// Copyright 2019 The Grin Developers
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//! tests differing accounts in the same wallet
#[macro_use]
extern crate log;
extern crate grin_wallet_controller as wallet;
extern crate grin_wallet_impls as impls;
use grin_wallet_util::grin_core as core;
use grin_wallet_util::grin_util as util;
use self::core::consensus;
use self::core::global;
use grin_wallet_libwallet as libwallet;
use impls::test_framework::{self, LocalWalletClient};
use impls::{PathToSlate, SlatePutter as _};
use libwallet::{InitTxArgs, NodeClient};
use std::thread;
use std::time::Duration;
use util::ZeroingString;
#[macro_use]
mod common;
use common::{clean_output_dir, create_wallet_proxy, setup};
macro_rules! send_to_dest {
($a:expr, $m: expr, $b:expr, $c:expr, $d:expr) => {
test_framework::send_to_dest($a, $m, $b, $c, $d, false)
};
}
macro_rules! wallet_info {
($a:expr, $m:expr) => {
test_framework::wallet_info($a, $m)
};
}
/// Various tests on checking functionality
fn scan_impl(test_dir: &'static str) -> Result<(), libwallet::Error> {
// Create a new proxy to simulate server and wallet responses
let mut wallet_proxy = create_wallet_proxy(test_dir);
let chain = wallet_proxy.chain.clone();
// Create a new wallet test client, and set its queues to communicate with the
// proxy
create_wallet_and_add!(
client1,
wallet1,
mask1_i,
test_dir,
"wallet1",
None,
&mut wallet_proxy,
false
);
let mask1 = (&mask1_i).as_ref();
create_wallet_and_add!(
client2,
wallet2,
mask2_i,
test_dir,
"wallet2",
None,
&mut wallet_proxy,
false
);
let mask2 = (&mask2_i).as_ref();
// Set the wallet proxy listener running
thread::spawn(move || {
if let Err(e) = wallet_proxy.run() {
error!("Wallet Proxy error: {}", e);
}
});
// few values to keep things shorter
let reward = core::consensus::REWARD;
let cm = global::coinbase_maturity() as u64; // assume all testing precedes soft fork height
// add some accounts
wallet::controller::owner_single_use(wallet1.clone(), mask1, |api, m| {
api.create_account_path(m, "named_account_1")?;
api.create_account_path(m, "account_2")?;
api.create_account_path(m, "account_3")?;
api.set_active_account(m, "named_account_1")?;
Ok(())
})?;
// add account to wallet 2
wallet::controller::owner_single_use(wallet2.clone(), mask2, |api, m| {
api.create_account_path(m, "account_1")?;
api.set_active_account(m, "account_1")?;
Ok(())
})?;
// Do some mining
let bh = 20u64;
let _ =
test_framework::award_blocks_to_wallet(&chain, wallet1.clone(), mask1, bh as usize, false);
// Sanity check contents
wallet::controller::owner_single_use(wallet1.clone(), mask1, |api, m| {
let (wallet1_refreshed, wallet1_info) = api.retrieve_summary_info(m, true, 1)?;
assert!(wallet1_refreshed);
assert_eq!(wallet1_info.last_confirmed_height, bh);
assert_eq!(wallet1_info.total, bh * reward);
assert_eq!(wallet1_info.amount_currently_spendable, (bh - cm) * reward);
// check tx log as well
let (_, txs) = api.retrieve_txs(m, true, None, None)?;
let (c, _) = libwallet::TxLogEntry::sum_confirmed(&txs);
assert_eq!(wallet1_info.total, c);
assert_eq!(txs.len(), bh as usize);
Ok(())
})?;
// Accidentally delete some outputs
let mut w1_outputs_commits = vec![];
wallet::controller::owner_single_use(wallet1.clone(), mask1, |api, m| {
w1_outputs_commits = api.retrieve_outputs(m, false, true, None)?.1;
Ok(())
})?;
let w1_outputs: Vec<libwallet::OutputData> =
w1_outputs_commits.into_iter().map(|m| m.output).collect();
{
wallet_inst!(wallet1, w);
{
let mut batch = w.batch(mask1)?;
