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Просмотр файла: query.d.ts
import '@polkadot/api-base/types/storage';
import type { ApiTypes, AugmentedQuery, QueryableStorageEntry } from '@polkadot/api-base/types';
import type { BTreeMap, BTreeSet, Bytes, Null, Option, Struct, U8aFixed, Vec, bool, u128, u16, u32, u64 } from '@polkadot/types-codec';
import type { AnyNumber, ITuple } from '@polkadot/types-codec/types';
import type { EthereumAddress } from '@polkadot/types/interfaces/eth';
import type { AccountId32, H256, Perbill, Percent } from '@polkadot/types/interfaces/runtime';
import type { BinaryHeapEnqueuedOrder, FrameSupportDispatchPerDispatchClassWeight, FrameSupportTokensMiscIdAmount, FrameSystemAccountInfo, FrameSystemCodeUpgradeAuthorization, FrameSystemEventRecord, FrameSystemLastRuntimeUpgradeInfo, FrameSystemPhase, PalletBagsListListBag, PalletBagsListListNode, PalletBalancesAccountData, PalletBalancesBalanceLock, PalletBalancesReserveData, PalletBountiesBounty, PalletChildBountiesChildBounty, PalletConvictionVotingVoteVoting, PalletElectionProviderMultiPhasePhase, PalletElectionProviderMultiPhaseReadySolution, PalletElectionProviderMultiPhaseRoundSnapshot, PalletElectionProviderMultiPhaseSignedSignedSubmission, PalletElectionProviderMultiPhaseSolutionOrSnapshotSize, PalletFastUnstakeUnstakeRequest, PalletGrandpaStoredPendingChange, PalletGrandpaStoredState, PalletMessageQueueBookState, PalletMessageQueuePage, PalletMultisigMultisig, PalletNisBid, PalletNisReceiptRecord, PalletNisSummaryRecord, PalletNominationPoolsBondedPoolInner, PalletNominationPoolsClaimPermission, PalletNominationPoolsPoolMember, PalletNominationPoolsRewardPool, PalletNominationPoolsSubPools, PalletPreimageOldRequestStatus, PalletPreimageRequestStatus, PalletProxyAnnouncement, PalletProxyProxyDefinition, PalletRankedCollectiveMemberRecord, PalletRankedCollectiveVoteRecord, PalletRecoveryActiveRecovery, PalletRecoveryRecoveryConfig, PalletReferendaReferendumInfoConvictionVotingTally, PalletReferendaReferendumInfoRankedCollectiveTally, PalletSchedulerRetryConfig, PalletSchedulerScheduled, PalletSocietyBid, PalletSocietyCandidacy, PalletSocietyGroupParams, PalletSocietyIntakeRecord, PalletSocietyMemberRecord, PalletSocietyPayoutRecord, PalletSocietyTally, PalletSocietyVote, PalletStakingActiveEraInfo, PalletStakingEraRewardPoints, PalletStakingForcing, PalletStakingNominations, PalletStakingRewardDestination, PalletStakingSlashingSlashingSpans, PalletStakingSlashingSpanRecord, PalletStakingStakingLedger, PalletStakingUnappliedSlash, PalletStakingValidatorPrefs, PalletTransactionPaymentReleases, PalletTreasuryProposal, PalletTreasurySpendStatus, PalletVestingReleases, PalletVestingVestingInfo, PalletXcmQueryStatus, PalletXcmRemoteLockedFungibleRecord, PalletXcmVersionMigrationStage, PolkadotCorePrimitivesInboundDownwardMessage, PolkadotCorePrimitivesInboundHrmpMessage, PolkadotParachainPrimitivesPrimitivesHrmpChannelId, PolkadotPrimitivesV7AssignmentAppPublic, PolkadotPrimitivesV7DisputeState, PolkadotPrimitivesV7ExecutorParams, PolkadotPrimitivesV7ScrapedOnChainVotes, PolkadotPrimitivesV7SessionInfo, PolkadotPrimitivesV7SlashingPendingSlashes, PolkadotPrimitivesV7UpgradeGoAhead, PolkadotPrimitivesV7UpgradeRestriction, PolkadotPrimitivesV7ValidatorAppPublic, PolkadotRuntimeCommonClaimsStatementKind, PolkadotRuntimeCommonCrowdloanFundInfo, PolkadotRuntimeCommonImplsVersionedLocatableAsset, PolkadotRuntimeCommonParasRegistrarParaInfo, PolkadotRuntimeParachainsAssignerCoretimeCoreDescriptor, PolkadotRuntimeParachainsAssignerCoretimeSchedule, PolkadotRuntimeParachainsAssignerOnDemandTypesCoreAffinityCount, PolkadotRuntimeParachainsAssignerOnDemandTypesEnqueuedOrder, PolkadotRuntimeParachainsAssignerOnDemandTypesQueueStatusType, PolkadotRuntimeParachainsConfigurationHostConfiguration, PolkadotRuntimeParachainsHrmpHrmpChannel, PolkadotRuntimeParachainsHrmpHrmpOpenChannelRequest, PolkadotRuntimeParachainsInclusionAggregateMessageOrigin, PolkadotRuntimeParachainsInclusionCandidatePendingAvailability, PolkadotRuntimeParachainsInitializerBufferedSessionChange, PolkadotRuntimeParachainsParasParaGenesisArgs, PolkadotRuntimeParachainsParasParaLifecycle, PolkadotRuntimeParachainsParasParaPastCodeMeta, PolkadotRuntimeParachainsParasPvfCheckActiveVoteState, PolkadotRuntimeParachainsSchedulerPalletCoreOccupied, PolkadotRuntimeParachainsSchedulerPalletParasEntry, PolkadotRuntimeParachainsSharedAllowedRelayParentsTracker, SpAuthorityDiscoveryAppPublic, SpConsensusBabeAppPublic, SpConsensusBabeBabeEpochConfiguration, SpConsensusBabeDigestsNextConfigDescriptor, SpConsensusBabeDigestsPreDigest, SpConsensusBeefyEcdsaCryptoPublic, SpConsensusBeefyMmrBeefyAuthoritySet, SpConsensusGrandpaAppPublic, SpCoreCryptoKeyTypeId, SpNposElectionsElectionScore, SpRuntimeDigest, SpStakingExposure, SpStakingExposurePage, SpStakingOffenceOffenceDetails, SpStakingPagedExposureMetadata, SpWeightsWeightV2Weight, StagingKusamaRuntimeRuntimeFreezeReason, StagingKusamaRuntimeRuntimeHoldReason, StagingKusamaRuntimeRuntimeParametersKey, StagingKusamaRuntimeRuntimeParametersValue, StagingKusamaRuntimeSessionKeys, StagingXcmV4Instruction, XcmVersionedAssetId, XcmVersionedLocation } from '@polkadot/types/lookup';
import type { Observable } from '@polkadot/types/types';
export type __AugmentedQuery<ApiType extends ApiTypes> = AugmentedQuery<ApiType, () => unknown>;
export type __QueryableStorageEntry<ApiType extends ApiTypes> = QueryableStorageEntry<ApiType>;
declare module '@polkadot/api-base/types/storage' {
interface AugmentedQueries<ApiType extends ApiTypes> {
assetRate: {
/**
* Maps an asset to its fixed point representation in the native balance.
*
* E.g. `native_amount = asset_amount * ConversionRateToNative::<T>::get(asset_kind)`
**/
conversionRateToNative: AugmentedQuery<ApiType, (arg: PolkadotRuntimeCommonImplsVersionedLocatableAsset | {
V3: any;
} | {
V4: any;
} | string | Uint8Array) => Observable<Option<u128>>, [PolkadotRuntimeCommonImplsVersionedLocatableAsset]> & QueryableStorageEntry<ApiType, [PolkadotRuntimeCommonImplsVersionedLocatableAsset]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
auctions: {
/**
* Number of auctions started so far.
**/
auctionCounter: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Information relating to the current auction, if there is one.
*
* The first item in the tuple is the lease period index that the first of the four
* contiguous lease periods on auction is for. The second is the block number when the
* auction will "begin to end", i.e. the first block of the Ending Period of the auction.
**/
auctionInfo: AugmentedQuery<ApiType, () => Observable<Option<ITuple<[u32, u32]>>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Amounts currently reserved in the accounts of the bidders currently winning
* (sub-)ranges.
**/
reservedAmounts: AugmentedQuery<ApiType, (arg: ITuple<[AccountId32, u32]> | [AccountId32 | string | Uint8Array, u32 | AnyNumber | Uint8Array]) => Observable<Option<u128>>, [ITuple<[AccountId32, u32]>]> & QueryableStorageEntry<ApiType, [ITuple<[AccountId32, u32]>]>;
/**
* The winning bids for each of the 10 ranges at each sample in the final Ending Period of
* the current auction. The map's key is the 0-based index into the Sample Size. The
* first sample of the ending period is 0; the last is `Sample Size - 1`.
**/
winning: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<Vec<Option<ITuple<[AccountId32, u32, u128]>>>>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
authorityDiscovery: {
/**
* Keys of the current authority set.
**/
keys: AugmentedQuery<ApiType, () => Observable<Vec<SpAuthorityDiscoveryAppPublic>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Keys of the next authority set.
**/
nextKeys: AugmentedQuery<ApiType, () => Observable<Vec<SpAuthorityDiscoveryAppPublic>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
authorship: {
/**
* Author of current block.
**/
author: AugmentedQuery<ApiType, () => Observable<Option<AccountId32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
babe: {
/**
* Current epoch authorities.
**/
authorities: AugmentedQuery<ApiType, () => Observable<Vec<ITuple<[SpConsensusBabeAppPublic, u64]>>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* This field should always be populated during block processing unless
* secondary plain slots are enabled (which don't contain a VRF output).
*
* It is set in `on_finalize`, before it will contain the value from the last block.
**/
authorVrfRandomness: AugmentedQuery<ApiType, () => Observable<Option<U8aFixed>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Current slot number.
**/
currentSlot: AugmentedQuery<ApiType, () => Observable<u64>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The configuration for the current epoch. Should never be `None` as it is initialized in
* genesis.
**/
epochConfig: AugmentedQuery<ApiType, () => Observable<Option<SpConsensusBabeBabeEpochConfiguration>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Current epoch index.
**/
epochIndex: AugmentedQuery<ApiType, () => Observable<u64>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The block numbers when the last and current epoch have started, respectively `N-1` and
* `N`.
* NOTE: We track this is in order to annotate the block number when a given pool of
* entropy was fixed (i.e. it was known to chain observers). Since epochs are defined in
* slots, which may be skipped, the block numbers may not line up with the slot numbers.
**/
epochStart: AugmentedQuery<ApiType, () => Observable<ITuple<[u32, u32]>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The slot at which the first epoch actually started. This is 0
* until the first block of the chain.
**/
genesisSlot: AugmentedQuery<ApiType, () => Observable<u64>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Temporary value (cleared at block finalization) which is `Some`
* if per-block initialization has already been called for current block.
**/
initialized: AugmentedQuery<ApiType, () => Observable<Option<Option<SpConsensusBabeDigestsPreDigest>>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* How late the current block is compared to its parent.
*
* This entry is populated as part of block execution and is cleaned up
* on block finalization. Querying this storage entry outside of block
* execution context should always yield zero.
**/
lateness: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Next epoch authorities.
**/
nextAuthorities: AugmentedQuery<ApiType, () => Observable<Vec<ITuple<[SpConsensusBabeAppPublic, u64]>>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The configuration for the next epoch, `None` if the config will not change
* (you can fallback to `EpochConfig` instead in that case).
**/
nextEpochConfig: AugmentedQuery<ApiType, () => Observable<Option<SpConsensusBabeBabeEpochConfiguration>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Next epoch randomness.
**/
nextRandomness: AugmentedQuery<ApiType, () => Observable<U8aFixed>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Pending epoch configuration change that will be applied when the next epoch is enacted.
