet

* rebase fixes

* propagating same shutdown handle

* wip

* starting NR with appropriate local transceiver

* fixed premature shutdown

* wiring up PacketRouter

* both ends wired together

* actually working

so much cleanup to do now

* started removing dead code

* wip

* temp: hardcode gateway

* further cleanup

* fixed build of other binaries

* setup-network-requester subcmd

* overriding NR config in gateway init/run

* wip making it wasm-compatible [again]

* refactored 'GatewaySetup'

* clippy and friends

* removed debug code

* rust 1.72 lints

* ensuring local gateway is available + some comments

* correctly putting network requester data in the same underlying details struct

* improved gateway errors

* changed 'network_requester_config' deserialization

* missing clap annotation for 'enabled' flag in 'setup-network-requester' command

* saving config file after 'setup-network-requester'

* removed dead code

* review comments

* make embedded NR wait for gateway to come online (for at most 70min)

* fixed shutdown on successful gateway wait

* updated NR config override
2023-09-20 15:47:05 +01:00

492 lines
19 KiB
Rust

// Copyright 2023 - Nym Technologies SA <contact@nymtech.net>
// SPDX-License-Identifier: Apache-2.0
// due to expansion of #[wasm_bindgen] macro on `Debug` Config struct
#![allow(clippy::drop_non_drop)]
// another issue due to #[wasm_bindgen] and `Copy` trait
#![allow(dropping_copy_types)]
use crate::error::WasmCoreError;
use nym_config::helpers::OptionalSet;
use nym_sphinx::params::{PacketSize, PacketType};
use serde::{Deserialize, Serialize};
use std::time::Duration;
use wasm_bindgen::prelude::*;
pub mod r#override;
pub use nym_client_core::config::{
Acknowledgements as ConfigAcknowledgements, Config as BaseClientConfig,
CoverTraffic as ConfigCoverTraffic, DebugConfig as ConfigDebug,
GatewayConnection as ConfigGatewayConnection, ReplySurbs as ConfigReplySurbs,
Topology as ConfigTopology, Traffic as ConfigTraffic,
};
pub fn new_base_client_config(
id: String,
version: String,
nym_api: Option<String>,
nyxd: Option<String>,
debug: Option<DebugWasm>,
) -> Result<BaseClientConfig, WasmCoreError> {
let nym_api_url = match nym_api {
Some(raw) => Some(
raw.parse()
.map_err(|source| WasmCoreError::MalformedUrl { raw, source })?,
),
None => None,
};
let nyxd_url = match nyxd {
Some(raw) => Some(
raw.parse()
.map_err(|source| WasmCoreError::MalformedUrl { raw, source })?,
),
None => None,
};
Ok(BaseClientConfig::new(id, version)
.with_optional(
BaseClientConfig::with_custom_nym_apis,
nym_api_url.map(|u| vec![u]),
)
.with_optional(
BaseClientConfig::with_custom_nyxd,
nyxd_url.map(|u| vec![u]),
)
.with_debug_config(debug.map(Into::into).unwrap_or_default()))
}
#[wasm_bindgen]
pub fn default_debug() -> DebugWasm {
ConfigDebug::default().into()
}
#[wasm_bindgen(js_name = defaultDebug)]
pub fn default_debug_obj() -> JsValue {
let dbg = default_debug();
serde_wasm_bindgen::to_value(&dbg)
.expect("our 'DebugWasm' struct should have had a correctly defined serde implementation")
}
/// A client configuration in which no cover traffic will be sent,
/// in either the main distribution or the secondary traffic stream.
#[wasm_bindgen]
pub fn no_cover_debug() -> DebugWasm {
let mut cfg = ConfigDebug::default();
cfg.traffic.disable_main_poisson_packet_distribution = true;
cfg.cover_traffic.disable_loop_cover_traffic_stream = true;
cfg.into()
}
#[wasm_bindgen(js_name = noCoverDebug)]
pub fn no_cover_debug_obj() -> JsValue {
let dbg = no_cover_debug();
serde_wasm_bindgen::to_value(&dbg)
