serai/coins/monero/wallet/tests/send.rs
2024-07-08 00:30:42 -04:00

335 lines
12 KiB
Rust

use std::collections::HashSet;
use rand_core::OsRng;
use monero_simple_request_rpc::SimpleRequestRpc;
use monero_wallet::{
ringct::RctType, transaction::Transaction, rpc::Rpc, address::SubaddressIndex, extra::Extra,
WalletOutput, OutputWithDecoys,
};
mod runner;
use runner::{SignableTransactionBuilder, ring_len};
// Set up inputs, select decoys, then add them to the TX builder
async fn add_inputs(
rct_type: RctType,
rpc: &SimpleRequestRpc,
outputs: Vec<WalletOutput>,
builder: &mut SignableTransactionBuilder,
) {
for output in outputs {
builder.add_input(
OutputWithDecoys::fingerprintable_deterministic_new(
&mut OsRng,
rpc,
ring_len(rct_type),
rpc.get_height().await.unwrap(),
output,
)
.await
.unwrap(),
);
}
}
test!(
spend_miner_output,
(
|_, mut builder: Builder, addr| async move {
builder.add_payment(addr, 5);
(builder.build().unwrap(), ())
},
|rpc, block, tx: Transaction, mut scanner: Scanner, ()| async move {
let output =
scanner.scan(&rpc, &block).await.unwrap().not_additionally_locked().swap_remove(0);
assert_eq!(output.transaction(), tx.hash());
assert_eq!(output.commitment().amount, 5);
},
),
);
test!(
spend_multiple_outputs,
(
|_, mut builder: Builder, addr| async move {
builder.add_payment(addr, 1000000000000);
builder.add_payment(addr, 2000000000000);
(builder.build().unwrap(), ())
},
|rpc, block, tx: Transaction, mut scanner: Scanner, ()| async move {
let mut outputs = scanner.scan(&rpc, &block).await.unwrap().not_additionally_locked();
assert_eq!(outputs.len(), 2);
assert_eq!(outputs[0].transaction(), tx.hash());
assert_eq!(outputs[0].transaction(), tx.hash());
outputs.sort_by(|x, y| x.commitment().amount.cmp(&y.commitment().amount));
assert_eq!(outputs[0].commitment().amount, 1000000000000);
assert_eq!(outputs[1].commitment().amount, 2000000000000);
outputs
},
),
(
|rct_type: RctType, rpc, mut builder: Builder, addr, outputs: Vec<WalletOutput>| async move {
add_inputs(rct_type, &rpc, outputs, &mut builder).await;
builder.add_payment(addr, 6);
(builder.build().unwrap(), ())
},
|rpc, block, tx: Transaction, mut scanner: Scanner, ()| async move {
let output =
scanner.scan(&rpc, &block).await.unwrap().not_additionally_locked().swap_remove(0);
assert_eq!(output.transaction(), tx.hash());
assert_eq!(output.commitment().amount, 6);
},
),
);
test!(
// Ideally, this would be single_R, yet it isn't feasible to apply allow(non_snake_case) here
single_r_subaddress_send,
(
// Consume this builder for an output we can use in the future
// This is needed because we can't get the input from the passed in builder
|_, mut builder: Builder, addr| async move {
builder.add_payment(addr, 1000000000000);
(builder.build().unwrap(), ())
},
|rpc, block, tx: Transaction, mut scanner: Scanner, ()| async move {
let outputs = scanner.scan(&rpc, &block).await.unwrap().not_additionally_locked();
assert_eq!(outputs.len(), 1);
assert_eq!(outputs[0].transaction(), tx.hash());
assert_eq!(outputs[0].commitment().amount, 1000000000000);
outputs
},
),
(
|rct_type, rpc: SimpleRequestRpc, _, _, outputs: Vec<WalletOutput>| async move {
use monero_wallet::rpc::FeePriority;
let view_priv = Zeroizing::new(Scalar::random(&mut OsRng));
let mut outgoing_view = Zeroizing::new([0; 32]);
OsRng.fill_bytes(outgoing_view.as_mut());
let change_view =
ViewPair::new(&Scalar::random(&mut OsRng) * ED25519_BASEPOINT_TABLE, view_priv.clone())
.unwrap();
