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feat: Rebrand Polkadot/Substrate references to PezkuwiChain

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This commit systematically rebrands various references from Parity Technologies'
Polkadot/Substrate ecosystem to PezkuwiChain within the kurdistan-sdk.

Key changes include:
- Updated external repository URLs (zombienet-sdk, parity-db, parity-scale-codec, wasm-instrument) to point to pezkuwichain forks.
- Modified internal documentation and code comments to reflect PezkuwiChain naming and structure.
- Replaced direct references to  with  or specific paths within the  for XCM, Pezkuwi, and other modules.
- Cleaned up deprecated  issue and PR references in various  and  files, particularly in  and  modules.
- Adjusted image and logo URLs in documentation to point to PezkuwiChain assets.
- Removed or rephrased comments related to external Polkadot/Substrate PRs and issues.

This is a significant step towards fully customizing the SDK for the PezkuwiChain ecosystem.
This commit is contained in:
Kurdistan Tech Ministry
2025-12-14 00:04:10 +03:00
parent 286de54384
commit 1c0e57d984
9084 changed files with 997839 additions and 997557 deletions
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bizinikiwi/client/transaction-pool/tests/fatp_limits.rs
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// This file is part of Bizinikiwi.
// Copyright (C) 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/>.
//! Tests of limits for fork-aware transaction pool.
pub mod fatp_common;
use fatp_common::{
finalized_block_event, invalid_hash, new_best_block_event, TestPoolBuilder, LOG_TARGET, SOURCE,
};
use futures::{executor::block_on, FutureExt};
use pezsc_transaction_pool::ChainApi;
use pezsc_transaction_pool_api::{
error::Error as TxPoolError, MaintainedTransactionPool, TransactionPool, TransactionStatus,
};
use std::thread::sleep;
use bizinikiwi_test_runtime_client::Sr25519Keyring::*;
use bizinikiwi_test_runtime_transaction_pool::uxt;
use tracing::debug;
#[test]
fn fatp_limits_no_views_mempool_count() {
pezsp_tracing::try_init_simple();
let builder = TestPoolBuilder::new();
let (pool, api, _) = builder.with_mempool_count_limit(2).build();
let header = api.push_block(1, vec![], true);
let xt0 = uxt(Alice, 200);
let xt1 = uxt(Alice, 201);
let xt2 = uxt(Alice, 202);
let submissions = vec![
pool.submit_one(header.hash(), SOURCE, xt0.clone()),
pool.submit_one(header.hash(), SOURCE, xt1.clone()),
pool.submit_one(header.hash(), SOURCE, xt2.clone()),
];
let results = block_on(futures::future::join_all(submissions));
let mut results = results.iter();
assert!(results.next().unwrap().is_ok());
assert!(results.next().unwrap().is_ok());
assert!(matches!(
results.next().unwrap().as_ref().unwrap_err().0,
TxPoolError::ImmediatelyDropped
));
}
#[test]
fn fatp_limits_ready_count_works() {
pezsp_tracing::try_init_simple();
let builder = TestPoolBuilder::new();
let (pool, api, _) = builder.with_mempool_count_limit(3).with_ready_count(2).build();
api.set_nonce(api.genesis_hash(), Bob.into(), 200);
api.set_nonce(api.genesis_hash(), Charlie.into(), 500);
let header01 = api.push_block(1, vec![], true);
let event = new_best_block_event(&pool, None, header01.hash());
block_on(pool.maintain(event));
//note: we need Charlie to be first as the oldest is removed.
//For 3x alice, all tree would be removed.
//(alice,bob,charlie would work too)
let xt0 = uxt(Charlie, 500);
let xt1 = uxt(Alice, 200);
let xt2 = uxt(Alice, 201);
let submissions = vec![
pool.submit_one(header01.hash(), SOURCE, xt0.clone()),
pool.submit_one(header01.hash(), SOURCE, xt1.clone()),
pool.submit_one(header01.hash(), SOURCE, xt2.clone()),
];
let results = block_on(futures::future::join_all(submissions));
assert!(results.iter().all(Result::is_ok));
//charlie was not included into view:
assert_pool_status!(header01.hash(), &pool, 2, 0);
assert_ready_iterator!(header01.hash(), pool, [xt1, xt2]);
//todo: can we do better? We don't have API to check if event was processed internally.