.expect("our 'DebugWasm' struct should have had a correctly defined serde implementation")
}
// just a helper structure to more easily pass through the JS boundary
#[wasm_bindgen(inspectable)]
#[derive(Debug, Copy, Clone, Serialize, Deserialize)]
#[serde(deny_unknown_fields)]
pub struct DebugWasm {
/// Defines all configuration options related to traffic streams.
pub traffic: TrafficWasm,
/// Defines all configuration options related to cover traffic stream(s).
pub cover_traffic: CoverTrafficWasm,
/// Defines all configuration options related to the gateway connection.
pub gateway_connection: GatewayConnectionWasm,
/// Defines all configuration options related to acknowledgements, such as delays or wait timeouts.
pub acknowledgements: AcknowledgementsWasm,
/// Defines all configuration options related topology, such as refresh rates or timeouts.
pub topology: TopologyWasm,
/// Defines all configuration options related to reply SURBs.
pub reply_surbs: ReplySurbsWasm,
}
impl Default for DebugWasm {
fn default() -> Self {
ConfigDebug::default().into()
}
}
impl From<DebugWasm> for ConfigDebug {
fn from(debug: DebugWasm) -> Self {
ConfigDebug {
traffic: debug.traffic.into(),
cover_traffic: debug.cover_traffic.into(),
gateway_connection: debug.gateway_connection.into(),
acknowledgements: debug.acknowledgements.into(),
topology: debug.topology.into(),
reply_surbs: debug.reply_surbs.into(),
}
}
}
impl From<ConfigDebug> for DebugWasm {
fn from(debug: ConfigDebug) -> Self {
DebugWasm {
traffic: debug.traffic.into(),
cover_traffic: debug.cover_traffic.into(),
gateway_connection: debug.gateway_connection.into(),
acknowledgements: debug.acknowledgements.into(),
topology: debug.topology.into(),
reply_surbs: debug.reply_surbs.into(),
}
}
}
#[wasm_bindgen(inspectable)]
#[derive(Debug, Copy, Clone, Serialize, Deserialize)]
#[serde(deny_unknown_fields)]
pub struct TrafficWasm {
/// The parameter of Poisson distribution determining how long, on average,
/// sent packet is going to be delayed at any given mix node.
/// So for a packet going through three mix nodes, on average, it will take three times this value
/// until the packet reaches its destination.
pub average_packet_delay_ms: u32,
/// The parameter of Poisson distribution determining how long, on average,
/// it is going to take another 'real traffic stream' message to be sent.
/// If no real packets are available and cover traffic is enabled,
/// a loop cover message is sent instead in order to preserve the rate.
pub message_sending_average_delay_ms: u32,
/// Controls whether the main packet stream constantly produces packets according to the predefined
/// poisson distribution.
pub disable_main_poisson_packet_distribution: bool,
/// Controls whether the sent sphinx packet use the NON-DEFAULT bigger size.
pub use_extended_packet_size: bool,
/// Controls whether the sent packets should use outfox as opposed to the default sphinx.
pub use_outfox: bool,
}
impl Default for TrafficWasm {
fn default() -> Self {
ConfigTraffic::default().into()
}
}
impl From<TrafficWasm> for ConfigTraffic {
fn from(traffic: TrafficWasm) -> Self {
let use_extended_packet_size = traffic
.use_extended_packet_size
.then_some(PacketSize::ExtendedPacket32);
let packet_type = if traffic.use_outfox {
PacketType::Outfox
} else {
PacketType::Mix
};
ConfigTraffic {
average_packet_delay: Duration::from_millis(traffic.average_packet_delay_ms as u64),
message_sending_average_delay: Duration::from_millis(
traffic.message_sending_average_delay_ms as u64,
),
disable_main_poisson_packet_distribution: traffic
.disable_main_poisson_packet_distribution,
