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// Copyright 2020 Parity Technologies (UK) Ltd.
// This file is part of Polkadot.

// Polkadot is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.

// Polkadot is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
// GNU General Public License for more details.

// You should have received a copy of the GNU General Public License
// along with Polkadot.  If not, see <http://www.gnu.org/licenses/>.

use frame_support::{assert_noop, assert_ok, traits::Currency};
use polkadot_parachain::primitives::{AccountIdConversion, Id as ParaId};
use std::convert::TryInto;
use xcm::{latest::prelude::*, VersionedXcm};
use xcm_executor::XcmExecutor;

const ALICE: AccountId = AccountId::new([0u8; 32]);
const BOB: AccountId = AccountId::new([1u8; 32]);
const PARA_ID: u32 = 2000;
const INITIAL_BALANCE: u128 = 100;
const SEND_AMOUNT: u128 = 10;

#[test]
fn report_outcome_notify_works() {
	let balances =
		vec![(ALICE, INITIAL_BALANCE), (ParaId::from(PARA_ID).into_account(), INITIAL_BALANCE)];
	let sender = AccountId32 { network: AnyNetwork::get(), id: ALICE.into() }.into();
	let mut message = Xcm(vec![TransferAsset {
		assets: (Here, SEND_AMOUNT).into(),
		beneficiary: sender.clone(),
	}]);
	let call = pallet_test_notifier::Call::notification_received(0, Default::default());
	let notify = Call::TestNotifier(call);
	new_test_ext_with_balances(balances).execute_with(|| {
		XcmPallet::report_outcome_notify(&mut message, Parachain(PARA_ID).into(), notify, 100);
		assert_eq!(
			message,
			Xcm(vec![
				SetAppendix(Xcm(vec![ReportError {
					query_id: 0,
					dest: Parent.into(),
					max_response_weight: 1_000_000
				},])),
				TransferAsset { assets: (Here, SEND_AMOUNT).into(), beneficiary: sender.clone() },
			])
		);
		let status = QueryStatus::Pending {
			responder: MultiLocation::from(Parachain(PARA_ID)).into(),
			maybe_notify: Some((4, 2)),
			timeout: 100,
		};
		assert_eq!(crate::Queries::<Test>::iter().collect::<Vec<_>>(), vec![(0, status)]);

		let r = XcmExecutor::<XcmConfig>::execute_xcm(
			Parachain(PARA_ID).into(),
			Xcm(vec![QueryResponse {
				query_id: 0,
				response: Response::ExecutionResult(Ok(())),
				max_weight: 1_000_000,
			}]),
			1_000_000_000,
		);
		assert_eq!(r, Outcome::Complete(1_000));
		assert_eq!(
			last_events(2),
			vec![
				Event::TestNotifier(pallet_test_notifier::Event::ResponseReceived(
					Parachain(PARA_ID).into(),
					0,
					Response::ExecutionResult(Ok(())),
				)),
				Event::XcmPallet(crate::Event::Notified(0, 4, 2)),
			]
		);
		assert_eq!(crate::Queries::<Test>::iter().collect::<Vec<_>>(), vec![]);
	});
}

#[test]
fn report_outcome_works() {
	let balances =
		vec![(ALICE, INITIAL_BALANCE), (ParaId::from(PARA_ID).into_account(), INITIAL_BALANCE)];
	let sender = AccountId32 { network: AnyNetwork::get(), id: ALICE.into() }.into();
	let mut message = Xcm(vec![TransferAsset {
		assets: (Here, SEND_AMOUNT).into(),
		beneficiary: sender.clone(),
	}]);
	new_test_ext_with_balances(balances).execute_with(|| {
		XcmPallet::report_outcome(&mut message, Parachain(PARA_ID).into(), 100);
		assert_eq!(
			message,
			Xcm(vec![
				SetAppendix(Xcm(vec![ReportError {
					query_id: 0,
					dest: Parent.into(),
					max_response_weight: 0
				},])),
				TransferAsset { assets: (Here, SEND_AMOUNT).into(), beneficiary: sender.clone() },
			])
		);
		let status = QueryStatus::Pending {
			responder: MultiLocation::from(Parachain(PARA_ID)).into(),
			maybe_notify: None,
			timeout: 100,
		};
		assert_eq!(crate::Queries::<Test>::iter().collect::<Vec<_>>(), vec![(0, status)]);