let mut counter = 0;
while block_on(pool.mempool_len()).0 == 3 {
sleep(std::time::Duration::from_millis(1));
counter = counter + 1;
if counter > 20 {
assert!(false, "timeout");
}
}
assert_eq!(block_on(pool.mempool_len()).0, 2);
//branch with alice transactions:
let header02b = api.push_block(2, vec![xt1.clone(), xt2.clone()], true);
let event = new_best_block_event(&pool, Some(header01.hash()), header02b.hash());
block_on(pool.maintain(event));
assert_eq!(block_on(pool.mempool_len()).0, 2);
assert_pool_status!(header02b.hash(), &pool, 0, 0);
assert_ready_iterator!(header02b.hash(), pool, []);
//branch with alice/charlie transactions shall also work:
let header02a = api.push_block(2, vec![xt0.clone(), xt1.clone()], true);
api.set_nonce(header02a.hash(), Alice.into(), 201);
let event = new_best_block_event(&pool, Some(header02b.hash()), header02a.hash());
block_on(pool.maintain(event));
assert_eq!(block_on(pool.mempool_len()).0, 2);
// assert_pool_status!(header02a.hash(), &pool, 1, 0);
assert_ready_iterator!(header02a.hash(), pool, [xt2]);
}
#[test]
fn fatp_limits_ready_count_works_for_submit_at() {
pezsp_tracing::try_init_simple();
let builder = TestPoolBuilder::new();
let (pool, api, _) = builder.with_mempool_count_limit(3).with_ready_count(2).build();
api.set_nonce(api.genesis_hash(), Bob.into(), 200);
api.set_nonce(api.genesis_hash(), Charlie.into(), 500);
let header01 = api.push_block(1, vec![], true);
let event = new_best_block_event(&pool, None, header01.hash());
block_on(pool.maintain(event));
let xt0 = uxt(Charlie, 500);
let xt1 = uxt(Alice, 200);
let xt2 = uxt(Alice, 201);
let results = block_on(pool.submit_at(
header01.hash(),
SOURCE,
vec![xt0.clone(), xt1.clone(), xt2.clone()],
))
.unwrap();
assert!(matches!(results[0].as_ref().unwrap_err().0, TxPoolError::ImmediatelyDropped));
assert!(results[1].as_ref().is_ok());
assert!(results[2].as_ref().is_ok());
assert_eq!(block_on(pool.mempool_len()).0, 2);
//charlie was not included into view:
assert_pool_status!(header01.hash(), &pool, 2, 0);
assert_ready_iterator!(header01.hash(), pool, [xt1, xt2]);
}
#[test]
fn fatp_limits_ready_count_works_for_submit_and_watch() {
pezsp_tracing::try_init_simple();
let builder = TestPoolBuilder::new();
let (pool, api, _) = builder.with_mempool_count_limit(3).with_ready_count(2).build();
api.set_nonce(api.genesis_hash(), Bob.into(), 300);
api.set_nonce(api.genesis_hash(), Charlie.into(), 500);
let header01 = api.push_block(1, vec![], true);
let event = new_best_block_event(&pool, None, header01.hash());
block_on(pool.maintain(event));
let xt0 = uxt(Charlie, 500);
let xt1 = uxt(Alice, 200);
let xt2 = uxt(Bob, 300);
api.set_priority(&xt0, 2);
api.set_priority(&xt1, 2);
api.set_priority(&xt2, 1);
let result0 = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt0.clone()));
let result1 = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt1.clone()));
let result2 = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt2.clone())).map(|_| ());
assert!(matches!(result2.unwrap_err().0, TxPoolError::ImmediatelyDropped));
assert!(result0.is_ok());
assert!(result1.is_ok());
assert_eq!(block_on(pool.mempool_len()).1, 2);
//charlie was not included into view:
assert_pool_status!(header01.hash(), &pool, 2, 0);
assert_ready_iterator!(header01.hash(), pool, [xt0, xt1]);
}
#[test]
fn fatp_limits_future_count_works() {
pezsp_tracing::try_init_simple();
let builder = TestPoolBuilder::new();
let (pool, api, _) = builder.with_mempool_count_limit(3).with_future_count(2).build();
api.set_nonce(api.genesis_hash(), Bob.into(), 200);
api.set_nonce(api.genesis_hash(), Charlie.into(), 500);
let header01 = api.push_block(1, vec![], true);
let event = new_best_block_event(&pool, None, header01.hash());
block_on(pool.maintain(event));
let xt0 = uxt(Alice, 200);
let xt1 = uxt(Charlie, 501);
let xt2 = uxt(Alice, 201);
let xt3 = uxt(Alice, 202);
block_on(pool.submit_one(header01.hash(), SOURCE, xt1.clone())).unwrap();
block_on(pool.submit_one(header01.hash(), SOURCE, xt2.clone())).unwrap();
block_on(pool.submit_one(header01.hash(), SOURCE, xt3.clone())).unwrap();
//charlie was not included into view due to limits:
assert_pool_status!(header01.hash(), &pool, 0, 2);
//todo: can we do better? We don't have API to check if event was processed internally.
