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// This file is part of Substrate.
// Copyright (C) 2017-2021 Parity Technologies (UK) Ltd.
// SPDX-License-Identifier: Apache-2.0
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//! # Balances Pallet
//! The Balances pallet provides functionality for handling accounts and balances.
//! - [`Config`]
//! - [`Call`]
//! - [`Pallet`]
//! The Balances pallet provides functions for:
//! - Getting and setting free balances.
//! - Retrieving total, reserved and unreserved balances.
//! - Repatriating a reserved balance to a beneficiary account that exists.
//! - Transferring a balance between accounts (when not reserved).
//! - Slashing an account balance.
//! - Account creation and removal.
//! - Managing total issuance.
//! - Setting and managing locks.
//!
//! ### Terminology
//!
//! - **Existential Deposit:** The minimum balance required to create or keep an account open. This prevents
//! "dust accounts" from filling storage. When the free plus the reserved balance (i.e. the total balance)
//! fall below this, then the account is said to be dead; and it loses its functionality as well as any
//! prior history and all information on it is removed from the chain's state.
//! No account should ever have a total balance that is strictly between 0 and the existential
//! deposit (exclusive). If this ever happens, it indicates either a bug in this pallet or an
//! erroneous raw mutation of storage.
//!
//! - **Total Issuance:** The total number of units in existence in a system.
//!
//! - **Reaping an account:** The act of removing an account by resetting its nonce. Happens after its
//! total balance has become zero (or, strictly speaking, less than the Existential Deposit).
//!
//! - **Free Balance:** The portion of a balance that is not reserved. The free balance is the only
//! balance that matters for most operations.
//!
//! - **Reserved Balance:** Reserved balance still belongs to the account holder, but is suspended.
//! Reserved balance can still be slashed, but only after all the free balance has been slashed.
//!
//! - **Imbalance:** A condition when some funds were credited or debited without equal and opposite accounting
//! (i.e. a difference between total issuance and account balances). Functions that result in an imbalance will
//! return an object of the `Imbalance` trait that can be managed within your runtime logic. (If an imbalance is
//! simply dropped, it should automatically maintain any book-keeping such as total issuance.)
//! - **Lock:** A freeze on a specified amount of an account's free balance until a specified block number. Multiple
//! locks always operate over the same funds, so they "overlay" rather than "stack".
//!
//! ### Implementations
//!
//! The Balances pallet provides implementations for the following traits. If these traits provide the functionality
//! that you need, then you can avoid coupling with the Balances pallet.
//! - [`Currency`](frame_support::traits::Currency): Functions for dealing with a
//! - [`ReservableCurrency`](frame_support::traits::ReservableCurrency):
//! Functions for dealing with assets that can be reserved from an account.
//! - [`LockableCurrency`](frame_support::traits::LockableCurrency): Functions for
//! dealing with accounts that allow liquidity restrictions.
//! - [`Imbalance`](frame_support::traits::Imbalance): Functions for handling
//! imbalances between total issuance in the system and account balances. Must be used when a function
//! creates new funds (e.g. a reward) or destroys some funds (e.g. a system fee).
//!
//! ## Interface
//!
//! ### Dispatchable Functions
//!
//! - `transfer` - Transfer some liquid free balance to another account.
//! - `set_balance` - Set the balances of a given account. The origin of this call must be root.
//!
//! The following examples show how to use the Balances pallet in your custom pallet.
//! ### Examples from the FRAME
//! The Contract pallet uses the `Currency` trait to handle gas payment, and its types inherit from `Currency`:
//! use frame_support::traits::Currency;
//! # pub trait Config: frame_system::Config {
//! # type Currency: Currency<Self::AccountId>;
//! # }
//! pub type BalanceOf<T> = <<T as Config>::Currency as Currency<<T as frame_system::Config>::AccountId>>::Balance;
//! pub type NegativeImbalanceOf<T> = <<T as Config>::Currency as Currency<<T as frame_system::Config>::AccountId>>::NegativeImbalance;
//! The Staking pallet uses the `LockableCurrency` trait to lock a stash account's funds:
//! use frame_support::traits::{WithdrawReasons, LockableCurrency};
//! pub trait Config: frame_system::Config {
//! type Currency: LockableCurrency<Self::AccountId, Moment=Self::BlockNumber>;
//! }
//! # struct StakingLedger<T: Config> {
//! # stash: <T as frame_system::Config>::AccountId,
//! # total: <<T as Config>::Currency as frame_support::traits::Currency<<T as frame_system::Config>::AccountId>>::Balance,
//! # phantom: std::marker::PhantomData<T>,
//! # }
//! # const STAKING_ID: [u8; 8] = *b"staking ";
//! fn update_ledger<T: Config>(
//! controller: &T::AccountId,
//! ledger: &StakingLedger<T>
//! T::Currency::set_lock(
//! STAKING_ID,
//! &ledger.stash,
//! ledger.total,
//! WithdrawReasons::all()
//! );
//! // <Ledger<T>>::insert(controller, ledger); // Commented out as we don't have access to Staking's storage here.
