packages/api-augment/src/polkadot/consts.ts
// Auto-generated via `yarn polkadot-types-from-chain`, do not edit
/* eslint-disable */
// import type lookup before we augment - in some environments
// this is required to allow for ambient/previous definitions
import '@polkadot/api-base/types/consts';
import type { ApiTypes, AugmentedConst } from '@polkadot/api-base/types';
import type { Bytes, Option, Vec, u128, u16, u32, u64, u8 } from '@polkadot/types-codec';
import type { Codec, ITuple } from '@polkadot/types-codec/types';
import type { Perbill, Permill } from '@polkadot/types/interfaces/runtime';
import type { FrameSupportPalletId, FrameSystemLimitsBlockLength, FrameSystemLimitsBlockWeights, PalletReferendaTrackInfo, SpVersionRuntimeVersion, SpWeightsRuntimeDbWeight, SpWeightsWeightV2Weight } from '@polkadot/types/lookup';
export type __AugmentedConst<ApiType extends ApiTypes> = AugmentedConst<ApiType>;
declare module '@polkadot/api-base/types/consts' {
interface AugmentedConsts<ApiType extends ApiTypes> {
auctions: {
/**
* The number of blocks over which an auction may be retroactively ended.
**/
endingPeriod: u32 & AugmentedConst<ApiType>;
leasePeriodsPerSlot: u32 & AugmentedConst<ApiType>;
/**
* The length of each sample to take during the ending period.
*
* `EndingPeriod` / `SampleLength` = Total # of Samples
**/
sampleLength: u32 & AugmentedConst<ApiType>;
slotRangeCount: u32 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
babe: {
/**
* The amount of time, in slots, that each epoch should last.
* NOTE: Currently it is not possible to change the epoch duration after
* the chain has started. Attempting to do so will brick block production.
**/
epochDuration: u64 & AugmentedConst<ApiType>;
/**
* The expected average block time at which BABE should be creating
* blocks. Since BABE is probabilistic it is not trivial to figure out
* what the expected average block time should be based on the slot
* duration and the security parameter `c` (where `1 - c` represents
* the probability of a slot being empty).
**/
expectedBlockTime: u64 & AugmentedConst<ApiType>;
/**
* Max number of authorities allowed
**/
maxAuthorities: u32 & AugmentedConst<ApiType>;
/**
* The maximum number of nominators for each validator.
**/
maxNominators: u32 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
balances: {
/**
* The minimum amount required to keep an account open. MUST BE GREATER THAN ZERO!
*
* If you *really* need it to be zero, you can enable the feature `insecure_zero_ed` for
* this pallet. However, you do so at your own risk: this will open up a major DoS vector.
* In case you have multiple sources of provider references, you may also get unexpected
* behaviour if you set this to zero.
*
* Bottom line: Do yourself a favour and make it at least one!
**/
existentialDeposit: u128 & AugmentedConst<ApiType>;
/**
* The maximum number of individual freeze locks that can exist on an account at any time.
**/
maxFreezes: u32 & AugmentedConst<ApiType>;
/**
* The maximum number of locks that should exist on an account.
* Not strictly enforced, but used for weight estimation.
**/
maxLocks: u32 & AugmentedConst<ApiType>;
/**
* The maximum number of named reserves that can exist on an account.
**/
maxReserves: u32 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
beefy: {
/**
* The maximum number of authorities that can be added.
**/
maxAuthorities: u32 & AugmentedConst<ApiType>;
/**
* The maximum number of nominators for each validator.
**/
maxNominators: u32 & AugmentedConst<ApiType>;
/**
* The maximum number of entries to keep in the set id to session index mapping.
*
* Since the `SetIdSession` map is only used for validating equivocations this
* value should relate to the bonding duration of whatever staking system is
* being used (if any). If equivocation handling is not enabled then this value
* can be zero.
**/
maxSetIdSessionEntries: u64 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
bounties: {
/**
* The amount held on deposit for placing a bounty proposal.
**/
bountyDepositBase: u128 & AugmentedConst<ApiType>;
/**
* The delay period for which a bounty beneficiary need to wait before claim the payout.
**/
bountyDepositPayoutDelay: u32 & AugmentedConst<ApiType>;
/**
* Bounty duration in blocks.
**/
bountyUpdatePeriod: u32 & AugmentedConst<ApiType>;
/**
* Minimum value for a bounty.
