Release crates io v1.8.0 staking backport

prdoc/pr_3639.prdoc

@@ -0,0 +1,19 @@
+title: Prevents staking controllers from becoming stashes of different ledgers; Ensures that no ledger in bad state is mutated.
+
+doc:
+  - audience: Runtime User
+    description: |
+      This PR introduces a fix to the staking logic which prevents an existing controller from bonding as a stash of another ledger, which
+      lead to staking ledger inconsistencies down the line. In addition, it adds a few (temporary) gates to prevent ledgers that are already
+      in a bad state from mutating its state.
+
+      In summary:
+      * Checks if stash is already a controller when calling `Call::bond` and fails if that's the case;
+      * Ensures that all fetching ledgers from storage are done through the `StakingLedger` API;
+      * Ensures that a `Error::BadState` is returned if the ledger bonding is in a bad state. This prevents bad ledgers from mutating (e.g.
+        `bond_extra`, `set_controller`, etc) its state and avoid further data inconsistencies.
+      * Prevents stashes which are controllers or another ledger from calling `set_controller`, since that may lead to a bad state.
+      * Adds further try-state runtime checks that check if there are ledgers in a bad state based on their bonded metadata.
+
+crates:
+- name: pallet-staking

substrate/frame/staking/src/ledger.rs

@@ -32,8 +32,8 @@
 //! state consistency.
 
 use frame_support::{
-	defensive,
-	traits::{LockableCurrency, WithdrawReasons},
+	defensive, ensure,
+	traits::{Defensive, LockableCurrency, WithdrawReasons},
 };
 use sp_staking::StakingAccount;
 use sp_std::prelude::*;
@@ -106,18 +106,39 @@ impl<T: Config> StakingLedger<T> {
 	/// This getter can be called with either a controller or stash account, provided that the
 	/// account is properly wrapped in the respective [`StakingAccount`] variant. This is meant to
 	/// abstract the concept of controller/stash accounts from the caller.
+	///
+	/// Returns [`Error::BadState`] when a bond is in "bad state". A bond is in a bad state when a
+	/// stash has a controller which is bonding a ledger associated with another stash.
 	pub(crate) fn get(account: StakingAccount<T::AccountId>) -> Result<StakingLedger<T>, Error<T>> {
-		let controller = match account {
-			StakingAccount::Stash(stash) => <Bonded<T>>::get(stash).ok_or(Error::<T>::NotStash),
-			StakingAccount::Controller(controller) => Ok(controller),
-		}?;
+		let (stash, controller) = match account.clone() {
+			StakingAccount::Stash(stash) =>
+				(stash.clone(), <Bonded<T>>::get(&stash).ok_or(Error::<T>::NotStash)?),
+			StakingAccount::Controller(controller) => (
+				Ledger::<T>::get(&controller)
+					.map(|l| l.stash)
+					.ok_or(Error::<T>::NotController)?,
+				controller,
+			),
+		};
 
-		<Ledger<T>>::get(&controller)
+		let ledger = <Ledger<T>>::get(&controller)
 			.map(|mut ledger| {
 				ledger.controller = Some(controller.clone());
 				ledger
 			})
-			.ok_or(Error::<T>::NotController)
+			.ok_or(Error::<T>::NotController)?;
+
+		// if ledger bond is in a bad state, return error to prevent applying operations that may
+		// further spoil the ledger's state. A bond is in bad state when the bonded controller is
+		// associted with a different ledger (i.e. a ledger with a different stash).
+		//
+		// See <https://github.com/paritytech/polkadot-sdk/issues/3245> for more details.
+		ensure!(
+			Bonded::<T>::get(&stash) == Some(controller) && ledger.stash == stash,
+			Error::<T>::BadState
+		);
+
+		Ok(ledger)
 	}
 
 	/// Returns the reward destination of a staking ledger, stored in [`Payee`].
@@ -201,6 +222,30 @@ impl<T: Config> StakingLedger<T> {
 		}
 	}
 