batch.delete(&w1_outputs[4].key_id, &None)?;
batch.delete(&w1_outputs[10].key_id, &None)?;
let mut accidental_spent = w1_outputs[13].clone();
accidental_spent.status = libwallet::OutputStatus::Spent;
batch.save(accidental_spent)?;
batch.commit()?;
}
}
// check we have a problem now
wallet::controller::owner_single_use(wallet1.clone(), mask1, |api, m| {
let (_, wallet1_info) = api.retrieve_summary_info(m, true, 1)?;
let (_, txs) = api.retrieve_txs(m, true, None, None)?;
let (c, _) = libwallet::TxLogEntry::sum_confirmed(&txs);
assert!(wallet1_info.total != c);
Ok(())
})?;
// this should restore our missing outputs
wallet::controller::owner_single_use(wallet1.clone(), mask1, |api, m| {
api.scan(m, None, true)?;
Ok(())
})?;
// check our outputs match again
wallet::controller::owner_single_use(wallet1.clone(), mask1, |api, m| {
let (wallet1_refreshed, wallet1_info) = api.retrieve_summary_info(m, true, 1)?;
assert!(wallet1_refreshed);
assert_eq!(wallet1_info.total, bh * reward);
// And check account names haven't been splatted
let accounts = api.accounts(m)?;
assert_eq!(accounts.len(), 4);
assert!(api.set_active_account(m, "account_1").is_err());
assert!(api.set_active_account(m, "named_account_1").is_ok());
Ok(())
})?;
// perform a transaction, but don't let it finish
wallet::controller::owner_single_use(wallet1.clone(), mask1, |api, m| {
// send to send
let args = InitTxArgs {
src_acct_name: None,
amount: reward * 2,
minimum_confirmations: cm,
max_outputs: 500,
num_change_outputs: 1,
selection_strategy_is_use_all: true,
..Default::default()
};
let slate = api.init_send_tx(m, args)?;
// output tx file
let send_file = format!("{}/part_tx_1.tx", test_dir);
PathToSlate(send_file.into()).put_tx(&slate)?;
api.tx_lock_outputs(m, &slate, 0)?;
Ok(())
})?;
// check we're all locked
wallet::controller::owner_single_use(wallet1.clone(), mask1, |api, m| {
let (wallet1_refreshed, wallet1_info) = api.retrieve_summary_info(m, true, 1)?;
assert!(wallet1_refreshed);
assert!(wallet1_info.amount_currently_spendable == 0);
Ok(())
})?;
// unlock/restore
wallet::controller::owner_single_use(wallet1.clone(), mask1, |api, m| {
api.scan(m, None, true)?;
Ok(())
})?;
// check spendable amount again
wallet::controller::owner_single_use(wallet1.clone(), mask1, |api, m| {
let (_, wallet1_info) = api.retrieve_summary_info(m, true, 1)?;
assert_eq!(wallet1_info.amount_currently_spendable, (bh - cm) * reward);
Ok(())
})?;
// let logging finish
thread::sleep(Duration::from_millis(200));
Ok(())
}
fn two_wallets_one_seed_impl(test_dir: &'static str) -> Result<(), libwallet::Error> {
setup(test_dir);
let seed_phrase = "affair pistol cancel crush garment candy ancient flag work \
market crush dry stand focus mutual weapon offer ceiling rival turn team spring \
where swift";
let seed_phrase = Some(ZeroingString::from(seed_phrase));
// Create a new proxy to simulate server and wallet responses
let mut wallet_proxy = create_wallet_proxy(test_dir);
let chain = wallet_proxy.chain.clone();
// Create a new wallet test client, and set its queues to communicate with the
// proxy
create_wallet_and_add!(
m_client,
miner,
miner_mask_i,
test_dir,
"miner",
None,
&mut wallet_proxy,
false
);
let miner_mask = (&miner_mask_i).as_ref();
// non-mining recipient wallets
create_wallet_and_add!(
client1,
wallet1,
mask1_i,
test_dir,
"wallet1",
seed_phrase,
&mut wallet_proxy,
false
);
let mask1 = (&mask1_i).as_ref();
create_wallet_and_add!(
client2,
wallet2,
mask2_i,
test_dir,
"wallet2",
