mirror of
https://github.com/pezkuwichain/pezkuwi-subxt.git
synced 2026-05-01 12:27:56 +00:00
Bastian Köcher
9b4f9c9e42
Before we required these trait bounds because of some bug in rustc, but now as this bug is fixed they can be removed.
463 lines
13 KiB
Rust
463 lines
13 KiB
Rust
// This file is part of Substrate.
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// Copyright (C) 2018-2021 Parity Technologies (UK) Ltd.
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// SPDX-License-Identifier: Apache-2.0
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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//! tests that should hold for all implementations of certain traits.
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//! to test implementations without duplication.
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#![allow(missing_docs)]
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use std::sync::Arc;
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use crate::{
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AccountKeyring, ClientBlockImportExt, BlockBuilderExt, TestClientBuilder, TestClientBuilderExt,
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};
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use sc_client_api::backend;
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use sc_client_api::blockchain::{Backend as BlockChainBackendT, HeaderBackend};
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use sp_consensus::BlockOrigin;
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use substrate_test_runtime::{self, Transfer};
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use sp_runtime::generic::BlockId;
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use sp_runtime::traits::Block as BlockT;
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use sc_block_builder::BlockBuilderProvider;
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use futures::executor::block_on;
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/// helper to test the `leaves` implementation for various backends
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pub fn test_leaves_for_backend<B: 'static>(backend: Arc<B>) where
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B: backend::Backend<substrate_test_runtime::Block>,
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{
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// block tree:
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// G -> A1 -> A2 -> A3 -> A4 -> A5
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// A1 -> B2 -> B3 -> B4
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// B2 -> C3
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// A1 -> D2
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let mut client = TestClientBuilder::with_backend(backend.clone()).build();
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let blockchain = backend.blockchain();
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let genesis_hash = client.chain_info().genesis_hash;
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assert_eq!(
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blockchain.leaves().unwrap(),
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vec![genesis_hash]);
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// G -> A1
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let a1 = client.new_block(Default::default()).unwrap().build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, a1.clone())).unwrap();
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assert_eq!(
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blockchain.leaves().unwrap(),
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vec![a1.hash()],
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);
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// A1 -> A2
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let a2 = client.new_block_at(
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&BlockId::Hash(a1.hash()),
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Default::default(),
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false,
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).unwrap().build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, a2.clone())).unwrap();
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#[allow(deprecated)]
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assert_eq!(
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blockchain.leaves().unwrap(),
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vec![a2.hash()],
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);
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// A2 -> A3
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let a3 = client.new_block_at(
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&BlockId::Hash(a2.hash()),
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Default::default(),
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false,
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).unwrap().build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, a3.clone())).unwrap();
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assert_eq!(
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blockchain.leaves().unwrap(),
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vec![a3.hash()],
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);
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// A3 -> A4
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let a4 = client.new_block_at(
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&BlockId::Hash(a3.hash()),
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Default::default(),
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false,
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).unwrap().build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, a4.clone())).unwrap();
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assert_eq!(
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blockchain.leaves().unwrap(),
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vec![a4.hash()],
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);
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// A4 -> A5
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let a5 = client.new_block_at(
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&BlockId::Hash(a4.hash()),
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Default::default(),
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false,
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).unwrap().build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, a5.clone())).unwrap();
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assert_eq!(
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blockchain.leaves().unwrap(),
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vec![a5.hash()],
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);
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// A1 -> B2
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let mut builder = client.new_block_at(
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&BlockId::Hash(a1.hash()),
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Default::default(),
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false,
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).unwrap();
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// this push is required as otherwise B2 has the same hash as A2 and won't get imported
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builder.push_transfer(Transfer {
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from: AccountKeyring::Alice.into(),
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to: AccountKeyring::Ferdie.into(),
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amount: 41,
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nonce: 0,
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}).unwrap();
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let b2 = builder.build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, b2.clone())).unwrap();
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assert_eq!(
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blockchain.leaves().unwrap(),
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vec![a5.hash(), b2.hash()],
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);
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// B2 -> B3
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let b3 = client.new_block_at(
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&BlockId::Hash(b2.hash()),
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Default::default(),
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false,
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).unwrap().build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, b3.clone())).unwrap();
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assert_eq!(
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blockchain.leaves().unwrap(),
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vec![a5.hash(), b3.hash()],
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);
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// B3 -> B4
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let b4 = client.new_block_at(
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&BlockId::Hash(b3.hash()),
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Default::default(),
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false,
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).unwrap().build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, b4.clone())).unwrap();
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assert_eq!(
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blockchain.leaves().unwrap(),
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vec![a5.hash(), b4.hash()],
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);
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// // B2 -> C3
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let mut builder = client.new_block_at(
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&BlockId::Hash(b2.hash()),
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Default::default(),
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false,
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).unwrap();
