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ea1eb4e57fee71fa58e6996e21280c7ed26bf5bc
pezkuwi-subxt/substrate/client/rpc/src/state/tests.rs
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Hernando Castano ea1eb4e57f Use Subscription Manager from jsonrpc-pubsub (#6208) 
* Bump jsonrpc pubsub, core, http, and ws

Right now these are the packages which _need_ to be updated
so I can just the latest `jsonrpc-pubsub` code. Once a release
it cut upstream the rest of the dependencies should be updated
as well.

* Use jsonrpc-pubsub's SubscriptionManager

This places sc-rpc-api::Subscriptions

* Bump jsonrpc-core outside of sc-rpc-*

* Update client/rpc tests

Right now one of the `author` tests is failing, I
need to think a bit about how best to fix it.

* Remove Subscriptions manager

There's no need for this implementation since we're
using the one from `jsonrpc-pubsub` now

* Fix author RPC test

This test used to check for a numerial subscription ID,
whereas now it uses a string based ID which is the default
provided by `jsonrpc-pubsub`'s subscription manager.

* Remove unused NumericIdProvider

* Add missing bracket

Removed one too many with that last one, lol

* Bump `jsonrpc` to v14.2

There's an exception though. `jsonrpc-derive` cannot be bumped
past v14.0.5 just yet since it has a dependency on `quote` pinned
to v1.0.1. This means that at the moment it won't build on Substrate
since it's using v1.0.3.

