Files
nym/common/authenticator-requests/src/v5/conversion.rs
T

479 lines
16 KiB
Rust

// Copyright 2024 - Nym Technologies SA <contact@nymtech.net>
// SPDX-License-Identifier: Apache-2.0
use nym_service_provider_requests_common::{Protocol, ServiceProviderType};
use crate::{v4, v5};
impl From<v4::request::AuthenticatorRequest> for v5::request::AuthenticatorRequest {
fn from(authenticator_request: v4::request::AuthenticatorRequest) -> Self {
Self {
protocol: Protocol {
version: 5,
service_provider_type: ServiceProviderType::Authenticator,
},
data: authenticator_request.data.into(),
request_id: authenticator_request.request_id,
}
}
}
impl From<v4::request::AuthenticatorRequestData> for v5::request::AuthenticatorRequestData {
fn from(authenticator_request_data: v4::request::AuthenticatorRequestData) -> Self {
match authenticator_request_data {
v4::request::AuthenticatorRequestData::Initial(init_msg) => {
v5::request::AuthenticatorRequestData::Initial(init_msg.into())
}
v4::request::AuthenticatorRequestData::Final(final_msg) => {
v5::request::AuthenticatorRequestData::Final(Box::new((*final_msg).into()))
}
v4::request::AuthenticatorRequestData::QueryBandwidth(pub_key) => {
v5::request::AuthenticatorRequestData::QueryBandwidth(pub_key)
}
v4::request::AuthenticatorRequestData::TopUpBandwidth(top_up_message) => {
v5::request::AuthenticatorRequestData::TopUpBandwidth(top_up_message.into())
}
}
}
}
impl From<v4::registration::InitMessage> for v5::registration::InitMessage {
fn from(init_msg: v4::registration::InitMessage) -> Self {
Self {
pub_key: init_msg.pub_key,
}
}
}
impl From<v4::registration::FinalMessage> for v5::registration::FinalMessage {
fn from(final_msg: v4::registration::FinalMessage) -> Self {
Self {
gateway_client: final_msg.gateway_client.into(),
credential: final_msg.credential,
}
}
}
impl From<v4::registration::GatewayClient> for v5::registration::GatewayClient {
fn from(gateway_client: v4::registration::GatewayClient) -> Self {
Self {
pub_key: gateway_client.pub_key,
private_ips: gateway_client.private_ips.into(),
mac: gateway_client.mac.into(),
}
}
}
impl From<v5::registration::GatewayClient> for v4::registration::GatewayClient {
fn from(gateway_client: v5::registration::GatewayClient) -> Self {
Self {
pub_key: gateway_client.pub_key,
private_ips: gateway_client.private_ips.into(),
mac: gateway_client.mac.into(),
}
}
}
impl From<v4::registration::ClientMac> for v5::registration::ClientMac {
fn from(client_mac: v4::registration::ClientMac) -> Self {
Self::new((*client_mac).clone())
}
}
impl From<v5::registration::ClientMac> for v4::registration::ClientMac {
fn from(client_mac: v5::registration::ClientMac) -> Self {
Self::new((*client_mac).clone())
}
}
impl From<Box<v4::topup::TopUpMessage>> for Box<v5::topup::TopUpMessage> {
fn from(top_up_message: Box<v4::topup::TopUpMessage>) -> Self {
Box::new(v5::topup::TopUpMessage {
pub_key: top_up_message.pub_key,
credential: top_up_message.credential,
})
}
}
impl From<v4::response::AuthenticatorResponse> for v5::response::AuthenticatorResponse {
fn from(value: v4::response::AuthenticatorResponse) -> Self {
Self {
protocol: Protocol {
version: 5,
service_provider_type: value.protocol.service_provider_type,
},
data: value.data.into(),
}
}
}
impl From<v4::response::AuthenticatorResponseData> for v5::response::AuthenticatorResponseData {
fn from(authenticator_response_data: v4::response::AuthenticatorResponseData) -> Self {
match authenticator_response_data {
v4::response::AuthenticatorResponseData::PendingRegistration(pending_response) => {
v5::response::AuthenticatorResponseData::PendingRegistration(
pending_response.into(),
)
}
v4::response::AuthenticatorResponseData::Registered(registered_response) => {
v5::response::AuthenticatorResponseData::Registered(registered_response.into())
}
v4::response::AuthenticatorResponseData::RemainingBandwidth(
remaining_bandwidth_response,
) => v5::response::AuthenticatorResponseData::RemainingBandwidth(
remaining_bandwidth_response.into(),
),
v4::response::AuthenticatorResponseData::TopUpBandwidth(top_up_response) => {
v5::response::AuthenticatorResponseData::TopUpBandwidth(top_up_response.into())
