Newer
Older
})
}
/// The footprint of a swept queue is still correct.
#[test]
fn footprint_on_swept_works() {
use MessageOrigin::*;
build_and_execute::<Test>(|| {
let mut book = empty_book::<Test>();
book.message_count = 3;
book.size = 10;
BookStateFor::<Test>::insert(Here, &book);
knit(&Here);
MessageQueue::sweep_queue(Here);
let fp = MessageQueue::footprint(Here);
assert_eq!(fp.count, 3);
assert_eq!(fp.size, 10);
})
}
#[test]
fn execute_overweight_works() {
build_and_execute::<Test>(|| {
set_weight("bump_service_head", 1.into_weight());
set_weight("service_queue_base", 1.into_weight());
set_weight("service_page_base_completion", 1.into_weight());
// Enqueue a message
let origin = MessageOrigin::Here;
MessageQueue::enqueue_message(msg("weight=6"), origin);
// Load the current book
let book = BookStateFor::<Test>::get(origin);
assert_eq!(book.message_count, 1);
assert!(Pages::<Test>::contains_key(origin, 0));
// Mark the message as permanently overweight.
assert_eq!(MessageQueue::service_queues(4.into_weight()), 4.into_weight());
assert_eq!(QueueChanges::take(), vec![(origin, 1, 8)]);
assert_last_event::<Test>(
Event::OverweightEnqueued {
id: blake2_256(b"weight=6"),
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origin: MessageOrigin::Here,
message_index: 0,
page_index: 0,
}
.into(),
);
// Now try to execute it with too few weight.
let consumed =
<MessageQueue as ServiceQueues>::execute_overweight(5.into_weight(), (origin, 0, 0));
assert_eq!(consumed, Err(ExecuteOverweightError::InsufficientWeight));
// Execute it with enough weight.
assert_eq!(Pages::<Test>::iter().count(), 1);
assert!(QueueChanges::take().is_empty());
let consumed =
<MessageQueue as ServiceQueues>::execute_overweight(7.into_weight(), (origin, 0, 0))
.unwrap();
assert_eq!(consumed, 6.into_weight());
assert_eq!(QueueChanges::take(), vec![(origin, 0, 0)]);
// There is no message left in the book.
let book = BookStateFor::<Test>::get(origin);
assert_eq!(book.message_count, 0);
// And no more pages.
assert_eq!(Pages::<Test>::iter().count(), 0);
// Doing it again with enough weight will error.
let consumed =
<MessageQueue as ServiceQueues>::execute_overweight(70.into_weight(), (origin, 0, 0));
assert_eq!(consumed, Err(ExecuteOverweightError::NotFound));
assert!(QueueChanges::take().is_empty());
assert!(!Pages::<Test>::contains_key(origin, 0), "Page is gone");
// The book should have been unknit from the ready ring.
assert!(!ServiceHead::<Test>::exists(), "No ready book");
});
}
#[test]
fn permanently_overweight_book_unknits() {
use MessageOrigin::*;
build_and_execute::<Test>(|| {
set_weight("bump_service_head", 1.into_weight());
set_weight("service_queue_base", 1.into_weight());
set_weight("service_page_base_completion", 1.into_weight());
MessageQueue::enqueue_messages([msg("weight=9")].into_iter(), Here);
// It is the only ready book.
assert_ring(&[Here]);
// Mark the message as overweight.
assert_eq!(MessageQueue::service_queues(8.into_weight()), 4.into_weight());
assert_last_event::<Test>(
Event::OverweightEnqueued {
id: blake2_256(b"weight=9"),
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origin: Here,
message_index: 0,
page_index: 0,
}
.into(),
);
// The book is not ready anymore.
assert_ring(&[]);
assert_eq!(MessagesProcessed::take().len(), 0);
assert_eq!(BookStateFor::<Test>::get(Here).message_count, 1);
// Now if we enqueue another message, it will become ready again.