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// this push is required as otherwise C3 has the same hash as B3 and won't get imported
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builder.push_transfer(Transfer {
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from: AccountKeyring::Alice.into(),
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to: AccountKeyring::Ferdie.into(),
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amount: 1,
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nonce: 1,
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}).unwrap();
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let c3 = builder.build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, c3.clone())).unwrap();
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assert_eq!(
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blockchain.leaves().unwrap(),
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vec![a5.hash(), b4.hash(), c3.hash()],
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);
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// A1 -> D2
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let mut builder = client.new_block_at(
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&BlockId::Hash(a1.hash()),
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Default::default(),
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false,
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).unwrap();
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// this push is required as otherwise D2 has the same hash as B2 and won't get imported
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builder.push_transfer(Transfer {
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from: AccountKeyring::Alice.into(),
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to: AccountKeyring::Ferdie.into(),
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amount: 1,
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nonce: 0,
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}).unwrap();
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let d2 = builder.build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, d2.clone())).unwrap();
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assert_eq!(
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blockchain.leaves().unwrap(),
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vec![a5.hash(), b4.hash(), c3.hash(), d2.hash()],
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);
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}
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/// helper to test the `children` implementation for various backends
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pub fn test_children_for_backend<B: 'static>(backend: Arc<B>) where
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B: backend::LocalBackend<substrate_test_runtime::Block>,
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{
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// block tree:
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// G -> A1 -> A2 -> A3 -> A4 -> A5
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// A1 -> B2 -> B3 -> B4
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// B2 -> C3
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// A1 -> D2
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let mut client = TestClientBuilder::with_backend(backend.clone()).build();
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let blockchain = backend.blockchain();
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// G -> A1
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let a1 = client.new_block(Default::default()).unwrap().build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, a1.clone())).unwrap();
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// A1 -> A2
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let a2 = client.new_block_at(
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&BlockId::Hash(a1.hash()),
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Default::default(),
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false,
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).unwrap().build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, a2.clone())).unwrap();
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// A2 -> A3
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let a3 = client.new_block_at(
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&BlockId::Hash(a2.hash()),
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Default::default(),
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false,
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).unwrap().build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, a3.clone())).unwrap();
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// A3 -> A4
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let a4 = client.new_block_at(
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&BlockId::Hash(a3.hash()),
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Default::default(),
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false,
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).unwrap().build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, a4.clone())).unwrap();
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// A4 -> A5
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let a5 = client.new_block_at(
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&BlockId::Hash(a4.hash()),
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Default::default(),
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false,
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).unwrap().build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, a5.clone())).unwrap();
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// A1 -> B2
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let mut builder = client.new_block_at(
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&BlockId::Hash(a1.hash()),
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Default::default(),
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false,
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).unwrap();
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// this push is required as otherwise B2 has the same hash as A2 and won't get imported
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builder.push_transfer(Transfer {
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from: AccountKeyring::Alice.into(),
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to: AccountKeyring::Ferdie.into(),
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amount: 41,
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nonce: 0,
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}).unwrap();
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let b2 = builder.build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, b2.clone())).unwrap();
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// B2 -> B3
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let b3 = client.new_block_at(
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&BlockId::Hash(b2.hash()),
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Default::default(),
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false,
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).unwrap().build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, b3.clone())).unwrap();
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// B3 -> B4
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let b4 = client.new_block_at(
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&BlockId::Hash(b3.hash()),
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Default::default(),
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false,
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).unwrap().build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, b4)).unwrap();
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// // B2 -> C3
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let mut builder = client.new_block_at(
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&BlockId::Hash(b2.hash()),
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Default::default(),
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false,
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).unwrap();
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// this push is required as otherwise C3 has the same hash as B3 and won't get imported
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builder.push_transfer(Transfer {
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from: AccountKeyring::Alice.into(),
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to: AccountKeyring::Ferdie.into(),
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amount: 1,
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nonce: 1,
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}).unwrap();
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let c3 = builder.build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, c3.clone())).unwrap();
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// A1 -> D2
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let mut builder = client.new_block_at(
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&BlockId::Hash(a1.hash()),
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Default::default(),
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false,
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).unwrap();
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// this push is required as otherwise D2 has the same hash as B2 and won't get imported
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builder.push_transfer(Transfer {
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from: AccountKeyring::Alice.into(),
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to: AccountKeyring::Ferdie.into(),
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amount: 1,
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nonce: 0,
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}).unwrap();
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let d2 = builder.build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, d2.clone())).unwrap();
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let genesis_hash = client.chain_info().genesis_hash;
