use super::*;
use frame_support::{
ensure,
pallet_prelude::DispatchResult,
traits::{
tokens::{fungible, BalanceStatus as Status, Fortitude::Polite, Precision::BestEffort},
Currency, DefensiveSaturating, ExistenceRequirement,
ExistenceRequirement::AllowDeath,
Get, Imbalance, InspectLockableCurrency, LockIdentifier, LockableCurrency,
NamedReservableCurrency, ReservableCurrency, SignedImbalance, TryDrop, WithdrawReasons,
},
};
use frame_system::pallet_prelude::BlockNumberFor;
pub use imbalances::{NegativeImbalance, PositiveImbalance};
mod imbalances {
use super::{result, Config, Imbalance, RuntimeDebug, Saturating, TryDrop, Zero};
use frame_support::traits::SameOrOther;
use sp_std::mem;
#[must_use]
#[derive(RuntimeDebug, PartialEq, Eq)]
pub struct PositiveImbalance<T: Config<I>, I: 'static = ()>(T::Balance);
impl<T: Config<I>, I: 'static> PositiveImbalance<T, I> {
pub fn new(amount: T::Balance) -> Self {
PositiveImbalance(amount)
}
}
#[must_use]
#[derive(RuntimeDebug, PartialEq, Eq)]
pub struct NegativeImbalance<T: Config<I>, I: 'static = ()>(T::Balance);
impl<T: Config<I>, I: 'static> NegativeImbalance<T, I> {
pub fn new(amount: T::Balance) -> Self {
NegativeImbalance(amount)
}
}
impl<T: Config<I>, I: 'static> TryDrop for PositiveImbalance<T, I> {
fn try_drop(self) -> result::Result<(), Self> {
self.drop_zero()
}
}
impl<T: Config<I>, I: 'static> Default for PositiveImbalance<T, I> {
fn default() -> Self {
Self::zero()
}
}
impl<T: Config<I>, I: 'static> Imbalance<T::Balance> for PositiveImbalance<T, I> {
type Opposite = NegativeImbalance<T, I>;
fn zero() -> Self {
Self(Zero::zero())
}
fn drop_zero(self) -> result::Result<(), Self> {
if self.0.is_zero() {
Ok(())
} else {
Err(self)
}
}
fn split(self, amount: T::Balance) -> (Self, Self) {
let first = self.0.min(amount);
let second = self.0 - first;
mem::forget(self);
(Self(first), Self(second))
}
fn extract(&mut self, amount: T::Balance) -> Self {
let new = self.0.min(amount);
self.0 = self.0 - new;
Self(new)
}
fn merge(mut self, other: Self) -> Self {
self.0 = self.0.saturating_add(other.0);
mem::forget(other);
self
}
fn subsume(&mut self, other: Self) {
self.0 = self.0.saturating_add(other.0);
mem::forget(other);
}
fn offset(self, other: Self::Opposite) -> SameOrOther<Self, Self::Opposite> {
let (a, b) = (self.0, other.0);
mem::forget((self, other));
if a > b {
SameOrOther::Same(Self(a - b))
} else if b > a {
SameOrOther::Other(NegativeImbalance::new(b - a))
} else {
SameOrOther::None
}
}
fn peek(&self) -> T::Balance {
self.0
}
}
impl<T: Config<I>, I: 'static> TryDrop for NegativeImbalance<T, I> {
fn try_drop(self) -> result::Result<(), Self> {
self.drop_zero()
}
}
impl<T: Config<I>, I: 'static> Default for NegativeImbalance<T, I> {
fn default() -> Self {
Self::zero()
}
}
impl<T: Config<I>, I: 'static> Imbalance<T::Balance> for NegativeImbalance<T, I> {
type Opposite = PositiveImbalance<T, I>;
fn zero() -> Self {
Self(Zero::zero())
}
fn drop_zero(self) -> result::Result<(), Self> {
if self.0.is_zero() {
Ok(())
} else {
Err(self)
}
}
fn split(self, amount: T::Balance) -> (Self, Self) {
let first = self.0.min(amount);
let second = self.0 - first;