seed_phrase,
&mut wallet_proxy,
false
);
let mask2 = (&mask2_i).as_ref();
// we'll restore into here
create_wallet_and_add!(
client3,
wallet3,
mask3_i,
test_dir,
"wallet3",
seed_phrase,
&mut wallet_proxy,
false
);
let mask3 = (&mask3_i).as_ref();
// also restore into here
create_wallet_and_add!(
client4,
wallet4,
mask4_i,
test_dir,
"wallet4",
seed_phrase,
&mut wallet_proxy,
false
);
let mask4 = (&mask4_i).as_ref();
// Simulate a recover from seed without restore into here
create_wallet_and_add!(
client5,
wallet5,
mask5_i,
test_dir,
"wallet5",
seed_phrase,
&mut wallet_proxy,
false
);
//simulate a recover from seed without restore into here
let mask5 = (&mask5_i).as_ref();
create_wallet_and_add!(
client6,
wallet6,
mask6_i,
test_dir,
"wallet6",
seed_phrase,
&mut wallet_proxy,
false
);
let mask6 = (&mask6_i).as_ref();
create_wallet_and_add!(
client7,
wallet7,
mask7_i,
test_dir,
"wallet7",
seed_phrase,
&mut wallet_proxy,
false
);
let mask7 = (&mask7_i).as_ref();
create_wallet_and_add!(
client8,
wallet8,
mask8_i,
test_dir,
"wallet8",
seed_phrase,
&mut wallet_proxy,
false
);
let mask8 = (&mask8_i).as_ref();
create_wallet_and_add!(
client9,
wallet9,
mask9_i,
test_dir,
"wallet9",
seed_phrase,
&mut wallet_proxy,
false
);
let mask9 = (&mask9_i).as_ref();
create_wallet_and_add!(
client10,
wallet10,
mask10_i,
test_dir,
"wallet10",
seed_phrase,
&mut wallet_proxy,
false
);
let mask10 = (&mask10_i).as_ref();
// Set the wallet proxy listener running
thread::spawn(move || {
if let Err(e) = wallet_proxy.run() {
error!("Wallet Proxy error: {}", e);
}
});
// few values to keep things shorter
let _reward = core::consensus::REWARD;
let cm = global::coinbase_maturity() as usize; // assume all testing precedes soft fork height
// Do some mining
let mut bh = 20u64;
let base_amount = consensus::GRIN_BASE;
let _ = test_framework::award_blocks_to_wallet(
&chain,
miner.clone(),
miner_mask,
bh as usize,
false,
);
// send some funds to wallets 1
send_to_dest!(
miner.clone(),
miner_mask,
m_client.clone(),
"wallet1",
base_amount * 1
)?;
send_to_dest!(
miner.clone(),
miner_mask,
m_client.clone(),
"wallet1",
base_amount * 2
)?;
send_to_dest!(
miner.clone(),
miner_mask,
m_client.clone(),
"wallet1",
base_amount * 3
)?;
bh += 3;
// 0) Check repair when all is okay should leave wallet contents alone
wallet::controller::owner_single_use(wallet1.clone(), mask1, |api, m| {
api.scan(m, None, true)?;
let info = wallet_info!(wallet1.clone(), m)?;
assert_eq!(info.amount_currently_spendable, base_amount * 6);
assert_eq!(info.total, base_amount * 6);
Ok(())
})?;
// send some funds to wallet 2
send_to_dest!(
miner.clone(),
miner_mask,
m_client.clone(),
"wallet2",
base_amount * 4
)?;
send_to_dest!(
miner.clone(),
miner_mask,
m_client.clone(),
"wallet2",
base_amount * 5
)?;
send_to_dest!(
miner.clone(),
miner_mask,
m_client.clone(),
"wallet2",
base_amount * 6
)?;
bh += 3;
let _ = test_framework::award_blocks_to_wallet(&chain, miner.clone(), miner_mask, cm, false);
bh += cm as u64;
// confirm balances
// since info is now performing a partial scan, these should confirm
// as containing all outputs
let info = wallet_info!(wallet1.clone(), mask1)?;
assert_eq!(info.amount_currently_spendable, base_amount * 21);
assert_eq!(info.total, base_amount * 21);
let info = wallet_info!(wallet2.clone(), mask2)?;
assert_eq!(info.amount_currently_spendable, base_amount * 21);
assert_eq!(info.total, base_amount * 21);
// Now there should be outputs on the chain using the same
// seed + BIP32 path.