MessageQueue::enqueue_messages([msg("weight=1")].into_iter(), Here);
assert_ring(&[Here]);
assert_eq!(MessageQueue::service_queues(8.into_weight()), 5.into_weight());
assert_eq!(MessagesProcessed::take().len(), 1);
assert_ring(&[]);
});
}
#[test]
fn permanently_overweight_book_unknits_multiple() {
use MessageOrigin::*;
build_and_execute::<Test>(|| {
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set_weight("bump_service_head", 1.into_weight());
set_weight("service_queue_base", 1.into_weight());
set_weight("service_page_base_completion", 1.into_weight());
MessageQueue::enqueue_messages(
[msg("weight=1"), msg("weight=9"), msg("weight=9")].into_iter(),
Here,
);
assert_ring(&[Here]);
// Process the first message.
assert_eq!(MessageQueue::service_queues(4.into_weight()), 4.into_weight());
assert_eq!(num_overweight_enqueued_events(), 0);
assert_eq!(MessagesProcessed::take().len(), 1);
// Book is still ready since it was not marked as overweight yet.
assert_ring(&[Here]);
assert_eq!(MessageQueue::service_queues(8.into_weight()), 5.into_weight());
assert_eq!(num_overweight_enqueued_events(), 2);
assert_eq!(MessagesProcessed::take().len(), 0);
// Now it is overweight.
assert_ring(&[]);
// Enqueue another message.
MessageQueue::enqueue_messages([msg("weight=1")].into_iter(), Here);
assert_ring(&[Here]);
assert_eq!(MessageQueue::service_queues(4.into_weight()), 4.into_weight());
assert_eq!(MessagesProcessed::take().len(), 1);
assert_ring(&[]);
});
}
/// We don't want empty books in the ready ring, but if they somehow make their way in there, it
/// should not panic.
#[test]
#[cfg(not(debug_assertions))] // Would trigger a defensive failure otherwise.
fn ready_but_empty_does_not_panic() {
use MessageOrigin::*;
build_and_execute::<Test>(|| {
BookStateFor::<Test>::insert(Here, empty_book::<Test>());
BookStateFor::<Test>::insert(There, empty_book::<Test>());
knit(&Here);
knit(&There);
assert_ring(&[Here, There]);
assert_eq!(MessageQueue::service_queues(Weight::MAX), 0.into_weight());
assert_ring(&[]);
});
}
/// We don't want permanently books in the ready ring, but if they somehow make their way in there,
/// it should not panic.
#[test]
#[cfg(not(debug_assertions))] // Would trigger a defensive failure otherwise.
fn ready_but_perm_overweight_does_not_panic() {
use MessageOrigin::*;
build_and_execute::<Test>(|| {
MessageQueue::enqueue_message(msg("weight=9"), Here);
assert_eq!(MessageQueue::service_queues(8.into_weight()), 0.into_weight());
assert_ring(&[]);
// Force it back into the ready ring.
knit(&Here);
assert_ring(&[Here]);
assert_eq!(MessageQueue::service_queues(Weight::MAX), 0.into_weight());
// Unready again.
assert_ring(&[]);
});
}
/// Checks that (un)knitting the ready ring works with just one queue.
///
/// This case is interesting since it wraps and a lot of `mutate` now operate on the same object.
#[test]
fn ready_ring_knit_basic_works() {
use MessageOrigin::*;
build_and_execute::<Test>(|| {
BookStateFor::<Test>::insert(Here, empty_book::<Test>());
for i in 0..10 {
if i % 2 == 0 {
knit(&Here);
assert_ring(&[Here]);
} else {
unknit(&Here);
assert_ring(&[]);
}
}
assert_ring(&[]);
});
}
#[test]
fn ready_ring_knit_and_unknit_works() {
use MessageOrigin::*;
build_and_execute::<Test>(|| {
// Place three queues into the storage.
