client.rs

	fn best_containing_with_hash_not_found() {
		// block tree:
		// G

		let (client, longest_chain_select) = TestClientBuilder::new().build_with_longest_chain();

		let uninserted_block = client.new_block(Default::default()).unwrap().bake().unwrap();

		assert_eq!(
			None,
			longest_chain_select.finality_target(uninserted_block.hash().clone(), None).unwrap()
		);
	}

	#[test]
	fn uncles_with_only_ancestors() {
		// block tree:
		// G -> A1 -> A2
		let client = test_client::new();

		// G -> A1
		let a1 = client.new_block(Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, a1.clone()).unwrap();

		// A1 -> A2
		let a2 = client.new_block(Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, a2.clone()).unwrap();
		let v: Vec<H256> = Vec::new();
		assert_eq!(v, client.uncles(a2.hash(), 3).unwrap());
	}

	#[test]
	fn uncles_with_multiple_forks() {
		// block tree:
		// G -> A1 -> A2 -> A3 -> A4 -> A5
		//      A1 -> B2 -> B3 -> B4
		//	          B2 -> C3
		//	    A1 -> D2
		let client = test_client::new();

		// G -> A1
		let a1 = client.new_block(Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, a1.clone()).unwrap();

		// A1 -> A2
		let a2 = client.new_block_at(&BlockId::Hash(a1.hash()), Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, a2.clone()).unwrap();

		// A2 -> A3
		let a3 = client.new_block_at(&BlockId::Hash(a2.hash()), Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, a3.clone()).unwrap();

		// A3 -> A4
		let a4 = client.new_block_at(&BlockId::Hash(a3.hash()), Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, a4.clone()).unwrap();

		// A4 -> A5
		let a5 = client.new_block_at(&BlockId::Hash(a4.hash()), Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, a5.clone()).unwrap();

		// A1 -> B2
		let mut builder = client.new_block_at(&BlockId::Hash(a1.hash()), Default::default()).unwrap();
		// this push is required as otherwise B2 has the same hash as A2 and won't get imported
		builder.push_transfer(Transfer {
			from: AccountKeyring::Alice.into(),
			to: AccountKeyring::Ferdie.into(),
			amount: 41,
			nonce: 0,
		}).unwrap();
		let b2 = builder.bake().unwrap();
		client.import(BlockOrigin::Own, b2.clone()).unwrap();

		// B2 -> B3
		let b3 = client.new_block_at(&BlockId::Hash(b2.hash()), Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, b3.clone()).unwrap();

		// B3 -> B4
		let b4 = client.new_block_at(&BlockId::Hash(b3.hash()), Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, b4.clone()).unwrap();

		// // B2 -> C3
		let mut builder = client.new_block_at(&BlockId::Hash(b2.hash()), Default::default()).unwrap();
		// this push is required as otherwise C3 has the same hash as B3 and won't get imported
		builder.push_transfer(Transfer {
			from: AccountKeyring::Alice.into(),
			to: AccountKeyring::Ferdie.into(),
			amount: 1,
			nonce: 1,
		}).unwrap();
		let c3 = builder.bake().unwrap();
		client.import(BlockOrigin::Own, c3.clone()).unwrap();

		// A1 -> D2
		let mut builder = client.new_block_at(&BlockId::Hash(a1.hash()), Default::default()).unwrap();
		// this push is required as otherwise D2 has the same hash as B2 and won't get imported
		builder.push_transfer(Transfer {
			from: AccountKeyring::Alice.into(),
			to: AccountKeyring::Ferdie.into(),
			amount: 1,
			nonce: 0,
		}).unwrap();
		let d2 = builder.bake().unwrap();
		client.import(BlockOrigin::Own, d2.clone()).unwrap();

		let genesis_hash = client.info().chain.genesis_hash;

		let uncles1 = client.uncles(a4.hash(), 10).unwrap();
		assert_eq!(vec![b2.hash(), d2.hash()], uncles1);

		let uncles2 = client.uncles(a4.hash(), 0).unwrap();
		assert_eq!(0, uncles2.len());

		let uncles3 = client.uncles(a1.hash(), 10).unwrap();
		assert_eq!(0, uncles3.len());

		let uncles4 = client.uncles(genesis_hash, 10).unwrap();
		assert_eq!(0, uncles4.len());

		let uncles5 = client.uncles(d2.hash(), 10).unwrap();
		assert_eq!(vec![a2.hash(), b2.hash()], uncles5);

		let uncles6 = client.uncles(b3.hash(), 1).unwrap();
		assert_eq!(vec![c3.hash()], uncles6);
	}

