// Copyright 2017-2018 Parity Technologies (UK) Ltd.
// This file is part of Substrate.
// Substrate is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
// Substrate is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with Substrate. If not, see .
//! Balances: Handles setting and retrieval of free balance,
//! retrieving total balance, reserve and unreserve balance,
//! repatriating a reserved balance to a beneficiary account that exists,
//! transfering a balance between accounts (when not reserved),
//! slashing an account balance, account removal, rewards,
//! lookup of an index to reclaim an account (when not balance not reserved),
//! increasing total stake.
#![cfg_attr(not(feature = "std"), no_std)]
#[macro_use]
extern crate srml_support as runtime_support;
extern crate sr_std as rstd;
#[macro_use]
extern crate parity_codec_derive;
extern crate parity_codec as codec;
extern crate sr_primitives as primitives;
extern crate srml_system as system;
#[cfg(test)]
extern crate sr_io as runtime_io;
#[cfg(test)]
extern crate substrate_primitives;
use rstd::prelude::*;
use rstd::{cmp, result};
use codec::Codec;
use runtime_support::{StorageValue, StorageMap, Parameter};
use runtime_support::dispatch::Result;
use primitives::traits::{Zero, SimpleArithmetic, MakePayment,
As, StaticLookup, Member, CheckedAdd, CheckedSub};
use system::{IsDeadAccount, OnNewAccount, ensure_signed};
mod mock;
mod tests;
/// The account with the given id was killed.
pub trait OnFreeBalanceZero {
/// The account was the given id was killed.
fn on_free_balance_zero(who: &AccountId);
}
impl OnFreeBalanceZero for () {
fn on_free_balance_zero(_who: &AccountId) {}
}
impl<
AccountId,
X: OnFreeBalanceZero,
Y: OnFreeBalanceZero,
> OnFreeBalanceZero for (X, Y) {
fn on_free_balance_zero(who: &AccountId) {
X::on_free_balance_zero(who);
Y::on_free_balance_zero(who);
}
}
/// Trait for a hook to get called when some balance has been minted, causing dilution.
pub trait OnDilution {
/// Some `portion` of the total balance just "grew" by `minted`. `portion` is the pre-growth
/// amount (it doesn't take account of the recent growth).
fn on_dilution(minted: Balance, portion: Balance);
}
impl OnDilution for () {
fn on_dilution(_minted: Balance, _portion: Balance) {}
}
/// Determinator for whether a given account is able to transfer balance.
pub trait EnsureAccountLiquid {
/// Returns `Ok` iff the account is able to transfer funds normally. `Err(...)`
/// with the reason why not otherwise.
fn ensure_account_liquid(who: &AccountId) -> Result;
}
impl<
AccountId,
X: EnsureAccountLiquid,
Y: EnsureAccountLiquid,
> EnsureAccountLiquid for (X, Y) {
fn ensure_account_liquid(who: &AccountId) -> Result {
X::ensure_account_liquid(who)?;
Y::ensure_account_liquid(who)
}
}
impl EnsureAccountLiquid for () {
fn ensure_account_liquid(_who: &AccountId) -> Result { Ok(()) }
}
pub trait Trait: system::Trait {
/// The balance of an account.
type Balance: Parameter + Member + SimpleArithmetic + Codec + Default + Copy + As + As;
/// A function which is invoked when the free-balance has fallen below the existential deposit and
/// has been reduced to zero.
///
/// Gives a chance to clean up resources associated with the given account.
type OnFreeBalanceZero: OnFreeBalanceZero;
/// Handler for when a new account is created.
type OnNewAccount: OnNewAccount;
/// A function that returns true iff a given account can transfer its funds to another account.
type EnsureAccountLiquid: EnsureAccountLiquid;
/// The overarching event type.
type Event: From> + Into<::Event>;
}
decl_module! {
pub struct Module for enum Call where origin: T::Origin {
fn deposit_event() = default;
/// Transfer some liquid free balance to another staker.
