[XCM] Treat recursion limit error as transient in the MQ (#4202)

Changes: - Add new error variant `ProcessMessageError::StackLimitReached` and treat XCM error `ExceedsStackLimit` as such. --------- Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io> Co-authored-by: Branislav Kontur <bkontur@gmail.com>
2026-05-30 22:11:02 +00:00 · 2024-04-25 12:01:21 +03:00
parent b801d001e8
commit 0770417880
7 changed files with 187 additions and 6 deletions
@@ -102,7 +102,12 @@ impl<
 					target: LOG_TARGET,
 					"XCM message execution error: {error:?}",
 				);
-				(required, Err(ProcessMessageError::Unsupported))
+				let error = match error {
+					xcm::latest::Error::ExceedsStackLimit => ProcessMessageError::StackLimitReached,
+					_ => ProcessMessageError::Unsupported,
+				};
+
+				(required, Err(error))
 			},
 		};
 		meter.consume(consumed);
@@ -148,6 +153,45 @@ mod tests {
 		}
 	}

+	#[test]
+	fn process_message_exceeds_limits_fails() {
+		struct MockedExecutor;
+		impl ExecuteXcm<()> for MockedExecutor {
+			type Prepared = xcm_executor::WeighedMessage<()>;
+			fn prepare(
+				message: xcm::latest::Xcm<()>,
+			) -> core::result::Result<Self::Prepared, xcm::latest::Xcm<()>> {
+				Ok(xcm_executor::WeighedMessage::new(Weight::zero(), message))
+			}
+			fn execute(
+				_: impl Into<Location>,
+				_: Self::Prepared,
+				_: &mut XcmHash,
+				_: Weight,
+			) -> Outcome {
+				Outcome::Error { error: xcm::latest::Error::ExceedsStackLimit }
+			}
+			fn charge_fees(_location: impl Into<Location>, _fees: Assets) -> xcm::latest::Result {
+				unreachable!()
+			}
+		}
+
+		type Processor = ProcessXcmMessage<Junction, MockedExecutor, ()>;
+
+		let xcm = VersionedXcm::V4(xcm::latest::Xcm::<()>(vec![
+			xcm::latest::Instruction::<()>::ClearOrigin,
+		]));
+		assert_err!(
+			Processor::process_message(
+				&xcm.encode(),
+				ORIGIN,
+				&mut WeightMeter::new(),
+				&mut [0; 32]
+			),
+			ProcessMessageError::StackLimitReached,
+		);
+	}
+
 	#[test]
 	fn process_message_overweight_fails() {
 		for msg in [v3_xcm(true), v3_xcm(false), v3_xcm(false), v2_xcm(false)] {
@@ -182,6 +182,13 @@ impl<C> PreparedMessage for WeighedMessage<C> {
 	}
 }

+#[cfg(any(test, feature = "std"))]
+impl<C> WeighedMessage<C> {
+	pub fn new(weight: Weight, message: Xcm<C>) -> Self {
+		Self(weight, message)
+	}
+}
+
 impl<Config: config::Config> ExecuteXcm<Config::RuntimeCall> for XcmExecutor<Config> {
 	type Prepared = WeighedMessage<Config::RuntimeCall>;
 	fn prepare(
@@ -0,0 +1,16 @@
+title: "Treat XCM ExceedsStackLimit errors as transient in the MQ pallet"
+
+doc:
+  - audience: Runtime User
+    description: |
+      Fixes an issue where the MessageQueue can incorrectly assume that a message will permanently fail to process and disallow retrial of it.
+
+crates:
+  - name: frame-support
+    bump: major
+  - name: pallet-message-queue
+    bump: patch
+  - name: staging-xcm-builder
+    bump: patch
+  - name: staging-xcm-executor
+    bump: patch    
@@ -765,6 +765,13 @@ enum MessageExecutionStatus {
 	Processed,
 	/// The message was processed and resulted in a, possibly permanent, error.
 	Unprocessable { permanent: bool },
+	/// The stack depth limit was reached.
+	///
+	/// We cannot just return `Unprocessable` in this case, because the processability of the
+	/// message depends on how the function was called. This may be a permanent error if it was
+	/// called by a top-level function, or a transient error if it was already called in a nested
+	/// function.
+	StackLimitReached,
 }

