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pezkuwi-subxt/substrate/client/rpc/src/author/tests.rs
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Nikolay Volf 86ab0cb4d9 Revalidation queue for transaction pool (#4781) 
* Revalidation queeue.

* add docs and license

* move test

* refactor worker to async/await

* address review

* fix warnings

* update Cargo.lock

* move background task to service

* use tomusdrw loop

* naming

* return From::from

* add doc comment

* add more doc comments

* fix merge bug

* add doc comment for test function

* Update client/transaction-pool/src/testing/pool.rs

Co-Authored-By: Tomasz Drwięga <tomusdrw@users.noreply.github.com>

* more review fixes

* refactor to allow service keep background tasks from isntantiated subsystems

* use const delay

* fix fallout

* remove fallout

* remove already moved test

* fix doc test

* add valid_at helper

Co-authored-by: Tomasz Drwięga <tomusdrw@users.noreply.github.com>
2020-02-17 16:48:24 +03:00

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// Copyright 2017-2020 Parity Technologies (UK) Ltd.
// This file is part of Substrate.
// Substrate 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.
// Substrate 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 Substrate. If not, see <http://www.gnu.org/licenses/>.
use super::*;
use std::{mem, sync::Arc};
use assert_matches::assert_matches;
use codec::Encode;
use sp_core::{
H256, blake2_256, hexdisplay::HexDisplay, testing::{ED25519, SR25519, KeyStore},
traits::BareCryptoStorePtr, ed25519, crypto::{Pair, Public},
};
use rpc::futures::Stream as _;
use substrate_test_runtime_client::{
self, AccountKeyring, runtime::{Extrinsic, Transfer, SessionKeys, RuntimeApi, Block},
DefaultTestClientBuilderExt, TestClientBuilderExt, Backend, Client, Executor,
};
use sc_transaction_pool::{BasicPool, FullChainApi};
use tokio::runtime;
fn uxt(sender: AccountKeyring, nonce: u64) -> Extrinsic {
let tx = Transfer {
amount: Default::default(),
nonce,
from: sender.into(),
to: Default::default(),
};
tx.into_signed_tx()
}
type FullTransactionPool = BasicPool<
FullChainApi<Client<Backend>, Block>,
Block,
>;
struct TestSetup {
pub runtime: runtime::Runtime,
pub client: Arc<Client<Backend>>,
pub keystore: BareCryptoStorePtr,
pub pool: Arc<FullTransactionPool>,
}
impl Default for TestSetup {
fn default() -> Self {
let keystore = KeyStore::new();
let client = Arc::new(
substrate_test_runtime_client::TestClientBuilder::new()
.set_keystore(keystore.clone())
.build()
);
let pool = Arc::new(BasicPool::new(
Default::default(),
Arc::new(FullChainApi::new(client.clone())),
).0);
TestSetup {
runtime: runtime::Runtime::new().expect("Failed to create runtime in test setup"),
client,
keystore,
pool,
}
}
}
impl TestSetup {
fn author(&self) -> Author<Backend, Executor, FullTransactionPool, Block, RuntimeApi> {
Author {
client: self.client.clone(),
pool: self.pool.clone(),
subscriptions: Subscriptions::new(Arc::new(self.runtime.executor())),
keystore: self.keystore.clone(),
}
}
}
#[test]
fn submit_transaction_should_not_cause_error() {
let p = TestSetup::default().author();
let xt = uxt(AccountKeyring::Alice, 1).encode();
let h: H256 = blake2_256(&xt).into();
assert_matches!(
AuthorApi::submit_extrinsic(&p, xt.clone().into()).wait(),
Ok(h2) if h == h2
);
assert!(
AuthorApi::submit_extrinsic(&p, xt.into()).wait().is_err()
);
}
#[test]
fn submit_rich_transaction_should_not_cause_error() {
let p = TestSetup::default().author();
let xt = uxt(AccountKeyring::Alice, 0).encode();
let h: H256 = blake2_256(&xt).into();
assert_matches!(
AuthorApi::submit_extrinsic(&p, xt.clone().into()).wait(),
Ok(h2) if h == h2
);
assert!(
AuthorApi::submit_extrinsic(&p, xt.into()).wait().is_err()
);
}
#[test]
fn should_watch_extrinsic() {
//given
let mut setup = TestSetup::default();
let p = setup.author();
let (subscriber, id_rx, data) = jsonrpc_pubsub::typed::Subscriber::new_test("test");
// when
p.watch_extrinsic(Default::default(), subscriber, uxt(AccountKeyring::Alice, 0).encode().into());
// then
assert_eq!(setup.runtime.block_on(id_rx), Ok(Ok(1.into())));
// check notifications
let replacement = {
let tx = Transfer {
amount: 5,
nonce: 0,
from: AccountKeyring::Alice.into(),
to: Default::default(),
};
tx.into_signed_tx()
};
AuthorApi::submit_extrinsic(&p, replacement.encode().into()).wait().unwrap();
let (res, data) = setup.runtime.block_on(data.into_future()).unwrap();
assert_eq!(
res,
Some(r#"{"jsonrpc":"2.0","method":"test","params":{"result":"ready","subscription":1}}"#.into())