mem::forget(self);
(Self(first), Self(second))
}
fn extract(&mut self, amount: T::Balance) -> Self {
let new = self.0.min(amount);
self.0 = self.0 - new;
Self(new)
}
fn merge(mut self, other: Self) -> Self {
self.0 = self.0.saturating_add(other.0);
mem::forget(other);
self
}
fn subsume(&mut self, other: Self) {
self.0 = self.0.saturating_add(other.0);
mem::forget(other);
}
fn offset(self, other: Self::Opposite) -> SameOrOther<Self, Self::Opposite> {
let (a, b) = (self.0, other.0);
mem::forget((self, other));
if a > b {
SameOrOther::Same(Self(a - b))
} else if b > a {
SameOrOther::Other(PositiveImbalance::new(b - a))
} else {
SameOrOther::None
}
}
fn peek(&self) -> T::Balance {
self.0
}
}
impl<T: Config<I>, I: 'static> Drop for PositiveImbalance<T, I> {
fn drop(&mut self) {
<super::TotalIssuance<T, I>>::mutate(|v| *v = v.saturating_add(self.0));
}
}
impl<T: Config<I>, I: 'static> Drop for NegativeImbalance<T, I> {
fn drop(&mut self) {
<super::TotalIssuance<T, I>>::mutate(|v| *v = v.saturating_sub(self.0));
}
}
}
impl<T: Config<I>, I: 'static> Currency<T::AccountId> for Pallet<T, I>
where
T::Balance: MaybeSerializeDeserialize + Debug,
{
type Balance = T::Balance;
type PositiveImbalance = PositiveImbalance<T, I>;
type NegativeImbalance = NegativeImbalance<T, I>;
fn total_balance(who: &T::AccountId) -> Self::Balance {
Self::account(who).total()
}
fn can_slash(who: &T::AccountId, value: Self::Balance) -> bool {
if value.is_zero() {
return true
}
Self::free_balance(who) >= value
}
fn total_issuance() -> Self::Balance {
TotalIssuance::<T, I>::get()
}
fn active_issuance() -> Self::Balance {
<Self as fungible::Inspect<_>>::active_issuance()
}
fn deactivate(amount: Self::Balance) {
<Self as fungible::Unbalanced<_>>::deactivate(amount);
}
fn reactivate(amount: Self::Balance) {
<Self as fungible::Unbalanced<_>>::reactivate(amount);
}
fn minimum_balance() -> Self::Balance {
T::ExistentialDeposit::get()
}
fn burn(mut amount: Self::Balance) -> Self::PositiveImbalance {
if amount.is_zero() {
return PositiveImbalance::zero()
}
<TotalIssuance<T, I>>::mutate(|issued| {
*issued = issued.checked_sub(&amount).unwrap_or_else(|| {
amount = *issued;
Zero::zero()
});
});
PositiveImbalance::new(amount)
}
fn issue(mut amount: Self::Balance) -> Self::NegativeImbalance {
if amount.is_zero() {
return NegativeImbalance::zero()
}
<TotalIssuance<T, I>>::mutate(|issued| {
*issued = issued.checked_add(&amount).unwrap_or_else(|| {
amount = Self::Balance::max_value() - *issued;
Self::Balance::max_value()
})
});
NegativeImbalance::new(amount)
}
fn free_balance(who: &T::AccountId) -> Self::Balance {
Self::account(who).free
}
fn ensure_can_withdraw(
who: &T::AccountId,
amount: T::Balance,
_reasons: WithdrawReasons,
new_balance: T::Balance,
) -> DispatchResult {
if amount.is_zero() {
return Ok(())
}
ensure!(new_balance >= Self::account(who).frozen, Error::<T, I>::LiquidityRestrictions);
Ok(())
}
fn transfer(
transactor: &T::AccountId,
dest: &T::AccountId,
value: Self::Balance,
existence_requirement: ExistenceRequirement,
) -> DispatchResult {
if value.is_zero() || transactor == dest {
return Ok(())
}