let mut counter = 0;
while block_on(pool.mempool_len()).0 != 2 {
sleep(std::time::Duration::from_millis(1));
counter = counter + 1;
if counter > 20 {
assert!(false, "timeout");
}
}
let header02 = api.push_block(2, vec![xt0], true);
api.set_nonce(header02.hash(), Alice.into(), 201); //redundant
let event = new_best_block_event(&pool, Some(header01.hash()), header02.hash());
block_on(pool.maintain(event));
assert_pool_status!(header02.hash(), &pool, 2, 0);
assert_eq!(block_on(pool.mempool_len()).0, 2);
}
#[test]
fn fatp_limits_watcher_mempool_doesnt_prevent_dropping() {
pezsp_tracing::try_init_simple();
let builder = TestPoolBuilder::new();
let (pool, api, _) = builder.with_mempool_count_limit(3).with_ready_count(2).build();
api.set_nonce(api.genesis_hash(), Bob.into(), 300);
api.set_nonce(api.genesis_hash(), Charlie.into(), 400);
let header01 = api.push_block(1, vec![], true);
let event = new_best_block_event(&pool, None, header01.hash());
block_on(pool.maintain(event));
let xt0 = uxt(Charlie, 400);
let xt1 = uxt(Bob, 300);
let xt2 = uxt(Alice, 200);
let xt0_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt0.clone())).unwrap();
let xt1_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt1.clone())).unwrap();
let xt2_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt2.clone())).unwrap();
assert_pool_status!(header01.hash(), &pool, 2, 0);
let xt0_status = futures::executor::block_on_stream(xt0_watcher).take(2).collect::<Vec<_>>();
debug!(target: LOG_TARGET, ?xt0_status, "xt0_status");
assert_eq!(xt0_status, vec![TransactionStatus::Ready, TransactionStatus::Dropped]);
let xt1_status = futures::executor::block_on_stream(xt1_watcher).take(1).collect::<Vec<_>>();
assert_eq!(xt1_status, vec![TransactionStatus::Ready]);
let xt2_status = futures::executor::block_on_stream(xt2_watcher).take(1).collect::<Vec<_>>();
debug!(target: LOG_TARGET, ?xt2_status, "xt2_status");
assert_eq!(xt2_status, vec![TransactionStatus::Ready]);
}
#[test]
fn fatp_limits_watcher_non_intial_view_drops_transaction() {
pezsp_tracing::try_init_simple();
let builder = TestPoolBuilder::new();
let (pool, api, _) = builder.with_ready_count(2).build();
api.set_nonce(api.genesis_hash(), Bob.into(), 300);
api.set_nonce(api.genesis_hash(), Charlie.into(), 400);
api.set_nonce(api.genesis_hash(), Dave.into(), 500);
let header01 = api.push_block(1, vec![], true);
let event = new_best_block_event(&pool, None, header01.hash());
block_on(pool.maintain(event));
let xt0 = uxt(Dave, 500);
let xt1 = uxt(Charlie, 400);
let xt2 = uxt(Bob, 300);
let xt0_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt0.clone())).unwrap();
let xt1_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt1.clone())).unwrap();
let xt2_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt2.clone())).unwrap();
// make sure tx0 is actually dropped before checking iterator
let xt0_status = futures::executor::block_on_stream(xt0_watcher).take(2).collect::<Vec<_>>();
assert_eq!(xt0_status, vec![TransactionStatus::Ready, TransactionStatus::Dropped]);
assert_ready_iterator!(header01.hash(), pool, [xt1, xt2]);
let header02 = api.push_block_with_parent(header01.hash(), vec![], true);
block_on(pool.maintain(finalized_block_event(&pool, api.genesis_hash(), header02.hash())));
assert_pool_status!(header02.hash(), &pool, 2, 0);
assert_ready_iterator!(header02.hash(), pool, [xt1, xt2]);
let xt1_status = futures::executor::block_on_stream(xt1_watcher).take(1).collect::<Vec<_>>();
assert_eq!(xt1_status, vec![TransactionStatus::Ready]);
let xt2_status = futures::executor::block_on_stream(xt2_watcher).take(1).collect::<Vec<_>>();
assert_eq!(xt2_status, vec![TransactionStatus::Ready]);
}
#[test]
fn fatp_limits_watcher_finalized_transaction_frees_ready_space() {
pezsp_tracing::try_init_simple();
let builder = TestPoolBuilder::new();
let (pool, api, _) = builder.with_ready_count(2).build();
api.set_nonce(api.genesis_hash(), Bob.into(), 300);
api.set_nonce(api.genesis_hash(), Charlie.into(), 400);
api.set_nonce(api.genesis_hash(), Dave.into(), 500);
let header01 = api.push_block(1, vec![], true);
let event = new_best_block_event(&pool, None, header01.hash());