	#[test]
	fn best_containing_on_longest_chain_with_single_chain_3_blocks() {
		// block tree:
		// G -> A1 -> A2

		let (client, longest_chain_select) = TestClientBuilder::new().build_with_longest_chain();

		// G -> A1
		let a1 = client.new_block(Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, a1.clone()).unwrap();

		// A1 -> A2
		let a2 = client.new_block(Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, a2.clone()).unwrap();

		let genesis_hash = client.info().chain.genesis_hash;

		assert_eq!(a2.hash(), longest_chain_select.finality_target(genesis_hash, None).unwrap().unwrap());
		assert_eq!(a2.hash(), longest_chain_select.finality_target(a1.hash(), None).unwrap().unwrap());
		assert_eq!(a2.hash(), longest_chain_select.finality_target(a2.hash(), None).unwrap().unwrap());
	}

	#[test]
	fn best_containing_on_longest_chain_with_multiple_forks() {
		// block tree:
		// G -> A1 -> A2 -> A3 -> A4 -> A5
		//      A1 -> B2 -> B3 -> B4
		//	          B2 -> C3
		//	    A1 -> D2
		let (client, longest_chain_select) = TestClientBuilder::new().build_with_longest_chain();

		// G -> A1
		let a1 = client.new_block(Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, a1.clone()).unwrap();

		// A1 -> A2
		let a2 = client.new_block_at(&BlockId::Hash(a1.hash()), Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, a2.clone()).unwrap();

		// A2 -> A3
		let a3 = client.new_block_at(&BlockId::Hash(a2.hash()), Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, a3.clone()).unwrap();

		// A3 -> A4
		let a4 = client.new_block_at(&BlockId::Hash(a3.hash()), Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, a4.clone()).unwrap();

		// A4 -> A5
		let a5 = client.new_block_at(&BlockId::Hash(a4.hash()), Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, a5.clone()).unwrap();

		// A1 -> B2
		let mut builder = client.new_block_at(&BlockId::Hash(a1.hash()), Default::default()).unwrap();
		// this push is required as otherwise B2 has the same hash as A2 and won't get imported
		builder.push_transfer(Transfer {
			from: AccountKeyring::Alice.into(),
			to: AccountKeyring::Ferdie.into(),
			amount: 41,
			nonce: 0,
		}).unwrap();
		let b2 = builder.bake().unwrap();
		client.import(BlockOrigin::Own, b2.clone()).unwrap();

		// B2 -> B3
		let b3 = client.new_block_at(&BlockId::Hash(b2.hash()), Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, b3.clone()).unwrap();

		// B3 -> B4
		let b4 = client.new_block_at(&BlockId::Hash(b3.hash()), Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, b4.clone()).unwrap();

		// // B2 -> C3
		let mut builder = client.new_block_at(&BlockId::Hash(b2.hash()), Default::default()).unwrap();
		// this push is required as otherwise C3 has the same hash as B3 and won't get imported
		builder.push_transfer(Transfer {
			from: AccountKeyring::Alice.into(),
			to: AccountKeyring::Ferdie.into(),
			amount: 1,
			nonce: 1,
		}).unwrap();
		let c3 = builder.bake().unwrap();
		client.import(BlockOrigin::Own, c3.clone()).unwrap();

		// A1 -> D2
		let mut builder = client.new_block_at(&BlockId::Hash(a1.hash()), Default::default()).unwrap();
		// this push is required as otherwise D2 has the same hash as B2 and won't get imported
		builder.push_transfer(Transfer {
			from: AccountKeyring::Alice.into(),
			to: AccountKeyring::Ferdie.into(),
			amount: 1,
			nonce: 0,
		}).unwrap();
		let d2 = builder.bake().unwrap();
		client.import(BlockOrigin::Own, d2.clone()).unwrap();

		assert_eq!(client.info().chain.best_hash, a5.hash());

		let genesis_hash = client.info().chain.genesis_hash;
		let leaves = longest_chain_select.leaves().unwrap();

		assert!(leaves.contains(&a5.hash()));
		assert!(leaves.contains(&b4.hash()));
		assert!(leaves.contains(&c3.hash()));
		assert!(leaves.contains(&d2.hash()));
		assert_eq!(leaves.len(), 4);