);
let h = blake2_256(&replacement.encode());
assert_eq!(
setup.runtime.block_on(data.into_future()).unwrap().0,
Some(format!(r#"{{"jsonrpc":"2.0","method":"test","params":{{"result":{{"usurped":"0x{}"}},"subscription":1}}}}"#, HexDisplay::from(&h)))
);
}
#[test]
fn should_return_watch_validation_error() {
//given
let mut setup = TestSetup::default();
let p = setup.author();
let (subscriber, id_rx, _data) = jsonrpc_pubsub::typed::Subscriber::new_test("test");
// when
p.watch_extrinsic(Default::default(), subscriber, uxt(AccountKeyring::Alice, 179).encode().into());
// then
let res = setup.runtime.block_on(id_rx).unwrap();
assert!(res.is_err(), "Expected the transaction to be rejected as invalid.");
}
#[test]
fn should_return_pending_extrinsics() {
let p = TestSetup::default().author();
let ex = uxt(AccountKeyring::Alice, 0);
AuthorApi::submit_extrinsic(&p, ex.encode().into()).wait().unwrap();
assert_matches!(
p.pending_extrinsics(),
Ok(ref expected) if *expected == vec![Bytes(ex.encode())]
);
}
#[test]
fn should_remove_extrinsics() {
let setup = TestSetup::default();
let p = setup.author();
let ex1 = uxt(AccountKeyring::Alice, 0);
p.submit_extrinsic(ex1.encode().into()).wait().unwrap();
let ex2 = uxt(AccountKeyring::Alice, 1);
p.submit_extrinsic(ex2.encode().into()).wait().unwrap();
let ex3 = uxt(AccountKeyring::Bob, 0);
let hash3 = p.submit_extrinsic(ex3.encode().into()).wait().unwrap();
assert_eq!(setup.pool.status().ready, 3);
// now remove all 3
let removed = p.remove_extrinsic(vec![
hash::ExtrinsicOrHash::Hash(hash3),
// Removing this one will also remove ex2
hash::ExtrinsicOrHash::Extrinsic(ex1.encode().into()),
]).unwrap();
assert_eq!(removed.len(), 3);
}
#[test]
fn should_insert_key() {
let setup = TestSetup::default();
let p = setup.author();
let suri = "//Alice";
let key_pair = ed25519::Pair::from_string(suri, None).expect("Generates keypair");
p.insert_key(
String::from_utf8(ED25519.0.to_vec()).expect("Keytype is a valid string"),
suri.to_string(),
key_pair.public().0.to_vec().into(),
).expect("Insert key");
let store_key_pair = setup.keystore.read()
.ed25519_key_pair(ED25519, &key_pair.public()).expect("Key exists in store");
assert_eq!(key_pair.public(), store_key_pair.public());
}
#[test]
fn should_rotate_keys() {
let setup = TestSetup::default();
let p = setup.author();
let new_public_keys = p.rotate_keys().expect("Rotates the keys");
let session_keys = SessionKeys::decode(&mut &new_public_keys[..])
.expect("SessionKeys decode successfully");
let ed25519_key_pair = setup.keystore.read().ed25519_key_pair(
ED25519,
&session_keys.ed25519.clone().into(),
).expect("ed25519 key exists in store");
let sr25519_key_pair = setup.keystore.read().sr25519_key_pair(
SR25519,
&session_keys.sr25519.clone().into(),
).expect("sr25519 key exists in store");
assert_eq!(session_keys.ed25519, ed25519_key_pair.public().into());
assert_eq!(session_keys.sr25519, sr25519_key_pair.public().into());
}
#[test]
fn test_has_session_keys() {
let setup = TestSetup::default();
let p = setup.author();
let non_existent_public_keys = TestSetup::default()
.author()
.rotate_keys()
.expect("Rotates the keys");
let public_keys = p.rotate_keys().expect("Rotates the keys");
let test_vectors = vec![
(public_keys, Ok(true)),
(vec![1, 2, 3].into(), Err(Error::InvalidSessionKeys)),
(non_existent_public_keys, Ok(false)),
];
for (keys, result) in test_vectors {
assert_eq!(
result.map_err(|e| mem::discriminant(&e)),
p.has_session_keys(keys).map_err(|e| mem::discriminant(&e)),
);
}
}
#[test]
fn test_has_key() {
let setup = TestSetup::default();
let p = setup.author();
let suri = "//Alice";
let alice_key_pair = ed25519::Pair::from_string(suri, None).expect("Generates keypair");
p.insert_key(
String::from_utf8(ED25519.0.to_vec()).expect("Keytype is a valid string"),
suri.to_string(),
alice_key_pair.public().0.to_vec().into(),
).expect("Insert key");
let bob_key_pair = ed25519::Pair::from_string("//Bob", None).expect("Generates keypair");
let test_vectors = vec![
(alice_key_pair.public().to_raw_vec().into(), ED25519, Ok(true)),
(alice_key_pair.public().to_raw_vec().into(), SR25519, Ok(false)),
(bob_key_pair.public().to_raw_vec().into(), ED25519, Ok(false)),
];
for (key, key_type, result) in test_vectors {
assert_eq!(
result.map_err(|e| mem::discriminant(&e)),
p.has_key(
key,
String::from_utf8(key_type.0.to_vec()).expect("Keytype is a valid string"),
).map_err(|e| mem::discriminant(&e)),
);
}
}
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