**/
bountyValueMinimum: u128 & AugmentedConst<ApiType>;
/**
* Maximum amount of funds that should be placed in a deposit for making a proposal.
**/
curatorDepositMax: Option<u128> & AugmentedConst<ApiType>;
/**
* Minimum amount of funds that should be placed in a deposit for making a proposal.
**/
curatorDepositMin: Option<u128> & AugmentedConst<ApiType>;
/**
* The curator deposit is calculated as a percentage of the curator fee.
*
* This deposit has optional upper and lower bounds with `CuratorDepositMax` and
* `CuratorDepositMin`.
**/
curatorDepositMultiplier: Permill & AugmentedConst<ApiType>;
/**
* The amount held on deposit per byte within the tip report reason or bounty description.
**/
dataDepositPerByte: u128 & AugmentedConst<ApiType>;
/**
* Maximum acceptable reason length.
*
* Benchmarks depend on this value, be sure to update weights file when changing this value
**/
maximumReasonLength: u32 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
childBounties: {
/**
* Minimum value for a child-bounty.
**/
childBountyValueMinimum: u128 & AugmentedConst<ApiType>;
/**
* Maximum number of child bounties that can be added to a parent bounty.
**/
maxActiveChildBountyCount: u32 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
claims: {
prefix: Bytes & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
convictionVoting: {
/**
* The maximum number of concurrent votes an account may have.
*
* Also used to compute weight, an overly large value can lead to extrinsics with large
* weight estimation: see `delegate` for instance.
**/
maxVotes: u32 & AugmentedConst<ApiType>;
/**
* The minimum period of vote locking.
*
* It should be no shorter than enactment period to ensure that in the case of an approval,
* those successful voters are locked into the consequences that their votes entail.
**/
voteLockingPeriod: u32 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
crowdloan: {
/**
* The minimum amount that may be contributed into a crowdloan. Should almost certainly be
* at least `ExistentialDeposit`.
**/
minContribution: u128 & AugmentedConst<ApiType>;
/**
* `PalletId` for the crowdloan pallet. An appropriate value could be
* `PalletId(*b"py/cfund")`
**/
palletId: FrameSupportPalletId & AugmentedConst<ApiType>;
/**
* Max number of storage keys to remove per extrinsic call.
**/
removeKeysLimit: u32 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
electionProviderMultiPhase: {
/**
* The minimum amount of improvement to the solution score that defines a solution as
* "better" in the Signed phase.
**/
betterSignedThreshold: Perbill & AugmentedConst<ApiType>;
/**
* The maximum number of winners that can be elected by this `ElectionProvider`
* implementation.
*
* Note: This must always be greater or equal to `T::DataProvider::desired_targets()`.
**/
maxWinners: u32 & AugmentedConst<ApiType>;
minerMaxLength: u32 & AugmentedConst<ApiType>;
minerMaxVotesPerVoter: u32 & AugmentedConst<ApiType>;
minerMaxWeight: SpWeightsWeightV2Weight & AugmentedConst<ApiType>;
minerMaxWinners: u32 & AugmentedConst<ApiType>;
/**
* The priority of the unsigned transaction submitted in the unsigned-phase
**/
minerTxPriority: u64 & AugmentedConst<ApiType>;
/**
* The repeat threshold of the offchain worker.
*
* For example, if it is 5, that means that at least 5 blocks will elapse between attempts
* to submit the worker's solution.
**/
offchainRepeat: u32 & AugmentedConst<ApiType>;
/**
* Per-byte deposit for a signed solution.
**/
signedDepositByte: u128 & AugmentedConst<ApiType>;
/**
* Per-weight deposit for a signed solution.
**/
signedDepositWeight: u128 & AugmentedConst<ApiType>;
/**
* The maximum amount of unchecked solutions to refund the call fee for.
**/
signedMaxRefunds: u32 & AugmentedConst<ApiType>;
/**
* Maximum number of signed submissions that can be queued.
*
* It is best to avoid adjusting this during an election, as it impacts downstream data
* structures. In particular, `SignedSubmissionIndices<T>` is bounded on this value. If you
* update this value during an election, you _must_ ensure that
* `SignedSubmissionIndices.len()` is less than or equal to the new value. Otherwise,
* attempts to submit new solutions may cause a runtime panic.