**/
pendingEpochConfigChange: AugmentedQuery<ApiType, () => Observable<Option<SpConsensusBabeDigestsNextConfigDescriptor>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The epoch randomness for the *current* epoch.
*
* # Security
*
* This MUST NOT be used for gambling, as it can be influenced by a
* malicious validator in the short term. It MAY be used in many
* cryptographic protocols, however, so long as one remembers that this
* (like everything else on-chain) it is public. For example, it can be
* used where a number is needed that cannot have been chosen by an
* adversary, for purposes such as public-coin zero-knowledge proofs.
**/
randomness: AugmentedQuery<ApiType, () => Observable<U8aFixed>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Randomness under construction.
*
* We make a trade-off between storage accesses and list length.
* We store the under-construction randomness in segments of up to
* `UNDER_CONSTRUCTION_SEGMENT_LENGTH`.
*
* Once a segment reaches this length, we begin the next one.
* We reset all segments and return to `0` at the beginning of every
* epoch.
**/
segmentIndex: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* A list of the last 100 skipped epochs and the corresponding session index
* when the epoch was skipped.
*
* This is only used for validating equivocation proofs. An equivocation proof
* must contains a key-ownership proof for a given session, therefore we need a
* way to tie together sessions and epoch indices, i.e. we need to validate that
* a validator was the owner of a given key on a given session, and what the
* active epoch index was during that session.
**/
skippedEpochs: AugmentedQuery<ApiType, () => Observable<Vec<ITuple<[u64, u32]>>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* TWOX-NOTE: `SegmentIndex` is an increasing integer, so this is okay.
**/
underConstruction: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Vec<U8aFixed>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
balances: {
/**
* The Balances pallet example of storing the balance of an account.
*
* # Example
*
* ```nocompile
* impl pallet_balances::Config for Runtime {
* type AccountStore = StorageMapShim<Self::Account<Runtime>, frame_system::Provider<Runtime>, AccountId, Self::AccountData<Balance>>
* }
* ```
*
* You can also store the balance of an account in the `System` pallet.
*
* # Example
*
* ```nocompile
* impl pallet_balances::Config for Runtime {
* type AccountStore = System
* }
* ```
*
* But this comes with tradeoffs, storing account balances in the system pallet stores
* `frame_system` data alongside the account data contrary to storing account balances in the
* `Balances` pallet, which uses a `StorageMap` to store balances data only.
* NOTE: This is only used in the case that this pallet is used to store balances.
**/
account: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<PalletBalancesAccountData>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* Freeze locks on account balances.
**/
freezes: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Vec<{
readonly id: StagingKusamaRuntimeRuntimeFreezeReason;
readonly amount: u128;
} & Struct>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* Holds on account balances.
**/
holds: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Vec<{
readonly id: StagingKusamaRuntimeRuntimeHoldReason;
readonly amount: u128;
} & Struct>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* The total units of outstanding deactivated balance in the system.
**/
inactiveIssuance: AugmentedQuery<ApiType, () => Observable<u128>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Any liquidity locks on some account balances.
* NOTE: Should only be accessed when setting, changing and freeing a lock.
*
* Use of locks is deprecated in favour of freezes. See `https://github.com/paritytech/substrate/pull/12951/`
**/
locks: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Vec<PalletBalancesBalanceLock>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* Named reserves on some account balances.
*
* Use of reserves is deprecated in favour of holds. See `https://github.com/paritytech/substrate/pull/12951/`
**/
reserves: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Vec<PalletBalancesReserveData>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* The total units issued in the system.
**/
totalIssuance: AugmentedQuery<ApiType, () => Observable<u128>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
beefy: {
/**
* The current authorities set
**/
authorities: AugmentedQuery<ApiType, () => Observable<Vec<SpConsensusBeefyEcdsaCryptoPublic>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Block number where BEEFY consensus is enabled/started.
* By changing this (through privileged `set_new_genesis()`), BEEFY consensus is effectively
* restarted from the newly set block number.
**/
genesisBlock: AugmentedQuery<ApiType, () => Observable<Option<u32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Authorities set scheduled to be used with the next session
**/
nextAuthorities: AugmentedQuery<ApiType, () => Observable<Vec<SpConsensusBeefyEcdsaCryptoPublic>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* A mapping from BEEFY set ID to the index of the *most recent* session for which its
* members were responsible.
*
* This is only used for validating equivocation proofs. An equivocation proof must
* contains a key-ownership proof for a given session, therefore we need a way to tie
* together sessions and BEEFY set ids, i.e. we need to validate that a validator
* was the owner of a given key on a given session, and what the active set ID was
* during that session.
*
* TWOX-NOTE: `ValidatorSetId` is not under user control.
**/
setIdSession: AugmentedQuery<ApiType, (arg: u64 | AnyNumber | Uint8Array) => Observable<Option<u32>>, [u64]> & QueryableStorageEntry<ApiType, [u64]>;
/**
* The current validator set id
**/
validatorSetId: AugmentedQuery<ApiType, () => Observable<u64>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
beefyMmrLeaf: {
/**
* Details of current BEEFY authority set.
**/
beefyAuthorities: AugmentedQuery<ApiType, () => Observable<SpConsensusBeefyMmrBeefyAuthoritySet>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Details of next BEEFY authority set.
*
* This storage entry is used as cache for calls to `update_beefy_next_authority_set`.
**/
beefyNextAuthorities: AugmentedQuery<ApiType, () => Observable<SpConsensusBeefyMmrBeefyAuthoritySet>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
bounties: {
/**
* Bounties that have been made.
**/
bounties: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<PalletBountiesBounty>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Bounty indices that have been approved but not yet funded.
**/
bountyApprovals: AugmentedQuery<ApiType, () => Observable<Vec<u32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Number of bounty proposals that have been made.
**/
bountyCount: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The description of each bounty.
**/
bountyDescriptions: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<Bytes>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
childBounties: {
/**
* Child bounties that have been added.
**/
childBounties: AugmentedQuery<ApiType, (arg1: u32 | AnyNumber | Uint8Array, arg2: u32 | AnyNumber | Uint8Array) => Observable<Option<PalletChildBountiesChildBounty>>, [u32, u32]> & QueryableStorageEntry<ApiType, [u32, u32]>;
/**
* Number of total child bounties.
**/
childBountyCount: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The description of each child-bounty.
**/
childBountyDescriptions: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<Bytes>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* The cumulative child-bounty curator fee for each parent bounty.
**/
childrenCuratorFees: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<u128>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Number of child bounties per parent bounty.
* Map of parent bounty index to number of child bounties.
**/
parentChildBounties: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<u32>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
claims: {
claims: AugmentedQuery<ApiType, (arg: EthereumAddress | string | Uint8Array) => Observable<Option<u128>>, [EthereumAddress]> & QueryableStorageEntry<ApiType, [EthereumAddress]>;
/**
* Pre-claimed Ethereum accounts, by the Account ID that they are claimed to.
**/
preclaims: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Option<EthereumAddress>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* The statement kind that must be signed, if any.
**/
signing: AugmentedQuery<ApiType, (arg: EthereumAddress | string | Uint8Array) => Observable<Option<PolkadotRuntimeCommonClaimsStatementKind>>, [EthereumAddress]> & QueryableStorageEntry<ApiType, [EthereumAddress]>;
total: AugmentedQuery<ApiType, () => Observable<u128>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Vesting schedule for a claim.
* 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: AugmentedQuery<ApiType, (arg: EthereumAddress | string | Uint8Array) => Observable<Option<ITuple<[u128, u128, u32]>>>, [EthereumAddress]> & QueryableStorageEntry<ApiType, [EthereumAddress]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
configuration: {
/**
* The active configuration for the current session.
**/
activeConfig: AugmentedQuery<ApiType, () => Observable<PolkadotRuntimeParachainsConfigurationHostConfiguration>, []> & QueryableStorageEntry<ApiType, []>;
/**
* If this is set, then the configuration setters will bypass the consistency checks. This
* is meant to be used only as the last resort.
**/
bypassConsistencyCheck: AugmentedQuery<ApiType, () => Observable<bool>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Pending configuration changes.
*
* This is a list of configuration changes, each with a session index at which it should
* be applied.
*
* The list is sorted ascending by session index. Also, this list can only contain at most
* 2 items: for the next session and for the `scheduled_session`.
**/
pendingConfigs: AugmentedQuery<ApiType, () => Observable<Vec<ITuple<[u32, PolkadotRuntimeParachainsConfigurationHostConfiguration]>>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
convictionVoting: {
/**
* The voting classes which have a non-zero lock requirement and the lock amounts which they
* require. The actual amount locked on behalf of this pallet should always be the maximum of
* this list.
**/
classLocksFor: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Vec<ITuple<[u16, u128]>>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* All voting for a particular voter in a particular voting class. We store the balance for the
* number of votes that we have recorded.
**/
votingFor: AugmentedQuery<ApiType, (arg1: AccountId32 | string | Uint8Array, arg2: u16 | AnyNumber | Uint8Array) => Observable<PalletConvictionVotingVoteVoting>, [AccountId32, u16]> & QueryableStorageEntry<ApiType, [AccountId32, u16]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
coretimeAssignmentProvider: {
/**
* Assignments which are currently active.
*
* They will be picked from `PendingAssignments` once we reach the scheduled block number in
* `PendingAssignments`.
**/
coreDescriptors: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<PolkadotRuntimeParachainsAssignerCoretimeCoreDescriptor>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Scheduled assignment sets.
*
* Assignments as of the given block number. They will go into state once the block number is
* reached (and replace whatever was in there before).
**/
coreSchedules: AugmentedQuery<ApiType, (arg: ITuple<[u32, u32]> | [u32 | AnyNumber | Uint8Array, u32 | AnyNumber | Uint8Array]) => Observable<Option<PolkadotRuntimeParachainsAssignerCoretimeSchedule>>, [ITuple<[u32, u32]>]> & QueryableStorageEntry<ApiType, [ITuple<[u32, u32]>]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
crowdloan: {
/**
* The number of auctions that have entered into their ending period so far.
**/
endingsCount: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Info on all of the funds.
**/
funds: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<PolkadotRuntimeCommonCrowdloanFundInfo>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* The funds that have had additional contributions during the last block. This is used
* in order to determine which funds should submit new or updated bids.
**/
newRaise: AugmentedQuery<ApiType, () => Observable<Vec<u32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Tracker for the next available fund index
**/
nextFundIndex: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
dmp: {
/**
* The factor to multiply the base delivery fee by.
**/
deliveryFeeFactor: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<u128>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* A mapping that stores the downward message queue MQC head for each para.
*
* Each link in this chain has a form:
* `(prev_head, B, H(M))`, where
* - `prev_head`: is the previous head hash or zero if none.
* - `B`: is the relay-chain block number in which a message was appended.
* - `H(M)`: is the hash of the message being appended.
**/
downwardMessageQueueHeads: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<H256>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* The downward messages addressed for a certain para.
**/
downwardMessageQueues: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Vec<PolkadotCorePrimitivesInboundDownwardMessage>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
electionProviderMultiPhase: {
/**
* Current phase.
**/
currentPhase: AugmentedQuery<ApiType, () => Observable<PalletElectionProviderMultiPhasePhase>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Desired number of targets to elect for this round.
*
* Only exists when [`Snapshot`] is present.
* Note: This storage type must only be mutated through [`SnapshotWrapper`].
**/
desiredTargets: AugmentedQuery<ApiType, () => Observable<Option<u32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The minimum score that each 'untrusted' solution must attain in order to be considered
* feasible.
*
* Can be set via `set_minimum_untrusted_score`.
**/
minimumUntrustedScore: AugmentedQuery<ApiType, () => Observable<Option<SpNposElectionsElectionScore>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Current best solution, signed or unsigned, queued to be returned upon `elect`.