primary_packet_size: PacketSize::RegularPacket,
secondary_packet_size: use_extended_packet_size,
packet_type,
}
}
}
impl From<ConfigTraffic> for TrafficWasm {
fn from(traffic: ConfigTraffic) -> Self {
TrafficWasm {
average_packet_delay_ms: traffic.average_packet_delay.as_millis() as u32,
message_sending_average_delay_ms: traffic.message_sending_average_delay.as_millis()
as u32,
disable_main_poisson_packet_distribution: traffic
.disable_main_poisson_packet_distribution,
use_extended_packet_size: traffic.secondary_packet_size.is_some(),
use_outfox: traffic.packet_type == PacketType::Outfox,
}
}
}
#[wasm_bindgen(inspectable)]
#[derive(Debug, Copy, Clone, Serialize, Deserialize)]
#[serde(deny_unknown_fields)]
pub struct CoverTrafficWasm {
/// The parameter of Poisson distribution determining how long, on average,
/// it is going to take for another loop cover traffic message to be sent.
pub loop_cover_traffic_average_delay_ms: u32,
/// Specifies the ratio of `primary_packet_size` to `secondary_packet_size` used in cover traffic.
/// Only applicable if `secondary_packet_size` is enabled.
pub cover_traffic_primary_size_ratio: f64,
/// Controls whether the dedicated loop cover traffic stream should be enabled.
/// (and sending packets, on average, every [Self::loop_cover_traffic_average_delay])
pub disable_loop_cover_traffic_stream: bool,
}
impl Default for CoverTrafficWasm {
fn default() -> Self {
ConfigCoverTraffic::default().into()
}
}
impl From<CoverTrafficWasm> for ConfigCoverTraffic {
fn from(cover_traffic: CoverTrafficWasm) -> Self {
ConfigCoverTraffic {
loop_cover_traffic_average_delay: Duration::from_millis(
cover_traffic.loop_cover_traffic_average_delay_ms as u64,
),
cover_traffic_primary_size_ratio: cover_traffic.cover_traffic_primary_size_ratio,
disable_loop_cover_traffic_stream: cover_traffic.disable_loop_cover_traffic_stream,
}
}
}
impl From<ConfigCoverTraffic> for CoverTrafficWasm {
fn from(cover_traffic: ConfigCoverTraffic) -> Self {
CoverTrafficWasm {
loop_cover_traffic_average_delay_ms: cover_traffic
.loop_cover_traffic_average_delay
.as_millis() as u32,
cover_traffic_primary_size_ratio: cover_traffic.cover_traffic_primary_size_ratio,
disable_loop_cover_traffic_stream: cover_traffic.disable_loop_cover_traffic_stream,
}
}
}
#[wasm_bindgen(inspectable)]
#[derive(Debug, Copy, Clone, Serialize, Deserialize)]
#[serde(deny_unknown_fields)]
pub struct GatewayConnectionWasm {
/// How long we're willing to wait for a response to a message sent to the gateway,
/// before giving up on it.
pub gateway_response_timeout_ms: u32,
}
impl Default for GatewayConnectionWasm {
fn default() -> Self {
ConfigGatewayConnection::default().into()
}
}
impl From<GatewayConnectionWasm> for ConfigGatewayConnection {
fn from(gateway_connection: GatewayConnectionWasm) -> Self {
ConfigGatewayConnection {
gateway_response_timeout: Duration::from_millis(
gateway_connection.gateway_response_timeout_ms as u64,
),
}
}
}
impl From<ConfigGatewayConnection> for GatewayConnectionWasm {
fn from(gateway_connection: ConfigGatewayConnection) -> Self {
GatewayConnectionWasm {
gateway_response_timeout_ms: gateway_connection.gateway_response_timeout.as_millis()
as u32,
}
}
}
#[wasm_bindgen(inspectable)]
#[derive(Debug, Copy, Clone, Serialize, Deserialize)]
#[serde(deny_unknown_fields)]
pub struct AcknowledgementsWasm {
/// The parameter of Poisson distribution determining how long, on average,
/// sent acknowledgement is going to be delayed at any given mix node.
/// So for an ack going through three mix nodes, on average, it will take three times this value