* Track `jsonrpc-derive` master branch

* Bump `quote` version to v1.0.6

* Bump `jsonrpc-derive` to v14.2.1

This includes support for `quote` v1.0.6
2020-06-04 09:50:22 +01:00

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// This file is part of Substrate.
// Copyright (C) 2017-2020 Parity Technologies (UK) Ltd.
// SPDX-License-Identifier: GPL-3.0-or-later WITH Classpath-exception-2.0
// This program 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.
// This program 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 this program. If not, see <https://www.gnu.org/licenses/>.
use super::*;
use super::state_full::split_range;
use self::error::Error;
use std::sync::Arc;
use assert_matches::assert_matches;
use futures01::stream::Stream;
use sp_core::{storage::ChildInfo, ChangesTrieConfiguration};
use sp_core::hash::H256;
use sc_block_builder::BlockBuilderProvider;
use sp_io::hashing::blake2_256;
use substrate_test_runtime_client::{
prelude::*,
sp_consensus::BlockOrigin,
runtime,
};
use sp_runtime::generic::BlockId;
use crate::testing::TaskExecutor;
use futures::{executor, compat::Future01CompatExt};
const STORAGE_KEY: &[u8] = b"child";
fn prefixed_storage_key() -> PrefixedStorageKey {
let child_info = ChildInfo::new_default(&STORAGE_KEY[..]);
child_info.prefixed_storage_key()
}
#[test]
fn should_return_storage() {
const KEY: &[u8] = b":mock";
const VALUE: &[u8] = b"hello world";
const CHILD_VALUE: &[u8] = b"hello world !";
let child_info = ChildInfo::new_default(STORAGE_KEY);
let client = TestClientBuilder::new()
.add_extra_storage(KEY.to_vec(), VALUE.to_vec())
.add_extra_child_storage(&child_info, KEY.to_vec(), CHILD_VALUE.to_vec())
.build();
let genesis_hash = client.genesis_hash();
let (client, child) = new_full(Arc::new(client), SubscriptionManager::new(Arc::new(TaskExecutor)));
let key = StorageKey(KEY.to_vec());
assert_eq!(
client.storage(key.clone(), Some(genesis_hash).into()).wait()
.map(|x| x.map(|x| x.0.len())).unwrap().unwrap() as usize,
VALUE.len(),
);
assert_matches!(
client.storage_hash(key.clone(), Some(genesis_hash).into()).wait()
.map(|x| x.is_some()),
Ok(true)
);
assert_eq!(
client.storage_size(key.clone(), None).wait().unwrap().unwrap() as usize,
VALUE.len(),
);
assert_eq!(
executor::block_on(
child.storage(prefixed_storage_key(), key, Some(genesis_hash).into())
.map(|x| x.map(|x| x.0.len()))
.compat(),
).unwrap().unwrap() as usize,
CHILD_VALUE.len(),
);
}
#[test]
fn should_return_child_storage() {
let child_info = ChildInfo::new_default(STORAGE_KEY);
let client = Arc::new(substrate_test_runtime_client::TestClientBuilder::new()
.add_child_storage(&child_info, "key", vec![42_u8])
.build());
let genesis_hash = client.genesis_hash();
let (_client, child) = new_full(client, SubscriptionManager::new(Arc::new(TaskExecutor)));
let child_key = prefixed_storage_key();
let key = StorageKey(b"key".to_vec());
assert_matches!(
child.storage(
child_key.clone(),
key.clone(),
Some(genesis_hash).into(),
).wait(),
Ok(Some(StorageData(ref d))) if d[0] == 42 && d.len() == 1
);
assert_matches!(
child.storage_hash(
child_key.clone(),
key.clone(),
Some(genesis_hash).into(),
).wait().map(|x| x.is_some()),
Ok(true)
);
assert_matches!(
child.storage_size(
child_key.clone(),
key.clone(),
None,
).wait(),
Ok(Some(1))
);
}
#[test]
fn should_call_contract() {
let client = Arc::new(substrate_test_runtime_client::new());
let genesis_hash = client.genesis_hash();
let (client, _child) = new_full(client, SubscriptionManager::new(Arc::new(TaskExecutor)));
assert_matches!(
client.call("balanceOf".into(), Bytes(vec![1,2,3]), Some(genesis_hash).into()).wait(),
Err(Error::Client(_))
)
}
#[test]
fn should_notify_about_storage_changes() {
let (subscriber, id, transport) = Subscriber::new_test("test");
{
let mut client = Arc::new(substrate_test_runtime_client::new());
let (api, _child) = new_full(client.clone(), SubscriptionManager::new(Arc::new(TaskExecutor)));
api.subscribe_storage(Default::default(), subscriber, None.into());
// assert id assigned
assert!(matches!(
executor::block_on(id.compat()),
Ok(Ok(SubscriptionId::String(_)))
));
let mut builder = client.new_block(Default::default()).unwrap();
builder.push_transfer(runtime::Transfer {
from: AccountKeyring::Alice.into(),
to: AccountKeyring::Ferdie.into(),
amount: 42,
nonce: 0,
}).unwrap();
let block = builder.build().unwrap().block;
client.import(BlockOrigin::Own, block).unwrap();
}
// assert notification sent to transport