		let r = XcmExecutor::<XcmConfig>::execute_xcm(
			Parachain(PARA_ID).into(),
			Xcm(vec![QueryResponse {
				query_id: 0,
				response: Response::ExecutionResult(Ok(())),
				max_weight: 0,
			}]),
			1_000_000_000,
		);
		assert_eq!(r, Outcome::Complete(1_000));
		assert_eq!(
			last_event(),
			Event::XcmPallet(crate::Event::ResponseReady(0, Response::ExecutionResult(Ok(())),))
		);

		let response = Some((Response::ExecutionResult(Ok(())), 1));
		assert_eq!(XcmPallet::take_response(0), response);
	});
}

/// Test sending an `XCM` message (`XCM::ReserveAssetDeposit`)
///
/// Asserts that the expected message is sent and the event is emitted
#[test]
fn send_works() {
	let balances =
		vec![(ALICE, INITIAL_BALANCE), (ParaId::from(PARA_ID).into_account(), INITIAL_BALANCE)];
	new_test_ext_with_balances(balances).execute_with(|| {
		let sender: MultiLocation =
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			AccountId32 { network: AnyNetwork::get(), id: ALICE.into() }.into();
		let message = Xcm(vec![
			ReserveAssetDeposited((Parent, SEND_AMOUNT).into()),
			ClearOrigin,
			buy_execution((Parent, SEND_AMOUNT)),
			DepositAsset { assets: All.into(), max_assets: 1, beneficiary: sender.clone() },
		]);
		let versioned_dest = Box::new(RelayLocation::get().into());
		let versioned_message = Box::new(VersionedXcm::from(message.clone()));
		assert_ok!(XcmPallet::send(Origin::signed(ALICE), versioned_dest, versioned_message));
		assert_eq!(
			sent_xcm(),
			vec![(
				Xcm(Some(DescendOrigin(sender.clone().try_into().unwrap()))
					.into_iter()
					.chain(message.0.clone().into_iter())
					.collect())
			)],
		);
		assert_eq!(
			last_event(),
			Event::XcmPallet(crate::Event::Sent(sender, RelayLocation::get(), message))
		);
	});
}

/// Test that sending an `XCM` message fails when the `XcmRouter` blocks the
/// matching message format
///
/// Asserts that `send` fails with `Error::SendFailure`
#[test]
fn send_fails_when_xcm_router_blocks() {
	let balances =
		vec![(ALICE, INITIAL_BALANCE), (ParaId::from(PARA_ID).into_account(), INITIAL_BALANCE)];
	new_test_ext_with_balances(balances).execute_with(|| {
		let sender: MultiLocation =
			Junction::AccountId32 { network: AnyNetwork::get(), id: ALICE.into() }.into();
		let message = Xcm(vec![
			ReserveAssetDeposited((Parent, SEND_AMOUNT).into()),
			buy_execution((Parent, SEND_AMOUNT)),
			DepositAsset { assets: All.into(), max_assets: 1, beneficiary: sender.clone() },
		]);
		assert_noop!(
			XcmPallet::send(
				Origin::signed(ALICE),
				Box::new(MultiLocation::ancestor(8).into()),
				Box::new(VersionedXcm::from(message.clone())),
			),
			crate::Error::<Test>::SendFailure
		);
	});
}