*
* Always sorted by score.
**/
queuedSolution: AugmentedQuery<ApiType, () => Observable<Option<PalletElectionProviderMultiPhaseReadySolution>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Internal counter for the number of rounds.
*
* This is useful for de-duplication of transactions submitted to the pool, and general
* diagnostics of the pallet.
*
* This is merely incremented once per every time that an upstream `elect` is called.
**/
round: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* A sorted, bounded vector of `(score, block_number, index)`, where each `index` points to a
* value in `SignedSubmissions`.
*
* We never need to process more than a single signed submission at a time. Signed submissions
* can be quite large, so we're willing to pay the cost of multiple database accesses to access
* them one at a time instead of reading and decoding all of them at once.
**/
signedSubmissionIndices: AugmentedQuery<ApiType, () => Observable<Vec<ITuple<[SpNposElectionsElectionScore, u32, u32]>>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The next index to be assigned to an incoming signed submission.
*
* Every accepted submission is assigned a unique index; that index is bound to that particular
* submission for the duration of the election. On election finalization, the next index is
* reset to 0.
*
* We can't just use `SignedSubmissionIndices.len()`, because that's a bounded set; past its
* capacity, it will simply saturate. We can't just iterate over `SignedSubmissionsMap`,
* because iteration is slow. Instead, we store the value here.
**/
signedSubmissionNextIndex: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Unchecked, signed solutions.
*
* Together with `SubmissionIndices`, this stores a bounded set of `SignedSubmissions` while
* allowing us to keep only a single one in memory at a time.
*
* Twox note: the key of the map is an auto-incrementing index which users cannot inspect or
* affect; we shouldn't need a cryptographically secure hasher.
**/
signedSubmissionsMap: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<PalletElectionProviderMultiPhaseSignedSignedSubmission>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Snapshot data of the round.
*
* This is created at the beginning of the signed phase and cleared upon calling `elect`.
* Note: This storage type must only be mutated through [`SnapshotWrapper`].
**/
snapshot: AugmentedQuery<ApiType, () => Observable<Option<PalletElectionProviderMultiPhaseRoundSnapshot>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The metadata of the [`RoundSnapshot`]
*
* Only exists when [`Snapshot`] is present.
* Note: This storage type must only be mutated through [`SnapshotWrapper`].
**/
snapshotMetadata: AugmentedQuery<ApiType, () => Observable<Option<PalletElectionProviderMultiPhaseSolutionOrSnapshotSize>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
fastUnstake: {
/**
* Counter for the related counted storage map
**/
counterForQueue: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Number of eras to check per block.
*
* If set to 0, this pallet does absolutely nothing. Cannot be set to more than
* [`Config::MaxErasToCheckPerBlock`].
*
* Based on the amount of weight available at [`Pallet::on_idle`], up to this many eras are
* checked. The checking is represented by updating [`UnstakeRequest::checked`], which is
* stored in [`Head`].
**/
erasToCheckPerBlock: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The current "head of the queue" being unstaked.
*
* The head in itself can be a batch of up to [`Config::BatchSize`] stakers.
**/
head: AugmentedQuery<ApiType, () => Observable<Option<PalletFastUnstakeUnstakeRequest>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The map of all accounts wishing to be unstaked.
*
* Keeps track of `AccountId` wishing to unstake and it's corresponding deposit.
**/
queue: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Option<u128>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
fellowshipCollective: {
/**
* The index of each ranks's member into the group of members who have at least that rank.
**/
idToIndex: AugmentedQuery<ApiType, (arg1: u16 | AnyNumber | Uint8Array, arg2: AccountId32 | string | Uint8Array) => Observable<Option<u32>>, [u16, AccountId32]> & QueryableStorageEntry<ApiType, [u16, AccountId32]>;
/**
* The members in the collective by index. All indices in the range `0..MemberCount` will
* return `Some`, however a member's index is not guaranteed to remain unchanged over time.
**/
indexToId: AugmentedQuery<ApiType, (arg1: u16 | AnyNumber | Uint8Array, arg2: u32 | AnyNumber | Uint8Array) => Observable<Option<AccountId32>>, [u16, u32]> & QueryableStorageEntry<ApiType, [u16, u32]>;
/**
* The number of members in the collective who have at least the rank according to the index
* of the vec.
**/
memberCount: AugmentedQuery<ApiType, (arg: u16 | AnyNumber | Uint8Array) => Observable<u32>, [u16]> & QueryableStorageEntry<ApiType, [u16]>;
/**
* The current members of the collective.
**/
members: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Option<PalletRankedCollectiveMemberRecord>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* Votes on a given proposal, if it is ongoing.
**/
voting: AugmentedQuery<ApiType, (arg1: u32 | AnyNumber | Uint8Array, arg2: AccountId32 | string | Uint8Array) => Observable<Option<PalletRankedCollectiveVoteRecord>>, [u32, AccountId32]> & QueryableStorageEntry<ApiType, [u32, AccountId32]>;
votingCleanup: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<Bytes>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
fellowshipReferenda: {
/**
* The number of referenda being decided currently.
**/
decidingCount: AugmentedQuery<ApiType, (arg: u16 | AnyNumber | Uint8Array) => Observable<u32>, [u16]> & QueryableStorageEntry<ApiType, [u16]>;
/**
* The metadata is a general information concerning the referendum.
* The `Hash` refers to the preimage of the `Preimages` provider which can be a JSON
* dump or IPFS hash of a JSON file.
*
* Consider a garbage collection for a metadata of finished referendums to `unrequest` (remove)
* large preimages.
**/
metadataOf: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<H256>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* The next free referendum index, aka the number of referenda started so far.
**/
referendumCount: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Information concerning any given referendum.
**/
referendumInfoFor: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<PalletReferendaReferendumInfoRankedCollectiveTally>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* The sorted list of referenda ready to be decided but not yet being decided, ordered by
* conviction-weighted approvals.
*
* This should be empty if `DecidingCount` is less than `TrackInfo::max_deciding`.
**/
trackQueue: AugmentedQuery<ApiType, (arg: u16 | AnyNumber | Uint8Array) => Observable<Vec<ITuple<[u32, u32]>>>, [u16]> & QueryableStorageEntry<ApiType, [u16]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
grandpa: {
/**
* The current list of authorities.
**/
authorities: AugmentedQuery<ApiType, () => Observable<Vec<ITuple<[SpConsensusGrandpaAppPublic, u64]>>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The number of changes (both in terms of keys and underlying economic responsibilities)
* in the "set" of Grandpa validators from genesis.
**/
currentSetId: AugmentedQuery<ApiType, () => Observable<u64>, []> & QueryableStorageEntry<ApiType, []>;
/**
* next block number where we can force a change.
**/
nextForced: AugmentedQuery<ApiType, () => Observable<Option<u32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Pending change: (signaled at, scheduled change).
**/
pendingChange: AugmentedQuery<ApiType, () => Observable<Option<PalletGrandpaStoredPendingChange>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* A mapping from grandpa set ID to the index of the *most recent* session for which its
* members were responsible.
*
* This is only used for validating equivocation proofs. An equivocation proof must
* contains a key-ownership proof for a given session, therefore we need a way to tie
* together sessions and GRANDPA set ids, i.e. we need to validate that a validator
* was the owner of a given key on a given session, and what the active set ID was
* during that session.
*
* TWOX-NOTE: `SetId` is not under user control.
**/
setIdSession: AugmentedQuery<ApiType, (arg: u64 | AnyNumber | Uint8Array) => Observable<Option<u32>>, [u64]> & QueryableStorageEntry<ApiType, [u64]>;
/**
* `true` if we are currently stalled.
**/
stalled: AugmentedQuery<ApiType, () => Observable<Option<ITuple<[u32, u32]>>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* State of the current authority set.
**/
state: AugmentedQuery<ApiType, () => Observable<PalletGrandpaStoredState>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
historical: {
/**
* Mapping from historical session indices to session-data root hash and validator count.
**/
historicalSessions: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<ITuple<[H256, u32]>>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* The range of historical sessions we store. [first, last)
**/
storedRange: AugmentedQuery<ApiType, () => Observable<Option<ITuple<[u32, u32]>>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
hrmp: {
/**
* This mapping tracks how many open channel requests were accepted by a given recipient para.
* Invariant: `HrmpOpenChannelRequests` should contain the same number of items `(_, X)` with
* `confirmed` set to true, as the number of `HrmpAcceptedChannelRequestCount` for `X`.
**/
hrmpAcceptedChannelRequestCount: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<u32>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Storage for the messages for each channel.
* Invariant: cannot be non-empty if the corresponding channel in `HrmpChannels` is `None`.
**/
hrmpChannelContents: AugmentedQuery<ApiType, (arg: PolkadotParachainPrimitivesPrimitivesHrmpChannelId | {
sender?: any;
recipient?: any;
} | string | Uint8Array) => Observable<Vec<PolkadotCorePrimitivesInboundHrmpMessage>>, [PolkadotParachainPrimitivesPrimitivesHrmpChannelId]> & QueryableStorageEntry<ApiType, [PolkadotParachainPrimitivesPrimitivesHrmpChannelId]>;
/**
* Maintains a mapping that can be used to answer the question: What paras sent a message at
* the given block number for a given receiver. Invariants:
* - The inner `Vec<ParaId>` is never empty.
* - The inner `Vec<ParaId>` cannot store two same `ParaId`.
* - The outer vector is sorted ascending by block number and cannot store two items with the
* same block number.
**/
hrmpChannelDigests: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Vec<ITuple<[u32, Vec<u32>]>>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* HRMP channel data associated with each para.
* Invariant:
* - each participant in the channel should satisfy `Paras::is_valid_para(P)` within a session.
**/
hrmpChannels: AugmentedQuery<ApiType, (arg: PolkadotParachainPrimitivesPrimitivesHrmpChannelId | {
sender?: any;
recipient?: any;
} | string | Uint8Array) => Observable<Option<PolkadotRuntimeParachainsHrmpHrmpChannel>>, [PolkadotParachainPrimitivesPrimitivesHrmpChannelId]> & QueryableStorageEntry<ApiType, [PolkadotParachainPrimitivesPrimitivesHrmpChannelId]>;
/**
* A set of pending HRMP close channel requests that are going to be closed during the session
* change. Used for checking if a given channel is registered for closure.
*
* The set is accompanied by a list for iteration.
*
* Invariant:
* - There are no channels that exists in list but not in the set and vice versa.
**/
hrmpCloseChannelRequests: AugmentedQuery<ApiType, (arg: PolkadotParachainPrimitivesPrimitivesHrmpChannelId | {
sender?: any;
recipient?: any;
} | string | Uint8Array) => Observable<Option<Null>>, [PolkadotParachainPrimitivesPrimitivesHrmpChannelId]> & QueryableStorageEntry<ApiType, [PolkadotParachainPrimitivesPrimitivesHrmpChannelId]>;
hrmpCloseChannelRequestsList: AugmentedQuery<ApiType, () => Observable<Vec<PolkadotParachainPrimitivesPrimitivesHrmpChannelId>>, []> & QueryableStorageEntry<ApiType, []>;
hrmpEgressChannelsIndex: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Vec<u32>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Ingress/egress indexes allow to find all the senders and receivers given the opposite side.
* I.e.
*
* (a) ingress index allows to find all the senders for a given recipient.
* (b) egress index allows to find all the recipients for a given sender.
*
* Invariants:
* - for each ingress index entry for `P` each item `I` in the index should present in
* `HrmpChannels` as `(I, P)`.
* - for each egress index entry for `P` each item `E` in the index should present in
* `HrmpChannels` as `(P, E)`.
* - there should be no other dangling channels in `HrmpChannels`.
* - the vectors are sorted.
**/
hrmpIngressChannelsIndex: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Vec<u32>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* This mapping tracks how many open channel requests are initiated by a given sender para.