}
}
}
}
impl From<v4::response::RegisteredResponse> for v5::response::RegisteredResponse {
fn from(value: v4::response::RegisteredResponse) -> Self {
Self {
request_id: value.request_id,
reply: value.reply.into(),
}
}
}
impl From<v4::response::PendingRegistrationResponse> for v5::response::PendingRegistrationResponse {
fn from(value: v4::response::PendingRegistrationResponse) -> Self {
Self {
request_id: value.request_id,
reply: value.reply.into(),
}
}
}
impl From<v4::registration::RegistrationData> for v5::registration::RegistrationData {
fn from(value: v4::registration::RegistrationData) -> Self {
Self {
nonce: value.nonce,
gateway_data: value.gateway_data.into(),
wg_port: value.wg_port,
}
}
}
impl From<v5::registration::RegistrationData> for v4::registration::RegistrationData {
fn from(value: v5::registration::RegistrationData) -> Self {
Self {
nonce: value.nonce,
gateway_data: value.gateway_data.into(),
wg_port: value.wg_port,
}
}
}
impl From<v4::response::RemainingBandwidthResponse> for v5::response::RemainingBandwidthResponse {
fn from(value: v4::response::RemainingBandwidthResponse) -> Self {
Self {
request_id: value.request_id,
reply: value.reply.map(Into::into),
}
}
}
impl From<v4::response::TopUpBandwidthResponse> for v5::response::TopUpBandwidthResponse {
fn from(value: v4::response::TopUpBandwidthResponse) -> Self {
Self {
request_id: value.request_id,
reply: value.reply.into(),
}
}
}
impl From<v4::registration::RegistredData> for v5::registration::RegistredData {
fn from(value: v4::registration::RegistredData) -> Self {
Self {
pub_key: value.pub_key,
private_ips: value.private_ips.into(),
wg_port: value.wg_port,
}
}
}
impl From<v4::registration::RemainingBandwidthData> for v5::registration::RemainingBandwidthData {
fn from(value: v4::registration::RemainingBandwidthData) -> Self {
Self {
available_bandwidth: value.available_bandwidth,
}
}
}
impl From<v4::registration::IpPair> for v5::registration::IpPair {
fn from(value: v4::registration::IpPair) -> Self {
Self {
ipv4: value.ipv4,
ipv6: value.ipv6,
}
}
}
impl From<v5::registration::IpPair> for v4::registration::IpPair {
fn from(value: v5::registration::IpPair) -> Self {
Self {
ipv4: value.ipv4,
ipv6: value.ipv6,
}
}
}
#[cfg(test)]
mod tests {
use std::{
net::{Ipv4Addr, Ipv6Addr},
str::FromStr,
};
use nym_credentials_interface::CredentialSpendingData;
use nym_crypto::asymmetric::x25519::PrivateKey;
use nym_sphinx::addressing::Recipient;
use nym_wireguard_types::PeerPublicKey;
use x25519_dalek::PublicKey;
use super::*;
use crate::{
util::tests::{CREDENTIAL_BYTES, RECIPIENT},
v4,
};
#[test]
fn upgrade_initial_req() {
let pub_key = PeerPublicKey::new(PublicKey::from([0; 32]));
let reply_to = Recipient::try_from_base58_string(RECIPIENT).unwrap();
let (msg, _) = v4::request::AuthenticatorRequest::new_initial_request(
v4::registration::InitMessage::new(pub_key),
reply_to,
);
let upgraded_msg = v5::request::AuthenticatorRequest::from(msg);
assert_eq!(
upgraded_msg.protocol,
Protocol {
version: 5,
service_provider_type: ServiceProviderType::Authenticator
}
);
assert_eq!(
upgraded_msg.data,
v5::request::AuthenticatorRequestData::Initial(v5::registration::InitMessage {
pub_key
})
);
}
#[test]
fn upgrade_final_req() {
let mut rng = rand::thread_rng();
let local_secret = PrivateKey::new(&mut rng);
let remote_secret = x25519_dalek::StaticSecret::random_from_rng(&mut rng);
let ipv4 = Ipv4Addr::from_str("10.10.10.10").unwrap();
let ipv6 = Ipv6Addr::from_str("fc01::a0a").unwrap();
let ips = v4::registration::IpPair::new(ipv4, ipv6);
let nonce = 42;
let gateway_client = v4::registration::GatewayClient::new(
&local_secret,
(&remote_secret).into(),
ips,
nonce,
);
let credential = Some(CredentialSpendingData::try_from_bytes(&CREDENTIAL_BYTES).unwrap());
let final_message = v4::registration::FinalMessage {
gateway_client: gateway_client.clone(),
credential: credential.clone(),
};
let reply_to = Recipient::try_from_base58_string(RECIPIENT).unwrap();
let (msg, _) =
v4::request::AuthenticatorRequest::new_final_request(final_message, reply_to);
let upgraded_msg = v5::request::AuthenticatorRequest::from(msg);