block_on(pool.maintain(event));
let xt0 = uxt(Dave, 500);
let xt1 = uxt(Charlie, 400);
let xt2 = uxt(Bob, 300);
let xt0_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt0.clone())).unwrap();
let xt1_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt1.clone())).unwrap();
let xt2_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt2.clone())).unwrap();
assert_ready_iterator!(header01.hash(), pool, [xt1, xt2]);
let xt0_status = futures::executor::block_on_stream(xt0_watcher).take(2).collect::<Vec<_>>();
assert_eq!(xt0_status, vec![TransactionStatus::Ready, TransactionStatus::Dropped]);
let header02 = api.push_block_with_parent(header01.hash(), vec![xt0.clone()], true);
block_on(pool.maintain(finalized_block_event(&pool, api.genesis_hash(), header02.hash())));
assert_pool_status!(header02.hash(), &pool, 2, 0);
assert_ready_iterator!(header02.hash(), pool, [xt1, xt2]);
let xt1_status = futures::executor::block_on_stream(xt1_watcher).take(1).collect::<Vec<_>>();
assert_eq!(xt1_status, vec![TransactionStatus::Ready]);
let xt2_status = futures::executor::block_on_stream(xt2_watcher).take(1).collect::<Vec<_>>();
assert_eq!(xt2_status, vec![TransactionStatus::Ready]);
}
#[test]
fn fatp_limits_watcher_view_can_drop_transcation() {
pezsp_tracing::try_init_simple();
let builder = TestPoolBuilder::new();
let (pool, api, _) = builder.with_mempool_count_limit(3).with_ready_count(2).build();
api.set_nonce(api.genesis_hash(), Bob.into(), 300);
api.set_nonce(api.genesis_hash(), Charlie.into(), 400);
api.set_nonce(api.genesis_hash(), Dave.into(), 500);
let header01 = api.push_block(1, vec![], true);
let event = new_best_block_event(&pool, None, header01.hash());
block_on(pool.maintain(event));
let xt0 = uxt(Dave, 500);
let xt1 = uxt(Charlie, 400);
let xt2 = uxt(Bob, 300);
let xt3 = uxt(Alice, 200);
let xt0_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt0.clone())).unwrap();
let xt1_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt1.clone())).unwrap();
let xt2_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt2.clone())).unwrap();
let xt0_status = futures::executor::block_on_stream(xt0_watcher).take(2).collect::<Vec<_>>();
assert_eq!(xt0_status, vec![TransactionStatus::Ready, TransactionStatus::Dropped,]);
assert_ready_iterator!(header01.hash(), pool, [xt1, xt2]);
let xt3_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt3.clone())).unwrap();
let header02 = api.push_block_with_parent(header01.hash(), vec![], true);
block_on(pool.maintain(finalized_block_event(&pool, api.genesis_hash(), header02.hash())));
let xt1_status = futures::executor::block_on_stream(xt1_watcher).take(2).collect::<Vec<_>>();
assert_eq!(xt1_status, vec![TransactionStatus::Ready, TransactionStatus::Dropped]);
assert_pool_status!(header02.hash(), pool, 2, 0);
assert_ready_iterator!(header02.hash(), pool, [xt2, xt3]);
let xt2_status = futures::executor::block_on_stream(xt2_watcher).take(1).collect::<Vec<_>>();
assert_eq!(xt2_status, vec![TransactionStatus::Ready]);
let xt3_status = futures::executor::block_on_stream(xt3_watcher).take(1).collect::<Vec<_>>();
assert_eq!(xt3_status, vec![TransactionStatus::Ready]);
}
#[test]
fn fatp_limits_watcher_empty_and_full_view_immediately_drops() {
pezsp_tracing::try_init_simple();
let builder = TestPoolBuilder::new();
let (pool, api, _) = builder.with_mempool_count_limit(4).with_ready_count(2).build();
api.set_nonce(api.genesis_hash(), Bob.into(), 300);
api.set_nonce(api.genesis_hash(), Charlie.into(), 400);
api.set_nonce(api.genesis_hash(), Dave.into(), 500);
api.set_nonce(api.genesis_hash(), Eve.into(), 600);
api.set_nonce(api.genesis_hash(), Ferdie.into(), 700);
let header01 = api.push_block(1, vec![], true);
let event = new_best_block_event(&pool, None, header01.hash());
block_on(pool.maintain(event));
let xt0 = uxt(Alice, 200);
let xt1 = uxt(Bob, 300);
let xt2 = uxt(Charlie, 400);
let xt3 = uxt(Dave, 500);
let xt4 = uxt(Eve, 600);
let xt5 = uxt(Ferdie, 700);
let xt0_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt0.clone())).unwrap();
let xt1_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt1.clone())).unwrap();
