use monero_simple_request_rpc::SimpleRequestRpc; use monero_wallet::{ DEFAULT_LOCK_WINDOW, transaction::Transaction, rpc::{Rpc, DecoyRpc}, WalletOutput, }; mod runner; test!( select_latest_output_as_decoy_canonical, ( // First make an initial tx0 |_, mut builder: Builder, addr| async move { builder.add_payment(addr, 2000000000000); (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, 2000000000000); output }, ), ( // Then make a second tx1 |rct_type: RctType, rpc: SimpleRequestRpc, mut builder: Builder, addr, state: _| async move { let output_tx0: WalletOutput = state; let input = OutputWithDecoys::fingerprintable_deterministic_new( &mut OsRng, &rpc, ring_len(rct_type), rpc.get_height().await.unwrap(), output_tx0.clone(), ) .await .unwrap(); builder.add_input(input); builder.add_payment(addr, 1000000000000); (builder.build().unwrap(), (rct_type, output_tx0)) }, // Then make sure DSA selects freshly unlocked output from tx1 as a decoy |rpc, _, tx: Transaction, _: Scanner, state: (_, _)| async move { use rand_core::OsRng; let rpc: SimpleRequestRpc = rpc; let height = rpc.get_height().await.unwrap(); let most_recent_o_index = rpc.get_o_indexes(tx.hash()).await.unwrap().pop().unwrap(); // Make sure output from tx1 is in the block in which it unlocks let out_tx1 = rpc.get_outs(&[most_recent_o_index]).await.unwrap().swap_remove(0); assert_eq!(out_tx1.height, height - DEFAULT_LOCK_WINDOW); assert!(out_tx1.unlocked); // Select decoys using spendable output from tx0 as the real, and make sure DSA selects // the freshly unlocked output from tx1 as a decoy let (rct_type, output_tx0): (RctType, WalletOutput) = state; let mut selected_fresh_decoy = false; let mut attempts = 1000; while !selected_fresh_decoy && attempts > 0 { let decoys = OutputWithDecoys::fingerprintable_deterministic_new( &mut OsRng, // TODO: use a seeded RNG to consistently select the latest output &rpc, ring_len(rct_type), height, output_tx0.clone(), ) .await .unwrap() .decoys() .clone(); selected_fresh_decoy = decoys.positions().contains(&most_recent_o_index); attempts -= 1; } assert!(selected_fresh_decoy); assert_eq!(height, rpc.get_height().await.unwrap()); }, ), ); test!( select_latest_output_as_decoy, ( // First make an initial tx0 |_, mut builder: Builder, addr| async move { builder.add_payment(addr, 2000000000000); (builder.build().unwrap(), ()) }, |rpc: SimpleRequestRpc, 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, 2000000000000); output }, ), ( // Then make a second tx1 |rct_type: RctType, rpc, mut builder: Builder, addr, output_tx0: WalletOutput| async move { let rpc: SimpleRequestRpc = rpc; let input = OutputWithDecoys::new( &mut OsRng, &rpc, ring_len(rct_type), rpc.get_height().await.unwrap(), output_tx0.clone(), ) .await .unwrap(); builder.add_input(input); builder.add_payment(addr, 1000000000000); (builder.build().unwrap(), (rct_type, output_tx0)) }, // Then make sure DSA selects freshly unlocked output from tx1 as a decoy |rpc, _, tx: Transaction, _: Scanner, state: (_, _)| async move { use rand_core::OsRng; let rpc: SimpleRequestRpc = rpc; let height = rpc.get_height().await.unwrap(); let most_recent_o_index = rpc.get_o_indexes(tx.hash()).await.unwrap().pop().unwrap(); // Make sure output from tx1 is in the block in which it unlocks let out_tx1 = rpc.get_outs(&[most_recent_o_index]).await.unwrap().swap_remove(0); assert_eq!(out_tx1.height, height - DEFAULT_LOCK_WINDOW); assert!(out_tx1.unlocked); // Select decoys using spendable output from tx0 as the real, and make sure DSA selects // the freshly unlocked output from tx1 as a decoy let (rct_type, output_tx0): (RctType, WalletOutput) = state; let mut selected_fresh_decoy = false; let mut attempts = 1000; while !selected_fresh_decoy && attempts > 0 { let decoys = OutputWithDecoys::new( &mut OsRng, // TODO: use a seeded RNG to consistently select the latest output &rpc, ring_len(rct_type), height, output_tx0.clone(), ) .await .unwrap() .decoys() .clone(); selected_fresh_decoy = decoys.positions().contains(&most_recent_o_index); attempts -= 1; } assert!(selected_fresh_decoy); assert_eq!(height, rpc.get_height().await.unwrap()); }, ), );