* Invariant: `HrmpOpenChannelRequests` should contain the same number of items that has
* `(X, _)` as the number of `HrmpOpenChannelRequestCount` for `X`.
**/
hrmpOpenChannelRequestCount: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<u32>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* The set of pending HRMP open channel requests.
*
* The set is accompanied by a list for iteration.
*
* Invariant:
* - There are no channels that exists in list but not in the set and vice versa.
**/
hrmpOpenChannelRequests: AugmentedQuery<ApiType, (arg: PolkadotParachainPrimitivesPrimitivesHrmpChannelId | {
sender?: any;
recipient?: any;
} | string | Uint8Array) => Observable<Option<PolkadotRuntimeParachainsHrmpHrmpOpenChannelRequest>>, [PolkadotParachainPrimitivesPrimitivesHrmpChannelId]> & QueryableStorageEntry<ApiType, [PolkadotParachainPrimitivesPrimitivesHrmpChannelId]>;
hrmpOpenChannelRequestsList: AugmentedQuery<ApiType, () => Observable<Vec<PolkadotParachainPrimitivesPrimitivesHrmpChannelId>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The HRMP watermark associated with each para.
* Invariant:
* - each para `P` used here as a key should satisfy `Paras::is_valid_para(P)` within a
* session.
**/
hrmpWatermarks: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<u32>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
indices: {
/**
* The lookup from index to account.
**/
accounts: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<ITuple<[AccountId32, u128, bool]>>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
initializer: {
/**
* Buffered session changes along with the block number at which they should be applied.
*
* Typically this will be empty or one element long. Apart from that this item never hits
* the storage.
*
* However this is a `Vec` regardless to handle various edge cases that may occur at runtime
* upgrade boundaries or if governance intervenes.
**/
bufferedSessionChanges: AugmentedQuery<ApiType, () => Observable<Vec<PolkadotRuntimeParachainsInitializerBufferedSessionChange>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Whether the parachains modules have been initialized within this block.
*
* Semantically a `bool`, but this guarantees it should never hit the trie,
* as this is cleared in `on_finalize` and Frame optimizes `None` values to be empty values.
*
* As a `bool`, `set(false)` and `remove()` both lead to the next `get()` being false, but one
* of them writes to the trie and one does not. This confusion makes `Option<()>` more suitable
* for the semantics of this variable.
**/
hasInitialized: AugmentedQuery<ApiType, () => Observable<Option<Null>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
messageQueue: {
/**
* The index of the first and last (non-empty) pages.
**/
bookStateFor: AugmentedQuery<ApiType, (arg: PolkadotRuntimeParachainsInclusionAggregateMessageOrigin | {
Ump: any;
} | string | Uint8Array) => Observable<PalletMessageQueueBookState>, [PolkadotRuntimeParachainsInclusionAggregateMessageOrigin]> & QueryableStorageEntry<ApiType, [PolkadotRuntimeParachainsInclusionAggregateMessageOrigin]>;
/**
* The map of page indices to pages.
**/
pages: AugmentedQuery<ApiType, (arg1: PolkadotRuntimeParachainsInclusionAggregateMessageOrigin | {
Ump: any;
} | string | Uint8Array, arg2: u32 | AnyNumber | Uint8Array) => Observable<Option<PalletMessageQueuePage>>, [PolkadotRuntimeParachainsInclusionAggregateMessageOrigin, u32]> & QueryableStorageEntry<ApiType, [PolkadotRuntimeParachainsInclusionAggregateMessageOrigin, u32]>;
/**
* The origin at which we should begin servicing.
**/
serviceHead: AugmentedQuery<ApiType, () => Observable<Option<PolkadotRuntimeParachainsInclusionAggregateMessageOrigin>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
mmr: {
/**
* Hashes of the nodes in the MMR.
*
* Note this collection only contains MMR peaks, the inner nodes (and leaves)
* are pruned and only stored in the Offchain DB.
**/
nodes: AugmentedQuery<ApiType, (arg: u64 | AnyNumber | Uint8Array) => Observable<Option<H256>>, [u64]> & QueryableStorageEntry<ApiType, [u64]>;
/**
* Current size of the MMR (number of leaves).
**/
numberOfLeaves: AugmentedQuery<ApiType, () => Observable<u64>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Latest MMR Root hash.
**/
rootHash: AugmentedQuery<ApiType, () => Observable<H256>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
multisig: {
/**
* The set of open multisig operations.
**/
multisigs: AugmentedQuery<ApiType, (arg1: AccountId32 | string | Uint8Array, arg2: U8aFixed | string | Uint8Array) => Observable<Option<PalletMultisigMultisig>>, [AccountId32, U8aFixed]> & QueryableStorageEntry<ApiType, [AccountId32, U8aFixed]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
nis: {
/**
* The queues of bids. Indexed by duration (in `Period`s).
**/
queues: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Vec<PalletNisBid>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* The totals of items and balances within each queue. Saves a lot of storage reads in the
* case of sparsely packed queues.
*
* The vector is indexed by duration in `Period`s, offset by one, so information on the queue
* whose duration is one `Period` would be storage `0`.
**/
queueTotals: AugmentedQuery<ApiType, () => Observable<Vec<ITuple<[u32, u128]>>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The currently outstanding receipts, indexed according to the order of creation.
**/
receipts: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<PalletNisReceiptRecord>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Summary information over the general state.
**/
summary: AugmentedQuery<ApiType, () => Observable<PalletNisSummaryRecord>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
nisCounterpartBalances: {
/**
* The Balances pallet example of storing the balance of an account.
*
* # Example
*
* ```nocompile
* impl pallet_balances::Config for Runtime {
* type AccountStore = StorageMapShim<Self::Account<Runtime>, frame_system::Provider<Runtime>, AccountId, Self::AccountData<Balance>>
* }
* ```
*
* You can also store the balance of an account in the `System` pallet.
*
* # Example
*
* ```nocompile
* impl pallet_balances::Config for Runtime {
* type AccountStore = System
* }
* ```
*
* But this comes with tradeoffs, storing account balances in the system pallet stores
* `frame_system` data alongside the account data contrary to storing account balances in the
* `Balances` pallet, which uses a `StorageMap` to store balances data only.
* NOTE: This is only used in the case that this pallet is used to store balances.
**/
account: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<PalletBalancesAccountData>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* Freeze locks on account balances.
**/
freezes: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Vec<FrameSupportTokensMiscIdAmount>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* Holds on account balances.
**/
holds: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Vec<{
readonly id: StagingKusamaRuntimeRuntimeHoldReason;
readonly amount: u128;
} & Struct>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* The total units of outstanding deactivated balance in the system.
**/
inactiveIssuance: AugmentedQuery<ApiType, () => Observable<u128>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Any liquidity locks on some account balances.
* NOTE: Should only be accessed when setting, changing and freeing a lock.
*
* Use of locks is deprecated in favour of freezes. See `https://github.com/paritytech/substrate/pull/12951/`
**/
locks: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Vec<PalletBalancesBalanceLock>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* Named reserves on some account balances.
*
* Use of reserves is deprecated in favour of holds. See `https://github.com/paritytech/substrate/pull/12951/`
**/
reserves: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Vec<PalletBalancesReserveData>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* The total units issued in the system.
**/
totalIssuance: AugmentedQuery<ApiType, () => Observable<u128>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
nominationPools: {
/**
* Storage for bonded pools.
**/
bondedPools: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<PalletNominationPoolsBondedPoolInner>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Map from a pool member account to their opted claim permission.
**/
claimPermissions: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<PalletNominationPoolsClaimPermission>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* Counter for the related counted storage map
**/
counterForBondedPools: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Counter for the related counted storage map
**/
counterForMetadata: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Counter for the related counted storage map
**/
counterForPoolMembers: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Counter for the related counted storage map
**/
counterForReversePoolIdLookup: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Counter for the related counted storage map
**/
counterForRewardPools: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Counter for the related counted storage map
**/
counterForSubPoolsStorage: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The maximum commission that can be charged by a pool. Used on commission payouts to bound
* pool commissions that are > `GlobalMaxCommission`, necessary if a future
* `GlobalMaxCommission` is lower than some current pool commissions.
**/
globalMaxCommission: AugmentedQuery<ApiType, () => Observable<Option<Perbill>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Ever increasing number of all pools created so far.
**/
lastPoolId: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Maximum number of members that can exist in the system. If `None`, then the count
* members are not bound on a system wide basis.
**/
maxPoolMembers: AugmentedQuery<ApiType, () => Observable<Option<u32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Maximum number of members that may belong to pool. If `None`, then the count of
* members is not bound on a per pool basis.
**/
maxPoolMembersPerPool: AugmentedQuery<ApiType, () => Observable<Option<u32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Maximum number of nomination pools that can exist. If `None`, then an unbounded number of
* pools can exist.
**/
maxPools: AugmentedQuery<ApiType, () => Observable<Option<u32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Metadata for the pool.
**/
metadata: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Bytes>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Minimum bond required to create a pool.
*
* This is the amount that the depositor must put as their initial stake in the pool, as an
* indication of "skin in the game".
*
* This is the value that will always exist in the staking ledger of the pool bonded account
* while all other accounts leave.
**/
minCreateBond: AugmentedQuery<ApiType, () => Observable<u128>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Minimum amount to bond to join a pool.
**/
minJoinBond: AugmentedQuery<ApiType, () => Observable<u128>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Active members.
*
* TWOX-NOTE: SAFE since `AccountId` is a secure hash.
**/
poolMembers: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Option<PalletNominationPoolsPoolMember>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* A reverse lookup from the pool's account id to its id.
*
* This is only used for slashing and on automatic withdraw update. In all other instances, the
* pool id is used, and the accounts are deterministically derived from it.
**/
reversePoolIdLookup: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Option<u32>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* Reward pools. This is where there rewards for each pool accumulate. When a members payout is
* claimed, the balance comes out of the reward pool. Keyed by the bonded pools account.
**/
rewardPools: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<PalletNominationPoolsRewardPool>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Groups of unbonding pools. Each group of unbonding pools belongs to a
* bonded pool, hence the name sub-pools. Keyed by the bonded pools account.
**/
subPoolsStorage: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<PalletNominationPoolsSubPools>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* The sum of funds across all pools.
*
* This might be lower but never higher than the sum of `total_balance` of all [`PoolMembers`]
* because calling `pool_withdraw_unbonded` might decrease the total stake of the pool's
* `bonded_account` without adjusting the pallet-internal `UnbondingPool`'s.
**/
totalValueLocked: AugmentedQuery<ApiType, () => Observable<u128>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
offences: {
/**
* A vector of reports of the same kind that happened at the same time slot.
**/
concurrentReportsIndex: AugmentedQuery<ApiType, (arg1: U8aFixed | string | Uint8Array, arg2: Bytes | string | Uint8Array) => Observable<Vec<H256>>, [U8aFixed, Bytes]> & QueryableStorageEntry<ApiType, [U8aFixed, Bytes]>;
/**
* The primary structure that holds all offence records keyed by report identifiers.
**/
reports: AugmentedQuery<ApiType, (arg: H256 | string | Uint8Array) => Observable<Option<SpStakingOffenceOffenceDetails>>, [H256]> & QueryableStorageEntry<ApiType, [H256]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
onDemandAssignmentProvider: {
/**
* Queue entries that are currently bound to a particular core due to core affinity.
**/
affinityEntries: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<BinaryHeapEnqueuedOrder>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Priority queue for all orders which don't yet (or not any more) have any core affinity.
**/
freeEntries: AugmentedQuery<ApiType, () => Observable<Vec<PolkadotRuntimeParachainsAssignerOnDemandTypesEnqueuedOrder>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Maps a `ParaId` to `CoreIndex` and keeps track of how many assignments the scheduler has in
* it's lookahead. Keeping track of this affinity prevents parallel execution of the same
* `ParaId` on two or more `CoreIndex`es.
