Files
pezkuwi-subxt/substrate/frame/transaction-payment/src/lib.rs
T
Andrew Jones 49b6dfd2e5 Enrich metadata with type information (#8615)
* Cargo.lock after merge

* Restore scale-info feature

* Fully qualify TypeInfo derive

* Skip PendingSwap T

* Add missing skip_type_params attr

* metadata docs features

* Reduce pallet event attribute to struct

* Cargo.lock

* Update frame/balances/src/tests_composite.rs

Co-authored-by: Guillaume Thiolliere <gui.thiolliere@gmail.com>

* Line widths check

* Cargo.lock

* Add scale-info/std

* Update frame/system/src/lib.rs

Co-authored-by: Guillaume Thiolliere <gui.thiolliere@gmail.com>

* Use `skip_type_params` to remove `TypeInfo` requirements on checks

* Revert "Remove unused Call metadata stuff"

This reverts commit 41311f85

* Skip BalanceSwapAction type parameter

* Remove unused event metadata macro

* Update frame-metadata

* Update primitives/npos-elections/compact/src/codec.rs

Co-authored-by: Guillaume Thiolliere <gui.thiolliere@gmail.com>

* Manual TypeInfo for Header

* Remove TypeInfo requirement for consts in BoundedVec etc.

* Another TypeInfo bound removed

* review: fix indentation

* TypeInfo impls for Identity types

* Add some todos to add custom TypeInfo impls

* Update frame/support/procedural/src/pallet/expand/pallet_struct.rs

Co-authored-by: Guillaume Thiolliere <gui.thiolliere@gmail.com>

* Add some todos to add custom TypeInfo impls

* Add a test for manual Data TypeInfo impl

* Add custom TypeInfo impl for Vote

* Era custom TypeInfo crimes

* Revert finality-grandpa version to 0.14.z

* review: renamed module to pallet_constants_metadata

* New line at end of file

* Add missing scale-info/std

* Update frame/support/src/storage/types/mod.rs

Co-authored-by: Guillaume Thiolliere <gui.thiolliere@gmail.com>

* Remove StorageEntryType::Map unused flag

* Add missing scale-info dependency after merge

* SignedExtension::AdditionalSigned metadata

* Update frame-metadata, use abbreviated docs and args fields

* Update frame/example/Cargo.toml

Co-authored-by: Keith Yeung <kungfukeith11@gmail.com>

* Add scale_info/std and remove unused scale-info dependency

* Remove scale-info dependency

* Remove treasury pallet::metadata

* Remove redundant Event test

* Add back scale-info as dev dependency

* fix error metadata when no error defined in decl_module

* Add Module3 to tests

* Fix metadata test

* Add docs feature to frame-support test

* WIP fixing pallet metadata test

* Remove redundant FunctionMetadata, FunctionArgumentMetadata as per https://github.com/paritytech/frame-metadata/pull/20

* Use main branch of frame-metadata

* Use patch of scale-info for latest changes

* Use latest patched scale-info

* Manual TypeInfo for DigestItem

* Manual TypeInfo for DigestItem

* Update scale-info

* Skip __Ignore variants for Error, depends on https://github.com/paritytech/scale-info/pull/117

* Named fields for FRAME v2 pallet Call variants

* Named fields for FRAME v1 pallet Call variants

* Add missing scale-info dependency

* WIP expand benchmark call variant

* fix benchmark with new function

create a new function for each variant of a pallet call.
This function is called by benchmarking macro in order not to break call
creation with unnamed argument

* fix tests

* more fix

* Fix staking tests

* Fix offchain workers calls

* Cherry pick rustfmt.toml from master

* cargo +nightly-2021-06-22 fmt --all

* Update to new call variant structs

* More call variant struct updates

* Remove unused import

* More call variant structs

* More call variant structs

* Even more call variant structs

* Mooar variant structs

* Evermore variant structs

* Call variant structs ad infinitum

* Fmt

* More call variants

* Last call variant

* Call variants all done?

* Fix SS58Prefix type

* Potential workaround for BitFlags<IdentityFields> TypeInfo

* Enable docs capturing for Call, Event, and Error types

* Fix IdentityFields TypeInfo

* Remove metadata-docs feature

* Add capture_docs = true for legacy Call, Event and Error types

* Fmt

* Fix metadata test type

* Update benchmarks with call struct variants

* Fmt

* More test fixes

* Fmt

* Fix benches

* Use latest capture_docs attr

* Latest scale_info

* Fmt

* review: change &Vec to &[]

* Remove pallet metadata attr

* review: remove commented out test code

* review: skip_type_params trailing comma suggestion

* Update to scale-info 0.10.0

* Update construct_runtime ui tests, different because of metadata TypeInfo impls

* Add some TypeInfo derives for UI tests

* Update storage ensure span ui stderrs

* Update call argument bound ui tests

Possibly changed because change from tuple to struct variants?

* Add scale-info dev dependency

* Update to latest finality-grandpa release

* review: missing newline

* review: missing scale-info/std

* review: remove duplicate scale-info/std

* review: remove fully qualified TypeInfo

* review: add missing scale-info/std

* review: remove unnecessary imports.

