mod fronted_http;
mod priority_race;
mod race;
#[cfg(feature = "aws_lambda")]
mod aws_lambda;
use anyctx::AnyCtx;
use anyhow::Context;
#[cfg(feature = "aws_lambda")]
use aws_lambda::AwsLambdaTransport;
use fronted_http::FrontedHttpTransport;
use geph5_broker_protocol::{BrokerClient, DOMAIN_NET_STATUS, NetStatus};
use itertools::Itertools;
use nanorpc::DynRpcTransport;
use priority_race::PriorityRaceTransport;
use race::RaceTransport;
use serde::{Deserialize, Serialize};
use sillad::tcp::TcpDialer;
use std::{collections::BTreeMap, net::SocketAddr};
use crate::client::{Config, CtxField};
#[derive(Serialize, Deserialize, Clone)]
#[serde(rename_all = "snake_case")]
pub enum BrokerSource {
Direct(String),
Fronted {
front: String,
host: String,
#[serde(default)]
override_dns: Option<Vec<SocketAddr>>,
},
DirectTcp(SocketAddr),
#[cfg(feature = "aws_lambda")]
AwsLambda {
function_name: String,
region: String,
obfs_key: String,
},
Race(Vec<BrokerSource>),
PriorityRace(BTreeMap<u64, BrokerSource>),
}
impl BrokerSource {
pub fn rpc_transport(&self) -> DynRpcTransport {
match self {
BrokerSource::Direct(s) => DynRpcTransport::new(FrontedHttpTransport {
url: s.clone(),
host: None,
dns: None,
}),
BrokerSource::DirectTcp(dest_addr) => {
DynRpcTransport::new(nanorpc_sillad::DialerTransport(TcpDialer {
dest_addr: *dest_addr,
}))
}
BrokerSource::Fronted {
front,
host,
override_dns,
} => DynRpcTransport::new(FrontedHttpTransport {
url: front.clone(),
host: Some(host.clone()),
dns: override_dns.clone(),
}),
#[cfg(feature = "aws_lambda")]
BrokerSource::AwsLambda {
function_name,
region,
obfs_key,
} => DynRpcTransport::new(AwsLambdaTransport {
function_name: function_name.clone(),
region: region.clone(),
obfs_key: obfs_key.clone(),
}),
BrokerSource::Race(race_between) => {
let transports = race_between
.iter()
.map(|bs| bs.rpc_transport())
.collect_vec();
DynRpcTransport::new(RaceTransport::new(transports))
}
BrokerSource::PriorityRace(inner) => {
let inner = inner.iter().map(|(k, v)| (*k, v.rpc_transport())).collect();
DynRpcTransport::new(PriorityRaceTransport::new(inner))
}
}
}
}
pub fn broker_client(ctx: &AnyCtx<Config>) -> anyhow::Result<&BrokerClient> {
ctx.get(BROKER_CLIENT).as_ref().context(
"broker information not provided, so cannot use any broker-dependent functionality",
)
}
static BROKER_CLIENT: CtxField<Option<BrokerClient>> = |ctx| {
ctx.init()
.broker
.as_ref()
.map(|src| BrokerClient::from(src.rpc_transport()))
};
pub async fn get_net_status(ctx: &AnyCtx<Config>) -> anyhow::Result<NetStatus> {
let broker = broker_client(ctx).context("could not get broker client")?;
let net_status_response = broker
.get_net_status()
.await?
.map_err(|e| anyhow::anyhow!("broker refused to serve exits: {e}"))?;
let net_status_verified = net_status_response
.verify(DOMAIN_NET_STATUS, |their_pk| {
if let Some(broker_pk) = &ctx.init().broker_keys {
hex::encode(their_pk.as_bytes()) == broker_pk.master
} else {
tracing::warn!("trusting netstatus blindly since broker_keys was not provided");
true
}
})
.context("could not verify net status")?;
Ok(net_status_verified)
}