**/
signedMaxSubmissions: u32 & AugmentedConst<ApiType>;
/**
* Maximum weight of a signed solution.
*
* If [`Config::MinerConfig`] is being implemented to submit signed solutions (outside of
* this pallet), then [`MinerConfig::solution_weight`] is used to compare against
* this value.
**/
signedMaxWeight: SpWeightsWeightV2Weight & AugmentedConst<ApiType>;
/**
* Duration of the signed phase.
**/
signedPhase: u32 & AugmentedConst<ApiType>;
/**
* Base reward for a signed solution
**/
signedRewardBase: u128 & AugmentedConst<ApiType>;
/**
* Duration of the unsigned phase.
**/
unsignedPhase: u32 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
fastUnstake: {
/**
* Deposit to take for unstaking, to make sure we're able to slash the it in order to cover
* the costs of resources on unsuccessful unstake.
**/
deposit: u128 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
grandpa: {
/**
* Max Authorities in use
**/
maxAuthorities: u32 & AugmentedConst<ApiType>;
/**
* The maximum number of nominators for each validator.
**/
maxNominators: u32 & AugmentedConst<ApiType>;
/**
* The maximum number of entries to keep in the set id to session index mapping.
*
* Since the `SetIdSession` map is only used for validating equivocations this
* value should relate to the bonding duration of whatever staking system is
* being used (if any). If equivocation handling is not enabled then this value
* can be zero.
**/
maxSetIdSessionEntries: u64 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
identity: {
/**
* The amount held on deposit for a registered identity.
**/
basicDeposit: u128 & AugmentedConst<ApiType>;
/**
* The amount held on deposit per encoded byte for a registered identity.
**/
byteDeposit: u128 & AugmentedConst<ApiType>;
/**
* Maxmimum number of registrars allowed in the system. Needed to bound the complexity
* of, e.g., updating judgements.
**/
maxRegistrars: u32 & AugmentedConst<ApiType>;
/**
* The maximum number of sub-accounts allowed per identified account.
**/
maxSubAccounts: u32 & AugmentedConst<ApiType>;
/**
* The maximum length of a suffix.
**/
maxSuffixLength: u32 & AugmentedConst<ApiType>;
/**
* The maximum length of a username, including its suffix and any system-added delimiters.
**/
maxUsernameLength: u32 & AugmentedConst<ApiType>;
/**
* The number of blocks within which a username grant must be accepted.
**/
pendingUsernameExpiration: u32 & AugmentedConst<ApiType>;
/**
* The amount held on deposit for a registered subaccount. This should account for the fact
* that one storage item's value will increase by the size of an account ID, and there will
* be another trie item whose value is the size of an account ID plus 32 bytes.
**/
subAccountDeposit: u128 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
indices: {
/**
* The deposit needed for reserving an index.
**/
deposit: u128 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
messageQueue: {
/**
* The size of the page; this implies the maximum message size which can be sent.
*
* A good value depends on the expected message sizes, their weights, the weight that is
* available for processing them and the maximal needed message size. The maximal message
* size is slightly lower than this as defined by [`MaxMessageLenOf`].
**/
heapSize: u32 & AugmentedConst<ApiType>;
/**
* The maximum number of stale pages (i.e. of overweight messages) allowed before culling
* can happen. Once there are more stale pages than this, then historical pages may be
* dropped, even if they contain unprocessed overweight messages.
**/
maxStale: u32 & AugmentedConst<ApiType>;
/**
* The amount of weight (if any) which should be provided to the message queue for
* servicing enqueued items.
*
* This may be legitimately `None` in the case that you will call
* `ServiceQueues::service_queues` manually.
**/
serviceWeight: Option<SpWeightsWeightV2Weight> & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
multisig: {
/**
* The base amount of currency needed to reserve for creating a multisig execution or to
* store a dispatch call for later.
*
* This is held for an additional storage item whose value size is
* `4 + sizeof((BlockNumber, Balance, AccountId))` bytes and whose key size is
* `32 + sizeof(AccountId)` bytes.
**/
depositBase: u128 & AugmentedConst<ApiType>;
/**
* The amount of currency needed per unit threshold when creating a multisig execution.
*
* This is held for adding 32 bytes more into a pre-existing storage value.
**/
depositFactor: u128 & AugmentedConst<ApiType>;
/**
* The maximum amount of signatories allowed in the multisig.