//! ```
//!
//! ## Genesis config
//!
//! The Balances pallet depends on the [`GenesisConfig`].
//!
//! ## Assumptions
//!
//! * Total issued balanced of all accounts should be less than `Config::Balance::max_value()`.
#![cfg_attr(not(feature = "std"), no_std)]
mod tests_local;
mod tests_composite;
mod tests_reentrancy;
use sp_std::prelude::*;
use sp_std::{cmp, result, mem, fmt::Debug, ops::BitOr};
Currency, OnUnbalanced, TryDrop, StoredMap,
WithdrawReasons, LockIdentifier, LockableCurrency, ExistenceRequirement,
Imbalance, SignedImbalance, ReservableCurrency, Get, ExistenceRequirement::KeepAlive,
ExistenceRequirement::AllowDeath,
tokens::{fungible, DepositConsequence, WithdrawConsequence, BalanceStatus as Status}
#[cfg(feature = "std")]
use frame_support::traits::GenesisBuild;
RuntimeDebug, DispatchResult, DispatchError,
Zero, AtLeast32BitUnsigned, StaticLookup, CheckedAdd, CheckedSub,
MaybeSerializeDeserialize, Saturating, Bounded, StoredMapError,
use frame_system as system;
pub use self::imbalances::{PositiveImbalance, NegativeImbalance};
pub use pallet::*;
#[frame_support::pallet]
pub mod pallet {
use frame_support::pallet_prelude::*;
use frame_system::pallet_prelude::*;
use super::*;
#[pallet::config]
pub trait Config<I: 'static = ()>: frame_system::Config {
/// The balance of an account.
type Balance: Parameter + Member + AtLeast32BitUnsigned + Codec + Default + Copy +
MaybeSerializeDeserialize + Debug;
/// Handler for the unbalanced reduction when removing a dust account.
type DustRemoval: OnUnbalanced<NegativeImbalance<Self, I>>;
/// The overarching event type.
type Event: From<Event<Self, I>> + IsType<<Self as frame_system::Config>::Event>;
/// The minimum amount required to keep an account open.
#[pallet::constant]
type ExistentialDeposit: Get<Self::Balance>;
/// The means of storing the balances of an account.
type AccountStore: StoredMap<Self::AccountId, AccountData<Self::Balance>>;
/// Weight information for extrinsics in this pallet.
type WeightInfo: WeightInfo;
/// The maximum number of locks that should exist on an account.
/// Not strictly enforced, but used for weight estimation.
type MaxLocks: Get<u32>;
}
#[pallet::pallet]
#[pallet::generate_store(pub(super) trait Store)]
pub struct Pallet<T, I=()>(PhantomData<(T, I)>);
#[pallet::hooks]
impl<T: Config<I>, I: 'static> Hooks<BlockNumberFor<T>> for Pallet<T, I> {
}
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#[pallet::call]
impl<T: Config<I>, I: 'static> Pallet<T, I> {
/// Transfer some liquid free balance to another account.
///
/// `transfer` will set the `FreeBalance` of the sender and receiver.
/// It will decrease the total issuance of the system by the `TransferFee`.
/// If the sender's account is below the existential deposit as a result
/// of the transfer, the account will be reaped.
///
/// The dispatch origin for this call must be `Signed` by the transactor.
///
/// # <weight>
/// - Dependent on arguments but not critical, given proper implementations for
/// input config types. See related functions below.
/// - It contains a limited number of reads and writes internally and no complex computation.
///
/// Related functions:
///
/// - `ensure_can_withdraw` is always called internally but has a bounded complexity.
/// - Transferring balances to accounts that did not exist before will cause
/// `T::OnNewAccount::on_new_account` to be called.
/// - Removing enough funds from an account will trigger `T::DustRemoval::on_unbalanced`.
/// - `transfer_keep_alive` works the same way as `transfer`, but has an additional
/// check that the transfer will not kill the origin account.
/// ---------------------------------
/// - Base Weight: 73.64 µs, worst case scenario (account created, account removed)
/// - DB Weight: 1 Read and 1 Write to destination account
/// - Origin account is already in memory, so no DB operations for them.