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let children1 = blockchain.children(a4.hash()).unwrap();
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assert_eq!(vec![a5.hash()], children1);
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let children2 = blockchain.children(a1.hash()).unwrap();
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assert_eq!(vec![a2.hash(), b2.hash(), d2.hash()], children2);
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let children3 = blockchain.children(genesis_hash).unwrap();
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assert_eq!(vec![a1.hash()], children3);
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let children4 = blockchain.children(b2.hash()).unwrap();
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assert_eq!(vec![b3.hash(), c3.hash()], children4);
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}
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pub fn test_blockchain_query_by_number_gets_canonical<B: 'static>(backend: Arc<B>)
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where
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B: backend::LocalBackend<substrate_test_runtime::Block>,
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{
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// block tree:
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// G -> A1 -> A2 -> A3 -> A4 -> A5
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// A1 -> B2 -> B3 -> B4
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// B2 -> C3
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// A1 -> D2
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let mut client = TestClientBuilder::with_backend(backend.clone()).build();
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let blockchain = backend.blockchain();
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// G -> A1
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let a1 = client.new_block(Default::default()).unwrap().build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, a1.clone())).unwrap();
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// A1 -> A2
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let a2 = client.new_block_at(
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&BlockId::Hash(a1.hash()),
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Default::default(),
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false,
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).unwrap().build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, a2.clone())).unwrap();
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// A2 -> A3
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let a3 = client.new_block_at(
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&BlockId::Hash(a2.hash()),
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Default::default(),
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false,
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).unwrap().build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, a3.clone())).unwrap();
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// A3 -> A4
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let a4 = client.new_block_at(
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&BlockId::Hash(a3.hash()),
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Default::default(),
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false,
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).unwrap().build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, a4.clone())).unwrap();
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// A4 -> A5
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let a5 = client.new_block_at(
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&BlockId::Hash(a4.hash()),
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Default::default(),
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false,
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).unwrap().build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, a5.clone())).unwrap();
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// A1 -> B2
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let mut builder = client.new_block_at(
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&BlockId::Hash(a1.hash()),
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Default::default(),
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false,
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).unwrap();
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// this push is required as otherwise B2 has the same hash as A2 and won't get imported
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builder.push_transfer(Transfer {
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from: AccountKeyring::Alice.into(),
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to: AccountKeyring::Ferdie.into(),
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amount: 41,
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nonce: 0,
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}).unwrap();
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let b2 = builder.build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, b2.clone())).unwrap();
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// B2 -> B3
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let b3 = client.new_block_at(
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&BlockId::Hash(b2.hash()),
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Default::default(),
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false,
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).unwrap().build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, b3.clone())).unwrap();
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// B3 -> B4
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let b4 = client.new_block_at(
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&BlockId::Hash(b3.hash()),
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Default::default(),
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false,
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).unwrap().build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, b4)).unwrap();
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// // B2 -> C3
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let mut builder = client.new_block_at(
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&BlockId::Hash(b2.hash()),
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Default::default(),
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false,
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).unwrap();
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// this push is required as otherwise C3 has the same hash as B3 and won't get imported
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builder.push_transfer(Transfer {
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from: AccountKeyring::Alice.into(),
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to: AccountKeyring::Ferdie.into(),
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amount: 1,
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nonce: 1,
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}).unwrap();
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let c3 = builder.build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, c3)).unwrap();
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// A1 -> D2
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let mut builder = client.new_block_at(
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&BlockId::Hash(a1.hash()),
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Default::default(),
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false,
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).unwrap();
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// this push is required as otherwise D2 has the same hash as B2 and won't get imported
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builder.push_transfer(Transfer {
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from: AccountKeyring::Alice.into(),
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to: AccountKeyring::Ferdie.into(),
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amount: 1,
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nonce: 0,
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}).unwrap();
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let d2 = builder.build().unwrap().block;
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block_on(client.import(BlockOrigin::Own, d2)).unwrap();
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let genesis_hash = client.chain_info().genesis_hash;
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assert_eq!(blockchain.header(BlockId::Number(0)).unwrap().unwrap().hash(), genesis_hash);
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assert_eq!(blockchain.hash(0).unwrap().unwrap(), genesis_hash);
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assert_eq!(blockchain.header(BlockId::Number(1)).unwrap().unwrap().hash(), a1.hash());
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assert_eq!(blockchain.hash(1).unwrap().unwrap(), a1.hash());
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assert_eq!(blockchain.header(BlockId::Number(2)).unwrap().unwrap().hash(), a2.hash());
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assert_eq!(blockchain.hash(2).unwrap().unwrap(), a2.hash());
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assert_eq!(blockchain.header(BlockId::Number(3)).unwrap().unwrap().hash(), a3.hash());
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assert_eq!(blockchain.hash(3).unwrap().unwrap(), a3.hash());
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assert_eq!(blockchain.header(BlockId::Number(4)).unwrap().unwrap().hash(), a4.hash());
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assert_eq!(blockchain.hash(4).unwrap().unwrap(), a4.hash());
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assert_eq!(blockchain.header(BlockId::Number(5)).unwrap().unwrap().hash(), a5.hash());
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assert_eq!(blockchain.hash(5).unwrap().unwrap(), a5.hash());
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}
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