let keep_alive = match existence_requirement {
ExistenceRequirement::KeepAlive => Preserve,
ExistenceRequirement::AllowDeath => Expendable,
};
<Self as fungible::Mutate<_>>::transfer(transactor, dest, value, keep_alive)?;
Ok(())
}
fn slash(who: &T::AccountId, value: Self::Balance) -> (Self::NegativeImbalance, Self::Balance) {
if value.is_zero() {
return (NegativeImbalance::zero(), Zero::zero())
}
if Self::total_balance(who).is_zero() {
return (NegativeImbalance::zero(), value)
}
let result = match Self::try_mutate_account_handling_dust(
who,
|account, _is_new| -> Result<(Self::NegativeImbalance, Self::Balance), DispatchError> {
let ed = T::ExistentialDeposit::get();
let actual = match system::Pallet::<T>::can_dec_provider(who) {
true => value.min(account.free),
false => value.min(account.free.saturating_sub(ed)),
};
account.free.saturating_reduce(actual);
let remaining = value.saturating_sub(actual);
Ok((NegativeImbalance::new(actual), remaining))
},
) {
Ok((imbalance, remaining)) => {
Self::deposit_event(Event::Slashed {
who: who.clone(),
amount: value.saturating_sub(remaining),
});
(imbalance, remaining)
},
Err(_) => (Self::NegativeImbalance::zero(), value),
};
result
}
fn deposit_into_existing(
who: &T::AccountId,
value: Self::Balance,
) -> Result<Self::PositiveImbalance, DispatchError> {
if value.is_zero() {
return Ok(PositiveImbalance::zero())
}
Self::try_mutate_account_handling_dust(
who,
|account, is_new| -> Result<Self::PositiveImbalance, DispatchError> {
ensure!(!is_new, Error::<T, I>::DeadAccount);
account.free = account.free.checked_add(&value).ok_or(ArithmeticError::Overflow)?;
Self::deposit_event(Event::Deposit { who: who.clone(), amount: value });
Ok(PositiveImbalance::new(value))
},
)
}
fn deposit_creating(who: &T::AccountId, value: Self::Balance) -> Self::PositiveImbalance {
if value.is_zero() {
return Self::PositiveImbalance::zero()
}
Self::try_mutate_account_handling_dust(
who,
|account, is_new| -> Result<Self::PositiveImbalance, DispatchError> {
let ed = T::ExistentialDeposit::get();
ensure!(value >= ed || !is_new, Error::<T, I>::ExistentialDeposit);
account.free = match account.free.checked_add(&value) {
Some(x) => x,
None => return Ok(Self::PositiveImbalance::zero()),
};
Self::deposit_event(Event::Deposit { who: who.clone(), amount: value });
Ok(PositiveImbalance::new(value))
},
)
.unwrap_or_else(|_| Self::PositiveImbalance::zero())
}
fn withdraw(
who: &T::AccountId,
value: Self::Balance,
reasons: WithdrawReasons,
liveness: ExistenceRequirement,
) -> result::Result<Self::NegativeImbalance, DispatchError> {
if value.is_zero() {
return Ok(NegativeImbalance::zero())
}
Self::try_mutate_account_handling_dust(
who,
|account, _| -> Result<Self::NegativeImbalance, DispatchError> {
let new_free_account =
account.free.checked_sub(&value).ok_or(Error::<T, I>::InsufficientBalance)?;
let ed = T::ExistentialDeposit::get();
let would_be_dead = new_free_account < ed;
let would_kill = would_be_dead && account.free >= ed;
ensure!(liveness == AllowDeath || !would_kill, Error::<T, I>::Expendability);
Self::ensure_can_withdraw(who, value, reasons, new_free_account)?;
account.free = new_free_account;