/// # </weight>
#[pallet::weight(T::WeightInfo::transfer())]
pub fn transfer(
origin: OriginFor<T>,
dest: <T::Lookup as StaticLookup>::Source,
#[pallet::compact] value: T::Balance,
) -> DispatchResultWithPostInfo {
let transactor = ensure_signed(origin)?;
let dest = T::Lookup::lookup(dest)?;
<Self as Currency<_>>::transfer(&transactor, &dest, value, ExistenceRequirement::AllowDeath)?;
Ok(().into())
}
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/// Set the balances of a given account.
///
/// This will alter `FreeBalance` and `ReservedBalance` in storage. it will
/// also decrease the total issuance of the system (`TotalIssuance`).
/// If the new free or reserved balance is below the existential deposit,
/// it will reset the account nonce (`frame_system::AccountNonce`).
///
/// The dispatch origin for this call is `root`.
///
/// # <weight>
/// - Independent of the arguments.
/// - Contains a limited number of reads and writes.
/// ---------------------
/// - Base Weight:
/// - Creating: 27.56 µs
/// - Killing: 35.11 µs
/// - DB Weight: 1 Read, 1 Write to `who`
/// # </weight>
#[pallet::weight(
T::WeightInfo::set_balance_creating() // Creates a new account.
.max(T::WeightInfo::set_balance_killing()) // Kills an existing account.
)]
pub(super) fn set_balance(
origin: OriginFor<T>,
who: <T::Lookup as StaticLookup>::Source,
#[pallet::compact] new_free: T::Balance,
#[pallet::compact] new_reserved: T::Balance,
) -> DispatchResultWithPostInfo {
ensure_root(origin)?;
let who = T::Lookup::lookup(who)?;
let existential_deposit = T::ExistentialDeposit::get();
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let wipeout = new_free + new_reserved < existential_deposit;
let new_free = if wipeout { Zero::zero() } else { new_free };
let new_reserved = if wipeout { Zero::zero() } else { new_reserved };
let (free, reserved) = Self::mutate_account(&who, |account| {
if new_free > account.free {
mem::drop(PositiveImbalance::<T, I>::new(new_free - account.free));
} else if new_free < account.free {
mem::drop(NegativeImbalance::<T, I>::new(account.free - new_free));
}
if new_reserved > account.reserved {
mem::drop(PositiveImbalance::<T, I>::new(new_reserved - account.reserved));
} else if new_reserved < account.reserved {
mem::drop(NegativeImbalance::<T, I>::new(account.reserved - new_reserved));
}
account.free = new_free;
account.reserved = new_reserved;
(account.free, account.reserved)
})?;
Self::deposit_event(Event::BalanceSet(who, free, reserved));
Ok(().into())
}
/// Exactly as `transfer`, except the origin must be root and the source account may be
/// specified.
/// # <weight>
/// - Same as transfer, but additional read and write because the source account is
/// not assumed to be in the overlay.
/// # </weight>
#[pallet::weight(T::WeightInfo::force_transfer())]
pub fn force_transfer(
origin: OriginFor<T>,
source: <T::Lookup as StaticLookup>::Source,
dest: <T::Lookup as StaticLookup>::Source,
#[pallet::compact] value: T::Balance,
) -> DispatchResultWithPostInfo {
ensure_root(origin)?;
let source = T::Lookup::lookup(source)?;
let dest = T::Lookup::lookup(dest)?;
<Self as Currency<_>>::transfer(&source, &dest, value, ExistenceRequirement::AllowDeath)?;
Ok(().into())
}
/// Same as the [`transfer`] call, but with a check that the transfer will not kill the
/// origin account.
///
/// 99% of the time you want [`transfer`] instead.
///
/// [`transfer`]: struct.Pallet.html#method.transfer
/// # <weight>
/// - Cheaper than transfer because account cannot be killed.