assert_eq!(
upgraded_msg.protocol,
Protocol {
version: 5,
service_provider_type: ServiceProviderType::Authenticator
}
);
assert_eq!(
upgraded_msg.data,
v5::request::AuthenticatorRequestData::Final(Box::new(
v5::registration::FinalMessage {
gateway_client: v5::registration::GatewayClient::new(
&local_secret,
(&remote_secret).into(),
v5::registration::IpPair::new(ipv4, ipv6),
nonce
),
credential
}
))
);
}
#[test]
fn upgrade_query_req() {
let pub_key = PeerPublicKey::new(PublicKey::from([0; 32]));
let reply_to = Recipient::try_from_base58_string(RECIPIENT).unwrap();
let (msg, _) = v4::request::AuthenticatorRequest::new_query_request(pub_key, reply_to);
let upgraded_msg = v5::request::AuthenticatorRequest::from(msg);
assert_eq!(
upgraded_msg.protocol,
Protocol {
version: 5,
service_provider_type: ServiceProviderType::Authenticator
}
);
assert_eq!(
upgraded_msg.data,
v5::request::AuthenticatorRequestData::QueryBandwidth(pub_key)
);
}
#[test]
fn upgrade_pending_reg_resp() {
let mut rng = rand::thread_rng();
let local_secret = PrivateKey::new(&mut rng);
let remote_secret = x25519_dalek::StaticSecret::random_from_rng(&mut rng);
let ipv4 = Ipv4Addr::from_str("10.10.10.10").unwrap();
let ipv6 = Ipv6Addr::from_str("fc01::a0a").unwrap();
let ips = v4::registration::IpPair::new(ipv4, ipv6);
let nonce = 42;
let wg_port = 51822;
let gateway_data = v4::registration::GatewayClient::new(
&local_secret,
(&remote_secret).into(),
ips,
nonce,
);
let registration_data = v4::registration::RegistrationData {
nonce,
gateway_data,
wg_port,
};
let request_id = 123;
let reply_to = Recipient::try_from_base58_string(RECIPIENT).unwrap();
let msg = v4::response::AuthenticatorResponse::new_pending_registration_success(
registration_data,
request_id,
reply_to,
);
let upgraded_msg = v5::response::AuthenticatorResponse::from(msg);
assert_eq!(
upgraded_msg.protocol,
Protocol {
version: 5,
service_provider_type: ServiceProviderType::Authenticator
}
);
assert_eq!(
upgraded_msg.data,
v5::response::AuthenticatorResponseData::PendingRegistration(
v5::response::PendingRegistrationResponse {
request_id,
reply: v5::registration::RegistrationData {
nonce,
gateway_data: v5::registration::GatewayClient::new(
&local_secret,
(&remote_secret).into(),
v5::registration::IpPair::new(ipv4, ipv6),
nonce
),
wg_port
}
}
)
);
}
#[test]
fn upgrade_registered_resp() {
let pub_key = PeerPublicKey::new(PublicKey::from([0; 32]));
let ipv4 = Ipv4Addr::from_str("10.1.10.10").unwrap();
let ipv6 = Ipv6Addr::from_str("fc01::a0a").unwrap();
let private_ips = v4::registration::IpPair::new(ipv4, ipv6);
let wg_port = 51822;
let registred_data = v4::registration::RegistredData {
pub_key,
private_ips,
wg_port,
};
let request_id = 123;
let reply_to = Recipient::try_from_base58_string(RECIPIENT).unwrap();
let msg = v4::response::AuthenticatorResponse::new_registered(
registred_data,
reply_to,
request_id,
);
let upgraded_msg = v5::response::AuthenticatorResponse::from(msg);
assert_eq!(
upgraded_msg.protocol,
Protocol {
version: 5,
service_provider_type: ServiceProviderType::Authenticator
}
);
assert_eq!(
upgraded_msg.data,
v5::response::AuthenticatorResponseData::Registered(v5::response::RegisteredResponse {
request_id,
reply: v5::registration::RegistredData {
wg_port,
pub_key,
private_ips: v5::registration::IpPair::new(ipv4, ipv6)
}
})
);
}
#[test]
fn upgrade_remaining_bandwidth_resp() {
let available_bandwidth = 42;
let remaining_bandwidth_data = Some(v4::registration::RemainingBandwidthData {
available_bandwidth,
});
let request_id = 123;
let reply_to = Recipient::try_from_base58_string(RECIPIENT).unwrap();
let msg = v4::response::AuthenticatorResponse::new_remaining_bandwidth(
remaining_bandwidth_data,
reply_to,
request_id,
);
let upgraded_msg = v5::response::AuthenticatorResponse::from(msg);
assert_eq!(
upgraded_msg.protocol,
Protocol {
version: 5,
service_provider_type: ServiceProviderType::Authenticator
}
);
assert_eq!(
upgraded_msg.data,
v5::response::AuthenticatorResponseData::RemainingBandwidth(
v5::response::RemainingBandwidthResponse {
request_id,
reply: Some(v5::registration::RemainingBandwidthData {
available_bandwidth,
})
}
)
);
}
}