/// Test `teleport_assets`
///
/// Asserts that the sender's balance is decreased as a result of execution of
/// local effects.
#[test]
fn teleport_assets_works() {
	let balances =
		vec![(ALICE, INITIAL_BALANCE), (ParaId::from(PARA_ID).into_account(), INITIAL_BALANCE)];
	new_test_ext_with_balances(balances).execute_with(|| {
		let weight = 2 * BaseXcmWeight::get();
		assert_eq!(Balances::total_balance(&ALICE), INITIAL_BALANCE);
		assert_ok!(XcmPallet::teleport_assets(
			Origin::signed(ALICE),
			Box::new(RelayLocation::get().into()),
			Box::new(AccountId32 { network: Any, id: BOB.into() }.into().into()),
			Box::new((Here, SEND_AMOUNT).into()),
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			0,
		));
		assert_eq!(Balances::total_balance(&ALICE), INITIAL_BALANCE - SEND_AMOUNT);
		assert_eq!(
			last_event(),
			Event::XcmPallet(crate::Event::Attempted(Outcome::Complete(weight)))
		);
	});
}

/// Test `reserve_transfer_assets`
///
/// Asserts that the sender's balance is decreased and the beneficiary's balance
/// is increased. Verifies the correct message is sent and event is emitted.
#[test]
fn reserve_transfer_assets_works() {
	let balances =
		vec![(ALICE, INITIAL_BALANCE), (ParaId::from(PARA_ID).into_account(), INITIAL_BALANCE)];
	new_test_ext_with_balances(balances).execute_with(|| {
		let weight = BaseXcmWeight::get();
		let dest: MultiLocation =
			Junction::AccountId32 { network: NetworkId::Any, id: ALICE.into() }.into();
		assert_eq!(Balances::total_balance(&ALICE), INITIAL_BALANCE);
		assert_ok!(XcmPallet::reserve_transfer_assets(
			Origin::signed(ALICE),
			Box::new(Parachain(PARA_ID).into().into()),
			Box::new(dest.clone().into()),
			Box::new((Here, SEND_AMOUNT).into()),
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			0,
		));
		// Alice spent amount
		assert_eq!(Balances::free_balance(ALICE), INITIAL_BALANCE - SEND_AMOUNT);
		// Destination account (parachain account) has amount
		let para_acc: AccountId = ParaId::from(PARA_ID).into_account();
		assert_eq!(Balances::free_balance(para_acc), INITIAL_BALANCE + SEND_AMOUNT);
		assert_eq!(
			sent_xcm(),
			vec![(
				Parachain(PARA_ID).into(),
				Xcm(vec![
					ReserveAssetDeposited((Parent, SEND_AMOUNT).into()),
					ClearOrigin,
					buy_execution((Parent, SEND_AMOUNT)),
					DepositAsset { assets: All.into(), max_assets: 1, beneficiary: dest },
				]),
			)]
		);
		assert_eq!(
			last_event(),
			Event::XcmPallet(crate::Event::Attempted(Outcome::Complete(weight)))
		);
	});
}

/// Test local execution of XCM
///
/// Asserts that the sender's balance is decreased and the beneficiary's balance
/// is increased. Verifies the expected event is emitted.
#[test]
fn execute_withdraw_to_deposit_works() {
	let balances =
		vec![(ALICE, INITIAL_BALANCE), (ParaId::from(PARA_ID).into_account(), INITIAL_BALANCE)];
	new_test_ext_with_balances(balances).execute_with(|| {
		let weight = 3 * BaseXcmWeight::get();
		let dest: MultiLocation =
			Junction::AccountId32 { network: NetworkId::Any, id: BOB.into() }.into();
		assert_eq!(Balances::total_balance(&ALICE), INITIAL_BALANCE);
		assert_ok!(XcmPallet::execute(
			Origin::signed(ALICE),
			Box::new(VersionedXcm::from(Xcm(vec![
				WithdrawAsset((Here, SEND_AMOUNT).into()),
				buy_execution((Here, SEND_AMOUNT)),
				DepositAsset { assets: All.into(), max_assets: 1, beneficiary: dest },
			]))),
			weight
		));
		assert_eq!(Balances::total_balance(&ALICE), INITIAL_BALANCE - SEND_AMOUNT);
		assert_eq!(Balances::total_balance(&BOB), SEND_AMOUNT);
		assert_eq!(
			last_event(),
			Event::XcmPallet(crate::Event::Attempted(Outcome::Complete(weight)))
		);
	});
}