**/
paraIdAffinity: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<PolkadotRuntimeParachainsAssignerOnDemandTypesCoreAffinityCount>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Overall status of queue (both free + affinity entries)
**/
queueStatus: AugmentedQuery<ApiType, () => Observable<PolkadotRuntimeParachainsAssignerOnDemandTypesQueueStatusType>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Keeps track of accumulated revenue from on demand order sales.
**/
revenue: AugmentedQuery<ApiType, () => Observable<Vec<u128>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
paraInclusion: {
/**
* Candidates pending availability by `ParaId`. They form a chain starting from the latest
* included head of the para.
* Use a different prefix post-migration to v1, since the v0 `PendingAvailability` storage
* would otherwise have the exact same prefix which could cause undefined behaviour when doing
* the migration.
**/
v1: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<Vec<PolkadotRuntimeParachainsInclusionCandidatePendingAvailability>>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
paraInherent: {
/**
* Whether the paras inherent was included within this block.
*
* The `Option<()>` is effectively a `bool`, but it never hits storage in the `None` variant
* due to the guarantees of FRAME's storage APIs.
*
* If this is `None` at the end of the block, we panic and render the block invalid.
**/
included: AugmentedQuery<ApiType, () => Observable<Option<Null>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Scraped on chain data for extracting resolved disputes as well as backing votes.
**/
onChainVotes: AugmentedQuery<ApiType, () => Observable<Option<PolkadotPrimitivesV7ScrapedOnChainVotes>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
parameters: {
/**
* Stored parameters.
**/
parameters: AugmentedQuery<ApiType, (arg: StagingKusamaRuntimeRuntimeParametersKey | {
Inflation: any;
} | string | Uint8Array) => Observable<Option<StagingKusamaRuntimeRuntimeParametersValue>>, [StagingKusamaRuntimeRuntimeParametersKey]> & QueryableStorageEntry<ApiType, [StagingKusamaRuntimeRuntimeParametersKey]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
paras: {
/**
* The actions to perform during the start of a specific session index.
**/
actionsQueue: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Vec<u32>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Validation code stored by its hash.
*
* This storage is consistent with [`FutureCodeHash`], [`CurrentCodeHash`] and
* [`PastCodeHash`].
**/
codeByHash: AugmentedQuery<ApiType, (arg: H256 | string | Uint8Array) => Observable<Option<Bytes>>, [H256]> & QueryableStorageEntry<ApiType, [H256]>;
/**
* The number of reference on the validation code in [`CodeByHash`] storage.
**/
codeByHashRefs: AugmentedQuery<ApiType, (arg: H256 | string | Uint8Array) => Observable<u32>, [H256]> & QueryableStorageEntry<ApiType, [H256]>;
/**
* The validation code hash of every live para.
*
* Corresponding code can be retrieved with [`CodeByHash`].
**/
currentCodeHash: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<H256>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* The actual future code hash of a para.
*
* Corresponding code can be retrieved with [`CodeByHash`].
**/
futureCodeHash: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<H256>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* The block number at which the planned code change is expected for a parachain.
*
* The change will be applied after the first parablock for this ID included which executes
* in the context of a relay chain block with a number >= `expected_at`.
**/
futureCodeUpgrades: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<u32>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* The list of upcoming future code upgrades.
*
* Each item is a pair of the parachain and the expected block at which the upgrade should be
* applied. The upgrade will be applied at the given relay chain block. In contrast to
* [`FutureCodeUpgrades`] this code upgrade will be applied regardless the parachain making any
* progress or not.
*
* Ordered ascending by block number.
**/
futureCodeUpgradesAt: AugmentedQuery<ApiType, () => Observable<Vec<ITuple<[u32, u32]>>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The head-data of every registered para.
**/
heads: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<Bytes>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* The context (relay-chain block number) of the most recent parachain head.
**/
mostRecentContext: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<u32>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* All lease holding parachains. Ordered ascending by `ParaId`. On demand parachains are not
* included.
*
* Consider using the [`ParachainsCache`] type of modifying.
**/
parachains: AugmentedQuery<ApiType, () => Observable<Vec<u32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The current lifecycle of a all known Para IDs.
**/
paraLifecycles: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<PolkadotRuntimeParachainsParasParaLifecycle>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Actual past code hash, indicated by the para id as well as the block number at which it
* became outdated.
*
* Corresponding code can be retrieved with [`CodeByHash`].
**/
pastCodeHash: AugmentedQuery<ApiType, (arg: ITuple<[u32, u32]> | [u32 | AnyNumber | Uint8Array, u32 | AnyNumber | Uint8Array]) => Observable<Option<H256>>, [ITuple<[u32, u32]>]> & QueryableStorageEntry<ApiType, [ITuple<[u32, u32]>]>;
/**
* Past code of parachains. The parachains themselves may not be registered anymore,
* but we also keep their code on-chain for the same amount of time as outdated code
* to keep it available for approval checkers.
**/
pastCodeMeta: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<PolkadotRuntimeParachainsParasParaPastCodeMeta>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Which paras have past code that needs pruning and the relay-chain block at which the code
* was replaced. Note that this is the actual height of the included block, not the expected
* height at which the code upgrade would be applied, although they may be equal.
* This is to ensure the entire acceptance period is covered, not an offset acceptance period
* starting from the time at which the parachain perceives a code upgrade as having occurred.
* Multiple entries for a single para are permitted. Ordered ascending by block number.
**/
pastCodePruning: AugmentedQuery<ApiType, () => Observable<Vec<ITuple<[u32, u32]>>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The list of all currently active PVF votes. Auxiliary to `PvfActiveVoteMap`.
**/
pvfActiveVoteList: AugmentedQuery<ApiType, () => Observable<Vec<H256>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* All currently active PVF pre-checking votes.
*
* Invariant:
* - There are no PVF pre-checking votes that exists in list but not in the set and vice versa.
**/
pvfActiveVoteMap: AugmentedQuery<ApiType, (arg: H256 | string | Uint8Array) => Observable<Option<PolkadotRuntimeParachainsParasPvfCheckActiveVoteState>>, [H256]> & QueryableStorageEntry<ApiType, [H256]>;
/**
* Upcoming paras instantiation arguments.
*
* NOTE that after PVF pre-checking is enabled the para genesis arg will have it's code set
* to empty. Instead, the code will be saved into the storage right away via `CodeByHash`.
**/
upcomingParasGenesis: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<PolkadotRuntimeParachainsParasParaGenesisArgs>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* The list of upcoming code upgrades.
*
* Each item is a pair of which para performs a code upgrade and at which relay-chain block it
* is expected at.
*
* Ordered ascending by block number.
**/
upcomingUpgrades: AugmentedQuery<ApiType, () => Observable<Vec<ITuple<[u32, u32]>>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The list of parachains that are awaiting for their upgrade restriction to cooldown.
*
* Ordered ascending by block number.
**/
upgradeCooldowns: AugmentedQuery<ApiType, () => Observable<Vec<ITuple<[u32, u32]>>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* This is used by the relay-chain to communicate to a parachain a go-ahead with in the upgrade
* procedure.
*
* This value is absent when there are no upgrades scheduled or during the time the relay chain
* performs the checks. It is set at the first relay-chain block when the corresponding
* parachain can switch its upgrade function. As soon as the parachain's block is included, the
* value gets reset to `None`.
*
* NOTE that this field is used by parachains via merkle storage proofs, therefore changing
* the format will require migration of parachains.
**/
upgradeGoAheadSignal: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<PolkadotPrimitivesV7UpgradeGoAhead>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* This is used by the relay-chain to communicate that there are restrictions for performing
* an upgrade for this parachain.
*
* This may be a because the parachain waits for the upgrade cooldown to expire. Another
* potential use case is when we want to perform some maintenance (such as storage migration)
* we could restrict upgrades to make the process simpler.
*
* NOTE that this field is used by parachains via merkle storage proofs, therefore changing
* the format will require migration of parachains.
**/
upgradeRestrictionSignal: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<PolkadotPrimitivesV7UpgradeRestriction>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
paraScheduler: {
/**
* One entry for each availability core. The i'th parachain belongs to the i'th core, with the
* remaining cores all being on demand parachain multiplexers.
*
* Bounded by the maximum of either of these two values:
* * The number of parachains and parathread multiplexers
* * The number of validators divided by `configuration.max_validators_per_core`.
**/
availabilityCores: AugmentedQuery<ApiType, () => Observable<Vec<PolkadotRuntimeParachainsSchedulerPalletCoreOccupied>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* One entry for each availability core. The `VecDeque` represents the assignments to be
* scheduled on that core. The value contained here will not be valid after the end of
* a block. Runtime APIs should be used to determine scheduled cores for the upcoming block.
**/
claimQueue: AugmentedQuery<ApiType, () => Observable<BTreeMap<u32, Vec<PolkadotRuntimeParachainsSchedulerPalletParasEntry>>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The block number where the session start occurred. Used to track how many group rotations
* have occurred.
*
* Note that in the context of parachains modules the session change is signaled during
* the block and enacted at the end of the block (at the finalization stage, to be exact).
* Thus for all intents and purposes the effect of the session change is observed at the
* block following the session change, block number of which we save in this storage value.
**/
sessionStartBlock: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* All the validator groups. One for each core. Indices are into `ActiveValidators` - not the
* broader set of Polkadot validators, but instead just the subset used for parachains during
* this session.
*
* Bound: The number of cores is the sum of the numbers of parachains and parathread
* multiplexers. Reasonably, 100-1000. The dominant factor is the number of validators: safe
* upper bound at 10k.
**/
validatorGroups: AugmentedQuery<ApiType, () => Observable<Vec<Vec<u32>>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
parasDisputes: {
/**
* Backing votes stored for each dispute.
* This storage is used for slashing.
**/
backersOnDisputes: AugmentedQuery<ApiType, (arg1: u32 | AnyNumber | Uint8Array, arg2: H256 | string | Uint8Array) => Observable<Option<BTreeSet<u32>>>, [u32, H256]> & QueryableStorageEntry<ApiType, [u32, H256]>;
/**
* All ongoing or concluded disputes for the last several sessions.
**/
disputes: AugmentedQuery<ApiType, (arg1: u32 | AnyNumber | Uint8Array, arg2: H256 | string | Uint8Array) => Observable<Option<PolkadotPrimitivesV7DisputeState>>, [u32, H256]> & QueryableStorageEntry<ApiType, [u32, H256]>;
/**
* Whether the chain is frozen. Starts as `None`. When this is `Some`,
* the chain will not accept any new parachain blocks for backing or inclusion,
* and its value indicates the last valid block number in the chain.
* It can only be set back to `None` by governance intervention.
**/
frozen: AugmentedQuery<ApiType, () => Observable<Option<u32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* All included blocks on the chain, as well as the block number in this chain that
* should be reverted back to if the candidate is disputed and determined to be invalid.
**/
included: AugmentedQuery<ApiType, (arg1: u32 | AnyNumber | Uint8Array, arg2: H256 | string | Uint8Array) => Observable<Option<u32>>, [u32, H256]> & QueryableStorageEntry<ApiType, [u32, H256]>;
/**
* The last pruned session, if any. All data stored by this module
* references sessions.
**/
lastPrunedSession: AugmentedQuery<ApiType, () => Observable<Option<u32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
paraSessionInfo: {
/**
* The validator account keys of the validators actively participating in parachain consensus.
**/
accountKeys: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<Vec<AccountId32>>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Assignment keys for the current session.
* Note that this API is private due to it being prone to 'off-by-one' at session boundaries.
* When in doubt, use `Sessions` API instead.
**/
assignmentKeysUnsafe: AugmentedQuery<ApiType, () => Observable<Vec<PolkadotPrimitivesV7AssignmentAppPublic>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The earliest session for which previous session info is stored.