Self::deposit_event(Event::Withdraw { who: who.clone(), amount: value });
Ok(NegativeImbalance::new(value))
},
)
}
fn make_free_balance_be(
who: &T::AccountId,
value: Self::Balance,
) -> SignedImbalance<Self::Balance, Self::PositiveImbalance> {
Self::try_mutate_account_handling_dust(
who,
|account,
is_new|
-> Result<SignedImbalance<Self::Balance, Self::PositiveImbalance>, DispatchError> {
let ed = T::ExistentialDeposit::get();
ensure!(value >= ed || !is_new, Error::<T, I>::ExistentialDeposit);
let imbalance = if account.free <= value {
SignedImbalance::Positive(PositiveImbalance::new(value - account.free))
} else {
SignedImbalance::Negative(NegativeImbalance::new(account.free - value))
};
account.free = value;
Self::deposit_event(Event::BalanceSet { who: who.clone(), free: account.free });
Ok(imbalance)
},
)
.unwrap_or_else(|_| SignedImbalance::Positive(Self::PositiveImbalance::zero()))
}
}
impl<T: Config<I>, I: 'static> ReservableCurrency<T::AccountId> for Pallet<T, I>
where
T::Balance: MaybeSerializeDeserialize + Debug,
{
fn can_reserve(who: &T::AccountId, value: Self::Balance) -> bool {
if value.is_zero() {
return true
}
Self::account(who).free.checked_sub(&value).map_or(false, |new_balance| {
new_balance >= T::ExistentialDeposit::get() &&
Self::ensure_can_withdraw(who, value, WithdrawReasons::RESERVE, new_balance)
.is_ok()
})
}
fn reserved_balance(who: &T::AccountId) -> Self::Balance {
Self::account(who).reserved
}
fn reserve(who: &T::AccountId, value: Self::Balance) -> DispatchResult {
if value.is_zero() {
return Ok(())
}
Self::try_mutate_account_handling_dust(who, |account, _| -> DispatchResult {
account.free =
account.free.checked_sub(&value).ok_or(Error::<T, I>::InsufficientBalance)?;
account.reserved =
account.reserved.checked_add(&value).ok_or(ArithmeticError::Overflow)?;
Self::ensure_can_withdraw(&who, value, WithdrawReasons::RESERVE, account.free)
})?;
Self::deposit_event(Event::Reserved { who: who.clone(), amount: value });
Ok(())
}
fn unreserve(who: &T::AccountId, value: Self::Balance) -> Self::Balance {
if value.is_zero() {
return Zero::zero()
}
if Self::total_balance(who).is_zero() {
return value
}
let actual = match Self::mutate_account_handling_dust(who, |account| {
let actual = cmp::min(account.reserved, value);
account.reserved -= actual;
account.free = account.free.defensive_saturating_add(actual);
actual
}) {
Ok(x) => x,
Err(_) => {
return value
},
};
Self::deposit_event(Event::Unreserved { who: who.clone(), amount: actual });
value - actual
}
fn slash_reserved(
who: &T::AccountId,
value: Self::Balance,
) -> (Self::NegativeImbalance, Self::Balance) {
if value.is_zero() {
return (NegativeImbalance::zero(), Zero::zero())
}
if Self::total_balance(who).is_zero() {
return (NegativeImbalance::zero(), value)
}
match Self::mutate_account_handling_dust(who, |account| {
let actual = value.min(account.reserved);
account.reserved.saturating_reduce(actual);
(NegativeImbalance::new(actual), value.saturating_sub(actual))
}) {
Ok((imbalance, not_slashed)) => {
Self::deposit_event(Event::Slashed {
who: who.clone(),
amount: value.saturating_sub(not_slashed),
});
(imbalance, not_slashed)