/// - Base Weight: 51.4 µs
/// - DB Weight: 1 Read and 1 Write to dest (sender is in overlay already)
/// #</weight>
#[pallet::weight(T::WeightInfo::transfer_keep_alive())]
pub fn transfer_keep_alive(
origin: OriginFor<T>,
dest: <T::Lookup as StaticLookup>::Source,
#[pallet::compact] value: T::Balance,
) -> DispatchResultWithPostInfo {
let transactor = ensure_signed(origin)?;
let dest = T::Lookup::lookup(dest)?;
<Self as Currency<_>>::transfer(&transactor, &dest, value, KeepAlive)?;
Ok(().into())
}
}
#[pallet::event]
#[pallet::generate_deposit(pub(super) fn deposit_event)]
#[pallet::metadata(T::AccountId = "AccountId", T::Balance = "Balance")]
pub enum Event<T: Config<I>, I: 'static = ()> {
/// An account was created with some free balance. \[account, free_balance\]
Endowed(T::AccountId, T::Balance),
/// An account was removed whose balance was non-zero but below ExistentialDeposit,
/// resulting in an outright loss. \[account, balance\]
DustLost(T::AccountId, T::Balance),
Transfer(T::AccountId, T::AccountId, T::Balance),
/// A balance was set by root. \[who, free, reserved\]
BalanceSet(T::AccountId, T::Balance, T::Balance),
/// Some amount was deposited (e.g. for transaction fees). \[who, deposit\]
Deposit(T::AccountId, T::Balance),
/// Some balance was reserved (moved from free to reserved). \[who, value\]
Reserved(T::AccountId, T::Balance),
/// Some balance was unreserved (moved from reserved to free). \[who, value\]
Unreserved(T::AccountId, T::Balance),
/// Some balance was moved from the reserve of the first account to the second account.
/// Final argument indicates the destination balance type.
ReserveRepatriated(T::AccountId, T::AccountId, T::Balance, Status),
/// Old name generated by `decl_event`.
#[deprecated(note = "use `Event` instead")]
pub type RawEvent<T, I = ()> = Event<T, I>;
#[pallet::error]
pub enum Error<T, I = ()> {
/// Vesting balance too high to send value
VestingBalance,
/// Account liquidity restrictions prevent withdrawal
LiquidityRestrictions,
/// Got an overflow after adding
Overflow,
/// Balance too low to send value
InsufficientBalance,
/// Value too low to create account due to existential deposit
ExistentialDeposit,
/// Transfer/payment would kill account
KeepAlive,
/// A vesting schedule already exists for this account
ExistingVestingSchedule,
/// Beneficiary account must pre-exist
DeadAccount,
}
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/// The total units issued in the system.
#[pallet::storage]
#[pallet::getter(fn total_issuance)]
pub type TotalIssuance<T: Config<I>, I: 'static = ()> = StorageValue<_, T::Balance, ValueQuery>;
/// The balance of an account.
///
/// NOTE: This is only used in the case that this pallet is used to store balances.
#[pallet::storage]
pub type Account<T: Config<I>, I: 'static = ()> = StorageMap<
_,
Blake2_128Concat,
T::AccountId,
AccountData<T::Balance>,
ValueQuery
>;
/// Any liquidity locks on some account balances.
/// NOTE: Should only be accessed when setting, changing and freeing a lock.
#[pallet::storage]
#[pallet::getter(fn locks)]
pub type Locks<T: Config<I>, I: 'static = ()> = StorageMap<
_,
Blake2_128Concat,
T::AccountId,
Vec<BalanceLock<T::Balance>>,
ValueQuery
>;
/// Storage version of the pallet.
///
/// This is set to v2.0.0 for new networks.
#[pallet::storage]
pub(super) type StorageVersion<T: Config<I>, I: 'static = ()> = StorageValue<
_,
Releases,
ValueQuery
>;
#[pallet::genesis_config]
pub struct GenesisConfig<T: Config<I>, I: 'static = ()> {
pub balances: Vec<(T::AccountId, T::Balance)>,
}
#[cfg(feature = "std")]
impl<T: Config<I>, I: 'static> Default for GenesisConfig<T, I> {
fn default() -> Self {
Self {
balances: Default::default(),
}
}
}
#[pallet::genesis_build]
impl<T: Config<I>, I: 'static> GenesisBuild<T, I> for GenesisConfig<T, I> {
fn build(&self) {
let total = self.balances
.iter()
.fold(Zero::zero(), |acc: T::Balance, &(_, n)| acc + n);
<TotalIssuance<T, I>>::put(total);
<StorageVersion<T, I>>::put(Releases::V2_0_0);
for (_, balance) in &self.balances {
assert!(
*balance >= <T as Config<I>>::ExistentialDeposit::get(),
"the balance of any account should always be at least the existential deposit.",
)
}
// ensure no duplicates exist.
let endowed_accounts = self.balances.iter().map(|(x, _)| x).cloned().collect::<std::collections::BTreeSet<_>>();
assert!(endowed_accounts.len() == self.balances.len(), "duplicate balances in genesis.");
for &(ref who, free) in self.balances.iter() {
assert!(T::AccountStore::insert(who, AccountData { free, ..Default::default() }).is_ok());
}
}
}
}
#[cfg(feature = "std")]
impl<T: Config<I>, I: 'static> GenesisConfig<T, I> {
/// Direct implementation of `GenesisBuild::build_storage`.
