serai/coins/monero/tests/wallet-rpc-compatibility.rs
akildemir f12cc2cca6
Add more tests (#240)
* add wallet-rpc-compatibility tests

* fmt + clippy

* add wallet-rpc receive tests

* add (0,0) subaddress check to standard address
2023-01-24 15:22:07 -05:00

202 lines
6.2 KiB
Rust

use std::{
collections::{HashSet, HashMap},
str::FromStr,
};
use rand_core::{OsRng, RngCore};
use serde::Deserialize;
use serde_json::json;
use monero_rpc::{
monero::{
Amount, Address,
cryptonote::{hash::Hash, subaddress::Index},
util::address::PaymentId,
},
TransferOptions, WalletClient,
};
use monero_serai::{
wallet::address::{Network, AddressSpec, SubaddressIndex},
wallet::{Scanner, address::MoneroAddress},
rpc::Rpc,
transaction::Transaction,
};
mod runner;
async fn make_integrated_address(payment_id: [u8; 8]) -> String {
#[derive(Deserialize, Debug)]
struct IntegratedAddressResponse {
integrated_address: String,
}
let rpc = Rpc::new("http://127.0.0.1:6061".to_string()).unwrap();
let res = rpc
.json_rpc_call::<IntegratedAddressResponse>(
"make_integrated_address",
Some(json!({ "payment_id": hex::encode(payment_id) })),
)
.await
.unwrap();
res.integrated_address
}
async fn initialize_rpcs() -> (WalletClient, Rpc, monero_rpc::monero::Address) {
let wallet_rpc =
monero_rpc::RpcClientBuilder::new().build("http://127.0.0.1:6061").unwrap().wallet();
let daemon_rpc = runner::rpc().await;
let address_resp = wallet_rpc.get_address(0, None).await;
let wallet_rpc_addr = if address_resp.is_ok() {
address_resp.unwrap().address
} else {
wallet_rpc.create_wallet("test_wallet".to_string(), None, "English".to_string()).await.unwrap();
let addr = wallet_rpc.get_address(0, None).await.unwrap().address;
daemon_rpc.generate_blocks(&addr.to_string(), 70).await.unwrap();
addr
};
(wallet_rpc, daemon_rpc, wallet_rpc_addr)
}
async fn test_from_wallet_rpc_to_self(spec: AddressSpec) {
// initialize rpc
let (wallet_rpc, daemon_rpc, wallet_rpc_addr) = initialize_rpcs().await;
// make an addr
let (_, view_pair, _) = runner::random_address();
let addr = Address::from_str(&view_pair.address(Network::Mainnet, spec).to_string()[..]).unwrap();
// refresh & make a tx
wallet_rpc.refresh(None).await.unwrap();
let tx = wallet_rpc
.transfer(
HashMap::from([(addr, Amount::ONE_XMR)]),
monero_rpc::TransferPriority::Default,
TransferOptions::default(),
)
.await
.unwrap();
let tx_hash: [u8; 32] = tx.tx_hash.0.try_into().unwrap();
// unlock it
runner::mine_until_unlocked(&daemon_rpc, &wallet_rpc_addr.to_string(), tx_hash).await;
// create the scanner
let mut scanner = Scanner::from_view(view_pair, Some(HashSet::new()));
if let AddressSpec::Subaddress(index) = spec {
scanner.register_subaddress(index);
}
// retrieve it and confirm
let tx = daemon_rpc.get_transaction(tx_hash).await.unwrap();
let output = scanner.scan_transaction(&tx).not_locked().swap_remove(0);
match spec {
AddressSpec::Subaddress(index) => assert_eq!(output.metadata.subaddress, Some(index)),
AddressSpec::Integrated(payment_id) => {
assert_eq!(output.metadata.payment_id, payment_id);
assert_eq!(output.metadata.subaddress, None);
}
_ => assert_eq!(output.metadata.subaddress, None),
}
assert_eq!(output.commitment().amount, 1000000000000);
}
async_sequential!(
async fn test_receipt_of_wallet_rpc_tx_standard() {
test_from_wallet_rpc_to_self(AddressSpec::Standard).await;
}
async fn test_receipt_of_wallet_rpc_tx_subaddress() {
test_from_wallet_rpc_to_self(AddressSpec::Subaddress(SubaddressIndex::new(0, 1).unwrap()))
.await;
}
async fn test_receipt_of_wallet_rpc_tx_integrated() {
let mut payment_id = [0u8; 8];
OsRng.fill_bytes(&mut payment_id);
test_from_wallet_rpc_to_self(AddressSpec::Integrated(payment_id)).await;
}
);
test!(
test_send_to_wallet_rpc_standard,
(
|_, mut builder: Builder, _| async move {
// initialize rpc
let (wallet_rpc, _, wallet_rpc_addr) = initialize_rpcs().await;
// add destination
builder.add_payment(
MoneroAddress::from_str(Network::Mainnet, &wallet_rpc_addr.to_string()).unwrap(),
1000000,
);
(builder.build().unwrap(), (wallet_rpc,))
},
|_, tx: Transaction, _, data: (WalletClient,)| async move {
// confirm receipt
data.0.refresh(None).await.unwrap();
let transfer =
data.0.get_transfer(Hash::from_slice(&tx.hash()), None).await.unwrap().unwrap();
assert_eq!(transfer.amount.as_pico(), 1000000);
assert_eq!(transfer.subaddr_index, Index { major: 0, minor: 0 });
},
),
);
test!(
test_send_to_wallet_rpc_subaddress,
(
|_, mut builder: Builder, _| async move {
// initialize rpc
let (wallet_rpc, _, _) = initialize_rpcs().await;
// make the addr
let (subaddress, index) = wallet_rpc.create_address(0, None).await.unwrap();
builder.add_payment(
MoneroAddress::from_str(Network::Mainnet, &subaddress.to_string()).unwrap(),
1000000,
);
(builder.build().unwrap(), (wallet_rpc, index))
},
|_, tx: Transaction, _, data: (WalletClient, u32)| async move {
// confirm receipt
data.0.refresh(None).await.unwrap();
let transfer =
data.0.get_transfer(Hash::from_slice(&tx.hash()), None).await.unwrap().unwrap();
assert_eq!(transfer.amount.as_pico(), 1000000);
assert_eq!(transfer.subaddr_index, Index { major: 0, minor: data.1 });
},
),
);
test!(
test_send_to_wallet_rpc_integrated,
(
|_, mut builder: Builder, _| async move {
// initialize rpc
let (wallet_rpc, _, _) = initialize_rpcs().await;
// make the addr
let mut payment_id = [0u8; 8];
OsRng.fill_bytes(&mut payment_id);
let addr = make_integrated_address(payment_id).await;
builder.add_payment(MoneroAddress::from_str(Network::Mainnet, &addr).unwrap(), 1000000);
(builder.build().unwrap(), (wallet_rpc, payment_id))
},
|_, tx: Transaction, _, data: (WalletClient, [u8; 8])| async move {
// confirm receipt
data.0.refresh(None).await.unwrap();
let transfer =
data.0.get_transfer(Hash::from_slice(&tx.hash()), None).await.unwrap().unwrap();
assert_eq!(transfer.amount.as_pico(), 1000000);
assert_eq!(transfer.subaddr_index, Index { major: 0, minor: 0 });
assert_eq!(transfer.payment_id.0, PaymentId::from_slice(&data.1));
},
),
);