		// search without restriction

		assert_eq!(a5.hash(), longest_chain_select.finality_target(
			genesis_hash, None).unwrap().unwrap());
		assert_eq!(a5.hash(), longest_chain_select.finality_target(
			a1.hash(), None).unwrap().unwrap());
		assert_eq!(a5.hash(), longest_chain_select.finality_target(
			a2.hash(), None).unwrap().unwrap());
		assert_eq!(a5.hash(), longest_chain_select.finality_target(
			a3.hash(), None).unwrap().unwrap());
		assert_eq!(a5.hash(), longest_chain_select.finality_target(
			a4.hash(), None).unwrap().unwrap());
		assert_eq!(a5.hash(), longest_chain_select.finality_target(
			a5.hash(), None).unwrap().unwrap());

		assert_eq!(b4.hash(), longest_chain_select.finality_target(
			b2.hash(), None).unwrap().unwrap());
		assert_eq!(b4.hash(), longest_chain_select.finality_target(
			b3.hash(), None).unwrap().unwrap());
		assert_eq!(b4.hash(), longest_chain_select.finality_target(
			b4.hash(), None).unwrap().unwrap());

		assert_eq!(c3.hash(), longest_chain_select.finality_target(
			c3.hash(), None).unwrap().unwrap());

		assert_eq!(d2.hash(), longest_chain_select.finality_target(
			d2.hash(), None).unwrap().unwrap());


		// search only blocks with number <= 5. equivalent to without restriction for this scenario

		assert_eq!(a5.hash(), longest_chain_select.finality_target(
			genesis_hash, Some(5)).unwrap().unwrap());
		assert_eq!(a5.hash(), longest_chain_select.finality_target(
			a1.hash(), Some(5)).unwrap().unwrap());
		assert_eq!(a5.hash(), longest_chain_select.finality_target(
			a2.hash(), Some(5)).unwrap().unwrap());
		assert_eq!(a5.hash(), longest_chain_select.finality_target(
			a3.hash(), Some(5)).unwrap().unwrap());
		assert_eq!(a5.hash(), longest_chain_select.finality_target(
			a4.hash(), Some(5)).unwrap().unwrap());
		assert_eq!(a5.hash(), longest_chain_select.finality_target(
			a5.hash(), Some(5)).unwrap().unwrap());

		assert_eq!(b4.hash(), longest_chain_select.finality_target(
			b2.hash(), Some(5)).unwrap().unwrap());
		assert_eq!(b4.hash(), longest_chain_select.finality_target(
			b3.hash(), Some(5)).unwrap().unwrap());
		assert_eq!(b4.hash(), longest_chain_select.finality_target(
			b4.hash(), Some(5)).unwrap().unwrap());

		assert_eq!(c3.hash(), longest_chain_select.finality_target(
			c3.hash(), Some(5)).unwrap().unwrap());

		assert_eq!(d2.hash(), longest_chain_select.finality_target(
			d2.hash(), Some(5)).unwrap().unwrap());


		// search only blocks with number <= 4

		assert_eq!(a4.hash(), longest_chain_select.finality_target(
			genesis_hash, Some(4)).unwrap().unwrap());
		assert_eq!(a4.hash(), longest_chain_select.finality_target(
			a1.hash(), Some(4)).unwrap().unwrap());
		assert_eq!(a4.hash(), longest_chain_select.finality_target(
			a2.hash(), Some(4)).unwrap().unwrap());
		assert_eq!(a4.hash(), longest_chain_select.finality_target(
			a3.hash(), Some(4)).unwrap().unwrap());
		assert_eq!(a4.hash(), longest_chain_select.finality_target(
			a4.hash(), Some(4)).unwrap().unwrap());
		assert_eq!(None, longest_chain_select.finality_target(
			a5.hash(), Some(4)).unwrap());