+	/// Sets the ledger controller to its stash.
+	pub(crate) fn set_controller_to_stash(self) -> Result<(), Error<T>> {
+		let controller = self.controller.as_ref()
+            .defensive_proof("Ledger's controller field didn't exist. The controller should have been fetched using StakingLedger.")
+            .ok_or(Error::<T>::NotController)?;
+
+		ensure!(self.stash != *controller, Error::<T>::AlreadyPaired);
+
+		// check if the ledger's stash is a controller of another ledger.
+		if let Some(bonded_ledger) = Ledger::<T>::get(&self.stash) {
+			// there is a ledger bonded by the stash. In this case, the stash of the bonded ledger
+			// should be the same as the ledger's stash. Otherwise fail to prevent data
+			// inconsistencies. See <https://github.com/paritytech/polkadot-sdk/pull/3639> for more
+			// details.
+			ensure!(bonded_ledger.stash == self.stash, Error::<T>::BadState);
+		}
+
+		<Ledger<T>>::remove(&controller);
+		<Ledger<T>>::insert(&self.stash, &self);
+		<Bonded<T>>::insert(&self.stash, &self.stash);
+
+		Ok(())
+	}
+
 	/// Clears all data related to a staking ledger and its bond in both [`Ledger`] and [`Bonded`]
 	/// storage items and updates the stash staking lock.
 	pub(crate) fn kill(stash: &T::AccountId) -> Result<(), Error<T>> {

substrate/frame/staking/src/mock.rs

@@ -786,6 +786,57 @@ pub(crate) fn bond_controller_stash(controller: AccountId, stash: AccountId) ->
 	Ok(())
 }
 
+pub(crate) fn setup_double_bonded_ledgers() {
+	assert_ok!(Staking::bond(RuntimeOrigin::signed(1), 10, RewardDestination::Staked));
+	assert_ok!(Staking::bond(RuntimeOrigin::signed(2), 20, RewardDestination::Staked));
+	assert_ok!(Staking::bond(RuntimeOrigin::signed(3), 20, RewardDestination::Staked));
+	// not relevant to the test case, but ensures try-runtime checks pass.
+	[1, 2, 3]
+		.iter()
+		.for_each(|s| Payee::<Test>::insert(s, RewardDestination::Staked));
+
+	// we want to test the case where a controller can also be a stash of another ledger.
+	// for that, we change the controller/stash bonding so that:
+	// * 2 becomes controller of 1.
+	// * 3 becomes controller of 2.
+	// * 4 becomes controller of 3.
+	let ledger_1 = Ledger::<Test>::get(1).unwrap();
+	let ledger_2 = Ledger::<Test>::get(2).unwrap();
+	let ledger_3 = Ledger::<Test>::get(3).unwrap();
+
+	// 4 becomes controller of 3.
+	Bonded::<Test>::mutate(3, |controller| *controller = Some(4));
+	Ledger::<Test>::insert(4, ledger_3);
+
+	// 3 becomes controller of 2.
+	Bonded::<Test>::mutate(2, |controller| *controller = Some(3));
+	Ledger::<Test>::insert(3, ledger_2);
+
+	// 2 becomes controller of 1
+	Bonded::<Test>::mutate(1, |controller| *controller = Some(2));
+	Ledger::<Test>::insert(2, ledger_1);
+	// 1 is not controller anymore.
+	Ledger::<Test>::remove(1);
+
+	// checks. now we have:
+	// * 3 ledgers
+	assert_eq!(Ledger::<Test>::iter().count(), 3);
+	// * stash 1 has controller 2.
+	assert_eq!(Bonded::<Test>::get(1), Some(2));
+	assert_eq!(StakingLedger::<Test>::paired_account(StakingAccount::Stash(1)), Some(2));
+	assert_eq!(Ledger::<Test>::get(2).unwrap().stash, 1);
+
+	// * stash 2 has controller 3.
+	assert_eq!(Bonded::<Test>::get(2), Some(3));
+	assert_eq!(StakingLedger::<Test>::paired_account(StakingAccount::Stash(2)), Some(3));
+	assert_eq!(Ledger::<Test>::get(3).unwrap().stash, 2);
+
+	// * stash 3 has controller 4.
+	assert_eq!(Bonded::<Test>::get(3), Some(4));
+	assert_eq!(StakingLedger::<Test>::paired_account(StakingAccount::Stash(3)), Some(4));
+	assert_eq!(Ledger::<Test>::get(4).unwrap().stash, 3);
+}
+
 #[macro_export]
 macro_rules! assert_session_era {
 	($session:expr, $era:expr) => {