// 1) a full restore should recover all of them:
wallet::controller::owner_single_use(wallet3.clone(), mask3, |api, m| {
api.scan(m, None, false)?;
Ok(())
})?;
wallet::controller::owner_single_use(wallet3.clone(), mask3, |api, m| {
let info = wallet_info!(wallet3.clone(), m)?;
let outputs = api.retrieve_outputs(m, true, false, None)?.1;
assert_eq!(outputs.len(), 6);
assert_eq!(info.amount_currently_spendable, base_amount * 21);
assert_eq!(info.total, base_amount * 21);
Ok(())
})?;
// 2) scan should recover them into a single wallet
wallet::controller::owner_single_use(wallet1.clone(), mask1, |api, m| {
api.scan(m, None, true)?;
Ok(())
})?;
wallet::controller::owner_single_use(wallet1.clone(), mask1, |api, m| {
let info = wallet_info!(wallet1.clone(), m)?;
let outputs = api.retrieve_outputs(m, true, false, None)?.1;
assert_eq!(outputs.len(), 6);
assert_eq!(info.amount_currently_spendable, base_amount * 21);
Ok(())
})?;
// 3) If I recover from seed and start using the wallet without restoring,
// scan should restore the older outputs
// update, again, since scan is run automatically, balances on both
// wallets should turn out the same
send_to_dest!(
miner.clone(),
miner_mask,
m_client.clone(),
"wallet4",
base_amount * 7
)?;
send_to_dest!(
miner.clone(),
miner_mask,
m_client.clone(),
"wallet4",
base_amount * 8
)?;
send_to_dest!(
miner.clone(),
miner_mask,
m_client.clone(),
"wallet4",
base_amount * 9
)?;
bh += 3;
let _ = test_framework::award_blocks_to_wallet(&chain, miner.clone(), miner_mask, cm, false);
bh += cm as u64;
wallet::controller::owner_single_use(wallet4.clone(), mask4, |api, m| {
let info = wallet_info!(wallet4.clone(), m)?;
let outputs = api.retrieve_outputs(m, true, false, None)?.1;
assert_eq!(outputs.len(), 9);
assert_eq!(info.amount_currently_spendable, base_amount * 45);
Ok(())
})?;
wallet::controller::owner_single_use(wallet5.clone(), mask5, |api, m| {
api.scan(m, None, false)?;
Ok(())
})?;
wallet::controller::owner_single_use(wallet5.clone(), mask5, |api, m| {
let info = wallet_info!(wallet5.clone(), m)?;
let outputs = api.retrieve_outputs(m, true, false, None)?.1;
assert_eq!(outputs.len(), 9);
assert_eq!(info.amount_currently_spendable, base_amount * (45));
Ok(())
})?;
// 4) If I recover from seed and start using the wallet without restoring,
// scan should restore the older outputs
send_to_dest!(
miner.clone(),
miner_mask,
m_client.clone(),
"wallet6",
base_amount * 10
)?;
send_to_dest!(
miner.clone(),
miner_mask,
m_client.clone(),
"wallet6",
base_amount * 11
)?;
send_to_dest!(
miner.clone(),
miner_mask,
m_client.clone(),
"wallet6",
base_amount * 12
)?;
bh += 3;
let _ = test_framework::award_blocks_to_wallet(
&chain,
miner.clone(),
miner_mask,
cm as usize,
false,
);
bh += cm as u64;
wallet::controller::owner_single_use(wallet6.clone(), mask6, |api, m| {
let info = wallet_info!(wallet6.clone(), m)?;
let outputs = api.retrieve_outputs(m, true, false, None)?.1;
assert_eq!(outputs.len(), 12);
assert_eq!(info.amount_currently_spendable, base_amount * 78);
Ok(())
})?;
wallet::controller::owner_single_use(wallet6.clone(), mask6, |api, m| {
api.scan(m, None, true)?;
Ok(())
})?;
wallet::controller::owner_single_use(wallet6.clone(), mask6, |api, m| {
let info = wallet_info!(wallet6.clone(), m)?;
let outputs = api.retrieve_outputs(m, true, false, None)?.1;
assert_eq!(outputs.len(), 12);
assert_eq!(info.amount_currently_spendable, base_amount * (78));
Ok(())
})?;
// 5) Start using same seed with a different account, amounts should