		assert_eq!(b4.hash(), longest_chain_select.finality_target(
			b2.hash(), Some(4)).unwrap().unwrap());
		assert_eq!(b4.hash(), longest_chain_select.finality_target(
			b3.hash(), Some(4)).unwrap().unwrap());
		assert_eq!(b4.hash(), longest_chain_select.finality_target(
			b4.hash(), Some(4)).unwrap().unwrap());

		assert_eq!(c3.hash(), longest_chain_select.finality_target(
			c3.hash(), Some(4)).unwrap().unwrap());

		assert_eq!(d2.hash(), longest_chain_select.finality_target(
			d2.hash(), Some(4)).unwrap().unwrap());


		// search only blocks with number <= 3

		assert_eq!(a3.hash(), longest_chain_select.finality_target(
			genesis_hash, Some(3)).unwrap().unwrap());
		assert_eq!(a3.hash(), longest_chain_select.finality_target(
			a1.hash(), Some(3)).unwrap().unwrap());
		assert_eq!(a3.hash(), longest_chain_select.finality_target(
			a2.hash(), Some(3)).unwrap().unwrap());
		assert_eq!(a3.hash(), longest_chain_select.finality_target(
			a3.hash(), Some(3)).unwrap().unwrap());
		assert_eq!(None, longest_chain_select.finality_target(
			a4.hash(), Some(3)).unwrap());
		assert_eq!(None, longest_chain_select.finality_target(
			a5.hash(), Some(3)).unwrap());

		assert_eq!(b3.hash(), longest_chain_select.finality_target(
			b2.hash(), Some(3)).unwrap().unwrap());
		assert_eq!(b3.hash(), longest_chain_select.finality_target(
			b3.hash(), Some(3)).unwrap().unwrap());
		assert_eq!(None, longest_chain_select.finality_target(
			b4.hash(), Some(3)).unwrap());

		assert_eq!(c3.hash(), longest_chain_select.finality_target(
			c3.hash(), Some(3)).unwrap().unwrap());

		assert_eq!(d2.hash(), longest_chain_select.finality_target(
			d2.hash(), Some(3)).unwrap().unwrap());


		// search only blocks with number <= 2

		assert_eq!(a2.hash(), longest_chain_select.finality_target(
			genesis_hash, Some(2)).unwrap().unwrap());
		assert_eq!(a2.hash(), longest_chain_select.finality_target(
			a1.hash(), Some(2)).unwrap().unwrap());
		assert_eq!(a2.hash(), longest_chain_select.finality_target(
			a2.hash(), Some(2)).unwrap().unwrap());
		assert_eq!(None, longest_chain_select.finality_target(
			a3.hash(), Some(2)).unwrap());
		assert_eq!(None, longest_chain_select.finality_target(
			a4.hash(), Some(2)).unwrap());
		assert_eq!(None, longest_chain_select.finality_target(
			a5.hash(), Some(2)).unwrap());

		assert_eq!(b2.hash(), longest_chain_select.finality_target(
			b2.hash(), Some(2)).unwrap().unwrap());
		assert_eq!(None, longest_chain_select.finality_target(
			b3.hash(), Some(2)).unwrap());
		assert_eq!(None, longest_chain_select.finality_target(
			b4.hash(), Some(2)).unwrap());

		assert_eq!(None, longest_chain_select.finality_target(
			c3.hash(), Some(2)).unwrap());

		assert_eq!(d2.hash(), longest_chain_select.finality_target(
			d2.hash(), Some(2)).unwrap().unwrap());