BookStateFor::<Test>::insert(Here, empty_book::<Test>());
BookStateFor::<Test>::insert(There, empty_book::<Test>());
BookStateFor::<Test>::insert(Everywhere(0), empty_book::<Test>());
// Pausing should make no difference:
PausedQueues::set(vec![Here, There, Everywhere(0)]);
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// Knit them into the ready ring.
assert_ring(&[]);
knit(&Here);
assert_ring(&[Here]);
knit(&There);
assert_ring(&[Here, There]);
knit(&Everywhere(0));
assert_ring(&[Here, There, Everywhere(0)]);
// Now unknit…
unknit(&Here);
assert_ring(&[There, Everywhere(0)]);
unknit(&There);
assert_ring(&[Everywhere(0)]);
unknit(&Everywhere(0));
assert_ring(&[]);
});
}
#[test]
fn enqueue_message_works() {
use MessageOrigin::*;
let max_msg_per_page = <Test as Config>::HeapSize::get() as u64 /
(ItemHeader::<<Test as Config>::Size>::max_encoded_len() as u64 + 1);
build_and_execute::<Test>(|| {
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// Enqueue messages which should fill three pages.
let n = max_msg_per_page * 3;
for i in 1..=n {
MessageQueue::enqueue_message(msg("a"), Here);
assert_eq!(QueueChanges::take(), vec![(Here, i, i)], "OnQueueChanged not called");
}
assert_eq!(Pages::<Test>::iter().count(), 3);
// Enqueue one more onto page 4.
MessageQueue::enqueue_message(msg("abc"), Here);
assert_eq!(QueueChanges::take(), vec![(Here, n + 1, n + 3)]);
assert_eq!(Pages::<Test>::iter().count(), 4);
// Check the state.
assert_eq!(BookStateFor::<Test>::iter().count(), 1);
let book = BookStateFor::<Test>::get(Here);
assert_eq!(book.message_count, n + 1);
assert_eq!(book.size, n + 3);
assert_eq!((book.begin, book.end), (0, 4));
assert_eq!(book.count as usize, Pages::<Test>::iter().count());
});
}
#[test]
fn enqueue_messages_works() {
use MessageOrigin::*;
let max_msg_per_page = <Test as Config>::HeapSize::get() as u64 /
(ItemHeader::<<Test as Config>::Size>::max_encoded_len() as u64 + 1);
build_and_execute::<Test>(|| {
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// Enqueue messages which should fill three pages.
let n = max_msg_per_page * 3;
let msgs = vec![msg("a"); n as usize];
// Now queue all messages at once.
MessageQueue::enqueue_messages(msgs.into_iter(), Here);
// The changed handler should only be called once.
assert_eq!(QueueChanges::take(), vec![(Here, n, n)], "OnQueueChanged not called");
assert_eq!(Pages::<Test>::iter().count(), 3);
// Enqueue one more onto page 4.
MessageQueue::enqueue_message(msg("abc"), Here);
assert_eq!(QueueChanges::take(), vec![(Here, n + 1, n + 3)]);
assert_eq!(Pages::<Test>::iter().count(), 4);
// Check the state.
assert_eq!(BookStateFor::<Test>::iter().count(), 1);
let book = BookStateFor::<Test>::get(Here);
assert_eq!(book.message_count, n + 1);
assert_eq!(book.size, n + 3);
assert_eq!((book.begin, book.end), (0, 4));
assert_eq!(book.count as usize, Pages::<Test>::iter().count());
});
}
#[test]
fn service_queues_suspend_works() {
use MessageOrigin::*;
build_and_execute::<Test>(|| {
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MessageQueue::enqueue_messages(vec![msg("a"), msg("ab"), msg("abc")].into_iter(), Here);
MessageQueue::enqueue_messages(vec![msg("x"), msg("xy"), msg("xyz")].into_iter(), There);
assert_eq!(QueueChanges::take(), vec![(Here, 3, 6), (There, 3, 6)]);
// Pause `Here` - execution starts `There`.
PausedQueues::set(vec![Here]);
assert_eq!(
(true, false),
(
<Test as Config>::QueuePausedQuery::is_paused(&Here),
<Test as Config>::QueuePausedQuery::is_paused(&There)
)
);
assert_eq!(MessageQueue::service_queues(1.into_weight()), 1.into_weight());
assert_eq!(MessagesProcessed::take(), vec![(vmsg("x"), There)]);
assert_eq!(QueueChanges::take(), vec![(There, 2, 5)]);
// Unpause `Here` - execution continues `There`.