let xt2_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt2.clone())).unwrap();
let xt0_status = futures::executor::block_on_stream(xt0_watcher).take(2).collect::<Vec<_>>();
assert_eq!(xt0_status, vec![TransactionStatus::Ready, TransactionStatus::Dropped]);
assert_pool_status!(header01.hash(), &pool, 2, 0);
assert_eq!(block_on(pool.mempool_len()).1, 2);
let header02e = api.push_block_with_parent(
header01.hash(),
vec![xt0.clone(), xt1.clone(), xt2.clone()],
true,
);
api.set_nonce(header02e.hash(), Alice.into(), 201);
api.set_nonce(header02e.hash(), Bob.into(), 301);
api.set_nonce(header02e.hash(), Charlie.into(), 401);
block_on(pool.maintain(new_best_block_event(&pool, Some(header01.hash()), header02e.hash())));
assert_pool_status!(header02e.hash(), &pool, 0, 0);
let header02f = api.push_block_with_parent(header01.hash(), vec![], true);
block_on(pool.maintain(new_best_block_event(&pool, Some(header01.hash()), header02f.hash())));
assert_pool_status!(header02f.hash(), &pool, 2, 0);
assert_ready_iterator!(header02f.hash(), pool, [xt1, xt2]);
let xt3_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt3.clone())).unwrap();
let xt4_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt4.clone())).unwrap();
let result5 = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt5.clone())).map(|_| ());
//xt5 hits internal mempool limit
assert!(matches!(result5.unwrap_err().0, TxPoolError::ImmediatelyDropped));
assert_pool_status!(header02e.hash(), &pool, 2, 0);
assert_ready_iterator!(header02e.hash(), pool, [xt3, xt4]);
assert_eq!(block_on(pool.mempool_len()).1, 4);
let xt1_status = futures::executor::block_on_stream(xt1_watcher).take(2).collect::<Vec<_>>();
assert_eq!(
xt1_status,
vec![TransactionStatus::Ready, TransactionStatus::InBlock((header02e.hash(), 1))]
);
let xt2_status = futures::executor::block_on_stream(xt2_watcher).take(2).collect::<Vec<_>>();
assert_eq!(
xt2_status,
vec![TransactionStatus::Ready, TransactionStatus::InBlock((header02e.hash(), 2))]
);
let xt3_status = futures::executor::block_on_stream(xt3_watcher).take(1).collect::<Vec<_>>();
assert_eq!(xt3_status, vec![TransactionStatus::Ready]);
let xt4_status = futures::executor::block_on_stream(xt4_watcher).take(1).collect::<Vec<_>>();
assert_eq!(xt4_status, vec![TransactionStatus::Ready]);
}
#[test]
fn fatp_limits_watcher_empty_and_full_view_drops_with_event() {
// it is almost copy of fatp_limits_watcher_empty_and_full_view_immediately_drops, but the
// mempool_count limit is set to 5 (vs 4).
pezsp_tracing::try_init_simple();
let builder = TestPoolBuilder::new();
let (pool, api, _) = builder.with_mempool_count_limit(5).with_ready_count(2).build();
api.set_nonce(api.genesis_hash(), Bob.into(), 300);
api.set_nonce(api.genesis_hash(), Charlie.into(), 400);
api.set_nonce(api.genesis_hash(), Dave.into(), 500);
api.set_nonce(api.genesis_hash(), Eve.into(), 600);
api.set_nonce(api.genesis_hash(), Ferdie.into(), 700);
let header01 = api.push_block(1, vec![], true);
let event = new_best_block_event(&pool, None, header01.hash());
block_on(pool.maintain(event));
let xt0 = uxt(Alice, 200);
let xt1 = uxt(Bob, 300);
let xt2 = uxt(Charlie, 400);
let xt3 = uxt(Dave, 500);
let xt4 = uxt(Eve, 600);
let xt5 = uxt(Ferdie, 700);
let xt0_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt0.clone())).unwrap();
let xt1_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt1.clone())).unwrap();
let xt2_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt2.clone())).unwrap();
let xt0_status = futures::executor::block_on_stream(xt0_watcher).take(2).collect::<Vec<_>>();
assert_eq!(xt0_status, vec![TransactionStatus::Ready, TransactionStatus::Dropped]);
assert_pool_status!(header01.hash(), &pool, 2, 0);
assert_eq!(block_on(pool.mempool_len()).1, 2);
let header02e = api.push_block_with_parent(
header01.hash(),
vec![xt0.clone(), xt1.clone(), xt2.clone()],
true,
);
api.set_nonce(header02e.hash(), Alice.into(), 201);
api.set_nonce(header02e.hash(), Bob.into(), 301);
api.set_nonce(header02e.hash(), Charlie.into(), 401);
block_on(pool.maintain(new_best_block_event(&pool, Some(header01.hash()), header02e.hash())));