///
/// Kept in order not to break dependency.
pub fn build_storage(&self) -> Result<sp_runtime::Storage, String> {
<Self as GenesisBuild<T, I>>::build_storage(self)
}
/// Direct implementation of `GenesisBuild::assimilate_storage`.
///
/// Kept in order not to break dependency.
pub fn assimilate_storage(
&self,
storage: &mut sp_runtime::Storage
) -> Result<(), String> {
<Self as GenesisBuild<T, I>>::assimilate_storage(self, storage)
}
/// Simplified reasons for withdrawing balance.
#[derive(Encode, Decode, Clone, Copy, PartialEq, Eq, RuntimeDebug)]
pub enum Reasons {
/// Paying system transaction fees.
Fee = 0,
/// Any reason other than paying system transaction fees.
Misc = 1,
/// Any reason at all.
All = 2,
impl From<WithdrawReasons> for Reasons {
fn from(r: WithdrawReasons) -> Reasons {
if r == WithdrawReasons::from(WithdrawReasons::TRANSACTION_PAYMENT) {
} else if r.contains(WithdrawReasons::TRANSACTION_PAYMENT) {
impl BitOr for Reasons {
type Output = Reasons;
fn bitor(self, other: Reasons) -> Reasons {
if self == other { return self }
Reasons::All
}
}
/// A single lock on a balance. There can be many of these on an account and they "overlap", so the
/// same balance is frozen by multiple locks.
#[derive(Encode, Decode, Clone, PartialEq, Eq, RuntimeDebug)]
pub struct BalanceLock<Balance> {
/// An identifier for this lock. Only one lock may be in existence for each identifier.
pub id: LockIdentifier,
/// The amount which the free balance may not drop below when this lock is in effect.
pub amount: Balance,
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/// If true, then the lock remains in effect even for payment of transaction fees.
pub reasons: Reasons,
}
/// All balance information for an account.
#[derive(Encode, Decode, Clone, PartialEq, Eq, Default, RuntimeDebug)]
pub struct AccountData<Balance> {
/// Non-reserved part of the balance. There may still be restrictions on this, but it is the
/// total pool what may in principle be transferred, reserved and used for tipping.
///
/// This is the only balance that matters in terms of most operations on tokens. It
/// alone is used to determine the balance when in the contract execution environment.
pub free: Balance,
/// Balance which is reserved and may not be used at all.
///
/// This can still get slashed, but gets slashed last of all.
///
/// This balance is a 'reserve' balance that other subsystems use in order to set aside tokens
/// that are still 'owned' by the account holder, but which are suspendable.
pub reserved: Balance,
/// The amount that `free` may not drop below when withdrawing for *anything except transaction
/// fee payment*.
pub misc_frozen: Balance,
/// The amount that `free` may not drop below when withdrawing specifically for transaction
/// fee payment.
pub fee_frozen: Balance,
}
impl<Balance: Saturating + Copy + Ord> AccountData<Balance> {
/// How much this account's balance can be reduced for the given `reasons`.
fn usable(&self, reasons: Reasons) -> Balance {
self.free.saturating_sub(self.frozen(reasons))
}
/// The amount that this account's free balance may not be reduced beyond for the given
/// `reasons`.
fn frozen(&self, reasons: Reasons) -> Balance {
match reasons {
Reasons::All => self.misc_frozen.max(self.fee_frozen),
Reasons::Misc => self.misc_frozen,
Reasons::Fee => self.fee_frozen,
}
}
/// The total balance in this account including any that is reserved and ignoring any frozen.
fn total(&self) -> Balance {
self.free.saturating_add(self.reserved)
}
// A value placed in storage that represents the current version of the Balances storage.
// This value is used by the `on_runtime_upgrade` logic to determine whether we run
// storage migration logic. This should match directly with the semantic versions of the Rust crate.