**/
maxSignatories: u32 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
nominationPools: {
/**
* The maximum pool points-to-balance ratio that an `open` pool can have.
*
* This is important in the event slashing takes place and the pool's points-to-balance
* ratio becomes disproportional.
*
* Moreover, this relates to the `RewardCounter` type as well, as the arithmetic operations
* are a function of number of points, and by setting this value to e.g. 10, you ensure
* that the total number of points in the system are at most 10 times the total_issuance of
* the chain, in the absolute worse case.
*
* For a value of 10, the threshold would be a pool points-to-balance ratio of 10:1.
* Such a scenario would also be the equivalent of the pool being 90% slashed.
**/
maxPointsToBalance: u8 & AugmentedConst<ApiType>;
/**
* The maximum number of simultaneous unbonding chunks that can exist per member.
**/
maxUnbonding: u32 & AugmentedConst<ApiType>;
/**
* The nomination pool's pallet id.
**/
palletId: FrameSupportPalletId & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
paras: {
unsignedPriority: u64 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
proxy: {
/**
* The base amount of currency needed to reserve for creating an announcement.
*
* This is held when a new storage item holding a `Balance` is created (typically 16
* bytes).
**/
announcementDepositBase: u128 & AugmentedConst<ApiType>;
/**
* The amount of currency needed per announcement made.
*
* This is held for adding an `AccountId`, `Hash` and `BlockNumber` (typically 68 bytes)
* into a pre-existing storage value.
**/
announcementDepositFactor: u128 & AugmentedConst<ApiType>;
/**
* The maximum amount of time-delayed announcements that are allowed to be pending.
**/
maxPending: u32 & AugmentedConst<ApiType>;
/**
* The maximum amount of proxies allowed for a single account.
**/
maxProxies: u32 & AugmentedConst<ApiType>;
/**
* The base amount of currency needed to reserve for creating a proxy.
*
* This is held for an additional storage item whose value size is
* `sizeof(Balance)` bytes and whose key size is `sizeof(AccountId)` bytes.
**/
proxyDepositBase: u128 & AugmentedConst<ApiType>;
/**
* The amount of currency needed per proxy added.
*
* This is held for adding 32 bytes plus an instance of `ProxyType` more into a
* pre-existing storage value. Thus, when configuring `ProxyDepositFactor` one should take
* into account `32 + proxy_type.encode().len()` bytes of data.
**/
proxyDepositFactor: u128 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
referenda: {
/**
* Quantization level for the referendum wakeup scheduler. A higher number will result in
* fewer storage reads/writes needed for smaller voters, but also result in delays to the
* automatic referendum status changes. Explicit servicing instructions are unaffected.
**/
alarmInterval: u32 & AugmentedConst<ApiType>;
/**
* Maximum size of the referendum queue for a single track.
**/
maxQueued: u32 & AugmentedConst<ApiType>;
/**
* The minimum amount to be used as a deposit for a public referendum proposal.
**/
submissionDeposit: u128 & AugmentedConst<ApiType>;
/**
* Information concerning the different referendum tracks.
**/
tracks: Vec<ITuple<[u16, PalletReferendaTrackInfo]>> & AugmentedConst<ApiType>;
/**
* The number of blocks after submission that a referendum must begin being decided by.
* Once this passes, then anyone may cancel the referendum.
**/
undecidingTimeout: u32 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
registrar: {
/**
* The deposit to be paid per byte stored on chain.
**/
dataDepositPerByte: u128 & AugmentedConst<ApiType>;
/**
* The deposit to be paid to run a on-demand parachain.
* This should include the cost for storing the genesis head and validation code.
**/
paraDeposit: u128 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
scheduler: {
/**
* The maximum weight that may be scheduled per block for any dispatchables.
**/
maximumWeight: SpWeightsWeightV2Weight & AugmentedConst<ApiType>;
/**
* The maximum number of scheduled calls in the queue for a single block.
*
* NOTE:
* + Dependent pallets' benchmarks might require a higher limit for the setting. Set a
* higher limit under `runtime-benchmarks` feature.
**/
maxScheduledPerBlock: u32 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
slots: {
/**
* The number of blocks to offset each lease period by.
**/
leaseOffset: u32 & AugmentedConst<ApiType>;
/**
* The number of blocks over which a single period lasts.