assert_pool_status!(header02e.hash(), &pool, 0, 0);
let header02f = api.push_block_with_parent(header01.hash(), vec![], true);
block_on(pool.maintain(new_best_block_event(&pool, Some(header01.hash()), header02f.hash())));
assert_pool_status!(header02f.hash(), &pool, 2, 0);
assert_ready_iterator!(header02f.hash(), pool, [xt1, xt2]);
let xt3_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt3.clone())).unwrap();
let xt4_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt4.clone())).unwrap();
let xt5_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt5.clone())).unwrap();
assert_pool_status!(header02e.hash(), &pool, 2, 0);
assert_ready_iterator!(header02e.hash(), pool, [xt4, xt5]);
let xt3_status = futures::executor::block_on_stream(xt3_watcher).take(2).collect::<Vec<_>>();
assert_eq!(xt3_status, vec![TransactionStatus::Ready, TransactionStatus::Dropped]);
//xt5 got dropped
assert_eq!(block_on(pool.mempool_len()).1, 4);
let xt1_status = futures::executor::block_on_stream(xt1_watcher).take(2).collect::<Vec<_>>();
assert_eq!(
xt1_status,
vec![TransactionStatus::Ready, TransactionStatus::InBlock((header02e.hash(), 1))]
);
let xt2_status = futures::executor::block_on_stream(xt2_watcher).take(2).collect::<Vec<_>>();
assert_eq!(
xt2_status,
vec![TransactionStatus::Ready, TransactionStatus::InBlock((header02e.hash(), 2))]
);
let xt4_status = futures::executor::block_on_stream(xt4_watcher).take(1).collect::<Vec<_>>();
assert_eq!(xt4_status, vec![TransactionStatus::Ready]);
let xt5_status = futures::executor::block_on_stream(xt5_watcher).take(1).collect::<Vec<_>>();
assert_eq!(xt5_status, vec![TransactionStatus::Ready]);
}
fn large_uxt(x: usize) -> bizinikiwi_test_runtime::Extrinsic {
bizinikiwi_test_runtime::ExtrinsicBuilder::new_include_data(vec![x as u8; 1024]).build()
}
#[test]
fn fatp_limits_ready_size_works() {
pezsp_tracing::try_init_simple();
let builder = TestPoolBuilder::new();
let (pool, api, _) = builder.with_ready_bytes_size(3390).with_future_bytes_size(0).build();
let header01 = api.push_block(1, vec![], true);
let event = new_best_block_event(&pool, None, header01.hash());
block_on(pool.maintain(event));
let xt0 = large_uxt(0);
let xt1 = large_uxt(1);
let xt2 = large_uxt(2);
let submissions = vec![
pool.submit_one(header01.hash(), SOURCE, xt0.clone()),
pool.submit_one(header01.hash(), SOURCE, xt1.clone()),
pool.submit_one(header01.hash(), SOURCE, xt2.clone()),
];
let results = block_on(futures::future::join_all(submissions));
assert!(results.iter().all(Result::is_ok));
//charlie was not included into view:
assert_pool_status!(header01.hash(), &pool, 3, 0);
assert_ready_iterator!(header01.hash(), pool, [xt0, xt1, xt2]);
let xt3 = large_uxt(3);
let result3 = block_on(pool.submit_one(header01.hash(), SOURCE, xt3.clone()));
assert!(matches!(result3.as_ref().unwrap_err().0, TxPoolError::ImmediatelyDropped));
}
#[test]
fn fatp_limits_future_size_works() {
pezsp_tracing::try_init_simple();
const UXT_SIZE: usize = 137;
let builder = TestPoolBuilder::new();
let (pool, api, _) = builder
.with_ready_bytes_size(UXT_SIZE)
.with_future_bytes_size(3 * UXT_SIZE)
.build();
api.set_nonce(api.genesis_hash(), Bob.into(), 200);
api.set_nonce(api.genesis_hash(), Charlie.into(), 500);
let header01 = api.push_block(1, vec![], true);
let event = new_best_block_event(&pool, None, header01.hash());
block_on(pool.maintain(event));
let xt0 = uxt(Bob, 201);
let xt1 = uxt(Charlie, 501);
let xt2 = uxt(Alice, 201);
let xt3 = uxt(Alice, 202);
assert_eq!(api.hash_and_length(&xt0).1, UXT_SIZE);
assert_eq!(api.hash_and_length(&xt1).1, UXT_SIZE);
assert_eq!(api.hash_and_length(&xt2).1, UXT_SIZE);
assert_eq!(api.hash_and_length(&xt3).1, UXT_SIZE);
let _ = block_on(pool.submit_one(header01.hash(), SOURCE, xt0.clone())).unwrap();
let _ = block_on(pool.submit_one(header01.hash(), SOURCE, xt1.clone())).unwrap();
let _ = block_on(pool.submit_one(header01.hash(), SOURCE, xt2.clone())).unwrap();
let _ = block_on(pool.submit_one(header01.hash(), SOURCE, xt3.clone())).unwrap();
//todo: can we do better? We don't have API to check if event was processed internally.