// be distinct and restore should return funds from other account
send_to_dest!(
miner.clone(),
miner_mask,
m_client.clone(),
"wallet7",
base_amount * 13
)?;
send_to_dest!(
miner.clone(),
miner_mask,
m_client.clone(),
"wallet7",
base_amount * 14
)?;
send_to_dest!(
miner.clone(),
miner_mask,
m_client.clone(),
"wallet7",
base_amount * 15
)?;
bh += 3;
// mix it up a bit
wallet::controller::owner_single_use(wallet7.clone(), mask7, |api, m| {
api.create_account_path(m, "account_1")?;
api.set_active_account(m, "account_1")?;
Ok(())
})?;
send_to_dest!(
miner.clone(),
miner_mask,
m_client.clone(),
"wallet7",
base_amount * 1
)?;
send_to_dest!(
miner.clone(),
miner_mask,
m_client.clone(),
"wallet7",
base_amount * 2
)?;
send_to_dest!(
miner.clone(),
miner_mask,
m_client.clone(),
"wallet7",
base_amount * 3
)?;
bh += 3;
// check balances
let _ = test_framework::award_blocks_to_wallet(&chain, miner.clone(), miner_mask, cm, false);
bh += cm as u64;
wallet::controller::owner_single_use(wallet7.clone(), mask7, |api, m| {
let info = wallet_info!(wallet7.clone(), m)?;
let outputs = api.retrieve_outputs(m, true, false, None)?.1;
assert_eq!(outputs.len(), 3);
assert_eq!(info.amount_currently_spendable, base_amount * 6);
api.set_active_account(m, "default")?;
let info = wallet_info!(wallet7.clone(), m)?;
let outputs = api.retrieve_outputs(m, true, false, None)?.1;
assert_eq!(outputs.len(), 15);
assert_eq!(info.amount_currently_spendable, base_amount * 120);
Ok(())
})?;
wallet::controller::owner_single_use(wallet8.clone(), mask8, |api, m| {
api.scan(m, None, false)?;
let info = wallet_info!(wallet8.clone(), m)?;
let outputs = api.retrieve_outputs(m, true, false, None)?.1;
assert_eq!(outputs.len(), 15);
assert_eq!(info.amount_currently_spendable, base_amount * 120);
api.set_active_account(m, "account_1")?;
let info = wallet_info!(wallet8.clone(), m)?;
let outputs = api.retrieve_outputs(m, true, false, None)?.1;
assert_eq!(outputs.len(), 3);
assert_eq!(info.amount_currently_spendable, base_amount * 6);
Ok(())
})?;
// 6) Start using same seed with a different account, now overwriting
// ids on account 2 as well, scan should get all outputs created
// to now into 2 accounts
wallet::controller::owner_single_use(wallet9.clone(), mask9, |api, m| {
api.create_account_path(m, "account_1")?;
api.set_active_account(m, "account_1")?;
Ok(())
})?;
send_to_dest!(
miner.clone(),
miner_mask,
m_client.clone(),
"wallet9",
base_amount * 4
)?;
send_to_dest!(
miner.clone(),
miner_mask,
m_client.clone(),
"wallet9",
base_amount * 5
)?;
send_to_dest!(
miner.clone(),
miner_mask,
m_client.clone(),
"wallet9",
base_amount * 6
)?;
bh += 3;
let _bh = bh;
wallet::controller::owner_single_use(wallet9.clone(), mask9, |api, m| {
let info = wallet_info!(wallet9.clone(), m)?;
let outputs = api.retrieve_outputs(m, true, false, None)?.1;
assert_eq!(outputs.len(), 6);
assert_eq!(info.amount_currently_spendable, base_amount * 21);
api.scan(m, None, true)?;
let info = wallet_info!(wallet9.clone(), m)?;
let outputs = api.retrieve_outputs(m, true, false, None)?.1;
assert_eq!(outputs.len(), 6);
assert_eq!(info.amount_currently_spendable, base_amount * 21);
api.set_active_account(m, "default")?;
let info = wallet_info!(wallet9.clone(), m)?;
let outputs = api.retrieve_outputs(m, true, false, None)?.1;
assert_eq!(outputs.len(), 15);
assert_eq!(info.amount_currently_spendable, base_amount * 120);
Ok(())
})?;
let _ = test_framework::award_blocks_to_wallet(&chain, miner.clone(), miner_mask, cm, false);
// 7) Ensure scan creates missing accounts