**/
leasePeriod: u32 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
staking: {
/**
* Number of eras that staked funds must remain bonded for.
**/
bondingDuration: u32 & AugmentedConst<ApiType>;
/**
* Number of eras to keep in history.
*
* Following information is kept for eras in `[current_era -
* HistoryDepth, current_era]`: `ErasStakers`, `ErasStakersClipped`,
* `ErasValidatorPrefs`, `ErasValidatorReward`, `ErasRewardPoints`,
* `ErasTotalStake`, `ErasStartSessionIndex`, `ClaimedRewards`, `ErasStakersPaged`,
* `ErasStakersOverview`.
*
* Must be more than the number of eras delayed by session.
* I.e. active era must always be in history. I.e. `active_era >
* current_era - history_depth` must be guaranteed.
*
* If migrating an existing pallet from storage value to config value,
* this should be set to same value or greater as in storage.
*
* Note: `HistoryDepth` is used as the upper bound for the `BoundedVec`
* item `StakingLedger.legacy_claimed_rewards`. Setting this value lower than
* the existing value can lead to inconsistencies in the
* `StakingLedger` and will need to be handled properly in a migration.
* The test `reducing_history_depth_abrupt` shows this effect.
**/
historyDepth: u32 & AugmentedConst<ApiType>;
/**
* The maximum size of each `T::ExposurePage`.
*
* An `ExposurePage` is weakly bounded to a maximum of `MaxExposurePageSize`
* nominators.
*
* For older non-paged exposure, a reward payout was restricted to the top
* `MaxExposurePageSize` nominators. This is to limit the i/o cost for the
* nominator payout.
*
* Note: `MaxExposurePageSize` is used to bound `ClaimedRewards` and is unsafe to reduce
* without handling it in a migration.
**/
maxExposurePageSize: u32 & AugmentedConst<ApiType>;
/**
* The maximum number of `unlocking` chunks a [`StakingLedger`] can
* have. Effectively determines how many unique eras a staker may be
* unbonding in.
*
* Note: `MaxUnlockingChunks` is used as the upper bound for the
* `BoundedVec` item `StakingLedger.unlocking`. Setting this value
* lower than the existing value can lead to inconsistencies in the
* `StakingLedger` and will need to be handled properly in a runtime
* migration. The test `reducing_max_unlocking_chunks_abrupt` shows
* this effect.
**/
maxUnlockingChunks: u32 & AugmentedConst<ApiType>;
/**
* Number of sessions per era.
**/
sessionsPerEra: u32 & AugmentedConst<ApiType>;
/**
* Number of eras that slashes are deferred by, after computation.
*
* This should be less than the bonding duration. Set to 0 if slashes
* should be applied immediately, without opportunity for intervention.
**/
slashDeferDuration: u32 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
system: {
/**
* Maximum number of block number to block hash mappings to keep (oldest pruned first).
**/
blockHashCount: u32 & AugmentedConst<ApiType>;
/**
* The maximum length of a block (in bytes).
**/
blockLength: FrameSystemLimitsBlockLength & AugmentedConst<ApiType>;
/**
* Block & extrinsics weights: base values and limits.
**/
blockWeights: FrameSystemLimitsBlockWeights & AugmentedConst<ApiType>;
/**
* The weight of runtime database operations the runtime can invoke.
**/
dbWeight: SpWeightsRuntimeDbWeight & AugmentedConst<ApiType>;
/**
* The designated SS58 prefix of this chain.
*
* This replaces the "ss58Format" property declared in the chain spec. Reason is
* that the runtime should know about the prefix in order to make use of it as
* an identifier of the chain.
**/
ss58Prefix: u16 & AugmentedConst<ApiType>;
/**
* Get the chain's current version.
**/
version: SpVersionRuntimeVersion & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
timestamp: {
/**
* The minimum period between blocks.
*
* Be aware that this is different to the *expected* period that the block production
* apparatus provides. Your chosen consensus system will generally work with this to
* determine a sensible block time. For example, in the Aura pallet it will be double this
* period on default settings.
**/
minimumPeriod: u64 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
transactionPayment: {
/**
* A fee multiplier for `Operational` extrinsics to compute "virtual tip" to boost their
* `priority`
*
* This value is multiplied by the `final_fee` to obtain a "virtual tip" that is later
* added to a tip component in regular `priority` calculations.