**/
earliestStoredSession: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Executor parameter set for a given session index
**/
sessionExecutorParams: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<PolkadotPrimitivesV7ExecutorParams>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Session information in a rolling window.
* Should have an entry in range `EarliestStoredSession..=CurrentSessionIndex`.
* Does not have any entries before the session index in the first session change notification.
**/
sessions: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<PolkadotPrimitivesV7SessionInfo>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
parasShared: {
/**
* All the validators actively participating in parachain consensus.
* Indices are into the broader validator set.
**/
activeValidatorIndices: AugmentedQuery<ApiType, () => Observable<Vec<u32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The parachain attestation keys of the validators actively participating in parachain
* consensus. This should be the same length as `ActiveValidatorIndices`.
**/
activeValidatorKeys: AugmentedQuery<ApiType, () => Observable<Vec<PolkadotPrimitivesV7ValidatorAppPublic>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* All allowed relay-parents.
**/
allowedRelayParents: AugmentedQuery<ApiType, () => Observable<PolkadotRuntimeParachainsSharedAllowedRelayParentsTracker>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The current session index.
**/
currentSessionIndex: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
parasSlashing: {
/**
* Validators pending dispute slashes.
**/
unappliedSlashes: AugmentedQuery<ApiType, (arg1: u32 | AnyNumber | Uint8Array, arg2: H256 | string | Uint8Array) => Observable<Option<PolkadotPrimitivesV7SlashingPendingSlashes>>, [u32, H256]> & QueryableStorageEntry<ApiType, [u32, H256]>;
/**
* `ValidatorSetCount` per session.
**/
validatorSetCounts: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<u32>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
preimage: {
preimageFor: AugmentedQuery<ApiType, (arg: ITuple<[H256, u32]> | [H256 | string | Uint8Array, u32 | AnyNumber | Uint8Array]) => Observable<Option<Bytes>>, [ITuple<[H256, u32]>]> & QueryableStorageEntry<ApiType, [ITuple<[H256, u32]>]>;
/**
* The request status of a given hash.
**/
requestStatusFor: AugmentedQuery<ApiType, (arg: H256 | string | Uint8Array) => Observable<Option<PalletPreimageRequestStatus>>, [H256]> & QueryableStorageEntry<ApiType, [H256]>;
/**
* The request status of a given hash.
**/
statusFor: AugmentedQuery<ApiType, (arg: H256 | string | Uint8Array) => Observable<Option<PalletPreimageOldRequestStatus>>, [H256]> & QueryableStorageEntry<ApiType, [H256]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
proxy: {
/**
* The announcements made by the proxy (key).
**/
announcements: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<ITuple<[Vec<PalletProxyAnnouncement>, u128]>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* The set of account proxies. Maps the account which has delegated to the accounts
* which are being delegated to, together with the amount held on deposit.
**/
proxies: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<ITuple<[Vec<PalletProxyProxyDefinition>, u128]>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
recovery: {
/**
* Active recovery attempts.
*
* First account is the account to be recovered, and the second account
* is the user trying to recover the account.
**/
activeRecoveries: AugmentedQuery<ApiType, (arg1: AccountId32 | string | Uint8Array, arg2: AccountId32 | string | Uint8Array) => Observable<Option<PalletRecoveryActiveRecovery>>, [AccountId32, AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32, AccountId32]>;
/**
* The list of allowed proxy accounts.
*
* Map from the user who can access it to the recovered account.
**/
proxy: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Option<AccountId32>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* The set of recoverable accounts and their recovery configuration.
**/
recoverable: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Option<PalletRecoveryRecoveryConfig>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
referenda: {
/**
* The number of referenda being decided currently.
**/
decidingCount: AugmentedQuery<ApiType, (arg: u16 | AnyNumber | Uint8Array) => Observable<u32>, [u16]> & QueryableStorageEntry<ApiType, [u16]>;
/**
* The metadata is a general information concerning the referendum.
* The `Hash` refers to the preimage of the `Preimages` provider which can be a JSON
* dump or IPFS hash of a JSON file.
*
* Consider a garbage collection for a metadata of finished referendums to `unrequest` (remove)
* large preimages.
**/
metadataOf: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<H256>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* The next free referendum index, aka the number of referenda started so far.
**/
referendumCount: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Information concerning any given referendum.
**/
referendumInfoFor: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<PalletReferendaReferendumInfoConvictionVotingTally>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* The sorted list of referenda ready to be decided but not yet being decided, ordered by
* conviction-weighted approvals.
*
* This should be empty if `DecidingCount` is less than `TrackInfo::max_deciding`.
**/
trackQueue: AugmentedQuery<ApiType, (arg: u16 | AnyNumber | Uint8Array) => Observable<Vec<ITuple<[u32, u128]>>>, [u16]> & QueryableStorageEntry<ApiType, [u16]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
registrar: {
/**
* The next free `ParaId`.
**/
nextFreeParaId: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Amount held on deposit for each para and the original depositor.
*
* The given account ID is responsible for registering the code and initial head data, but may
* only do so if it isn't yet registered. (After that, it's up to governance to do so.)
**/
paras: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<PolkadotRuntimeCommonParasRegistrarParaInfo>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Pending swap operations.
**/
pendingSwap: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<u32>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
scheduler: {
/**
* Items to be executed, indexed by the block number that they should be executed on.
**/
agenda: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Vec<Option<PalletSchedulerScheduled>>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
incompleteSince: AugmentedQuery<ApiType, () => Observable<Option<u32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Lookup from a name to the block number and index of the task.
*
* For v3 -> v4 the previously unbounded identities are Blake2-256 hashed to form the v4
* identities.
**/
lookup: AugmentedQuery<ApiType, (arg: U8aFixed | string | Uint8Array) => Observable<Option<ITuple<[u32, u32]>>>, [U8aFixed]> & QueryableStorageEntry<ApiType, [U8aFixed]>;
/**
* Retry configurations for items to be executed, indexed by task address.
**/
retries: AugmentedQuery<ApiType, (arg: ITuple<[u32, u32]> | [u32 | AnyNumber | Uint8Array, u32 | AnyNumber | Uint8Array]) => Observable<Option<PalletSchedulerRetryConfig>>, [ITuple<[u32, u32]>]> & QueryableStorageEntry<ApiType, [ITuple<[u32, u32]>]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
session: {
/**
* Current index of the session.
**/
currentIndex: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Indices of disabled validators.
*
* The vec is always kept sorted so that we can find whether a given validator is
* disabled using binary search. It gets cleared when `on_session_ending` returns
* a new set of identities.
**/
disabledValidators: AugmentedQuery<ApiType, () => Observable<Vec<u32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The owner of a key. The key is the `KeyTypeId` + the encoded key.
**/
keyOwner: AugmentedQuery<ApiType, (arg: ITuple<[SpCoreCryptoKeyTypeId, Bytes]> | [SpCoreCryptoKeyTypeId | string | Uint8Array, Bytes | string | Uint8Array]) => Observable<Option<AccountId32>>, [ITuple<[SpCoreCryptoKeyTypeId, Bytes]>]> & QueryableStorageEntry<ApiType, [ITuple<[SpCoreCryptoKeyTypeId, Bytes]>]>;
/**
* The next session keys for a validator.
**/
nextKeys: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Option<StagingKusamaRuntimeSessionKeys>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* True if the underlying economic identities or weighting behind the validators
* has changed in the queued validator set.
**/
queuedChanged: AugmentedQuery<ApiType, () => Observable<bool>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The queued keys for the next session. When the next session begins, these keys
* will be used to determine the validator's session keys.
**/
queuedKeys: AugmentedQuery<ApiType, () => Observable<Vec<ITuple<[AccountId32, StagingKusamaRuntimeSessionKeys]>>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The current set of validators.
**/
validators: AugmentedQuery<ApiType, () => Observable<Vec<AccountId32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
slots: {
/**
* Amounts held on deposit for each (possibly future) leased parachain.
*
* The actual amount locked on its behalf by any account at any time is the maximum of the
* second values of the items in this list whose first value is the account.
*
* The first item in the list is the amount locked for the current Lease Period. Following
* items are for the subsequent lease periods.
*
* The default value (an empty list) implies that the parachain no longer exists (or never
* existed) as far as this pallet is concerned.
*
* 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 `None`s 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.
*
* It is illegal for a `None` value to trail in the list.
**/
leases: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Vec<Option<ITuple<[AccountId32, u128]>>>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
society: {
/**
* The current bids, stored ordered by the value of the bid.
**/
bids: AugmentedQuery<ApiType, () => Observable<Vec<PalletSocietyBid>>, []> & QueryableStorageEntry<ApiType, []>;
candidates: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Option<PalletSocietyCandidacy>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* The number of challenge rounds there have been. Used to identify stale DefenderVotes.
**/
challengeRoundCount: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Votes for the defender, keyed by challenge round.
**/
defenderVotes: AugmentedQuery<ApiType, (arg1: u32 | AnyNumber | Uint8Array, arg2: AccountId32 | string | Uint8Array) => Observable<Option<PalletSocietyVote>>, [u32, AccountId32]> & QueryableStorageEntry<ApiType, [u32, AccountId32]>;
/**
* The defending member currently being challenged, along with a running tally of votes.
**/
defending: AugmentedQuery<ApiType, () => Observable<Option<ITuple<[AccountId32, AccountId32, PalletSocietyTally]>>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The first member.
**/
founder: AugmentedQuery<ApiType, () => Observable<Option<AccountId32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The most primary from the most recently approved rank 0 members in the society.
**/
head: AugmentedQuery<ApiType, () => Observable<Option<AccountId32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The current items in `Members` keyed by their unique index. Keys are densely populated
* `0..MemberCount` (does not include `MemberCount`).
**/
memberByIndex: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<AccountId32>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* The number of items in `Members` currently. (Doesn't include `SuspendedMembers`.)
**/
memberCount: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The current members and their rank. Doesn't include `SuspendedMembers`.
**/
members: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Option<PalletSocietyMemberRecord>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* At the end of the claim period, this contains the most recently approved members (along with
* their bid and round ID) who is from the most recent round with the lowest bid. They will
* become the new `Head`.
**/
nextHead: AugmentedQuery<ApiType, () => Observable<Option<PalletSocietyIntakeRecord>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The max number of members for the society at one time.
**/
parameters: AugmentedQuery<ApiType, () => Observable<Option<PalletSocietyGroupParams>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Information regarding rank-0 payouts, past and future.
**/
payouts: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<PalletSocietyPayoutRecord>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* Amount of our account balance that is specifically for the next round's bid(s).
**/
pot: AugmentedQuery<ApiType, () => Observable<u128>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The number of rounds which have passed.
**/
roundCount: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* A hash of the rules of this society concerning membership. Can only be set once and
* only by the founder.
**/
rules: AugmentedQuery<ApiType, () => Observable<Option<H256>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The current skeptic.
**/
skeptic: AugmentedQuery<ApiType, () => Observable<Option<AccountId32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The set of suspended members, with their old membership record.
**/
suspendedMembers: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Option<PalletSocietyMemberRecord>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* Clear-cursor for Vote, map from Candidate -> (Maybe) Cursor.
**/
voteClearCursor: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Option<Bytes>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* Double map from Candidate -> Voter -> (Maybe) Vote.
**/
votes: AugmentedQuery<ApiType, (arg1: AccountId32 | string | Uint8Array, arg2: AccountId32 | string | Uint8Array) => Observable<Option<PalletSocietyVote>>, [AccountId32, AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32, AccountId32]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
staking: {
/**
* The active era information, it holds index and start.
*
* The active era is the era being currently rewarded. Validator set of this era must be
* equal to [`SessionInterface::validators`].
**/
activeEra: AugmentedQuery<ApiType, () => Observable<Option<PalletStakingActiveEraInfo>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Map from all locked "stash" accounts to the controller account.
