gear_core/gas.rs
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// This file is part of Gear.
// Copyright (C) 2021-2024 Gear Technologies Inc.
// SPDX-License-Identifier: GPL-3.0-or-later WITH Classpath-exception-2.0
// This program 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.
// This program 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 this program. If not, see <https://www.gnu.org/licenses/>.
//! Gas module.
use crate::{costs::CostToken, reservation::UnreservedReimbursement};
use enum_iterator::Sequence;
use scale_info::{
scale::{Decode, Encode},
TypeInfo,
};
/// The id of the gas lock.
#[derive(Debug, Clone, Copy, PartialEq, Eq, Sequence)]
#[repr(u8)]
pub enum LockId {
/// The gas lock is provided by the mailbox.
Mailbox,
/// The gas lock is provided by the waitlist.
Waitlist,
/// The gas lock is provided by reservation.
Reservation,
/// The gas lock is provided by dispatch stash.
DispatchStash,
}
/// The result of charging gas.
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub enum ChargeResult {
/// There was enough gas and it has been charged.
Enough,
/// There was not enough gas and it hasn't been charged.
NotEnough,
}
/// Gas counter with some predefined maximum gas.
///
/// `Copy` and `Clone` traits aren't implemented for the type (however could be)
/// in order to make the data only moveable, preventing explicit and implicit copying.
#[derive(Debug)]
pub struct GasCounter {
left: u64,
burned: u64,
}
impl GasCounter {
/// New limited gas counter with initial gas to spend.
pub fn new(initial_amount: u64) -> Self {
Self {
left: initial_amount,
burned: 0,
}
}
/// Account for used gas.
///
/// If there is no enough gas, then makes saturating charge and returns `NotEnough`.
/// Else charges gas and returns `Enough`.
pub fn charge<T: Into<u64> + Copy>(&mut self, amount: T) -> ChargeResult {
if let Some(new_left) = self.left.checked_sub(amount.into()) {
self.left = new_left;
self.burned += amount.into();
ChargeResult::Enough
} else {
self.burned += self.left;
self.left = 0;
ChargeResult::NotEnough
}
}
/// Account for used gas.
///
/// If there is no enough gas, then does nothing and returns `ChargeResult::NotEnough`.
/// Else charges gas and returns `ChargeResult::Enough`.
pub fn charge_if_enough<T: Into<u64> + Copy>(&mut self, amount: T) -> ChargeResult {
match self.left.checked_sub(amount.into()) {
None => ChargeResult::NotEnough,
Some(new_left) => {
self.left = new_left;
self.burned += amount.into();
ChargeResult::Enough
}
}
}
/// Increase left gas by `amount`.
///
/// Called when gas unreservation is occurred.
/// We don't decrease `burn` counter because `GasTree` manipulation is handled by separated function
pub fn increase(&mut self, amount: u64, _token: UnreservedReimbursement) -> bool {
match self.left.checked_add(amount) {
None => false,
Some(new_left) => {
self.left = new_left;
true
}
}
}
/// Reduce gas by `amount`.
///
/// Called when message is sent to another program, so the gas `amount` is sent to
/// receiving program.
/// Or called when gas reservation is occurred.
///
/// In case of gas reservation:
/// We don't increase `burn` counter because `GasTree` manipulation is handled by separated function
pub fn reduce(&mut self, amount: u64) -> ChargeResult {
match self.left.checked_sub(amount) {
None => ChargeResult::NotEnough,
Some(new_left) => {
self.left = new_left;
ChargeResult::Enough
}
}
}
/// Report how much gas is left.
pub fn left(&self) -> u64 {
self.left
}
/// Report how much gas is burned.
pub fn burned(&self) -> u64 {
self.burned
}
/// Get gas amount.
pub fn to_amount(&self) -> GasAmount {
GasAmount {
left: self.left,
burned: self.burned,
}
}
/// Clone the counter
///
/// # Safety
///
/// Use only when it's absolutely necessary to clone the counter i.e atomic implementation of `Ext`.
pub unsafe fn clone(&self) -> Self {
Self {
left: self.left,
burned: self.burned,
}
}
}
/// Read-only representation of consumed `GasCounter`.
///
/// `Copy` trait isn't implemented for the type (however could be)
/// in order to make the data only moveable, preventing implicit/explicit copying.
#[derive(Debug, Clone)]
pub struct GasAmount {
left: u64,
burned: u64,
}
impl GasAmount {
/// Report how much gas were left.
pub fn left(&self) -> u64 {
self.left
}
/// Report how much gas were burned.
pub fn burned(&self) -> u64 {
self.burned
}
}
/// Value counter with some predefined maximum value.
#[derive(Debug)]
pub struct ValueCounter(u128);
impl ValueCounter {
/// New limited value counter with initial value to spend.
pub fn new(initial_amount: u128) -> Self {
Self(initial_amount)
}
/// Reduce value by `amount`.
///
/// Called when message is sent to another program, so the value `amount` is sent to
/// receiving program.
pub fn reduce(&mut self, amount: u128) -> ChargeResult {
match self.0.checked_sub(amount) {
None => ChargeResult::NotEnough,
Some(new_left) => {
self.0 = new_left;
ChargeResult::Enough
}
}
}
/// Report how much value is left.
pub fn left(&self) -> u128 {
self.0
}
/// Clone the counter
///
/// # Safety
///
/// Use only when it's absolutely necessary to clone the counter i.e atomic implementation of `Ext`.
pub unsafe fn clone(&self) -> Self {
Self(self.0)
}
}
/// Gas allowance counter with some predefined maximum value.