wallet::controller::owner_single_use(wallet10.clone(), mask10, |api, m| {
api.scan(m, None, true)?;
api.set_active_account(m, "account_1")?;
let info = wallet_info!(wallet10.clone(), m)?;
let outputs = api.retrieve_outputs(m, true, false, None)?.1;
assert_eq!(outputs.len(), 6);
assert_eq!(info.amount_currently_spendable, base_amount * 21);
api.set_active_account(m, "default")?;
let info = wallet_info!(wallet10.clone(), m)?;
let outputs = api.retrieve_outputs(m, true, false, None)?.1;
assert_eq!(outputs.len(), 15);
assert_eq!(info.amount_currently_spendable, base_amount * 120);
Ok(())
})?;
// let logging finish
thread::sleep(Duration::from_millis(200));
Ok(())
}
// Testing output scanning functionality, easier here as the testing framework
// is all here
fn output_scanning_impl(test_dir: &'static str) -> Result<(), libwallet::Error> {
let mut wallet_proxy = create_wallet_proxy(test_dir);
let chain = wallet_proxy.chain.clone();
// Create a new wallet test client, and set its queues to communicate with the
// proxy
create_wallet_and_add!(
client1,
wallet1,
mask1_i,
test_dir,
"wallet1",
None,
&mut wallet_proxy,
false
);
let mask1 = (&mask1_i).as_ref();
thread::spawn(move || {
if let Err(e) = wallet_proxy.run() {
error!("Wallet Proxy error: {}", e);
}
});
// Do some mining
let bh = 20u64;
let _ =
test_framework::award_blocks_to_wallet(&chain, wallet1.clone(), mask1, bh as usize, false);
// Now some chain scanning
{
// Entire range should be correct
let ranges = client1.height_range_to_pmmr_indices(1, None)?;
assert_eq!(ranges, (1, 38));
let outputs = client1.get_outputs_by_pmmr_index(ranges.0, Some(ranges.1), 1000)?;
assert_eq!(outputs.2.len(), 20);
// Basic range should be correct
let ranges = client1.height_range_to_pmmr_indices(1, Some(14))?;
assert_eq!(ranges, (1, 25));
let outputs = client1.get_outputs_by_pmmr_index(ranges.0, Some(ranges.1), 1000)?;
println!(
"Last Index: {}, Max: {}, Outputs.len: {}",
outputs.0,
outputs.1,
outputs.2.len()
);
assert_eq!(outputs.2.len(), 14);
// mid range
let ranges = client1.height_range_to_pmmr_indices(5, Some(14))?;
assert_eq!(ranges, (8, 25));
let outputs = client1.get_outputs_by_pmmr_index(ranges.0, Some(ranges.1), 1000)?;
println!(
"Last Index: {}, Max: {}, Outputs.len: {}",
outputs.0,
outputs.1,
outputs.2.len()
);
for o in outputs.2.clone() {
println!("height: {}, mmr_index: {}", o.3, o.4);
}
assert_eq!(outputs.2.len(), 10);
// end
let ranges = client1.height_range_to_pmmr_indices(5, None)?;
assert_eq!(ranges, (8, 38));
let outputs = client1.get_outputs_by_pmmr_index(ranges.0, Some(ranges.1), 1000)?;
println!(
"Last Index: {}, Max: {}, Outputs.len: {}",
outputs.0,
outputs.1,
outputs.2.len()
);
for o in outputs.2.clone() {
println!("height: {}, mmr_index: {}", o.3, o.4);
}
assert_eq!(outputs.2.len(), 16);
}
Ok(())
}
#[test]
fn scan() {
let test_dir = "test_output/scan";
setup(test_dir);
if let Err(e) = scan_impl(test_dir) {
panic!("Libwallet Error: {} - {}", e, e.backtrace().unwrap());
}
clean_output_dir(test_dir);
}
#[test]
fn two_wallets_one_seed() {
let test_dir = "test_output/two_wallets_one_seed";
setup(test_dir);
if let Err(e) = two_wallets_one_seed_impl(test_dir) {
panic!("Libwallet Error: {} - {}", e, e.backtrace().unwrap());
}
clean_output_dir(test_dir);
}
#[test]
fn output_scanning() {
let test_dir = "test_output/output_scanning";
setup(test_dir);
if let Err(e) = output_scanning_impl(test_dir) {
panic!("Libwallet Error: {} - {}", e, e.backtrace().unwrap());
}
clean_output_dir(test_dir);
}