 impl<T: Config> Pallet<T> {
@@ -984,7 +991,8 @@ impl<T: Config> Pallet<T> {
 			// additional overweight event being deposited.
 		) {
 			Overweight | InsufficientWeight => Err(Error::<T>::InsufficientWeight),
-			Unprocessable { permanent: false } => Err(Error::<T>::TemporarilyUnprocessable),
+			StackLimitReached | Unprocessable { permanent: false } =>
+				Err(Error::<T>::TemporarilyUnprocessable),
 			Unprocessable { permanent: true } | Processed => {
 				page.note_processed_at_pos(pos);
 				book_state.message_count.saturating_dec();
@@ -1250,7 +1258,7 @@ impl<T: Config> Pallet<T> {
 		let is_processed = match res {
 			InsufficientWeight => return ItemExecutionStatus::Bailed,
 			Unprocessable { permanent: false } => return ItemExecutionStatus::NoProgress,
-			Processed | Unprocessable { permanent: true } => true,
+			Processed | Unprocessable { permanent: true } | StackLimitReached => true,
 			Overweight => false,
 		};

@@ -1461,6 +1469,10 @@ impl<T: Config> Pallet<T> {
 				Self::deposit_event(Event::<T>::ProcessingFailed { id: id.into(), origin, error });
 				MessageExecutionStatus::Unprocessable { permanent: true }
 			},
+			Err(error @ StackLimitReached) => {
+				Self::deposit_event(Event::<T>::ProcessingFailed { id: id.into(), origin, error });
+				MessageExecutionStatus::StackLimitReached
+			},
 			Ok(success) => {
 				// Success
 				let weight_used = meter.consumed().saturating_sub(prev_consumed);
@@ -198,6 +198,7 @@ impl ProcessMessage for RecordingMessageProcessor {

 parameter_types! {
 	pub static Callback: Box<fn (&MessageOrigin, u32)> = Box::new(|_, _| {});
+	pub static IgnoreStackOvError: bool = false;
 }

 /// Processed a mocked message. Messages that end with `badformat`, `corrupt`, `unsupported` or
@@ -216,6 +217,8 @@ fn processing_message(msg: &[u8], origin: &MessageOrigin) -> Result<(), ProcessM
 		Err(ProcessMessageError::Unsupported)
 	} else if msg.ends_with("yield") {
 		Err(ProcessMessageError::Yield)
+	} else if msg.ends_with("stacklimitreached") && !IgnoreStackOvError::get() {
+		Err(ProcessMessageError::StackLimitReached)
 	} else {
 		Ok(())
 	}
@@ -174,9 +174,10 @@ fn service_queues_failing_messages_works() {
 		MessageQueue::enqueue_message(msg("badformat"), Here);
 		MessageQueue::enqueue_message(msg("corrupt"), Here);
 		MessageQueue::enqueue_message(msg("unsupported"), Here);
+		MessageQueue::enqueue_message(msg("stacklimitreached"), Here);
 		MessageQueue::enqueue_message(msg("yield"), Here);
 		// Starts with four pages.
-		assert_pages(&[0, 1, 2, 3]);
+		assert_pages(&[0, 1, 2, 3, 4]);

 		assert_eq!(MessageQueue::service_queues(1.into_weight()), 1.into_weight());
 		assert_last_event::<Test>(
@@ -206,9 +207,9 @@ fn service_queues_failing_messages_works() {
 			.into(),
 		);
 		assert_eq!(MessageQueue::service_queues(1.into_weight()), 1.into_weight());
-		assert_eq!(System::events().len(), 3);
+		assert_eq!(System::events().len(), 4);
 		// Last page with the `yield` stays in.
-		assert_pages(&[3]);
+		assert_pages(&[4]);
 	});
 }