#[derive(Encode, Decode, Clone, Copy, PartialEq, Eq, RuntimeDebug)]
enum Releases {
V1_0_0,
V2_0_0,
}
impl Default for Releases {
fn default() -> Self {
Releases::V1_0_0
}
}
pub struct DustCleaner<T: Config<I>, I: 'static = ()>(Option<(T::AccountId, NegativeImbalance<T, I>)>);
impl<T: Config<I>, I: 'static> Drop for DustCleaner<T, I> {
fn drop(&mut self) {
if let Some((who, dust)) = self.0.take() {
Pallet::<T, I>::deposit_event(Event::DustLost(who, dust.peek()));
T::DustRemoval::on_unbalanced(dust);
}
}
}
impl<T: Config<I>, I: 'static> Pallet<T, I> {
/// Get the free balance of an account.
pub fn free_balance(who: impl sp_std::borrow::Borrow<T::AccountId>) -> T::Balance {
}
/// Get the balance of an account that can be used for transfers, reservations, or any other
/// non-locking, non-transaction-fee activity. Will be at most `free_balance`.
pub fn usable_balance(who: impl sp_std::borrow::Borrow<T::AccountId>) -> T::Balance {
Self::account(who.borrow()).usable(Reasons::Misc)
}
/// Get the balance of an account that can be used for paying transaction fees (not tipping,
/// or any other kind of fees, though). Will be at most `free_balance`.
pub fn usable_balance_for_fees(who: impl sp_std::borrow::Borrow<T::AccountId>) -> T::Balance {
Self::account(who.borrow()).usable(Reasons::Fee)
}
/// Get the reserved balance of an account.
pub fn reserved_balance(who: impl sp_std::borrow::Borrow<T::AccountId>) -> T::Balance {
/// Get both the free and reserved balances of an account.
fn account(who: &T::AccountId) -> AccountData<T::Balance> {
T::AccountStore::get(&who)
}
/// Handles any steps needed after mutating an account.
///
/// This includes DustRemoval unbalancing, in the case than the `new` account's total balance
/// is non-zero but below ED.
/// Returns two values:
/// - `Some` containing the the `new` account, iff the account has sufficient balance.
/// - `Some` containing the dust to be dropped, iff some dust should be dropped.
_who: &T::AccountId,
) -> (Option<AccountData<T::Balance>>, Option<NegativeImbalance<T, I>>) {
if total < T::ExistentialDeposit::get() {
if total.is_zero() {
(None, None)
} else {
(None, Some(NegativeImbalance::new(total)))
(Some(new), None)
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fn deposit_consequence(
_who: &T::AccountId,
amount: T::Balance,
account: &AccountData<T::Balance>,
) -> DepositConsequence {
if amount.is_zero() { return DepositConsequence::Success }
if TotalIssuance::<T, I>::get().checked_add(&amount).is_none() {
return DepositConsequence::Overflow
}
let new_total_balance = match account.total().checked_add(&amount) {
Some(x) => x,
None => return DepositConsequence::Overflow,
};
if new_total_balance < T::ExistentialDeposit::get() {
return DepositConsequence::BelowMinimum
}
// NOTE: We assume that we are a provider, so don't need to do any checks in the
// case of account creation.
DepositConsequence::Success
}
fn withdraw_consequence(
who: &T::AccountId,
amount: T::Balance,
account: &AccountData<T::Balance>,
) -> WithdrawConsequence<T::Balance> {
if amount.is_zero() { return WithdrawConsequence::Success }
if TotalIssuance::<T, I>::get().checked_sub(&amount).is_none() {
return WithdrawConsequence::Underflow
}
let new_total_balance = match account.total().checked_sub(&amount) {
Some(x) => x,
None => return WithdrawConsequence::NoFunds,
};
// Provider restriction - total account balance cannot be reduced to zero if it cannot
// sustain the loss of a provider reference.
// NOTE: This assumes that the pallet is a provider (which is true). Is this ever changes,
// then this will need to adapt accordingly.
let ed = T::ExistentialDeposit::get();
let success = if new_total_balance < ed {
if frame_system::Pallet::<T>::can_dec_provider(who) {
WithdrawConsequence::ReducedToZero(new_total_balance)
} else {
return WithdrawConsequence::WouldDie
}
} else {
WithdrawConsequence::Success
};
// Enough free funds to have them be reduced.
let new_free_balance = match account.free.checked_sub(&amount) {
Some(b) => b,
None => return WithdrawConsequence::NoFunds,
};
// Eventual free funds must be no less than the frozen balance.
let min_balance = account.frozen(Reasons::All);
if new_free_balance < min_balance {
return WithdrawConsequence::Frozen
}
success
}
/// Mutate an account to some new value, or delete it entirely with `None`. Will enforce
/// `ExistentialDeposit` law, annulling the account as needed.
/// NOTE: Doesn't do any preparatory work for creating a new account, so should only be used
/// when it is known that the account already exists.