},
Err(_) => (Self::NegativeImbalance::zero(), value),
}
}
fn repatriate_reserved(
slashed: &T::AccountId,
beneficiary: &T::AccountId,
value: Self::Balance,
status: Status,
) -> Result<Self::Balance, DispatchError> {
let actual =
Self::do_transfer_reserved(slashed, beneficiary, value, BestEffort, Polite, status)?;
Ok(value.saturating_sub(actual))
}
}
impl<T: Config<I>, I: 'static> NamedReservableCurrency<T::AccountId> for Pallet<T, I>
where
T::Balance: MaybeSerializeDeserialize + Debug,
{
type ReserveIdentifier = T::ReserveIdentifier;
fn reserved_balance_named(id: &Self::ReserveIdentifier, who: &T::AccountId) -> Self::Balance {
let reserves = Self::reserves(who);
reserves
.binary_search_by_key(id, |data| data.id)
.map(|index| reserves[index].amount)
.unwrap_or_default()
}
fn reserve_named(
id: &Self::ReserveIdentifier,
who: &T::AccountId,
value: Self::Balance,
) -> DispatchResult {
if value.is_zero() {
return Ok(())
}
Reserves::<T, I>::try_mutate(who, |reserves| -> DispatchResult {
match reserves.binary_search_by_key(id, |data| data.id) {
Ok(index) => {
reserves[index].amount = reserves[index].amount.defensive_saturating_add(value);
},
Err(index) => {
reserves
.try_insert(index, ReserveData { id: *id, amount: value })
.map_err(|_| Error::<T, I>::TooManyReserves)?;
},
};
<Self as ReservableCurrency<_>>::reserve(who, value)?;
Ok(())
})
}
fn unreserve_named(
id: &Self::ReserveIdentifier,
who: &T::AccountId,
value: Self::Balance,
) -> Self::Balance {
if value.is_zero() {
return Zero::zero()
}
Reserves::<T, I>::mutate_exists(who, |maybe_reserves| -> Self::Balance {
if let Some(reserves) = maybe_reserves.as_mut() {
match reserves.binary_search_by_key(id, |data| data.id) {
Ok(index) => {
let to_change = cmp::min(reserves[index].amount, value);
let remain = <Self as ReservableCurrency<_>>::unreserve(who, to_change);
let actual = to_change.defensive_saturating_sub(remain);
reserves[index].amount -= actual;
if reserves[index].amount.is_zero() {
if reserves.len() == 1 {
*maybe_reserves = None;
} else {
reserves.remove(index);
}
}
value - actual
},
Err(_) => value,
}
} else {
value
}
})
}
fn slash_reserved_named(
id: &Self::ReserveIdentifier,
who: &T::AccountId,
value: Self::Balance,
) -> (Self::NegativeImbalance, Self::Balance) {
if value.is_zero() {
return (NegativeImbalance::zero(), Zero::zero())
}
Reserves::<T, I>::mutate(who, |reserves| -> (Self::NegativeImbalance, Self::Balance) {
match reserves.binary_search_by_key(id, |data| data.id) {
Ok(index) => {
let to_change = cmp::min(reserves[index].amount, value);
let (imb, remain) =
<Self as ReservableCurrency<_>>::slash_reserved(who, to_change);
let actual = to_change.defensive_saturating_sub(remain);
reserves[index].amount -= actual;
Self::deposit_event(Event::Slashed { who: who.clone(), amount: actual });
(imb, value - actual)
},
Err(_) => (NegativeImbalance::zero(), value),
}
})
}
fn repatriate_reserved_named(
id: &Self::ReserveIdentifier,
slashed: &T::AccountId,
beneficiary: &T::AccountId,
value: Self::Balance,
status: Status,
) -> Result<Self::Balance, DispatchError> {
if value.is_zero() {
return Ok(Zero::zero())
}
if slashed == beneficiary {