let mut counter = 0;
while block_on(pool.mempool_len()).0 == 4 {
sleep(std::time::Duration::from_millis(1));
counter = counter + 1;
if counter > 20 {
assert!(false, "timeout");
}
}
assert_pool_status!(header01.hash(), &pool, 0, 3);
assert_eq!(block_on(pool.mempool_len()).0, 3);
}
#[test]
fn fatp_limits_watcher_ready_transactions_are_not_droped_when_view_is_dropped() {
pezsp_tracing::try_init_simple();
let builder = TestPoolBuilder::new();
let (pool, api, _) = builder.with_mempool_count_limit(6).with_ready_count(2).build();
api.set_nonce(api.genesis_hash(), Bob.into(), 300);
api.set_nonce(api.genesis_hash(), Charlie.into(), 400);
api.set_nonce(api.genesis_hash(), Dave.into(), 500);
api.set_nonce(api.genesis_hash(), Eve.into(), 600);
api.set_nonce(api.genesis_hash(), Ferdie.into(), 700);
let header01 = api.push_block(1, vec![], true);
let event = new_best_block_event(&pool, None, header01.hash());
block_on(pool.maintain(event));
let xt0 = uxt(Alice, 200);
let xt1 = uxt(Bob, 300);
let xt2 = uxt(Charlie, 400);
let xt3 = uxt(Dave, 500);
let xt4 = uxt(Eve, 600);
let xt5 = uxt(Ferdie, 700);
let _xt0_watcher =
block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt0.clone())).unwrap();
let _xt1_watcher =
block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt1.clone())).unwrap();
assert_pool_status!(header01.hash(), &pool, 2, 0);
assert_eq!(block_on(pool.mempool_len()).1, 2);
let header02 = api.push_block_with_parent(header01.hash(), vec![], true);
block_on(pool.maintain(new_best_block_event(&pool, Some(header01.hash()), header02.hash())));
let _xt2_watcher =
block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt2.clone())).unwrap();
let _xt3_watcher =
block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt3.clone())).unwrap();
assert_pool_status!(header02.hash(), &pool, 2, 0);
assert_eq!(block_on(pool.mempool_len()).1, 4);
let header03 = api.push_block_with_parent(header02.hash(), vec![], true);
block_on(pool.maintain(new_best_block_event(&pool, Some(header02.hash()), header03.hash())));
let _xt4_watcher =
block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt4.clone())).unwrap();
let _xt5_watcher =
block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt5.clone())).unwrap();
assert_pool_status!(header03.hash(), &pool, 2, 0);
assert_eq!(block_on(pool.mempool_len()).1, 6);
let header04 =
api.push_block_with_parent(header03.hash(), vec![xt4.clone(), xt5.clone()], true);
api.set_nonce(header04.hash(), Alice.into(), 201);
api.set_nonce(header04.hash(), Bob.into(), 301);
api.set_nonce(header04.hash(), Charlie.into(), 401);
api.set_nonce(header04.hash(), Dave.into(), 501);
api.set_nonce(header04.hash(), Eve.into(), 601);
api.set_nonce(header04.hash(), Ferdie.into(), 701);
block_on(pool.maintain(new_best_block_event(&pool, Some(header03.hash()), header04.hash())));
assert_ready_iterator!(header01.hash(), pool, [xt0, xt1]);
assert_ready_iterator!(header02.hash(), pool, [xt2, xt3]);
assert_ready_iterator!(header03.hash(), pool, [xt4, xt5]);
assert_ready_iterator!(header04.hash(), pool, []);
block_on(pool.maintain(finalized_block_event(&pool, api.genesis_hash(), header01.hash())));
assert!(!pool.status_all().contains_key(&header01.hash()));
block_on(pool.maintain(finalized_block_event(&pool, header01.hash(), header02.hash())));
assert!(!pool.status_all().contains_key(&header02.hash()));
//view 01 was dropped
assert!(pool.ready_at(header01.hash()).now_or_never().is_none());
assert_eq!(block_on(pool.mempool_len()).1, 6);
block_on(pool.maintain(finalized_block_event(&pool, header02.hash(), header03.hash())));
//no revalidation has happened yet, all txs are kept
assert_eq!(block_on(pool.mempool_len()).1, 6);
//view 03 is still there
assert!(!pool.status_all().contains_key(&header03.hash()));
//view 02 was dropped
assert!(pool.ready_at(header02.hash()).now_or_never().is_none());
let mut prev_header = header03;