		// search only blocks with number <= 1

		assert_eq!(a1.hash(), longest_chain_select.finality_target(
			genesis_hash, Some(1)).unwrap().unwrap());
		assert_eq!(a1.hash(), longest_chain_select.finality_target(
			a1.hash(), Some(1)).unwrap().unwrap());
		assert_eq!(None, longest_chain_select.finality_target(
			a2.hash(), Some(1)).unwrap());
		assert_eq!(None, longest_chain_select.finality_target(
			a3.hash(), Some(1)).unwrap());
		assert_eq!(None, longest_chain_select.finality_target(
			a4.hash(), Some(1)).unwrap());
		assert_eq!(None, longest_chain_select.finality_target(
			a5.hash(), Some(1)).unwrap());

		assert_eq!(None, longest_chain_select.finality_target(
			b2.hash(), Some(1)).unwrap());
		assert_eq!(None, longest_chain_select.finality_target(
			b3.hash(), Some(1)).unwrap());
		assert_eq!(None, longest_chain_select.finality_target(
			b4.hash(), Some(1)).unwrap());

		assert_eq!(None, longest_chain_select.finality_target(
			c3.hash(), Some(1)).unwrap());

		assert_eq!(None, longest_chain_select.finality_target(
			d2.hash(), Some(1)).unwrap());

		// search only blocks with number <= 0

		assert_eq!(genesis_hash, longest_chain_select.finality_target(
			genesis_hash, Some(0)).unwrap().unwrap());
		assert_eq!(None, longest_chain_select.finality_target(
			a1.hash(), Some(0)).unwrap());
		assert_eq!(None, longest_chain_select.finality_target(
			a2.hash(), Some(0)).unwrap());
		assert_eq!(None, longest_chain_select.finality_target(
			a3.hash(), Some(0)).unwrap());
		assert_eq!(None, longest_chain_select.finality_target(
			a4.hash(), Some(0)).unwrap());
		assert_eq!(None, longest_chain_select.finality_target(
			a5.hash(), Some(0)).unwrap());

		assert_eq!(None, longest_chain_select.finality_target(
			b2.hash(), Some(0)).unwrap());
		assert_eq!(None, longest_chain_select.finality_target(
			b3.hash(), Some(0)).unwrap());
		assert_eq!(None, longest_chain_select.finality_target(
			b4.hash(), Some(0)).unwrap());

		assert_eq!(None, longest_chain_select.finality_target(
			c3.hash().clone(), Some(0)).unwrap());

		assert_eq!(None, longest_chain_select.finality_target(
			d2.hash().clone(), Some(0)).unwrap());
	}

	#[test]
	fn best_containing_on_longest_chain_with_max_depth_higher_than_best() {
		// block tree:
		// G -> A1 -> A2

		let (client, longest_chain_select) = TestClientBuilder::new().build_with_longest_chain();

		// G -> A1
		let a1 = client.new_block(Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, a1.clone()).unwrap();

		// A1 -> A2
		let a2 = client.new_block(Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, a2.clone()).unwrap();

		let genesis_hash = client.info().chain.genesis_hash;

		assert_eq!(a2.hash(), longest_chain_select.finality_target(genesis_hash, Some(10)).unwrap().unwrap());
	}

	#[test]
	fn key_changes_works() {
		let (client, _, test_cases) = prepare_client_with_key_changes();

		for (index, (begin, end, key, expected_result)) in test_cases.into_iter().enumerate() {
			let end = client.block_hash(end).unwrap().unwrap();
			let actual_result = client.key_changes(begin, BlockId::Hash(end), &StorageKey(key)).unwrap();
			match actual_result == expected_result {
				true => (),
				false => panic!(format!("Failed test {}: actual = {:?}, expected = {:?}",
					index, actual_result, expected_result)),
			}
		}
	}

	#[test]
	fn import_with_justification() {
		use test_client::blockchain::Backend;

		let client = test_client::new();

		// G -> A1
		let a1 = client.new_block(Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, a1.clone()).unwrap();

		// A1 -> A2
		let a2 = client.new_block_at(&BlockId::Hash(a1.hash()), Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, a2.clone()).unwrap();

		// A2 -> A3
		let justification = vec![1, 2, 3];
		let a3 = client.new_block_at(&BlockId::Hash(a2.hash()), Default::default()).unwrap().bake().unwrap();
		client.import_justified(BlockOrigin::Own, a3.clone(), justification.clone()).unwrap();