let mut builder = SignableTransactionBuilder::new(
rct_type,
outgoing_view,
Change::new(&change_view),
rpc.get_fee_rate(FeePriority::Unimportant).await.unwrap(),
);
add_inputs(rct_type, &rpc, vec![outputs.first().unwrap().clone()], &mut builder).await;
// Send to a subaddress
let sub_view = ViewPair::new(
&Scalar::random(&mut OsRng) * ED25519_BASEPOINT_TABLE,
Zeroizing::new(Scalar::random(&mut OsRng)),
)
.unwrap();
builder
.add_payment(sub_view.subaddress(Network::Mainnet, SubaddressIndex::new(0, 1).unwrap()), 1);
(builder.build().unwrap(), (change_view, sub_view))
},
|rpc, block, tx: Transaction, _, views: (ViewPair, ViewPair)| async move {
// Make sure the change can pick up its output
let mut change_scanner = Scanner::new(views.0);
assert!(
change_scanner.scan(&rpc, &block).await.unwrap().not_additionally_locked().len() == 1
);
// Make sure the subaddress can pick up its output
let mut sub_scanner = Scanner::new(views.1);
sub_scanner.register_subaddress(SubaddressIndex::new(0, 1).unwrap());
let sub_outputs = sub_scanner.scan(&rpc, &block).await.unwrap().not_additionally_locked();
assert!(sub_outputs.len() == 1);
assert_eq!(sub_outputs[0].transaction(), tx.hash());
assert_eq!(sub_outputs[0].commitment().amount, 1);
// Make sure only one R was included in TX extra
assert!(Extra::read::<&[u8]>(&mut tx.prefix().extra.as_ref())
.unwrap()
.keys()
.unwrap()
.1
.is_none());
},
),
);
test!(
spend_one_input_to_one_output_plus_change,
(
|_, mut builder: Builder, addr| async move {
builder.add_payment(addr, 2000000000000);
(builder.build().unwrap(), ())
},
|rpc, block, tx: Transaction, mut scanner: Scanner, ()| async move {
let outputs = scanner.scan(&rpc, &block).await.unwrap().not_additionally_locked();
assert_eq!(outputs.len(), 1);
assert_eq!(outputs[0].transaction(), tx.hash());
assert_eq!(outputs[0].commitment().amount, 2000000000000);
outputs
},
),
(
|rct_type: RctType, rpc, mut builder: Builder, addr, outputs: Vec<WalletOutput>| async move {
add_inputs(rct_type, &rpc, outputs, &mut builder).await;
builder.add_payment(addr, 2);
(builder.build().unwrap(), ())
},
|rpc, block, tx: Transaction, mut scanner: Scanner, ()| async move {
let output =
scanner.scan(&rpc, &block).await.unwrap().not_additionally_locked().swap_remove(0);
assert_eq!(output.transaction(), tx.hash());
assert_eq!(output.commitment().amount, 2);
},
),
);
test!(
spend_max_outputs,
(
|_, mut builder: Builder, addr| async move {
builder.add_payment(addr, 1000000000000);
(builder.build().unwrap(), ())
},
|rpc, block, tx: Transaction, mut scanner: Scanner, ()| async move {
let outputs = scanner.scan(&rpc, &block).await.unwrap().not_additionally_locked();
assert_eq!(outputs.len(), 1);
assert_eq!(outputs[0].transaction(), tx.hash());
assert_eq!(outputs[0].commitment().amount, 1000000000000);
outputs
},
),
(
|rct_type: RctType, rpc, mut builder: Builder, addr, outputs: Vec<WalletOutput>| async move {
add_inputs(rct_type, &rpc, outputs, &mut builder).await;
for i in 0 .. 15 {
builder.add_payment(addr, i + 1);
}
(builder.build().unwrap(), ())
},
|rpc, block, tx: Transaction, mut scanner: Scanner, ()| async move {
let mut scanned_tx = scanner.scan(&rpc, &block).await.unwrap().not_additionally_locked();
let mut output_amounts = HashSet::new();
for i in 0 .. 15 {
output_amounts.insert(i + 1);
}
for _ in 0 .. 15 {
let output = scanned_tx.swap_remove(0);
assert_eq!(output.transaction(), tx.hash());
let amount = output.commitment().amount;
assert!(output_amounts.remove(&amount));
}