substrate/frame/staking/src/pallet/impls.rs

@@ -165,7 +165,8 @@ impl<T: Config> Pallet<T> {
 		let controller = Self::bonded(&validator_stash).ok_or_else(|| {
 			Error::<T>::NotStash.with_weight(T::WeightInfo::payout_stakers_alive_staked(0))
 		})?;
-		let ledger = <Ledger<T>>::get(&controller).ok_or(Error::<T>::NotController)?;
+
+		let ledger = Self::ledger(StakingAccount::Controller(controller))?;
 		let page = EraInfo::<T>::get_next_claimable_page(era, &validator_stash, &ledger)
 			.ok_or_else(|| {
 				Error::<T>::AlreadyClaimed
@@ -1728,7 +1729,7 @@ impl<T: Config> StakingInterface for Pallet<T> {
 	) -> Result<bool, DispatchError> {
 		let ctrl = Self::bonded(&who).ok_or(Error::<T>::NotStash)?;
 		Self::withdraw_unbonded(RawOrigin::Signed(ctrl.clone()).into(), num_slashing_spans)
-			.map(|_| !Ledger::<T>::contains_key(&ctrl))
+			.map(|_| !StakingLedger::<T>::is_bonded(StakingAccount::Controller(ctrl)))
 			.map_err(|with_post| with_post.error)
 	}
 
@@ -1836,6 +1837,7 @@ impl<T: Config> Pallet<T> {
 			"VoterList contains non-staker"
 		);
 
+		Self::check_bonded_consistency()?;
 		Self::check_payees()?;
 		Self::check_nominators()?;
 		Self::check_exposures()?;
@@ -1844,9 +1846,67 @@ impl<T: Config> Pallet<T> {
 		Self::check_count()
 	}
 
+	/// Invariants:
+	/// * A controller should not be associated with more than one ledger.
+	/// * A bonded (stash, controller) pair should have only one associated ledger. I.e. if the
+	///   ledger is bonded by stash, the controller account must not bond a different ledger.
+	/// * A bonded (stash, controller) pair must have an associated ledger.
+	/// NOTE: these checks result in warnings only. Once
+	/// <https://github.com/paritytech/polkadot-sdk/issues/3245> is resolved, turn warns into check
+	/// failures.
+	fn check_bonded_consistency() -> Result<(), TryRuntimeError> {
+		use sp_std::collections::btree_set::BTreeSet;
+
+		let mut count_controller_double = 0;
+		let mut count_double = 0;
+		let mut count_none = 0;
+		// sanity check to ensure that each controller in Bonded storage is associated with only one
+		// ledger.
+		let mut controllers = BTreeSet::new();
+
+		for (stash, controller) in <Bonded<T>>::iter() {
+			if !controllers.insert(controller.clone()) {
+				count_controller_double += 1;
+			}
+
+			match (<Ledger<T>>::get(&stash), <Ledger<T>>::get(&controller)) {
+				(Some(_), Some(_)) =>
+				// if stash == controller, it means that the ledger has migrated to
+				// post-controller. If no migration happened, we expect that the (stash,
+				// controller) pair has only one associated ledger.
+					if stash != controller {
+						count_double += 1;
+					},
+				(None, None) => {
+					count_none += 1;
+				},
+				_ => {},
+			};
+		}
+
+		if count_controller_double != 0 {
+			log!(
+				warn,
+				"a controller is associated with more than one ledger ({} occurrences)",
+				count_controller_double
+			);
+		};
+
+		if count_double != 0 {
+			log!(warn, "single tuple of (stash, controller) pair bonds more than one ledger ({} occurrences)", count_double);
+		}
+
+		if count_none != 0 {
+			log!(warn, "inconsistent bonded state: (stash, controller) pair missing associated ledger ({} occurrences)", count_none);
+		}
+
+		Ok(())
+	}
+
 	/// Invariants:
 	/// * A bonded ledger should always have an assigned `Payee`.
 	/// * The number of entries in `Payee` and of bonded staking ledgers *must* match.
+	/// * The stash account in the ledger must match that of the bonded acount.
 	fn check_payees() -> Result<(), TryRuntimeError> {
 		for (stash, _) in Bonded::<T>::iter() {
 			ensure!(Payee::<T>::get(&stash).is_some(), "bonded ledger does not have payee set");
@@ -1861,6 +1921,11 @@ impl<T: Config> Pallet<T> {
 		Ok(())
 	}
 