///
/// NOTE: LOW-LEVEL: This will not attempt to maintain total issuance. It is expected that
/// the caller will do this.
f: impl FnOnce(&mut AccountData<T::Balance>) -> R,
) -> Result<R, StoredMapError> {
Self::try_mutate_account(who, |a, _| -> Result<R, StoredMapError> { Ok(f(a)) })
/// Mutate an account to some new value, or delete it entirely with `None`. Will enforce
/// `ExistentialDeposit` law, annulling the account as needed. This will do nothing if the
/// result of `f` is an `Err`.
/// NOTE: Doesn't do any preparatory work for creating a new account, so should only be used
/// when it is known that the account already exists.
///
/// NOTE: LOW-LEVEL: This will not attempt to maintain total issuance. It is expected that
/// the caller will do this.
fn try_mutate_account<R, E: From<StoredMapError>>(
f: impl FnOnce(&mut AccountData<T::Balance>, bool) -> Result<R, E>,
Self::try_mutate_account_with_dust(who, f)
.map(|(result, dust_cleaner)| {
drop(dust_cleaner);
result
})
}
/// Mutate an account to some new value, or delete it entirely with `None`. Will enforce
/// `ExistentialDeposit` law, annulling the account as needed. This will do nothing if the
/// result of `f` is an `Err`.
///
/// It returns both the result from the closure, and an optional `DustCleaner` instance which
/// should be dropped once it is known that all nested mutates that could affect storage items
/// what the dust handler touches have completed.
///
/// NOTE: Doesn't do any preparatory work for creating a new account, so should only be used
/// when it is known that the account already exists.
///
/// NOTE: LOW-LEVEL: This will not attempt to maintain total issuance. It is expected that
/// the caller will do this.
fn try_mutate_account_with_dust<R, E: From<StoredMapError>>(
who: &T::AccountId,
f: impl FnOnce(&mut AccountData<T::Balance>, bool) -> Result<R, E>,
) -> Result<(R, DustCleaner<T, I>), E> {
let result = T::AccountStore::try_mutate_exists(who, |maybe_account| {
let is_new = maybe_account.is_none();
let mut account = maybe_account.take().unwrap_or_default();
f(&mut account, is_new).map(move |result| {
let maybe_endowed = if is_new { Some(account.free) } else { None };
let maybe_account_maybe_dust = Self::post_mutation(who, account);
*maybe_account = maybe_account_maybe_dust.0;
(maybe_endowed, maybe_account_maybe_dust.1, result)
});
result.map(|(maybe_endowed, maybe_dust, result)| {
Self::deposit_event(Event::Endowed(who.clone(), endowed));
let dust_cleaner = DustCleaner(maybe_dust.map(|dust| (who.clone(), dust)));
(result, dust_cleaner)
/// Update the account entry for `who`, given the locks.
fn update_locks(who: &T::AccountId, locks: &[BalanceLock<T::Balance>]) {
if locks.len() as u32 > T::MaxLocks::get() {
log::warn!(
target: "runtime::balances",
"Warning: A user has more currency locks than expected. \
A runtime configuration adjustment may be needed."
);
}
// No way this can fail since we do not alter the existential balances.
let res = Self::mutate_account(who, |b| {
b.misc_frozen = Zero::zero();
b.fee_frozen = Zero::zero();
for l in locks.iter() {
if l.reasons == Reasons::All || l.reasons == Reasons::Misc {
b.misc_frozen = b.misc_frozen.max(l.amount);
}
if l.reasons == Reasons::All || l.reasons == Reasons::Fee {
b.fee_frozen = b.fee_frozen.max(l.amount);
}
debug_assert!(res.is_ok());
let existed = Locks::<T, I>::contains_key(who);
if locks.is_empty() {
Locks::<T, I>::remove(who);
if existed {
// TODO: use Locks::<T, I>::hashed_key
// https://github.com/paritytech/substrate/issues/4969
system::Pallet::<T>::dec_consumers(who);
}
} else {
Locks::<T, I>::insert(who, locks);
if !existed {
if system::Pallet::<T>::inc_consumers(who).is_err() {
// No providers for the locks. This is impossible under normal circumstances
// since the funds that are under the lock will themselves be stored in the
// account and therefore will need a reference.
log::warn!(
target: "runtime::balances",
"Warning: Attempt to introduce lock consumer reference, yet no providers. \
This is unexpected but should be safe."
);
}
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/// Move the reserved balance of one account into the balance of another, according to `status`.