* It means that a `Normal` transaction can front-run a similarly-sized `Operational`
* extrinsic (with no tip), by including a tip value greater than the virtual tip.
*
* ```rust,ignore
* // For `Normal`
* let priority = priority_calc(tip);
*
* // For `Operational`
* let virtual_tip = (inclusion_fee + tip) * OperationalFeeMultiplier;
* let priority = priority_calc(tip + virtual_tip);
* ```
*
* Note that since we use `final_fee` the multiplier applies also to the regular `tip`
* sent with the transaction. So, not only does the transaction get a priority bump based
* on the `inclusion_fee`, but we also amplify the impact of tips applied to `Operational`
* transactions.
**/
operationalFeeMultiplier: u8 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
treasury: {
/**
* Percentage of spare funds (if any) that are burnt per spend period.
**/
burn: Permill & AugmentedConst<ApiType>;
/**
* The maximum number of approvals that can wait in the spending queue.
*
* NOTE: This parameter is also used within the Bounties Pallet extension if enabled.
**/
maxApprovals: u32 & AugmentedConst<ApiType>;
/**
* The treasury's pallet id, used for deriving its sovereign account ID.
**/
palletId: FrameSupportPalletId & AugmentedConst<ApiType>;
/**
* The period during which an approved treasury spend has to be claimed.
**/
payoutPeriod: u32 & AugmentedConst<ApiType>;
/**
* Fraction of a proposal's value that should be bonded in order to place the proposal.
* An accepted proposal gets these back. A rejected proposal does not.
**/
proposalBond: Permill & AugmentedConst<ApiType>;
/**
* Maximum amount of funds that should be placed in a deposit for making a proposal.
**/
proposalBondMaximum: Option<u128> & AugmentedConst<ApiType>;
/**
* Minimum amount of funds that should be placed in a deposit for making a proposal.
**/
proposalBondMinimum: u128 & AugmentedConst<ApiType>;
/**
* Period between successive spends.
**/
spendPeriod: u32 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
utility: {
/**
* The limit on the number of batched calls.
**/
batchedCallsLimit: u32 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
vesting: {
maxVestingSchedules: u32 & AugmentedConst<ApiType>;
/**
* The minimum amount transferred to call `vested_transfer`.
**/
minVestedTransfer: u128 & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
voterList: {
/**
* The list of thresholds separating the various bags.
*
* Ids are separated into unsorted bags according to their score. This specifies the
* thresholds separating the bags. An id's bag is the largest bag for which the id's score
* is less than or equal to its upper threshold.
*
* When ids are iterated, higher bags are iterated completely before lower bags. This means
* that iteration is _semi-sorted_: ids of higher score tend to come before ids of lower
* score, but peer ids within a particular bag are sorted in insertion order.
*
* # Expressing the constant
*
* This constant must be sorted in strictly increasing order. Duplicate items are not
* permitted.
*
* There is an implied upper limit of `Score::MAX`; that value does not need to be
* specified within the bag. For any two threshold lists, if one ends with
* `Score::MAX`, the other one does not, and they are otherwise equal, the two
* lists will behave identically.
*
* # Calculation
*
* It is recommended to generate the set of thresholds in a geometric series, such that
* there exists some constant ratio such that `threshold[k + 1] == (threshold[k] *
* constant_ratio).max(threshold[k] + 1)` for all `k`.
*
* The helpers in the `/utils/frame/generate-bags` module can simplify this calculation.
*
* # Examples
*
* - If `BagThresholds::get().is_empty()`, then all ids are put into the same bag, and
* iteration is strictly in insertion order.
* - If `BagThresholds::get().len() == 64`, and the thresholds are determined according to
* the procedure given above, then the constant ratio is equal to 2.
* - If `BagThresholds::get().len() == 200`, and the thresholds are determined according to
* the procedure given above, then the constant ratio is approximately equal to 1.248.
* - If the threshold list begins `[1, 2, 3, ...]`, then an id with score 0 or 1 will fall
* into bag 0, an id with score 2 will fall into bag 1, etc.
*
* # Migration
*
* In the event that this list ever changes, a copy of the old bags list must be retained.
* With that `List::migrate` can be called, which will perform the appropriate migration.
**/
bagThresholds: Vec<u64> & AugmentedConst<ApiType>;
/**
* Generic const
**/
[key: string]: Codec;
};
} // AugmentedConsts
} // declare module