let (notification, next) = executor::block_on(transport.into_future().compat()).unwrap();
assert!(notification.is_some());
// no more notifications on this channel
assert_eq!(executor::block_on(next.into_future().compat()).unwrap().0, None);
}
#[test]
fn should_send_initial_storage_changes_and_notifications() {
let (subscriber, id, transport) = Subscriber::new_test("test");
{
let mut client = Arc::new(substrate_test_runtime_client::new());
let (api, _child) = new_full(client.clone(), SubscriptionManager::new(Arc::new(TaskExecutor)));
let alice_balance_key = blake2_256(&runtime::system::balance_of_key(AccountKeyring::Alice.into()));
api.subscribe_storage(Default::default(), subscriber, Some(vec![
StorageKey(alice_balance_key.to_vec()),
]).into());
// assert id assigned
assert!(matches!(
executor::block_on(id.compat()),
Ok(Ok(SubscriptionId::String(_)))
));
let mut builder = client.new_block(Default::default()).unwrap();
builder.push_transfer(runtime::Transfer {
from: AccountKeyring::Alice.into(),
to: AccountKeyring::Ferdie.into(),
amount: 42,
nonce: 0,
}).unwrap();
let block = builder.build().unwrap().block;
client.import(BlockOrigin::Own, block).unwrap();
}
// assert initial values sent to transport
let (notification, next) = executor::block_on(transport.into_future().compat()).unwrap();
assert!(notification.is_some());
// assert notification sent to transport
let (notification, next) = executor::block_on(next.into_future().compat()).unwrap();
assert!(notification.is_some());
// no more notifications on this channel
assert_eq!(executor::block_on(next.into_future().compat()).unwrap().0, None);
}
#[test]
fn should_query_storage() {
fn run_tests(mut client: Arc<TestClient>, has_changes_trie_config: bool) {
let (api, _child) = new_full(client.clone(), SubscriptionManager::new(Arc::new(TaskExecutor)));
let mut add_block = |nonce| {
let mut builder = client.new_block(Default::default()).unwrap();
// fake change: None -> None -> None
builder.push_storage_change(vec![1], None).unwrap();
// fake change: None -> Some(value) -> Some(value)
builder.push_storage_change(vec![2], Some(vec![2])).unwrap();
// actual change: None -> Some(value) -> None
builder.push_storage_change(vec![3], if nonce == 0 { Some(vec![3]) } else { None }).unwrap();
// actual change: None -> Some(value)
builder.push_storage_change(vec![4], if nonce == 0 { None } else { Some(vec![4]) }).unwrap();
// actual change: Some(value1) -> Some(value2)
builder.push_storage_change(vec![5], Some(vec![nonce as u8])).unwrap();
let block = builder.build().unwrap().block;
let hash = block.header.hash();
client.import(BlockOrigin::Own, block).unwrap();
hash
};
let block1_hash = add_block(0);
let block2_hash = add_block(1);
let genesis_hash = client.genesis_hash();
if has_changes_trie_config {
assert_eq!(
client.max_key_changes_range(1, BlockId::Hash(block1_hash)).unwrap(),
Some((0, BlockId::Hash(block1_hash))),
);
}
let mut expected = vec![
StorageChangeSet {
block: genesis_hash,
changes: vec![
(StorageKey(vec![1]), None),
(StorageKey(vec![2]), None),
(StorageKey(vec![3]), None),
(StorageKey(vec![4]), None),
(StorageKey(vec![5]), None),
],
},
StorageChangeSet {
block: block1_hash,
changes: vec![
(StorageKey(vec![2]), Some(StorageData(vec![2]))),
(StorageKey(vec![3]), Some(StorageData(vec![3]))),
(StorageKey(vec![5]), Some(StorageData(vec![0]))),
],
},
];
// Query changes only up to block1
let keys = (1..6).map(|k| StorageKey(vec![k])).collect::<Vec<_>>();
let result = api.query_storage(
keys.clone(),
genesis_hash,
Some(block1_hash).into(),
);
assert_eq!(result.wait().unwrap(), expected);
// Query all changes
let result = api.query_storage(
keys.clone(),
genesis_hash,
None.into(),
);
expected.push(StorageChangeSet {
block: block2_hash,
changes: vec![
(StorageKey(vec![3]), None),
(StorageKey(vec![4]), Some(StorageData(vec![4]))),
(StorageKey(vec![5]), Some(StorageData(vec![1]))),
],
});
assert_eq!(result.wait().unwrap(), expected);
// Query changes up to block2.
let result = api.query_storage(
keys.clone(),
genesis_hash,
Some(block2_hash),
);
assert_eq!(result.wait().unwrap(), expected);
// Inverted range.
let result = api.query_storage(
keys.clone(),
block1_hash,
Some(genesis_hash),
);
assert_eq!(
result.wait().map_err(|e| e.to_string()),
Err(Error::InvalidBlockRange {
from: format!("1 ({:?})", block1_hash),
to: format!("0 ({:?})", genesis_hash),
details: "from number > to number".to_owned(),
}).map_err(|e| e.to_string())
);
let random_hash1 = H256::random();
let random_hash2 = H256::random();