/// until the packet reaches its destination.
pub average_ack_delay_ms: u32,
/// Value multiplied with the expected round trip time of an acknowledgement packet before
/// it is assumed it was lost and retransmission of the data packet happens.
/// In an ideal network with 0 latency, this value would have been 1.
pub ack_wait_multiplier: f64,
/// Value added to the expected round trip time of an acknowledgement packet before
/// it is assumed it was lost and retransmission of the data packet happens.
/// In an ideal network with 0 latency, this value would have been 0.
pub ack_wait_addition_ms: u32,
}
impl Default for AcknowledgementsWasm {
fn default() -> Self {
ConfigAcknowledgements::default().into()
}
}
impl From<AcknowledgementsWasm> for ConfigAcknowledgements {
fn from(acknowledgements: AcknowledgementsWasm) -> Self {
ConfigAcknowledgements {
average_ack_delay: Duration::from_millis(acknowledgements.average_ack_delay_ms as u64),
ack_wait_multiplier: acknowledgements.ack_wait_multiplier,
ack_wait_addition: Duration::from_millis(acknowledgements.ack_wait_addition_ms as u64),
}
}
}
impl From<ConfigAcknowledgements> for AcknowledgementsWasm {
fn from(acknowledgements: ConfigAcknowledgements) -> Self {
AcknowledgementsWasm {
average_ack_delay_ms: acknowledgements.average_ack_delay.as_millis() as u32,
ack_wait_multiplier: acknowledgements.ack_wait_multiplier,
ack_wait_addition_ms: acknowledgements.ack_wait_addition.as_millis() as u32,
}
}
}
#[wasm_bindgen(inspectable)]
#[derive(Debug, Copy, Clone, Serialize, Deserialize)]
#[serde(deny_unknown_fields)]
pub struct TopologyWasm {
/// The uniform delay every which clients are querying the directory server
/// to try to obtain a compatible network topology to send sphinx packets through.
pub topology_refresh_rate_ms: u32,
/// During topology refresh, test packets are sent through every single possible network
/// path. This timeout determines waiting period until it is decided that the packet
/// did not reach its destination.
pub topology_resolution_timeout_ms: u32,
/// Defines how long the client is going to wait on startup for its gateway to come online,
/// before abandoning the procedure.
pub max_startup_gateway_waiting_period_ms: u32,
/// Specifies whether the client should not refresh the network topology after obtaining
/// the first valid instance.
/// Supersedes `topology_refresh_rate_ms`.
pub disable_refreshing: bool,
}
impl Default for TopologyWasm {
fn default() -> Self {
ConfigTopology::default().into()
}
}
impl From<TopologyWasm> for ConfigTopology {
fn from(topology: TopologyWasm) -> Self {
ConfigTopology {
topology_refresh_rate: Duration::from_millis(topology.topology_refresh_rate_ms as u64),
topology_resolution_timeout: Duration::from_millis(
topology.topology_resolution_timeout_ms as u64,
),
disable_refreshing: topology.disable_refreshing,
max_startup_gateway_waiting_period: Duration::from_millis(
topology.max_startup_gateway_waiting_period_ms as u64,
),
topology_structure: Default::default(),
}
}
}
impl From<ConfigTopology> for TopologyWasm {
fn from(topology: ConfigTopology) -> Self {
TopologyWasm {
topology_refresh_rate_ms: topology.topology_refresh_rate.as_millis() as u32,
topology_resolution_timeout_ms: topology.topology_resolution_timeout.as_millis() as u32,
max_startup_gateway_waiting_period_ms: topology
.max_startup_gateway_waiting_period
.as_millis() as u32,
disable_refreshing: topology.disable_refreshing,
}
}
}
#[wasm_bindgen(inspectable)]
#[derive(Debug, Copy, Clone, Serialize, Deserialize)]
#[serde(deny_unknown_fields)]
pub struct ReplySurbsWasm {