pub fn transfer(
origin,
dest: ::Source,
#[compact] value: T::Balance
) {
let transactor = ensure_signed(origin)?;
let dest = T::Lookup::lookup(dest)?;
let from_balance = Self::free_balance(&transactor);
let to_balance = Self::free_balance(&dest);
let would_create = to_balance.is_zero();
let fee = if would_create { Self::creation_fee() } else { Self::transfer_fee() };
let liability = match value.checked_add(&fee) {
Some(l) => l,
None => return Err("got overflow after adding a fee to value"),
};
let new_from_balance = match from_balance.checked_sub(&liability) {
Some(b) => b,
None => return Err("balance too low to send value"),
};
if would_create && value < Self::existential_deposit() {
return Err("value too low to create account");
}
T::EnsureAccountLiquid::ensure_account_liquid(&transactor)?;
// NOTE: total stake being stored in the same type means that this could never overflow
// but better to be safe than sorry.
let new_to_balance = match to_balance.checked_add(&value) {
Some(b) => b,
None => return Err("destination balance too high to receive value"),
};
if transactor != dest {
Self::set_free_balance(&transactor, new_from_balance);
Self::decrease_total_stake_by(fee);
Self::set_free_balance_creating(&dest, new_to_balance);
Self::deposit_event(RawEvent::Transfer(transactor, dest, value, fee));
}
}
/// Set the balances of a given account.
fn set_balance(
who: ::Source,
#[compact] free: T::Balance,
#[compact] reserved: T::Balance
) {
let who = T::Lookup::lookup(who)?;
Self::set_free_balance(&who, free);
Self::set_reserved_balance(&who, reserved);
}
}
}
decl_event!(
pub enum Event where
::AccountId,
::Balance
{
/// A new account was created.
NewAccount(AccountId, Balance),
/// An account was reaped.
ReapedAccount(AccountId),
/// Transfer succeeded (from, to, value, fees).
Transfer(AccountId, AccountId, Balance, Balance),
}
);
decl_storage! {
trait Store for Module as Balances {
/// The total amount of stake on the system.
pub TotalIssuance get(total_issuance) build(|config: &GenesisConfig| {
config.balances.iter().fold(Zero::zero(), |acc: T::Balance, &(_, n)| acc + n)
}): T::Balance;
/// The minimum amount allowed to keep an account open.
pub ExistentialDeposit get(existential_deposit) config(): T::Balance;
/// The fee required to make a transfer.
pub TransferFee get(transfer_fee) config(): T::Balance;
/// The fee required to create an account. At least as big as ReclaimRebate.
pub CreationFee get(creation_fee) config(): T::Balance;
/// The 'free' balance of a given account.
///
/// This is the only balance that matters in terms of most operations on tokens. It is
/// alone used to determine the balance when in the contract execution environment. When this
/// balance falls below the value of `ExistentialDeposit`, then the 'current account' is
/// deleted: specifically `FreeBalance`. Furthermore, `OnFreeBalanceZero` callback
/// is invoked, giving a chance to external modules to cleanup data associated with
/// the deleted account.
///
/// `system::AccountNonce` is also deleted if `ReservedBalance` is also zero (it also gets
/// collapsed to zero if it ever becomes less than `ExistentialDeposit`.
pub FreeBalance get(free_balance) build(|config: &GenesisConfig| config.balances.clone()): map T::AccountId => T::Balance;
/// The amount of the balance of a given account that is externally reserved; 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. (This is different
/// and wholly unrelated to the `Bondage` system used in the staking module.)
///
/// When this balance falls below the value of `ExistentialDeposit`, then this 'reserve account'
/// is deleted: specifically, `ReservedBalance`.
///
/// `system::AccountNonce` is also deleted if `FreeBalance` is also zero (it also gets
/// collapsed to zero if it ever becomes less than `ExistentialDeposit`.
pub ReservedBalance get(reserved_balance): map T::AccountId => T::Balance;
// Payment stuff.