#[derive(Clone, Debug)]
pub struct GasAllowanceCounter(u128);
impl GasAllowanceCounter {
/// New limited gas allowance counter with initial value to spend.
pub fn new(initial_amount: u64) -> Self {
Self(initial_amount as u128)
}
/// Report how much gas allowance is left.
pub fn left(&self) -> u64 {
self.0 as u64
}
/// Account for used gas allowance.
///
/// If there is no enough gas, then makes saturating charge and returns `NotEnough`.
/// Else charges gas and returns `Enough`.
pub fn charge<T: Into<u64>>(&mut self, amount: T) -> ChargeResult {
if let Some(new_left) = self.0.checked_sub(Into::<u64>::into(amount) as u128) {
self.0 = new_left;
ChargeResult::Enough
} else {
self.0 = 0;
ChargeResult::NotEnough
}
}
/// Account for used gas allowance.
///
/// If there is no enough gas, then does nothing and returns `ChargeResult::NotEnough`.
/// Else charges gas and returns `ChargeResult::Enough`.
pub fn charge_if_enough<T: Into<u64>>(&mut self, amount: T) -> ChargeResult {
if let Some(new_left) = self.0.checked_sub(Into::<u64>::into(amount) as u128) {
self.0 = new_left;
ChargeResult::Enough
} else {
ChargeResult::NotEnough
}
}
/// Clone the counter
///
/// # Safety
///
/// Use only when it's absolutely necessary to clone the counter i.e atomic implementation of `Ext`.
pub unsafe fn clone(&self) -> Self {
Self(self.0)
}
}
/// Charging error
#[derive(Debug, Clone, Eq, PartialEq, derive_more::Display)]
pub enum ChargeError {
/// An error occurs in attempt to charge more gas than available during execution.
#[display(fmt = "Not enough gas to continue execution")]
GasLimitExceeded,
/// Gas allowance exceeded
#[display(fmt = "Gas allowance exceeded")]
GasAllowanceExceeded,
}
/// Counters owner can change gas limit and allowance counters.
pub trait CountersOwner {
/// Charge for runtime api call.
fn charge_gas_for_token(&mut self, token: CostToken) -> Result<(), ChargeError>;
/// Charge gas if enough, else just returns error.
fn charge_gas_if_enough(&mut self, amount: u64) -> Result<(), ChargeError>;
/// Returns gas limit and gas allowance left.
fn gas_left(&self) -> GasLeft;
/// Currently set gas counter type.
fn current_counter_type(&self) -> CounterType;
/// Decreases gas left by fetched single numeric of actual counter.
fn decrease_current_counter_to(&mut self, amount: u64);
/// Returns minimal amount of gas counters and set the type of current counter.
fn define_current_counter(&mut self) -> u64;
/// Returns value of gas counter currently set.
fn current_counter_value(&self) -> u64 {
let GasLeft { gas, allowance } = self.gas_left();
match self.current_counter_type() {
CounterType::GasLimit => gas,
CounterType::GasAllowance => allowance,
}
}
}
/// Enum representing current type of gas counter.
#[derive(Debug, Clone, Copy, PartialEq, Eq, Encode, Decode)]
pub enum CounterType {
/// Gas limit counter.
GasLimit,
/// Gas allowance counter.
GasAllowance,
}
/// Gas limit and gas allowance left.
#[derive(Debug, Clone, Copy, PartialEq, Eq, Encode, Decode)]
pub struct GasLeft {
/// Left gas from gas counter.
pub gas: u64,
/// Left gas from allowance counter.
pub allowance: u64,
}
impl From<(u64, u64)> for GasLeft {
fn from((gas, allowance): (u64, u64)) -> Self {
Self { gas, allowance }
}
}
impl From<(i64, i64)> for GasLeft {
fn from((gas, allowance): (i64, i64)) -> Self {
(gas as u64, allowance as u64).into()
}
}
/// The struct contains results of gas calculation required to process
/// a message.
#[derive(Clone, Debug, Decode, Default, Encode, PartialEq, Eq, TypeInfo)]
#[cfg_attr(feature = "std", derive(serde::Serialize, serde::Deserialize))]
pub struct GasInfo {
/// Represents minimum gas limit required for execution.
pub min_limit: u64,
/// Gas amount that we reserve for some other on-chain interactions.
pub reserved: u64,
/// Contains number of gas burned during message processing.
pub burned: u64,
/// The value may be returned if a program happens to be executed
/// the second or next time in a block.
pub may_be_returned: u64,
/// Was the message placed into waitlist at the end of calculating.
///
/// This flag shows, that `min_limit` makes sense and have some guarantees
/// only before insertion into waitlist.
pub waited: bool,
}
#[cfg(test)]
mod tests {
use super::{ChargeResult, GasCounter};
use crate::gas::GasAllowanceCounter;
#[test]
/// Test that `GasCounter` object returns `Enough` and decreases the remaining count
/// on calling `charge(...)` when the remaining gas exceeds the required value,
/// otherwise returns NotEnough
fn limited_gas_counter_charging() {
let mut counter = GasCounter::new(200);
let result = counter.charge_if_enough(100u64);
assert_eq!(result, ChargeResult::Enough);
assert_eq!(counter.left(), 100);
let result = counter.charge_if_enough(101u64);
assert_eq!(result, ChargeResult::NotEnough);
assert_eq!(counter.left(), 100);
}
#[test]
fn charge_fails() {
let mut counter = GasCounter::new(100);
assert_eq!(counter.charge_if_enough(200u64), ChargeResult::NotEnough);
}
#[test]
fn charge_token_fails() {
let mut counter = GasCounter::new(10);
assert_eq!(counter.charge(1000u64), ChargeResult::NotEnough);
}
#[test]
fn charge_allowance_token_fails() {
let mut counter = GasAllowanceCounter::new(10);
assert_eq!(counter.charge(1000u64), ChargeResult::NotEnough);
}
}