/// Defines the minimum number of reply surbs the client wants to keep in its storage at all times.
/// It can only allow to go below that value if its to request additional reply surbs.
pub minimum_reply_surb_storage_threshold: usize,
/// Defines the maximum number of reply surbs the client wants to keep in its storage at any times.
pub maximum_reply_surb_storage_threshold: usize,
/// Defines the minimum number of reply surbs the client would request.
pub minimum_reply_surb_request_size: u32,
/// Defines the maximum number of reply surbs the client would request.
pub maximum_reply_surb_request_size: u32,
/// Defines the maximum number of reply surbs a remote party is allowed to request from this client at once.
pub maximum_allowed_reply_surb_request_size: u32,
/// Defines maximum amount of time the client is going to wait for reply surbs before explicitly asking
/// for more even though in theory they wouldn't need to.
pub maximum_reply_surb_rerequest_waiting_period_ms: u32,
/// Defines maximum amount of time the client is going to wait for reply surbs before
/// deciding it's never going to get them and would drop all pending messages
pub maximum_reply_surb_drop_waiting_period_ms: u32,
/// Defines maximum amount of time given reply surb is going to be valid for.
/// This is going to be superseded by key rotation once implemented.
pub maximum_reply_surb_age_ms: u32,
/// Defines maximum amount of time given reply key is going to be valid for.
/// This is going to be superseded by key rotation once implemented.
pub maximum_reply_key_age_ms: u32,
}
impl Default for ReplySurbsWasm {
fn default() -> Self {
ConfigReplySurbs::default().into()
}
}
impl From<ReplySurbsWasm> for ConfigReplySurbs {
fn from(reply_surbs: ReplySurbsWasm) -> Self {
ConfigReplySurbs {
minimum_reply_surb_storage_threshold: reply_surbs.minimum_reply_surb_storage_threshold,
maximum_reply_surb_storage_threshold: reply_surbs.maximum_reply_surb_storage_threshold,
minimum_reply_surb_request_size: reply_surbs.minimum_reply_surb_request_size,
maximum_reply_surb_request_size: reply_surbs.maximum_reply_surb_request_size,
maximum_allowed_reply_surb_request_size: reply_surbs
.maximum_allowed_reply_surb_request_size,
maximum_reply_surb_rerequest_waiting_period: Duration::from_millis(
reply_surbs.maximum_reply_surb_rerequest_waiting_period_ms as u64,
),
maximum_reply_surb_drop_waiting_period: Duration::from_millis(
reply_surbs.maximum_reply_surb_drop_waiting_period_ms as u64,
),
maximum_reply_surb_age: Duration::from_millis(
reply_surbs.maximum_reply_surb_age_ms as u64,
),
maximum_reply_key_age: Duration::from_millis(
reply_surbs.maximum_reply_key_age_ms as u64,
),
}
}
}
impl From<ConfigReplySurbs> for ReplySurbsWasm {
fn from(reply_surbs: ConfigReplySurbs) -> Self {
ReplySurbsWasm {
minimum_reply_surb_storage_threshold: reply_surbs.minimum_reply_surb_storage_threshold,
maximum_reply_surb_storage_threshold: reply_surbs.maximum_reply_surb_storage_threshold,
minimum_reply_surb_request_size: reply_surbs.minimum_reply_surb_request_size,
maximum_reply_surb_request_size: reply_surbs.maximum_reply_surb_request_size,
maximum_allowed_reply_surb_request_size: reply_surbs
.maximum_allowed_reply_surb_request_size,
maximum_reply_surb_rerequest_waiting_period_ms: reply_surbs
.maximum_reply_surb_rerequest_waiting_period
.as_millis() as u32,
maximum_reply_surb_drop_waiting_period_ms: reply_surbs
.maximum_reply_surb_drop_waiting_period
.as_millis() as u32,
maximum_reply_surb_age_ms: reply_surbs.maximum_reply_surb_age.as_millis() as u32,
maximum_reply_key_age_ms: reply_surbs.maximum_reply_key_age.as_millis() as u32,
}
}
}