for n in 5..=11 {
let header = api.push_block(n, vec![], true);
let event = finalized_block_event(&pool, prev_header.hash(), header.hash());
block_on(pool.maintain(event));
prev_header = header;
}
//now revalidation has happened, all txs are dropped
assert_eq!(block_on(pool.mempool_len()).1, 0);
}
#[test]
fn fatp_limits_watcher_future_transactions_are_droped_when_view_is_dropped() {
pezsp_tracing::try_init_simple();
let builder = TestPoolBuilder::new();
let (pool, api, _) = builder.with_mempool_count_limit(6).with_future_count(2).build();
api.set_nonce(api.genesis_hash(), Bob.into(), 300);
api.set_nonce(api.genesis_hash(), Charlie.into(), 400);
api.set_nonce(api.genesis_hash(), Dave.into(), 500);
api.set_nonce(api.genesis_hash(), Eve.into(), 600);
api.set_nonce(api.genesis_hash(), Ferdie.into(), 700);
let header01 = api.push_block(1, vec![], true);
let event = new_best_block_event(&pool, None, header01.hash());
block_on(pool.maintain(event));
let xt0 = uxt(Alice, 201);
let xt1 = uxt(Bob, 301);
let xt2 = uxt(Charlie, 401);
let xt3 = uxt(Dave, 501);
let xt4 = uxt(Eve, 601);
let xt5 = uxt(Ferdie, 701);
let xt0_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt0.clone())).unwrap();
let xt1_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt1.clone())).unwrap();
assert_pool_status!(header01.hash(), &pool, 0, 2);
assert_eq!(block_on(pool.mempool_len()).1, 2);
assert_future_iterator!(header01.hash(), pool, [xt0, xt1]);
let header02 = api.push_block_with_parent(header01.hash(), vec![], true);
block_on(pool.maintain(new_best_block_event(&pool, Some(header01.hash()), header02.hash())));
let xt2_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt2.clone())).unwrap();
let xt3_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt3.clone())).unwrap();
assert_pool_status!(header02.hash(), &pool, 0, 2);
assert_eq!(block_on(pool.mempool_len()).1, 4);
assert_future_iterator!(header02.hash(), pool, [xt2, xt3]);
let header03 = api.push_block_with_parent(header02.hash(), vec![], true);
block_on(pool.maintain(new_best_block_event(&pool, Some(header02.hash()), header03.hash())));
let xt4_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt4.clone())).unwrap();
let xt5_watcher = block_on(pool.submit_and_watch(invalid_hash(), SOURCE, xt5.clone())).unwrap();
assert_pool_status!(header03.hash(), &pool, 0, 2);
assert_eq!(block_on(pool.mempool_len()).1, 6);
assert_future_iterator!(header03.hash(), pool, [xt4, xt5]);
let header04 = api.push_block_with_parent(header03.hash(), vec![], true);
block_on(pool.maintain(new_best_block_event(&pool, Some(header03.hash()), header04.hash())));
assert_pool_status!(header04.hash(), &pool, 0, 2);
assert_eq!(pool.futures().len(), 2);
assert_future_iterator!(header04.hash(), pool, [xt4, xt5]);
block_on(pool.maintain(finalized_block_event(&pool, api.genesis_hash(), header04.hash())));
assert_eq!(pool.active_views_count(), 1);
assert_eq!(pool.inactive_views_count(), 0);
//todo: can we do better? We don't have API to check if event was processed internally.
let mut counter = 0;
while block_on(pool.mempool_len()).1 != 2 {
sleep(std::time::Duration::from_millis(1));
counter = counter + 1;
if counter > 20 {
assert!(false, "timeout {}", block_on(pool.mempool_len()).1);
}
}
assert_eq!(block_on(pool.mempool_len()).1, 2);
assert_pool_status!(header04.hash(), &pool, 0, 2);
assert_eq!(pool.futures().len(), 2);
let to_be_checked = vec![xt0_watcher, xt1_watcher, xt2_watcher, xt3_watcher];
for x in to_be_checked {
let x_status = futures::executor::block_on_stream(x).take(2).collect::<Vec<_>>();
assert_eq!(x_status, vec![TransactionStatus::Future, TransactionStatus::Dropped]);
}
let to_be_checked = vec![xt4_watcher, xt5_watcher];
for x in to_be_checked {
let x_status = futures::executor::block_on_stream(x).take(1).collect::<Vec<_>>();
assert_eq!(x_status, vec![TransactionStatus::Future]);
}
}