// Invalid second hash.
let result = api.query_storage(
keys.clone(),
genesis_hash,
Some(random_hash1),
);
assert_eq!(
result.wait().map_err(|e| e.to_string()),
Err(Error::InvalidBlockRange {
from: format!("{:?}", genesis_hash),
to: format!("{:?}", Some(random_hash1)),
details: format!("UnknownBlock: header not found in db: {}", random_hash1),
}).map_err(|e| e.to_string())
);
// Invalid first hash with Some other hash.
let result = api.query_storage(
keys.clone(),
random_hash1,
Some(genesis_hash),
);
assert_eq!(
result.wait().map_err(|e| e.to_string()),
Err(Error::InvalidBlockRange {
from: format!("{:?}", random_hash1),
to: format!("{:?}", Some(genesis_hash)),
details: format!("UnknownBlock: header not found in db: {}", random_hash1),
}).map_err(|e| e.to_string()),
);
// Invalid first hash with None.
let result = api.query_storage(
keys.clone(),
random_hash1,
None,
);
assert_eq!(
result.wait().map_err(|e| e.to_string()),
Err(Error::InvalidBlockRange {
from: format!("{:?}", random_hash1),
to: format!("{:?}", Some(block2_hash)), // Best block hash.
details: format!("UnknownBlock: header not found in db: {}", random_hash1),
}).map_err(|e| e.to_string()),
);
// Both hashes invalid.
let result = api.query_storage(
keys.clone(),
random_hash1,
Some(random_hash2),
);
assert_eq!(
result.wait().map_err(|e| e.to_string()),
Err(Error::InvalidBlockRange {
from: format!("{:?}", random_hash1), // First hash not found.
to: format!("{:?}", Some(random_hash2)),
details: format!("UnknownBlock: header not found in db: {}", random_hash1),
}).map_err(|e| e.to_string()),
);
// single block range
let result = api.query_storage_at(
keys.clone(),
Some(block1_hash),
);
assert_eq!(
result.wait().unwrap(),
vec![
StorageChangeSet {
block: block1_hash,
changes: vec![
(StorageKey(vec![1_u8]), None),
(StorageKey(vec![2_u8]), Some(StorageData(vec![2_u8]))),
(StorageKey(vec![3_u8]), Some(StorageData(vec![3_u8]))),
(StorageKey(vec![4_u8]), None),
(StorageKey(vec![5_u8]), Some(StorageData(vec![0_u8]))),
]
}
]
);
}
run_tests(Arc::new(substrate_test_runtime_client::new()), false);
run_tests(
Arc::new(
TestClientBuilder::new()
.changes_trie_config(Some(ChangesTrieConfiguration::new(4, 2)))
.build(),
),
true,
);
}
#[test]
fn should_split_ranges() {
assert_eq!(split_range(1, None), (0..1, None));
assert_eq!(split_range(100, None), (0..100, None));
assert_eq!(split_range(1, Some(0)), (0..1, None));
assert_eq!(split_range(100, Some(50)), (0..50, Some(50..100)));
assert_eq!(split_range(100, Some(99)), (0..99, Some(99..100)));
}
#[test]
fn should_return_runtime_version() {
let client = Arc::new(substrate_test_runtime_client::new());
let (api, _child) = new_full(client.clone(), SubscriptionManager::new(Arc::new(TaskExecutor)));
let result = "{\"specName\":\"test\",\"implName\":\"parity-test\",\"authoringVersion\":1,\
\"specVersion\":2,\"implVersion\":2,\"apis\":[[\"0xdf6acb689907609b\",3],\
[\"0x37e397fc7c91f5e4\",1],[\"0xd2bc9897eed08f15\",2],[\"0x40fe3ad401f8959a\",4],\
[\"0xc6e9a76309f39b09\",1],[\"0xdd718d5cc53262d4\",1],[\"0xcbca25e39f142387\",2],\
[\"0xf78b278be53f454c\",2],[\"0xab3c0572291feb8b\",1],[\"0xbc9d89904f5b923f\",1]],\
\"transactionVersion\":1}";
let runtime_version = api.runtime_version(None.into()).wait().unwrap();
let serialized = serde_json::to_string(&runtime_version).unwrap();
assert_eq!(serialized, result);
let deserialized: RuntimeVersion = serde_json::from_str(result).unwrap();
assert_eq!(deserialized, runtime_version);
}
#[test]
fn should_notify_on_runtime_version_initially() {
let (subscriber, id, transport) = Subscriber::new_test("test");
{
let client = Arc::new(substrate_test_runtime_client::new());
let (api, _child) = new_full(client.clone(), SubscriptionManager::new(Arc::new(TaskExecutor)));
api.subscribe_runtime_version(Default::default(), subscriber);
// assert id assigned
assert!(matches!(
executor::block_on(id.compat()),
Ok(Ok(SubscriptionId::String(_)))
));
}
// assert initial version sent.
let (notification, next) = executor::block_on(transport.into_future().compat()).unwrap();
assert!(notification.is_some());
// no more notifications on this channel
assert_eq!(executor::block_on(next.into_future().compat()).unwrap().0, None);
}
#[test]
fn should_deserialize_storage_key() {
let k = "\"0x7f864e18e3dd8b58386310d2fe0919eef27c6e558564b7f67f22d99d20f587b\"";
let k: StorageKey = serde_json::from_str(k).unwrap();
assert_eq!(k.0.len(), 32);
}
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