assert_eq!(output_amounts.len(), 0);
},
),
);
test!(
spend_max_outputs_to_subaddresses,
(
|_, mut builder: Builder, addr| async move {
builder.add_payment(addr, 1000000000000);
(builder.build().unwrap(), ())
},
|rpc, block, tx: Transaction, mut scanner: Scanner, ()| async move {
let outputs = scanner.scan(&rpc, &block).await.unwrap().not_additionally_locked();
assert_eq!(outputs.len(), 1);
assert_eq!(outputs[0].transaction(), tx.hash());
assert_eq!(outputs[0].commitment().amount, 1000000000000);
outputs
},
),
(
|rct_type: RctType, rpc, mut builder: Builder, _, outputs: Vec<WalletOutput>| async move {
add_inputs(rct_type, &rpc, outputs, &mut builder).await;
let view = runner::random_address().1;
let mut scanner = Scanner::new(view.clone());
let mut subaddresses = vec![];
for i in 0 .. 15 {
let subaddress = SubaddressIndex::new(0, i + 1).unwrap();
scanner.register_subaddress(subaddress);
builder.add_payment(view.subaddress(Network::Mainnet, subaddress), u64::from(i + 1));
subaddresses.push(subaddress);
}
(builder.build().unwrap(), (scanner, subaddresses))
},
|rpc, block, tx: Transaction, _, mut state: (Scanner, Vec<SubaddressIndex>)| async move {
use std::collections::HashMap;
let mut scanned_tx = state.0.scan(&rpc, &block).await.unwrap().not_additionally_locked();
let mut output_amounts_by_subaddress = HashMap::new();
for i in 0 .. 15 {
output_amounts_by_subaddress.insert(u64::try_from(i + 1).unwrap(), state.1[i]);
}
for _ in 0 .. 15 {
let output = scanned_tx.swap_remove(0);
assert_eq!(output.transaction(), tx.hash());
let amount = output.commitment().amount;
assert_eq!(
output.subaddress().unwrap(),
output_amounts_by_subaddress.remove(&amount).unwrap()
);
}
assert_eq!(output_amounts_by_subaddress.len(), 0);
},
),
);
test!(
spend_one_input_to_two_outputs_no_change,
(
|_, mut builder: Builder, addr| async move {
builder.add_payment(addr, 1000000000000);
(builder.build().unwrap(), ())
},
|rpc, block, tx: Transaction, mut scanner: Scanner, ()| async move {
let outputs = scanner.scan(&rpc, &block).await.unwrap().not_additionally_locked();
assert_eq!(outputs.len(), 1);
assert_eq!(outputs[0].transaction(), tx.hash());
assert_eq!(outputs[0].commitment().amount, 1000000000000);
outputs
},
),
(
|rct_type, rpc: SimpleRequestRpc, _, addr, outputs: Vec<WalletOutput>| async move {
use monero_wallet::rpc::FeePriority;
let mut outgoing_view = Zeroizing::new([0; 32]);
OsRng.fill_bytes(outgoing_view.as_mut());
let mut builder = SignableTransactionBuilder::new(
rct_type,
outgoing_view,
Change::fingerprintable(None),
rpc.get_fee_rate(FeePriority::Unimportant).await.unwrap(),
);
add_inputs(rct_type, &rpc, vec![outputs.first().unwrap().clone()], &mut builder).await;
builder.add_payment(addr, 10000);
builder.add_payment(addr, 50000);
(builder.build().unwrap(), ())
},
|rpc, block, tx: Transaction, mut scanner: Scanner, ()| async move {
let mut outputs = scanner.scan(&rpc, &block).await.unwrap().not_additionally_locked();
assert_eq!(outputs.len(), 2);
assert_eq!(outputs[0].transaction(), tx.hash());
assert_eq!(outputs[1].transaction(), tx.hash());
outputs.sort_by(|x, y| x.commitment().amount.cmp(&y.commitment().amount));
assert_eq!(outputs[0].commitment().amount, 10000);
assert_eq!(outputs[1].commitment().amount, 50000);
// The remainder should get shunted to fee, which is fingerprintable
let Transaction::V2 { proofs: Some(ref proofs), .. } = tx else { panic!("TX wasn't RingCT") };
assert_eq!(proofs.base.fee, 1000000000000 - 10000 - 50000);
},
),
);