Update Substrate (#808)

* Update to latest Substrate master * upgrade decl_storage declaration * Companion PR to Substrate#4752 Co-authored-by: Bastian Köcher <bkchr@users.noreply.github.com> Co-authored-by: thiolliere <gui.thiolliere@gmail.com> Co-authored-by: Pierre Krieger <pierre.krieger1708@gmail.com>
2026-06-20 11:41:02 +00:00 · 2020-01-29 20:46:51 +01:00
parent ed8a4c29bb
commit 6c32055fbe
11 changed files with 615 additions and 350 deletions
@@ -98,10 +98,12 @@ decl_storage! {
 	trait Store for Module<T: Trait> as Attestations {
 		/// A mapping from modular block number (n % AttestationPeriod)
 		/// to session index and the list of candidate hashes.
-		pub RecentParaBlocks: map T::BlockNumber => Option<IncludedBlocks<T>>;
+		pub RecentParaBlocks: map hasher(blake2_256) T::BlockNumber => Option<IncludedBlocks<T>>;

 		/// Attestations on a recent parachain block.
-		pub ParaBlockAttestations: double_map T::BlockNumber, hasher(blake2_128) Hash => Option<BlockAttestations<T>>;
+		pub ParaBlockAttestations:
+			double_map hasher(blake2_256) T::BlockNumber, hasher(blake2_128) Hash
+			=> Option<BlockAttestations<T>>;

 		// Did we already have more attestations included in this block?
 		DidUpdate: bool;
@@ -118,7 +118,7 @@ decl_storage! {
 	trait Store for Module<T: Trait> as Claims {
 		Claims get(claims) build(|config: &GenesisConfig<T>| {
 			config.claims.iter().map(|(a, b)| (a.clone(), b.clone())).collect::<Vec<_>>()
-		}): map EthereumAddress => Option<BalanceOf<T>>;
+		}): map hasher(blake2_256) EthereumAddress => Option<BalanceOf<T>>;
 		Total get(total) build(|config: &GenesisConfig<T>| {
 			config.claims.iter().fold(Zero::zero(), |acc: BalanceOf<T>, &(_, n)| acc + n)
 		}): BalanceOf<T>;
@@ -126,7 +126,9 @@ decl_storage! {
 		/// First balance is the total amount that should be held for vesting.
 		/// Second balance is how much should be unlocked per block.
 		/// The block number is when the vesting should start.
-		Vesting get(vesting) config(): map EthereumAddress => Option<(BalanceOf<T>, BalanceOf<T>, T::BlockNumber)>;
+		Vesting get(vesting) config():
+			map hasher(blake2_256) EthereumAddress
+			=> Option<(BalanceOf<T>, BalanceOf<T>, T::BlockNumber)>;
 	}
 	add_extra_genesis {
 		config(claims): Vec<(EthereumAddress, BalanceOf<T>)>;
@@ -158,7 +158,8 @@ decl_storage! {
 	trait Store for Module<T: Trait> as Crowdfund {
 		/// Info on all of the funds.
 		Funds get(funds):
-			map FundIndex => Option<FundInfo<T::AccountId, BalanceOf<T>, T::Hash, T::BlockNumber>>;
+			map hasher(blake2_256) FundIndex
+			=> Option<FundInfo<T::AccountId, BalanceOf<T>, T::Hash, T::BlockNumber>>;

 		/// The total number of funds that have so far been allocated.
 		FundCount get(fund_count): FundIndex;
@@ -158,27 +158,28 @@ decl_storage! {
 		/// All authorities' keys at the moment.
 		pub Authorities get(authorities): Vec<ValidatorId>;
 		/// The parachains registered at present.
-		pub Code get(parachain_code): map ParaId => Option<Vec<u8>>;
+		pub Code get(parachain_code): map hasher(blake2_256) ParaId => Option<Vec<u8>>;
 		/// The heads of the parachains registered at present.
-		pub Heads get(parachain_head): map ParaId => Option<Vec<u8>>;
+		pub Heads get(parachain_head): map hasher(blake2_256) ParaId => Option<Vec<u8>>;
 		/// The watermark heights of the parachains registered at present.
 		/// For every parachain, this is the block height from which all messages targeting
 		/// that parachain have been processed. Can be `None` only if the parachain doesn't exist.
-		pub Watermarks get(watermark): map ParaId => Option<T::BlockNumber>;
+		pub Watermarks get(watermark): map hasher(blake2_256) ParaId => Option<T::BlockNumber>;

 		/// Unrouted ingress. Maps (BlockNumber, to_chain) pairs to [(from_chain, egress_root)].
 		///
 		/// There may be an entry under (i, p) in this map for every i between the parachain's
 		/// watermark and the current block.
-		pub UnroutedIngress: map (T::BlockNumber, ParaId) => Option<Vec<(ParaId, Hash)>>;
+		pub UnroutedIngress:
+			map hasher(blake2_256) (T::BlockNumber, ParaId) => Option<Vec<(ParaId, Hash)>>;