return match status {
Status::Free => Ok(Self::unreserve_named(id, slashed, value)),
Status::Reserved =>
Ok(value.saturating_sub(Self::reserved_balance_named(id, slashed))),
}
}
Reserves::<T, I>::try_mutate(slashed, |reserves| -> Result<Self::Balance, DispatchError> {
match reserves.binary_search_by_key(id, |data| data.id) {
Ok(index) => {
let to_change = cmp::min(reserves[index].amount, value);
let actual = if status == Status::Reserved {
Reserves::<T, I>::try_mutate(
beneficiary,
|reserves| -> Result<T::Balance, DispatchError> {
match reserves.binary_search_by_key(id, |data| data.id) {
Ok(index) => {
let remain =
<Self as ReservableCurrency<_>>::repatriate_reserved(
slashed,
beneficiary,
to_change,
status,
)?;
let actual = to_change.defensive_saturating_sub(remain);
reserves[index].amount =
reserves[index].amount.defensive_saturating_add(actual);
Ok(actual)
},
Err(index) => {
let remain =
<Self as ReservableCurrency<_>>::repatriate_reserved(
slashed,
beneficiary,
to_change,
status,
)?;
let actual = to_change.defensive_saturating_sub(remain);
reserves
.try_insert(
index,
ReserveData { id: *id, amount: actual },
)
.map_err(|_| Error::<T, I>::TooManyReserves)?;
Ok(actual)
},
}
},
)?
} else {
let remain = <Self as ReservableCurrency<_>>::repatriate_reserved(
slashed,
beneficiary,
to_change,
status,
)?;
to_change.defensive_saturating_sub(remain)
};
reserves[index].amount -= actual;
Ok(value - actual)
},
Err(_) => Ok(value),
}
})
}
}
impl<T: Config<I>, I: 'static> LockableCurrency<T::AccountId> for Pallet<T, I>
where
T::Balance: MaybeSerializeDeserialize + Debug,
{
type Moment = BlockNumberFor<T>;
type MaxLocks = T::MaxLocks;
fn set_lock(
id: LockIdentifier,
who: &T::AccountId,
amount: T::Balance,
reasons: WithdrawReasons,
) {
if reasons.is_empty() || amount.is_zero() {
Self::remove_lock(id, who);
return
}
let mut new_lock = Some(BalanceLock { id, amount, reasons: reasons.into() });
let mut locks = Self::locks(who)
.into_iter()
.filter_map(|l| if l.id == id { new_lock.take() } else { Some(l) })
.collect::<Vec<_>>();
if let Some(lock) = new_lock {
locks.push(lock)
}
Self::update_locks(who, &locks[..]);
}
fn extend_lock(
id: LockIdentifier,
who: &T::AccountId,
amount: T::Balance,
reasons: WithdrawReasons,
) {
if amount.is_zero() || reasons.is_empty() {
return
}
let mut new_lock = Some(BalanceLock { id, amount, reasons: reasons.into() });
let mut locks = Self::locks(who)
.into_iter()
.filter_map(|l| {
if l.id == id {
new_lock.take().map(|nl| BalanceLock {
id: l.id,
amount: l.amount.max(nl.amount),
reasons: l.reasons | nl.reasons,
})
} else {
Some(l)
}
})
.collect::<Vec<_>>();
if let Some(lock) = new_lock {
locks.push(lock)
}
Self::update_locks(who, &locks[..]);
}
fn remove_lock(id: LockIdentifier, who: &T::AccountId) {
let mut locks = Self::locks(who);
locks.retain(|l| l.id != id);
Self::update_locks(who, &locks[..]);
}
}
impl<T: Config<I>, I: 'static> InspectLockableCurrency<T::AccountId> for Pallet<T, I> {
fn balance_locked(id: LockIdentifier, who: &T::AccountId) -> Self::Balance {
Self::locks(who)
.into_iter()
.filter(|l| l.id == id)
.fold(Zero::zero(), |acc, l| acc + l.amount)
}
}