*
* TWOX-NOTE: SAFE since `AccountId` is a secure hash.
**/
bonded: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Option<AccountId32>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* A mapping from still-bonded eras to the first session index of that era.
*
* Must contains information for eras for the range:
* `[active_era - bounding_duration; active_era]`
**/
bondedEras: AugmentedQuery<ApiType, () => Observable<Vec<ITuple<[u32, u32]>>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The amount of currency given to reporters of a slash event which was
* canceled by extraordinary circumstances (e.g. governance).
**/
canceledSlashPayout: AugmentedQuery<ApiType, () => Observable<u128>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The threshold for when users can start calling `chill_other` for other validators /
* nominators. The threshold is compared to the actual number of validators / nominators
* (`CountFor*`) in the system compared to the configured max (`Max*Count`).
**/
chillThreshold: AugmentedQuery<ApiType, () => Observable<Option<Percent>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* History of claimed paged rewards by era and validator.
*
* This is keyed by era and validator stash which maps to the set of page indexes which have
* been claimed.
*
* It is removed after [`Config::HistoryDepth`] eras.
**/
claimedRewards: AugmentedQuery<ApiType, (arg1: u32 | AnyNumber | Uint8Array, arg2: AccountId32 | string | Uint8Array) => Observable<Vec<u32>>, [u32, AccountId32]> & QueryableStorageEntry<ApiType, [u32, AccountId32]>;
/**
* Counter for the related counted storage map
**/
counterForNominators: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Counter for the related counted storage map
**/
counterForValidators: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Counter for the related counted storage map
**/
counterForVirtualStakers: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The current era index.
*
* This is the latest planned era, depending on how the Session pallet queues the validator
* set, it might be active or not.
**/
currentEra: AugmentedQuery<ApiType, () => Observable<Option<u32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The last planned session scheduled by the session pallet.
*
* This is basically in sync with the call to [`pallet_session::SessionManager::new_session`].
**/
currentPlannedSession: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Indices of validators that have offended in the active era. The offenders are disabled for a
* whole era. For this reason they are kept here - only staking pallet knows about eras. The
* implementor of [`DisablingStrategy`] defines if a validator should be disabled which
* implicitly means that the implementor also controls the max number of disabled validators.
*
* The vec is always kept sorted so that we can find whether a given validator has previously
* offended using binary search.
**/
disabledValidators: AugmentedQuery<ApiType, () => Observable<Vec<u32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Rewards for the last [`Config::HistoryDepth`] eras.
* If reward hasn't been set or has been removed then 0 reward is returned.
**/
erasRewardPoints: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<PalletStakingEraRewardPoints>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Exposure of validator at era.
*
* This is keyed first by the era index to allow bulk deletion and then the stash account.
*
* Is it removed after [`Config::HistoryDepth`] eras.
* If stakers hasn't been set or has been removed then empty exposure is returned.
*
* Note: Deprecated since v14. Use `EraInfo` instead to work with exposures.
**/
erasStakers: AugmentedQuery<ApiType, (arg1: u32 | AnyNumber | Uint8Array, arg2: AccountId32 | string | Uint8Array) => Observable<SpStakingExposure>, [u32, AccountId32]> & QueryableStorageEntry<ApiType, [u32, AccountId32]>;
/**
* Clipped Exposure of validator at era.
*
* Note: This is deprecated, should be used as read-only and will be removed in the future.
* New `Exposure`s are stored in a paged manner in `ErasStakersPaged` instead.
*
* This is similar to [`ErasStakers`] but number of nominators exposed is reduced to the
* `T::MaxExposurePageSize` biggest stakers.
* (Note: the field `total` and `own` of the exposure remains unchanged).
* This is used to limit the i/o cost for the nominator payout.
*
* This is keyed fist by the era index to allow bulk deletion and then the stash account.
*
* It is removed after [`Config::HistoryDepth`] eras.
* If stakers hasn't been set or has been removed then empty exposure is returned.
*
* Note: Deprecated since v14. Use `EraInfo` instead to work with exposures.
**/
erasStakersClipped: AugmentedQuery<ApiType, (arg1: u32 | AnyNumber | Uint8Array, arg2: AccountId32 | string | Uint8Array) => Observable<SpStakingExposure>, [u32, AccountId32]> & QueryableStorageEntry<ApiType, [u32, AccountId32]>;
/**
* Summary of validator exposure at a given era.
*
* This contains the total stake in support of the validator and their own stake. In addition,
* it can also be used to get the number of nominators backing this validator and the number of
* exposure pages they are divided into. The page count is useful to determine the number of
* pages of rewards that needs to be claimed.
*
* This is keyed first by the era index to allow bulk deletion and then the stash account.
* Should only be accessed through `EraInfo`.
*
* Is it removed after [`Config::HistoryDepth`] eras.
* If stakers hasn't been set or has been removed then empty overview is returned.
**/
erasStakersOverview: AugmentedQuery<ApiType, (arg1: u32 | AnyNumber | Uint8Array, arg2: AccountId32 | string | Uint8Array) => Observable<Option<SpStakingPagedExposureMetadata>>, [u32, AccountId32]> & QueryableStorageEntry<ApiType, [u32, AccountId32]>;
/**
* Paginated exposure of a validator at given era.
*
* This is keyed first by the era index to allow bulk deletion, then stash account and finally
* the page. Should only be accessed through `EraInfo`.
*
* This is cleared after [`Config::HistoryDepth`] eras.
**/
erasStakersPaged: AugmentedQuery<ApiType, (arg1: u32 | AnyNumber | Uint8Array, arg2: AccountId32 | string | Uint8Array, arg3: u32 | AnyNumber | Uint8Array) => Observable<Option<SpStakingExposurePage>>, [u32, AccountId32, u32]> & QueryableStorageEntry<ApiType, [u32, AccountId32, u32]>;
/**
* The session index at which the era start for the last [`Config::HistoryDepth`] eras.
*
* Note: This tracks the starting session (i.e. session index when era start being active)
* for the eras in `[CurrentEra - HISTORY_DEPTH, CurrentEra]`.
**/
erasStartSessionIndex: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<u32>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* The total amount staked for the last [`Config::HistoryDepth`] eras.
* If total hasn't been set or has been removed then 0 stake is returned.
**/
erasTotalStake: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<u128>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Similar to `ErasStakers`, this holds the preferences of validators.
*
* This is keyed first by the era index to allow bulk deletion and then the stash account.
*
* Is it removed after [`Config::HistoryDepth`] eras.
**/
erasValidatorPrefs: AugmentedQuery<ApiType, (arg1: u32 | AnyNumber | Uint8Array, arg2: AccountId32 | string | Uint8Array) => Observable<PalletStakingValidatorPrefs>, [u32, AccountId32]> & QueryableStorageEntry<ApiType, [u32, AccountId32]>;
/**
* The total validator era payout for the last [`Config::HistoryDepth`] eras.
*
* Eras that haven't finished yet or has been removed doesn't have reward.
**/
erasValidatorReward: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<u128>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Mode of era forcing.
**/
forceEra: AugmentedQuery<ApiType, () => Observable<PalletStakingForcing>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Any validators that may never be slashed or forcibly kicked. It's a Vec since they're
* easy to initialize and the performance hit is minimal (we expect no more than four
* invulnerables) and restricted to testnets.
**/
invulnerables: AugmentedQuery<ApiType, () => Observable<Vec<AccountId32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Map from all (unlocked) "controller" accounts to the info regarding the staking.
*
* Note: All the reads and mutations to this storage *MUST* be done through the methods exposed
* by [`StakingLedger`] to ensure data and lock consistency.
**/
ledger: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Option<PalletStakingStakingLedger>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* The maximum nominator count before we stop allowing new validators to join.
*
* When this value is not set, no limits are enforced.
**/
maxNominatorsCount: AugmentedQuery<ApiType, () => Observable<Option<u32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Maximum staked rewards, i.e. the percentage of the era inflation that
* is used for stake rewards.
* See [Era payout](./index.html#era-payout).
**/
maxStakedRewards: AugmentedQuery<ApiType, () => Observable<Option<Percent>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The maximum validator count before we stop allowing new validators to join.
*
* When this value is not set, no limits are enforced.
**/
maxValidatorsCount: AugmentedQuery<ApiType, () => Observable<Option<u32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The minimum amount of commission that validators can set.
*
* If set to `0`, no limit exists.
**/
minCommission: AugmentedQuery<ApiType, () => Observable<Perbill>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The minimum active nominator stake of the last successful election.
**/
minimumActiveStake: AugmentedQuery<ApiType, () => Observable<u128>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Minimum number of staking participants before emergency conditions are imposed.
**/
minimumValidatorCount: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The minimum active bond to become and maintain the role of a nominator.
**/
minNominatorBond: AugmentedQuery<ApiType, () => Observable<u128>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The minimum active bond to become and maintain the role of a validator.
**/
minValidatorBond: AugmentedQuery<ApiType, () => Observable<u128>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The map from nominator stash key to their nomination preferences, namely the validators that
* they wish to support.
*
* Note that the keys of this storage map might become non-decodable in case the
* account's [`NominationsQuota::MaxNominations`] configuration is decreased.
* In this rare case, these nominators
* are still existent in storage, their key is correct and retrievable (i.e. `contains_key`
* indicates that they exist), but their value cannot be decoded. Therefore, the non-decodable
* nominators will effectively not-exist, until they re-submit their preferences such that it
* is within the bounds of the newly set `Config::MaxNominations`.
*
* This implies that `::iter_keys().count()` and `::iter().count()` might return different
* values for this map. Moreover, the main `::count()` is aligned with the former, namely the
* number of keys that exist.
*
* Lastly, if any of the nominators become non-decodable, they can be chilled immediately via
* [`Call::chill_other`] dispatchable by anyone.
*
* TWOX-NOTE: SAFE since `AccountId` is a secure hash.
**/
nominators: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Option<PalletStakingNominations>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* All slashing events on nominators, mapped by era to the highest slash value of the era.
**/
nominatorSlashInEra: AugmentedQuery<ApiType, (arg1: u32 | AnyNumber | Uint8Array, arg2: AccountId32 | string | Uint8Array) => Observable<Option<u128>>, [u32, AccountId32]> & QueryableStorageEntry<ApiType, [u32, AccountId32]>;
/**
* Where the reward payment should be made. Keyed by stash.
*
* TWOX-NOTE: SAFE since `AccountId` is a secure hash.
**/
payee: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Option<PalletStakingRewardDestination>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* Slashing spans for stash accounts.
**/
slashingSpans: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Option<PalletStakingSlashingSlashingSpans>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* The percentage of the slash that is distributed to reporters.
*
* The rest of the slashed value is handled by the `Slash`.
**/
slashRewardFraction: AugmentedQuery<ApiType, () => Observable<Perbill>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Records information about the maximum slash of a stash within a slashing span,
* as well as how much reward has been paid out.
**/
spanSlash: AugmentedQuery<ApiType, (arg: ITuple<[AccountId32, u32]> | [AccountId32 | string | Uint8Array, u32 | AnyNumber | Uint8Array]) => Observable<PalletStakingSlashingSpanRecord>, [ITuple<[AccountId32, u32]>]> & QueryableStorageEntry<ApiType, [ITuple<[AccountId32, u32]>]>;
/**
* All unapplied slashes that are queued for later.
**/
unappliedSlashes: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Vec<PalletStakingUnappliedSlash>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* The ideal number of active validators.
**/
validatorCount: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The map from (wannabe) validator stash key to the preferences of that validator.
*
* TWOX-NOTE: SAFE since `AccountId` is a secure hash.
**/
validators: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<PalletStakingValidatorPrefs>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* All slashing events on validators, mapped by era to the highest slash proportion
* and slash value of the era.