@@ -1880,3 +1881,97 @@ fn process_enqueued_on_idle_requires_enough_weight() {
 		assert_eq!(MessagesProcessed::take(), vec![]);
 	})
 }
+
+/// A message that reports `StackLimitReached` will not be put into the overweight queue when
+/// executed from the top level.
+#[test]
+fn process_discards_stack_ov_message() {
+	use MessageOrigin::*;
+	build_and_execute::<Test>(|| {
+		MessageQueue::enqueue_message(msg("stacklimitreached"), Here);
+
+		MessageQueue::service_queues(10.into_weight());
+
+		assert_last_event::<Test>(
+			Event::ProcessingFailed {
+				id: blake2_256(b"stacklimitreached").into(),
+				origin: MessageOrigin::Here,
+				error: ProcessMessageError::StackLimitReached,
+			}
+			.into(),
+		);
+
+		assert!(MessagesProcessed::take().is_empty());
+		// Message is gone and not overweight:
+		assert_pages(&[]);
+	});
+}
+
+/// A message that reports `StackLimitReached` will stay in the overweight queue when it is executed
+/// by `execute_overweight`.
+#[test]
+fn execute_overweight_keeps_stack_ov_message() {
+	use MessageOrigin::*;
+	build_and_execute::<Test>(|| {
+		// We need to create a mocked message that first reports insufficient weight, and then
+		// `StackLimitReached`:
+		IgnoreStackOvError::set(true);
+		MessageQueue::enqueue_message(msg("stacklimitreached"), Here);
+		MessageQueue::service_queues(0.into_weight());
+
+		assert_last_event::<Test>(
+			Event::OverweightEnqueued {
+				id: blake2_256(b"stacklimitreached"),
+				origin: MessageOrigin::Here,
+				message_index: 0,
+				page_index: 0,
+			}
+			.into(),
+		);
+		// Does not count as 'processed':
+		assert!(MessagesProcessed::take().is_empty());
+		assert_pages(&[0]);
+
+		// Now let it return `StackLimitReached`. Note that this case would normally not happen,
+		// since we assume that the top-level execution is the one with the most remaining stack
+		// depth.
+		IgnoreStackOvError::set(false);
+		// Ensure that trying to execute the message does not change any state (besides events).
+		System::reset_events();
+		let storage_noop = StorageNoopGuard::new();
+		assert_eq!(
+			<MessageQueue as ServiceQueues>::execute_overweight(3.into_weight(), (Here, 0, 0)),
+			Err(ExecuteOverweightError::Other)
+		);
+		assert_last_event::<Test>(
+			Event::ProcessingFailed {
+				id: blake2_256(b"stacklimitreached").into(),
+				origin: MessageOrigin::Here,
+				error: ProcessMessageError::StackLimitReached,
+			}
+			.into(),
+		);
+		System::reset_events();
+		drop(storage_noop);
+
+		// Now let's process it normally:
+		IgnoreStackOvError::set(true);
+		assert_eq!(
+			<MessageQueue as ServiceQueues>::execute_overweight(1.into_weight(), (Here, 0, 0))
+				.unwrap(),
+			1.into_weight()
+		);
+
+		assert_last_event::<Test>(
+			Event::Processed {
+				id: blake2_256(b"stacklimitreached").into(),
+				origin: MessageOrigin::Here,
+				weight_used: 1.into_weight(),
+				success: true,
+			}
+			.into(),
+		);
+		assert_pages(&[]);
+		System::reset_events();
+	});
+}
@@ -46,6 +46,8 @@ pub enum ProcessMessageError {
 	/// the case that a queue is re-serviced within the same block after *yielding*. A queue is
 	/// not required to *yield* again when it is being re-serviced withing the same block.
 	Yield,
+	/// The message could not be processed for reaching the stack depth limit.
+	StackLimitReached,
 }

 /// Can process messages from a specific origin.
@@ -96,6 +98,8 @@ pub trait ServiceQueues {
 	/// - `weight_limit`: The maximum amount of dynamic weight that this call can use.
 	///
 	/// Returns the dynamic weight used by this call; is never greater than `weight_limit`.
+	/// Should only be called in top-level runtime entry points like `on_initialize` or `on_idle`.
+	/// Otherwise, stack depth limit errors may be miss-handled.
 	fn service_queues(weight_limit: Weight) -> Weight;

 	/// Executes a message that could not be executed by [`Self::service_queues()`] because it was