		#[allow(deprecated)]
		let blockchain = client.backend().blockchain();

		assert_eq!(
			blockchain.last_finalized().unwrap(),
			a3.hash(),
		);

		assert_eq!(
			blockchain.justification(BlockId::Hash(a3.hash())).unwrap(),
			Some(justification),
		);

		assert_eq!(
			blockchain.justification(BlockId::Hash(a1.hash())).unwrap(),
			None,
		);

		assert_eq!(
			blockchain.justification(BlockId::Hash(a2.hash())).unwrap(),
			None,
		);
	}

	#[test]
	fn importing_diverged_finalized_block_should_trigger_reorg() {
		use test_client::blockchain::HeaderBackend;

		let client = test_client::new();

		// G -> A1 -> A2
		//   \
		//    -> B1
		let a1 = client.new_block_at(&BlockId::Number(0), Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, a1.clone()).unwrap();

		let a2 = client.new_block_at(&BlockId::Hash(a1.hash()), Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, a2.clone()).unwrap();

		let mut b1 = client.new_block_at(&BlockId::Number(0), Default::default()).unwrap();
		// needed to make sure B1 gets a different hash from A1
		b1.push_transfer(Transfer {
			from: AccountKeyring::Alice.into(),
			to: AccountKeyring::Ferdie.into(),
			amount: 1,
			nonce: 0,
		}).unwrap();
		// create but don't import B1 just yet
		let b1 = b1.bake().unwrap();

		#[allow(deprecated)]
		let blockchain = client.backend().blockchain();

		// A2 is the current best since it's the longest chain
		assert_eq!(
			blockchain.info().best_hash,
			a2.hash(),
		);

		// importing B1 as finalized should trigger a re-org and set it as new best
		let justification = vec![1, 2, 3];
		client.import_justified(BlockOrigin::Own, b1.clone(), justification).unwrap();

		assert_eq!(
			blockchain.info().best_hash,
			b1.hash(),
		);

		assert_eq!(
			blockchain.info().finalized_hash,
			b1.hash(),
		);
	}

	#[test]
	fn finalizing_diverged_block_should_trigger_reorg() {
		use test_client::blockchain::HeaderBackend;

		let (client, select_chain) = TestClientBuilder::new().build_with_longest_chain();

		// G -> A1 -> A2
		//   \
		//    -> B1 -> B2
		let a1 = client.new_block_at(&BlockId::Number(0), Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, a1.clone()).unwrap();

		let a2 = client.new_block_at(&BlockId::Hash(a1.hash()), Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, a2.clone()).unwrap();

		let mut b1 = client.new_block_at(&BlockId::Number(0), Default::default()).unwrap();
		// needed to make sure B1 gets a different hash from A1
		b1.push_transfer(Transfer {
			from: AccountKeyring::Alice.into(),
			to: AccountKeyring::Ferdie.into(),
			amount: 1,
			nonce: 0,
		}).unwrap();
		let b1 = b1.bake().unwrap();
		client.import(BlockOrigin::Own, b1.clone()).unwrap();

		let b2 = client.new_block_at(&BlockId::Hash(b1.hash()), Default::default()).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, b2.clone()).unwrap();

		#[allow(deprecated)]
		let blockchain = client.backend().blockchain();

		// A2 is the current best since it's the longest chain
		assert_eq!(
			blockchain.info().best_hash,
			a2.hash(),
		);

		// we finalize block B1 which is on a different branch from current best
		// which should trigger a re-org.
		client.finalize_block(BlockId::Hash(b1.hash()), None, false).unwrap();

		// B1 should now be the latest finalized
		assert_eq!(
			blockchain.info().finalized_hash,
			b1.hash(),
		);

		// and B1 should be the new best block (`finalize_block` as no way of
		// knowing about B2)
		assert_eq!(
			blockchain.info().best_hash,
			b1.hash(),
		);

		// `SelectChain` should report B2 as best block though
		assert_eq!(
			select_chain.best_chain().unwrap().hash(),
			b2.hash(),
		);

		// after we build B3 on top of B2 and import it
		// it should be the new best block,
		let b3 = client.new_block_at(
			&BlockId::Hash(b2.hash()),
			Default::default(),
		).unwrap().bake().unwrap();
		client.import(BlockOrigin::Own, b3.clone()).unwrap();

		assert_eq!(
			blockchain.info().best_hash,
			b3.hash(),
		);
	}
}