**/
validatorSlashInEra: AugmentedQuery<ApiType, (arg1: u32 | AnyNumber | Uint8Array, arg2: AccountId32 | string | Uint8Array) => Observable<Option<ITuple<[Perbill, u128]>>>, [u32, AccountId32]> & QueryableStorageEntry<ApiType, [u32, AccountId32]>;
/**
* Stakers whose funds are managed by other pallets.
*
* This pallet does not apply any locks on them, therefore they are only virtually bonded. They
* are expected to be keyless accounts and hence should not be allowed to mutate their ledger
* directly via this pallet. Instead, these accounts are managed by other pallets and accessed
* via low level apis. We keep track of them to do minimal integrity checks.
**/
virtualStakers: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Option<Null>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
system: {
/**
* The full account information for a particular account ID.
**/
account: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<FrameSystemAccountInfo>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* Total length (in bytes) for all extrinsics put together, for the current block.
**/
allExtrinsicsLen: AugmentedQuery<ApiType, () => Observable<Option<u32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* `Some` if a code upgrade has been authorized.
**/
authorizedUpgrade: AugmentedQuery<ApiType, () => Observable<Option<FrameSystemCodeUpgradeAuthorization>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Map of block numbers to block hashes.
**/
blockHash: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<H256>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* The current weight for the block.
**/
blockWeight: AugmentedQuery<ApiType, () => Observable<FrameSupportDispatchPerDispatchClassWeight>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Digest of the current block, also part of the block header.
**/
digest: AugmentedQuery<ApiType, () => Observable<SpRuntimeDigest>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The number of events in the `Events<T>` list.
**/
eventCount: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Events deposited for the current block.
*
* NOTE: The item is unbound and should therefore never be read on chain.
* It could otherwise inflate the PoV size of a block.
*
* Events have a large in-memory size. Box the events to not go out-of-memory
* just in case someone still reads them from within the runtime.
**/
events: AugmentedQuery<ApiType, () => Observable<Vec<FrameSystemEventRecord>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Mapping between a topic (represented by T::Hash) and a vector of indexes
* of events in the `<Events<T>>` list.
*
* All topic vectors have deterministic storage locations depending on the topic. This
* allows light-clients to leverage the changes trie storage tracking mechanism and
* in case of changes fetch the list of events of interest.
*
* The value has the type `(BlockNumberFor<T>, EventIndex)` because if we used only just
* the `EventIndex` then in case if the topic has the same contents on the next block
* no notification will be triggered thus the event might be lost.
**/
eventTopics: AugmentedQuery<ApiType, (arg: H256 | string | Uint8Array) => Observable<Vec<ITuple<[u32, u32]>>>, [H256]> & QueryableStorageEntry<ApiType, [H256]>;
/**
* The execution phase of the block.
**/
executionPhase: AugmentedQuery<ApiType, () => Observable<Option<FrameSystemPhase>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Total extrinsics count for the current block.
**/
extrinsicCount: AugmentedQuery<ApiType, () => Observable<Option<u32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Extrinsics data for the current block (maps an extrinsic's index to its data).
**/
extrinsicData: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Bytes>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Whether all inherents have been applied.
**/
inherentsApplied: AugmentedQuery<ApiType, () => Observable<bool>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Stores the `spec_version` and `spec_name` of when the last runtime upgrade happened.
**/
lastRuntimeUpgrade: AugmentedQuery<ApiType, () => Observable<Option<FrameSystemLastRuntimeUpgradeInfo>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The current block number being processed. Set by `execute_block`.
**/
number: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Hash of the previous block.
**/
parentHash: AugmentedQuery<ApiType, () => Observable<H256>, []> & QueryableStorageEntry<ApiType, []>;
/**
* True if we have upgraded so that AccountInfo contains three types of `RefCount`. False
* (default) if not.
**/
upgradedToTripleRefCount: AugmentedQuery<ApiType, () => Observable<bool>, []> & QueryableStorageEntry<ApiType, []>;
/**
* True if we have upgraded so that `type RefCount` is `u32`. False (default) if not.
**/
upgradedToU32RefCount: AugmentedQuery<ApiType, () => Observable<bool>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
timestamp: {
/**
* Whether the timestamp has been updated in this block.
*
* This value is updated to `true` upon successful submission of a timestamp by a node.
* It is then checked at the end of each block execution in the `on_finalize` hook.
**/
didUpdate: AugmentedQuery<ApiType, () => Observable<bool>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The current time for the current block.
**/
now: AugmentedQuery<ApiType, () => Observable<u64>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
transactionPayment: {
nextFeeMultiplier: AugmentedQuery<ApiType, () => Observable<u128>, []> & QueryableStorageEntry<ApiType, []>;
storageVersion: AugmentedQuery<ApiType, () => Observable<PalletTransactionPaymentReleases>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
treasury: {
/**
* Proposal indices that have been approved but not yet awarded.
**/
approvals: AugmentedQuery<ApiType, () => Observable<Vec<u32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The amount which has been reported as inactive to Currency.
**/
deactivated: AugmentedQuery<ApiType, () => Observable<u128>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Number of proposals that have been made.
**/
proposalCount: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Proposals that have been made.
**/
proposals: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<PalletTreasuryProposal>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* The count of spends that have been made.
**/
spendCount: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Spends that have been approved and being processed.
**/
spends: AugmentedQuery<ApiType, (arg: u32 | AnyNumber | Uint8Array) => Observable<Option<PalletTreasurySpendStatus>>, [u32]> & QueryableStorageEntry<ApiType, [u32]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
vesting: {
/**
* Storage version of the pallet.
*
* New networks start with latest version, as determined by the genesis build.
**/
storageVersion: AugmentedQuery<ApiType, () => Observable<PalletVestingReleases>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Information regarding the vesting of a given account.
**/
vesting: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Option<Vec<PalletVestingVestingInfo>>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
voterList: {
/**
* Counter for the related counted storage map
**/
counterForListNodes: AugmentedQuery<ApiType, () => Observable<u32>, []> & QueryableStorageEntry<ApiType, []>;
/**
* A bag stored in storage.
*
* Stores a `Bag` struct, which stores head and tail pointers to itself.
**/
listBags: AugmentedQuery<ApiType, (arg: u64 | AnyNumber | Uint8Array) => Observable<Option<PalletBagsListListBag>>, [u64]> & QueryableStorageEntry<ApiType, [u64]>;
/**
* A single node, within some bag.
*
* Nodes store links forward and back within their respective bags.
**/
listNodes: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Option<PalletBagsListListNode>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
whitelist: {
whitelistedCall: AugmentedQuery<ApiType, (arg: H256 | string | Uint8Array) => Observable<Option<Null>>, [H256]> & QueryableStorageEntry<ApiType, [H256]>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
xcmPallet: {
/**
* The existing asset traps.
*
* Key is the blake2 256 hash of (origin, versioned `Assets`) pair. Value is the number of
* times this pair has been trapped (usually just 1 if it exists at all).
**/
assetTraps: AugmentedQuery<ApiType, (arg: H256 | string | Uint8Array) => Observable<u32>, [H256]> & QueryableStorageEntry<ApiType, [H256]>;
/**
* The current migration's stage, if any.
**/
currentMigration: AugmentedQuery<ApiType, () => Observable<Option<PalletXcmVersionMigrationStage>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Fungible assets which we know are locked on this chain.
**/
lockedFungibles: AugmentedQuery<ApiType, (arg: AccountId32 | string | Uint8Array) => Observable<Option<Vec<ITuple<[u128, XcmVersionedLocation]>>>>, [AccountId32]> & QueryableStorageEntry<ApiType, [AccountId32]>;
/**
* The ongoing queries.
**/
queries: AugmentedQuery<ApiType, (arg: u64 | AnyNumber | Uint8Array) => Observable<Option<PalletXcmQueryStatus>>, [u64]> & QueryableStorageEntry<ApiType, [u64]>;
/**
* The latest available query index.
**/
queryCounter: AugmentedQuery<ApiType, () => Observable<u64>, []> & QueryableStorageEntry<ApiType, []>;
/**
* If [`ShouldRecordXcm`] is set to true, then the last XCM program executed locally
* will be stored here.
* Runtime APIs can fetch the XCM that was executed by accessing this value.
*
* Only relevant if this pallet is being used as the [`xcm_executor::traits::RecordXcm`]
* implementation in the XCM executor configuration.
**/
recordedXcm: AugmentedQuery<ApiType, () => Observable<Option<Vec<StagingXcmV4Instruction>>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Fungible assets which we know are locked on a remote chain.
**/
remoteLockedFungibles: AugmentedQuery<ApiType, (arg1: u32 | AnyNumber | Uint8Array, arg2: AccountId32 | string | Uint8Array, arg3: XcmVersionedAssetId | {
V3: any;
} | {
V4: any;
} | string | Uint8Array) => Observable<Option<PalletXcmRemoteLockedFungibleRecord>>, [u32, AccountId32, XcmVersionedAssetId]> & QueryableStorageEntry<ApiType, [u32, AccountId32, XcmVersionedAssetId]>;
/**
* Default version to encode XCM when latest version of destination is unknown. If `None`,
* then the destinations whose XCM version is unknown are considered unreachable.
**/
safeXcmVersion: AugmentedQuery<ApiType, () => Observable<Option<u32>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Whether or not incoming XCMs (both executed locally and received) should be recorded.
* Only one XCM program will be recorded at a time.
* This is meant to be used in runtime APIs, and it's advised it stays false
* for all other use cases, so as to not degrade regular performance.
*
* Only relevant if this pallet is being used as the [`xcm_executor::traits::RecordXcm`]
* implementation in the XCM executor configuration.
**/
shouldRecordXcm: AugmentedQuery<ApiType, () => Observable<bool>, []> & QueryableStorageEntry<ApiType, []>;
/**
* The Latest versions that we know various locations support.
**/
supportedVersion: AugmentedQuery<ApiType, (arg1: u32 | AnyNumber | Uint8Array, arg2: XcmVersionedLocation | {
V2: any;
} | {
V3: any;
} | {
V4: any;
} | string | Uint8Array) => Observable<Option<u32>>, [u32, XcmVersionedLocation]> & QueryableStorageEntry<ApiType, [u32, XcmVersionedLocation]>;
/**
* Destinations whose latest XCM version we would like to know. Duplicates not allowed, and
* the `u32` counter is the number of times that a send to the destination has been attempted,
* which is used as a prioritization.
**/
versionDiscoveryQueue: AugmentedQuery<ApiType, () => Observable<Vec<ITuple<[XcmVersionedLocation, u32]>>>, []> & QueryableStorageEntry<ApiType, []>;
/**
* All locations that we have requested version notifications from.
**/
versionNotifiers: AugmentedQuery<ApiType, (arg1: u32 | AnyNumber | Uint8Array, arg2: XcmVersionedLocation | {
V2: any;
} | {
V3: any;
} | {
V4: any;
} | string | Uint8Array) => Observable<Option<u64>>, [u32, XcmVersionedLocation]> & QueryableStorageEntry<ApiType, [u32, XcmVersionedLocation]>;
/**
* The target locations that are subscribed to our version changes, as well as the most recent
* of our versions we informed them of.
**/
versionNotifyTargets: AugmentedQuery<ApiType, (arg1: u32 | AnyNumber | Uint8Array, arg2: XcmVersionedLocation | {
V2: any;
} | {
V3: any;
} | {
V4: any;
} | string | Uint8Array) => Observable<Option<ITuple<[u64, SpWeightsWeightV2Weight, u32]>>>, [u32, XcmVersionedLocation]> & QueryableStorageEntry<ApiType, [u32, XcmVersionedLocation]>;
/**
* Global suspension state of the XCM executor.
**/
xcmExecutionSuspended: AugmentedQuery<ApiType, () => Observable<bool>, []> & QueryableStorageEntry<ApiType, []>;
/**
* Generic query
**/
[key: string]: QueryableStorageEntry<ApiType>;
};
}
}
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