e95b093483
* ethereum-types refactor in progress * ethereum-types refactor in progress * ethereum-types refactor in progress * ethereum-types refactor in progress * ethereum-types refactor finished * removed obsolete util/src/lib.rs * removed commented out code
202 lines
5.3 KiB
Rust
202 lines
5.3 KiB
Rust
// Copyright 2015-2017 Parity Technologies (UK) Ltd.
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// This file is part of Parity.
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// Parity is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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// Parity is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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// You should have received a copy of the GNU General Public License
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// along with Parity. If not, see <http://www.gnu.org/licenses/>.
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//! Evm interface.
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use std::{ops, cmp, fmt};
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use ethereum_types::{U128, U256, U512};
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use vm::{Ext, Result, ReturnData, GasLeft, Error};
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/// Finalization result. Gas Left: either it is a known value, or it needs to be computed by processing
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/// a return instruction.
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#[derive(Debug)]
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pub struct FinalizationResult {
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/// Final amount of gas left.
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pub gas_left: U256,
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/// Apply execution state changes or revert them.
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pub apply_state: bool,
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/// Return data buffer.
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pub return_data: ReturnData,
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}
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/// Types that can be "finalized" using an EVM.
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///
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/// In practice, this is just used to define an inherent impl on
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/// `Reult<GasLeft<'a>>`.
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pub trait Finalize {
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/// Consume the externalities, call return if necessary, and produce call result.
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fn finalize<E: Ext>(self, ext: E) -> Result<FinalizationResult>;
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}
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impl Finalize for Result<GasLeft> {
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fn finalize<E: Ext>(self, ext: E) -> Result<FinalizationResult> {
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match self {
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Ok(GasLeft::Known(gas_left)) => Ok(FinalizationResult { gas_left: gas_left, apply_state: true, return_data: ReturnData::empty() }),
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Ok(GasLeft::NeedsReturn {gas_left, data, apply_state}) => ext.ret(&gas_left, &data, apply_state).map(|gas_left| FinalizationResult {
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gas_left: gas_left,
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apply_state: apply_state,
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return_data: data,
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}),
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Err(err) => Err(err),
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}
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}
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}
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/// Cost calculation type. For low-gas usage we calculate costs using usize instead of U256
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pub trait CostType: Sized + From<usize> + Copy
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+ ops::Mul<Output=Self> + ops::Div<Output=Self> + ops::Add<Output=Self> +ops::Sub<Output=Self>
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+ ops::Shr<usize, Output=Self> + ops::Shl<usize, Output=Self>
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+ cmp::Ord + fmt::Debug {
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/// Converts this cost into `U256`
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fn as_u256(&self) -> U256;
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/// Tries to fit `U256` into this `Cost` type
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fn from_u256(val: U256) -> Result<Self>;
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/// Convert to usize (may panic)
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fn as_usize(&self) -> usize;
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/// Add with overflow
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fn overflow_add(self, other: Self) -> (Self, bool);
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/// Multiple with overflow
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fn overflow_mul(self, other: Self) -> (Self, bool);
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/// Single-step full multiplication and shift: `(self*other) >> shr`
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/// Should not overflow on intermediate steps
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fn overflow_mul_shr(self, other: Self, shr: usize) -> (Self, bool);
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}
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impl CostType for U256 {
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fn as_u256(&self) -> U256 {
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*self
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}
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fn from_u256(val: U256) -> Result<Self> {
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Ok(val)
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}
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fn as_usize(&self) -> usize {
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self.as_u64() as usize
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}
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fn overflow_add(self, other: Self) -> (Self, bool) {
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self.overflowing_add(other)
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}
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fn overflow_mul(self, other: Self) -> (Self, bool) {
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self.overflowing_mul(other)
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}
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fn overflow_mul_shr(self, other: Self, shr: usize) -> (Self, bool) {
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let x = self.full_mul(other);
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let U512(parts) = x;
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let overflow = (parts[4] | parts[5] | parts[6] | parts[7]) > 0;
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let U512(parts) = x >> shr;
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(
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U256([parts[0], parts[1], parts[2], parts[3]]),
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overflow
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)
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}
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}
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impl CostType for usize {
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fn as_u256(&self) -> U256 {
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U256::from(*self)
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}
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fn from_u256(val: U256) -> Result<Self> {
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let res = val.low_u64() as usize;
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// validate if value fits into usize
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if U256::from(res) != val {
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return Err(Error::OutOfGas);
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}
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Ok(res)
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}
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fn as_usize(&self) -> usize {
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*self
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}
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fn overflow_add(self, other: Self) -> (Self, bool) {
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self.overflowing_add(other)
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}
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fn overflow_mul(self, other: Self) -> (Self, bool) {
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self.overflowing_mul(other)
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}
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fn overflow_mul_shr(self, other: Self, shr: usize) -> (Self, bool) {
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let (c, o) = U128::from(self).overflowing_mul(U128::from(other));
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let U128(parts) = c;
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let overflow = o | (parts[1] > 0);
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let U128(parts) = c >> shr;
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let result = parts[0] as usize;
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let overflow = overflow | (parts[0] > result as u64);
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(result, overflow)
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}
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}
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#[cfg(test)]
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mod tests {
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use ethereum_types::U256;
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use super::CostType;
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#[test]
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fn should_calculate_overflow_mul_shr_without_overflow() {
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// given
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let num = 1048576;
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// when
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let (res1, o1) = U256::from(num).overflow_mul_shr(U256::from(num), 20);
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let (res2, o2) = num.overflow_mul_shr(num, 20);
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// then
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assert_eq!(res1, U256::from(num));
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assert!(!o1);
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assert_eq!(res2, num);
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assert!(!o2);
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}
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#[test]
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fn should_calculate_overflow_mul_shr_with_overflow() {
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// given
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let max = u64::max_value();
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let num1 = U256([max, max, max, max]);
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let num2 = usize::max_value();
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// when
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let (res1, o1) = num1.overflow_mul_shr(num1, 256);
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let (res2, o2) = num2.overflow_mul_shr(num2, 64);
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// then
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assert_eq!(res2, num2 - 1);
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assert!(o2);
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assert_eq!(res1, !U256::zero() - U256::one());
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assert!(o1);
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}
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#[test]
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fn should_validate_u256_to_usize_conversion() {
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// given
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let v = U256::from(usize::max_value()) + U256::from(1);
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// when
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let res = usize::from_u256(v);
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// then
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assert!(res.is_err());
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}
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}
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