 		/// Messages ready to be dispatched onto the relay chain. It is subject to
 		/// `MAX_MESSAGE_COUNT` and `WATERMARK_MESSAGE_SIZE`.
-		pub RelayDispatchQueue: map ParaId => Vec<UpwardMessage>;
+		pub RelayDispatchQueue: map hasher(blake2_256) ParaId => Vec<UpwardMessage>;
 		/// Size of the dispatch queues. Separated from actual data in order to avoid costly
 		/// decoding when checking receipt validity. First item in tuple is the count of messages
 		///	second if the total length (in bytes) of the message payloads.
-		pub RelayDispatchQueueSize: map ParaId => (u32, u32);
+		pub RelayDispatchQueueSize: map hasher(blake2_256) ParaId => (u32, u32);
 		/// The ordered list of ParaIds that have a `RelayDispatchQueue` entry.
 		NeedsDispatch: Vec<ParaId>;

@@ -158,16 +158,16 @@ decl_storage! {
 		NextFreeId: ParaId = LOWEST_USER_ID;

 		/// Pending swap operations.
-		PendingSwap: map ParaId => Option<ParaId>;
+		PendingSwap: map hasher(blake2_256) ParaId => Option<ParaId>;

 		/// Map of all registered parathreads/chains.
-		Paras get(paras): map ParaId => Option<ParaInfo>;
+		Paras get(paras): map hasher(blake2_256) ParaId => Option<ParaInfo>;

 		/// The current queue for parathreads that should be retried.
 		RetryQueue get(retry_queue): Vec<Vec<(ParaId, CollatorId)>>;

 		/// Users who have paid a parathread's deposit
-		Debtors: map ParaId => T::AccountId;
+		Debtors: map hasher(blake2_256) ParaId => T::AccountId;
 	}
 	add_extra_genesis {
 		config(parachains): Vec<(ParaId, Vec<u8>, Vec<u8>)>;
@@ -146,7 +146,7 @@ decl_storage! {
 		/// If a parachain doesn't exist *yet* but is scheduled to exist in the future, then it
 		/// will be left-padded with one or more zeroes to denote the fact that nothing is held on
 		/// deposit for the non-existent chain currently, but is held at some point in the future.
-		pub Deposits get(deposits): map ParaId => Vec<BalanceOf<T>>;
+		pub Deposits get(deposits): map hasher(blake2_256) ParaId => Vec<BalanceOf<T>>;

 		/// Information relating to the current auction, if there is one.
 		///
@@ -158,26 +158,28 @@ decl_storage! {
 		/// The winning bids for each of the 10 ranges at each block in the final Ending Period of
 		/// the current auction. The map's key is the 0-based index into the Ending Period. The
 		/// first block of the ending period is 0; the last is `EndingPeriod - 1`.
-		pub Winning get(winning): map T::BlockNumber => Option<WinningData<T>>;
+		pub Winning get(winning): map hasher(blake2_256) T::BlockNumber => Option<WinningData<T>>;

 		/// Amounts currently reserved in the accounts of the bidders currently winning
 		/// (sub-)ranges.
-		pub ReservedAmounts get(reserved_amounts): map Bidder<T::AccountId> => Option<BalanceOf<T>>;
+		pub ReservedAmounts get(reserved_amounts):
+			map hasher(blake2_256) Bidder<T::AccountId> => Option<BalanceOf<T>>;

 		/// The set of Para IDs that have won and need to be on-boarded at an upcoming lease-period.
 		/// This is cleared out on the first block of the lease period.
-		pub OnboardQueue get(onboard_queue): map LeasePeriodOf<T> => Vec<ParaId>;
+		pub OnboardQueue get(onboard_queue): map hasher(blake2_256) LeasePeriodOf<T> => Vec<ParaId>;

 		/// The actual on-boarding information. Only exists when one of the following is true:
 		/// - It is before the lease period that the parachain should be on-boarded.
 		/// - The full on-boarding information has not yet been provided and the parachain is not
 		/// yet due to be off-boarded.
-		pub Onboarding get(onboarding): map ParaId =>
+		pub Onboarding get(onboarding):
+			map hasher(blake2_256) ParaId =>
 			Option<(LeasePeriodOf<T>, IncomingParachain<T::AccountId, T::Hash>)>;

 		/// Off-boarding account; currency held on deposit for the parachain gets placed here if the
 		/// parachain gets off-boarded; i.e. its lease period is up and it isn't renewed.
-		pub Offboarding get(offboarding): map ParaId => T::AccountId;
+		pub Offboarding get(offboarding): map hasher(blake2_256) ParaId => T::AccountId;
 	}
 }