PausedQueues::take();
assert_eq!(
(false, false),
(
<Test as Config>::QueuePausedQuery::is_paused(&Here),
<Test as Config>::QueuePausedQuery::is_paused(&There)
)
);
assert_eq!(MessageQueue::service_queues(1.into_weight()), 1.into_weight());
assert_eq!(MessagesProcessed::take(), vec![(vmsg("xy"), There)]);
assert_eq!(QueueChanges::take(), vec![(There, 1, 3)]);
// Now it swaps to `Here`.
assert_eq!(MessageQueue::service_queues(1.into_weight()), 1.into_weight());
assert_eq!(MessagesProcessed::take(), vec![(vmsg("a"), Here)]);
assert_eq!(QueueChanges::take(), vec![(Here, 2, 5)]);
// Pause `There` - execution continues `Here`.
PausedQueues::set(vec![There]);
assert_eq!(
(false, true),
(
<Test as Config>::QueuePausedQuery::is_paused(&Here),
<Test as Config>::QueuePausedQuery::is_paused(&There)
)
);
assert_eq!(MessageQueue::service_queues(1.into_weight()), 1.into_weight());
assert_eq!(MessagesProcessed::take(), vec![(vmsg("ab"), Here)]);
assert_eq!(QueueChanges::take(), vec![(Here, 1, 3)]);
// Unpause `There` and service all remaining messages.
PausedQueues::take();
assert_eq!(
(false, false),
(
<Test as Config>::QueuePausedQuery::is_paused(&Here),
<Test as Config>::QueuePausedQuery::is_paused(&There)
)
);
assert_eq!(MessageQueue::service_queues(2.into_weight()), 2.into_weight());
assert_eq!(MessagesProcessed::take(), vec![(vmsg("abc"), Here), (vmsg("xyz"), There)]);
assert_eq!(QueueChanges::take(), vec![(Here, 0, 0), (There, 0, 0)]);
});
}
/// Tests that manual overweight execution on a suspended queue errors with `QueueSuspended`.
#[test]
fn execute_overweight_respects_suspension() {
build_and_execute::<Test>(|| {
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let origin = MessageOrigin::Here;
MessageQueue::enqueue_message(msg("weight=5"), origin);
// Mark the message as permanently overweight.
MessageQueue::service_queues(4.into_weight());
assert_last_event::<Test>(
Event::OverweightEnqueued {
id: blake2_256(b"weight=5"),
origin,
message_index: 0,
page_index: 0,
}
.into(),
);
PausedQueues::set(vec![origin]);
assert!(<Test as Config>::QueuePausedQuery::is_paused(&origin));
// Execution should fail.
assert_eq!(
<MessageQueue as ServiceQueues>::execute_overweight(Weight::MAX, (origin, 0, 0)),
Err(ExecuteOverweightError::QueuePaused)
);
PausedQueues::take();
assert!(!<Test as Config>::QueuePausedQuery::is_paused(&origin));
// Execution should work again with same args.
assert_ok!(<MessageQueue as ServiceQueues>::execute_overweight(
Weight::MAX,
(origin, 0, 0)
));
assert_last_event::<Test>(
Event::Processed {
id: blake2_256(b"weight=5"),
origin,
weight_used: 5.into_weight(),
success: true,
}
.into(),
);
});
}
#[test]
fn service_queue_suspension_ready_ring_works() {
build_and_execute::<Test>(|| {
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let origin = MessageOrigin::Here;
PausedQueues::set(vec![origin]);
MessageQueue::enqueue_message(msg("weight=5"), origin);
MessageQueue::service_queues(Weight::MAX);
// It did not execute but is in the ready ring.
assert!(System::events().is_empty(), "Paused");
assert_ring(&[origin]);
// Now when we un-pause, it will execute.
PausedQueues::take();
MessageQueue::service_queues(Weight::MAX);
assert_last_event::<Test>(
Event::Processed {
id: blake2_256(b"weight=5"),
origin,
weight_used: 5.into_weight(),
success: true,
}
.into(),
);
});
}