+	/// Invariants:
+	/// * Number of voters in `VoterList` match that of the number of Nominators and Validators in
+	/// the system (validator is both voter and target).
+	/// * Number of targets in `TargetList` matches the number of validators in the system.
+	/// * Current validator count is bounded by the election provider's max winners.
 	fn check_count() -> Result<(), TryRuntimeError> {
 		ensure!(
 			<T as Config>::VoterList::count() ==
@@ -1879,6 +1944,11 @@ impl<T: Config> Pallet<T> {
 		Ok(())
 	}
 
+	/// Invariants:
+	/// * `ledger.controller` is not stored in the storage (but populated at retrieval).
+	/// * Stake consistency: ledger.total == ledger.active + sum(ledger.unlocking).
+	/// * The controller keyeing the ledger and the ledger stash matches the state of the `Bonded`
+	/// storage.
 	fn check_ledgers() -> Result<(), TryRuntimeError> {
 		Bonded::<T>::iter()
 			.map(|(stash, ctrl)| {
@@ -1896,8 +1966,10 @@ impl<T: Config> Pallet<T> {
 		Ok(())
 	}
 
+	/// Invariants:
+	/// * For each era exposed validator, check if the exposure total is sane (exposure.total  =
+	/// exposure.own + exposure.own).
 	fn check_exposures() -> Result<(), TryRuntimeError> {
-		// a check per validator to ensure the exposure struct is always sane.
 		let era = Self::active_era().unwrap().index;
 		ErasStakers::<T>::iter_prefix_values(era)
 			.map(|expo| {
@@ -1915,6 +1987,10 @@ impl<T: Config> Pallet<T> {
 			.collect::<Result<(), TryRuntimeError>>()
 	}
 
+	/// Invariants:
+	/// * For each paged era exposed validator, check if the exposure total is sane (exposure.total
+	/// = exposure.own + exposure.own).
+	/// * Paged exposures metadata (`ErasStakersOverview`) matches the paged exposures state.
 	fn check_paged_exposures() -> Result<(), TryRuntimeError> {
 		use sp_staking::PagedExposureMetadata;
 		use sp_std::collections::btree_map::BTreeMap;
@@ -1979,6 +2055,8 @@ impl<T: Config> Pallet<T> {
 			.collect::<Result<(), TryRuntimeError>>()
 	}
 
+	/// Invariants:
+	/// * Checks that each nominator has its entire stake correctly distributed.
 	fn check_nominators() -> Result<(), TryRuntimeError> {
 		// a check per nominator to ensure their entire stake is correctly distributed. Will only
 		// kick-in if the nomination was submitted before the current era.