///
/// Is a no-op if:
/// - the value to be moved is zero; or
/// - the `slashed` id equal to `beneficiary` and the `status` is `Reserved`.
fn do_transfer_reserved(
slashed: &T::AccountId,
beneficiary: &T::AccountId,
value: T::Balance,
best_effort: bool,
status: Status,
) -> Result<T::Balance, DispatchError> {
if value.is_zero() { return Ok(Zero::zero()) }
if slashed == beneficiary {
return match status {
Status::Free => Ok(Self::unreserve(slashed, value)),
Status::Reserved => Ok(value.saturating_sub(Self::reserved_balance(slashed))),
};
}
let ((actual, _maybe_one_dust), _maybe_other_dust) = Self::try_mutate_account_with_dust(
beneficiary,
|to_account, is_new| -> Result<(T::Balance, DustCleaner<T, I>), DispatchError> {
ensure!(!is_new, Error::<T, I>::DeadAccount);
Self::try_mutate_account_with_dust(
slashed,
|from_account, _| -> Result<T::Balance, DispatchError> {
let actual = cmp::min(from_account.reserved, value);
ensure!(best_effort || actual == value, Error::<T, I>::InsufficientBalance);
match status {
Status::Free => to_account.free = to_account.free
.checked_add(&actual)
.ok_or(Error::<T, I>::Overflow)?,
Status::Reserved => to_account.reserved = to_account.reserved
.checked_add(&actual)
.ok_or(Error::<T, I>::Overflow)?,
}
from_account.reserved -= actual;
Ok(actual)
}
)
}
)?;
Self::deposit_event(Event::ReserveRepatriated(slashed.clone(), beneficiary.clone(), actual, status));
Ok(actual)
}
}
impl<T: Config<I>, I: 'static> fungible::Inspect<T::AccountId> for Pallet<T, I> {
type Balance = T::Balance;
fn total_issuance() -> Self::Balance {
TotalIssuance::<T, I>::get()
}
fn minimum_balance() -> Self::Balance {
T::ExistentialDeposit::get()
}
fn balance(who: &T::AccountId) -> Self::Balance {
Self::account(who).total()
}
fn reducible_balance(who: &T::AccountId, keep_alive: bool) -> Self::Balance {
let a = Self::account(who);
// Liquid balance is what is neither reserved nor locked/frozen.
let liquid = a.free.saturating_sub(a.fee_frozen.max(a.misc_frozen));
if frame_system::Pallet::<T>::can_dec_provider(who) && !keep_alive {
liquid
} else {
// `must_remain_to_exist` is the part of liquid balance which must remain to keep total over
// ED.
let must_remain_to_exist = T::ExistentialDeposit::get().saturating_sub(a.total() - liquid);
liquid.saturating_sub(must_remain_to_exist)
}
}
fn can_deposit(who: &T::AccountId, amount: Self::Balance) -> DepositConsequence {
Self::deposit_consequence(who, amount, &Self::account(who))
}
fn can_withdraw(who: &T::AccountId, amount: Self::Balance) -> WithdrawConsequence<Self::Balance> {
Self::withdraw_consequence(who, amount, &Self::account(who))
}
}
impl<T: Config<I>, I: 'static> fungible::Mutate<T::AccountId> for Pallet<T, I> {
fn mint_into(who: &T::AccountId, amount: Self::Balance) -> DispatchResult {
if amount.is_zero() { return Ok(()) }
Self::try_mutate_account(who, |account, _is_new| -> DispatchResult {
Self::deposit_consequence(who, amount, &account).into_result()?;
account.free += amount;
Ok(())
})?;
TotalIssuance::<T, I>::mutate(|t| *t += amount);
Ok(())
}
fn burn_from(who: &T::AccountId, amount: Self::Balance) -> Result<Self::Balance, DispatchError> {
if amount.is_zero() { return Ok(Self::Balance::zero()); }
let actual = Self::try_mutate_account(who, |account, _is_new| -> Result<T::Balance, DispatchError> {
let extra = Self::withdraw_consequence(who, amount, &account).into_result()?;
let actual = amount + extra;
account.free -= actual;
Ok(actual)
})?;
TotalIssuance::<T, I>::mutate(|t| *t -= actual);
Ok(actual)
}
}
impl<T: Config<I>, I: 'static> fungible::Transfer<T::AccountId> for Pallet<T, I> {
fn transfer(
source: &T::AccountId,
dest: &T::AccountId,
amount: T::Balance,
) -> Result<T::Balance, DispatchError> {
let er = if keep_alive { KeepAlive } else { AllowDeath };
<Self as Currency::<T::AccountId>>::transfer(source, dest, amount, er)
.map(|_| amount)
}
}
impl<T: Config<I>, I: 'static> fungible::Unbalanced<T::AccountId> for Pallet<T, I> {