/// The fee to be paid for making a transaction; the base.
pub TransactionBaseFee get(transaction_base_fee) config(): T::Balance;
/// The fee to be paid for making a transaction; the per-byte portion.
pub TransactionByteFee get(transaction_byte_fee) config(): T::Balance;
}
add_extra_genesis {
config(balances): Vec<(T::AccountId, T::Balance)>;
}
}
/// Outcome of a balance update.
pub enum UpdateBalanceOutcome {
/// Account balance was simply updated.
Updated,
/// The update has led to killing of the account.
AccountKilled,
}
impl Module {
// PUBLIC IMMUTABLES
/// The combined balance of `who`.
pub fn total_balance(who: &T::AccountId) -> T::Balance {
Self::free_balance(who) + Self::reserved_balance(who)
}
/// Some result as `slash(who, value)` (but without the side-effects) assuming there are no
/// balance changes in the meantime and only the reserved balance is not taken into account.
pub fn can_slash(who: &T::AccountId, value: T::Balance) -> bool {
Self::free_balance(who) >= value
}
/// Same result as `reserve(who, value)` (but without the side-effects) assuming there
/// are no balance changes in the meantime.
pub fn can_reserve(who: &T::AccountId, value: T::Balance) -> bool {
if T::EnsureAccountLiquid::ensure_account_liquid(who).is_ok() {
Self::free_balance(who) >= value
} else {
false
}
}
//PUBLIC MUTABLES (DANGEROUS)
/// Set the free balance of an account to some new value.
///
/// Will enforce ExistentialDeposit law, anulling the account as needed.
/// In that case it will return `AccountKilled`.
pub fn set_reserved_balance(who: &T::AccountId, balance: T::Balance) -> UpdateBalanceOutcome {
if balance < Self::existential_deposit() {
>::insert(who, balance);
Self::on_reserved_too_low(who);
UpdateBalanceOutcome::AccountKilled
} else {
>::insert(who, balance);
UpdateBalanceOutcome::Updated
}
}
/// Set the free balance of an account to some new value. Will enforce ExistentialDeposit
/// law anulling the account as needed.
///
/// 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.
///
/// Returns if the account was successfully updated or update has led to killing of the account.
pub fn set_free_balance(who: &T::AccountId, balance: T::Balance) -> UpdateBalanceOutcome {
// Commented out for no - but consider it instructive.
// assert!(!Self::total_balance(who).is_zero());
if balance < Self::existential_deposit() {
>::insert(who, balance);
Self::on_free_too_low(who);
UpdateBalanceOutcome::AccountKilled
} else {
>::insert(who, balance);
UpdateBalanceOutcome::Updated
}
}
/// Set the free balance on an account to some new value.
///
/// Same as [`set_free_balance`], but will create a new account.
///
/// Returns if the account was successfully updated or update has led to killing of the account.
///
/// [`set_free_balance`]: #method.set_free_balance
pub fn set_free_balance_creating(who: &T::AccountId, balance: T::Balance) -> UpdateBalanceOutcome {
let ed = >::existential_deposit();
// If the balance is too low, then the account is reaped.
// NOTE: There are two balances for every account: `reserved_balance` and
// `free_balance`. This contract subsystem only cares about the latter: whenever
// the term "balance" is used *here* it should be assumed to mean "free balance"
// in the rest of the module.
// Free balance can never be less than ED. If that happens, it gets reduced to zero
// and the account information relevant to this subsystem is deleted (i.e. the
// account is reaped).
// NOTE: This is orthogonal to the `Bondage` value that an account has, a high
// value of which makes even the `free_balance` unspendable.
if balance < ed {
Self::set_free_balance(who, balance);
UpdateBalanceOutcome::AccountKilled
} else {
if !>::exists(who) {
Self::new_account(&who, balance);
}
Self::set_free_balance(who, balance);
UpdateBalanceOutcome::Updated
}
}
/// Adds up to `value` to the free balance of `who`. If `who` doesn't exist, it is created.
///
/// This is a sensitive function since it circumvents any fees associated with account
/// setup. Ensure it is only called by trusted code.
///
/// NOTE: This assumes that the total stake remains unchanged after this operation. If
/// you mean to actually mint value into existence, then use `reward` instead.
pub fn increase_free_balance_creating(who: &T::AccountId, value: T::Balance) -> UpdateBalanceOutcome {
Self::set_free_balance_creating(who, Self::free_balance(who) + value)
}
/// Substrates `value` from the free balance of `who`. If the whole amount cannot be
/// deducted, an error is returned.
///
/// NOTE: This assumes that the total stake remains unchanged after this operation. If
/// you mean to actually burn value out of existence, then use `slash` instead.
pub fn decrease_free_balance(
who: &T::AccountId,
value: T::Balance
) -> result::Result {
T::EnsureAccountLiquid::ensure_account_liquid(who)?;
let b = Self::free_balance(who);
if b < value {
return Err("account has too few funds")
}
Ok(Self::set_free_balance(who, b - value))
}
/// Deducts up to `value` from the combined balance of `who`, preferring to deduct from the
/// free balance. This function cannot fail.
///
/// As much funds up to `value` will be deducted as possible. If this is less than `value`,
/// then `Some(remaining)` will be returned. Full completion is given by `None`.
pub fn slash(who: &T::AccountId, value: T::Balance) -> Option {
let free_balance = Self::free_balance(who);
let free_slash = cmp::min(free_balance, value);
Self::set_free_balance(who, free_balance - free_slash);
Self::decrease_total_stake_by(free_slash);
if free_slash < value {
Self::slash_reserved(who, value - free_slash)
} else {
None
}
}
/// Adds up to `value` to the free balance of `who`.
///
/// If `who` doesn't exist, nothing is done and an Err returned.
pub fn reward(who: &T::AccountId, value: T::Balance) -> Result {
if Self::total_balance(who).is_zero() {
return Err("beneficiary account must pre-exist");
}
Self::set_free_balance(who, Self::free_balance(who) + value);
Self::increase_total_stake_by(value);
Ok(())
}
/// Moves `value` from balance to reserved balance.
///
/// If the free balance is lower than `value`, then no funds will be moved and an `Err` will
/// be returned to notify of this. This is different behaviour to `unreserve`.
pub fn reserve(who: &T::AccountId, value: T::Balance) -> Result {
let b = Self::free_balance(who);
if b < value {
return Err("not enough free funds")
}
T::EnsureAccountLiquid::ensure_account_liquid(who)?;
Self::set_reserved_balance(who, Self::reserved_balance(who) + value);
Self::set_free_balance(who, b - value);
Ok(())
}
/// Moves up to `value` from reserved balance to balance. This function cannot fail.
///
/// As much funds up to `value` will be deducted as possible. If this is less than `value`,
/// then `Some(remaining)` will be returned. Full completion is given by `None`.
/// NOTE: This is different to `reserve`.
pub fn unreserve(who: &T::AccountId, value: T::Balance) -> Option {
let b = Self::reserved_balance(who);
let actual = cmp::min(b, value);
Self::set_free_balance(who, Self::free_balance(who) + actual);
Self::set_reserved_balance(who, b - actual);
if actual == value {
None
} else {
Some(value - actual)
}
}
/// Deducts up to `value` from reserved balance of `who`. This function cannot fail.
///
/// As much funds up to `value` will be deducted as possible. If this is less than `value`,
/// then `Some(remaining)` will be returned. Full completion is given by `None`.
pub fn slash_reserved(who: &T::AccountId, value: T::Balance) -> Option {
let b = Self::reserved_balance(who);
let slash = cmp::min(b, value);
Self::set_reserved_balance(who, b - slash);
Self::decrease_total_stake_by(slash);
if value == slash {
None
} else {
Some(value - slash)
}
}
/// Moves up to `value` from reserved balance of account `slashed` to free balance of account
/// `beneficiary`. `beneficiary` must exist for this to succeed. If it does not, `Err` will be
/// returned.
///
/// As much funds up to `value` will be moved as possible. If this is less than `value`, then
/// `Ok(Some(remaining))` will be returned. Full completion is given by `Ok(None)`.
pub fn repatriate_reserved(
slashed: &T::AccountId,
beneficiary: &T::AccountId,
value: T::Balance
) -> result::Result