* Fmt

* Use crates.io RC version of frame-metadata

* Remove scale-info/std because it is a dev dependency

* Add missing scale_info dev-dependency for test

* Delete empty metadata folder

* Fix sp_std import

* review: improve manual UncheckedExtrinsic TypeInfo impl

* review: use full scale-info for dev-dependency

* Remove DefaultByteGetter impl

* review: derive TypeInfo for generic header

* Fmt

* Update primitives/runtime/src/generic/unchecked_extrinsic.rs

Co-authored-by: Keith Yeung <kungfukeith11@gmail.com>

* Update primitives/runtime/src/generic/unchecked_extrinsic.rs

Co-authored-by: Keith Yeung <kungfukeith11@gmail.com>

* Update bin/node/executor/Cargo.toml

Co-authored-by: Bastian Köcher <bkchr@users.noreply.github.com>

* Update frame/identity/src/types.rs

Co-authored-by: Bastian Köcher <bkchr@users.noreply.github.com>

* Update frame/support/src/dispatch.rs

Co-authored-by: Bastian Köcher <bkchr@users.noreply.github.com>

* Remove redundant derive

* Simplify scale-info dependency

* Strip underscore prefix from call variant struct names

* Another underscore field

* More underscore fields

* Another underscore field

* Update to frame-metadata 14.0.0-rc.2 with combined StorageEntryType::Map

* Fmt

* Revert weights formatting

* Fix up some tests

* Fix up some tests for StorageEntryTypeMetadata

* scale-info dev dependency

* Fix test error

* Add missing TypeInfo derives

* Add back missing scale-info dependency

* Add back missing scale-info dependency

* Fix npos compact impls

* Cargo.lock

* Fmt

* Fix errors

* Fmt

* Fix renamed raw_solution field

* Fix error

* Fmt

* Fix some benchmarks

* Fmt

* Stray R

* Fix

* Add missing TypeInfos

* ui test fix

* Fix line widths

* Revert "ui test fix"

This reverts commit 2d15ec058a216e3f92d713f1174603a2bb1eac65.

* Upgrade to scale-info 0.11.0

* Revert "Upgrade to scale-info 0.11.0"

This reverts commit 047bb179085a0059c36cd20ab405f55cf0867e28.

* Add Runtime type

* Update to scale-info 0.12

* Update to scale-info 1.0

* Update frame-metadata to version 14.0.0

* Patch finality-grandpa until release available

* Fix metadata tests

* Fix metadata tests

* Fmt

* Remove patched finality-grandpa

* Fix tests, use scale_info imports

* Fix pallet tests

* Add BlockNumber TypeInfo bound

* ui test fix

* Cargo.lock

* Remove pallet metadata

* Cargo.lock

* Add missing scale-info dependency

* Remove pallet event metadata

* Fix error

* Fix collective errors

* Semicolol

* Fmt

* Remove another metadata attribute

* Add new variant to custom digest TypeInfo

* Fmt

* Cargo.lock from master

* Remove comma lol

* Fix example call error

* Fix example call error properly

Co-authored-by: Guillaume Thiolliere <gui.thiolliere@gmail.com>
Co-authored-by: Keith Yeung <kungfukeith11@gmail.com>
Co-authored-by: Shawn Tabrizi <shawntabrizi@gmail.com>
Co-authored-by: Bastian Köcher <bkchr@users.noreply.github.com>
2021-09-15 11:40:41 +00:00

1374 lines
42 KiB
Rust
Raw Blame History

This file contains ambiguous Unicode characters
This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.
// This file is part of Substrate.
// Copyright (C) 2019-2021 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.
//! # Transaction Payment Pallet
//!
//! This pallet provides the basic logic needed to pay the absolute minimum amount needed for a
//! transaction to be included. This includes:
//! - _base fee_: This is the minimum amount a user pays for a transaction. It is declared
//! as a base _weight_ in the runtime and converted to a fee using `WeightToFee`.
//! - _weight fee_: A fee proportional to amount of weight a transaction consumes.
//! - _length fee_: A fee proportional to the encoded length of the transaction.
//! - _tip_: An optional tip. Tip increases the priority of the transaction, giving it a higher
//! chance to be included by the transaction queue.
//!
//! The base fee and adjusted weight and length fees constitute the _inclusion fee_, which is
//! the minimum fee for a transaction to be included in a block.
//!
//! The formula of final fee:
//! ```ignore
//! inclusion_fee = base_fee + length_fee + [targeted_fee_adjustment * weight_fee];
//! final_fee = inclusion_fee + tip;
//! ```
//!
//! - `targeted_fee_adjustment`: This is a multiplier that can tune the final fee based on
//! the congestion of the network.
//!
//! Additionally, this pallet allows one to configure:
//! - The mapping between one unit of weight to one unit of fee via [`Config::WeightToFee`].
//! - A means of updating the fee for the next block, via defining a multiplier, based on the
//! final state of the chain at the end of the previous block. This can be configured via
//! [`Config::FeeMultiplierUpdate`]
//! - How the fees are paid via [`Config::OnChargeTransaction`].
#![cfg_attr(not(feature = "std"), no_std)]
use codec::{Decode, Encode};
use scale_info::TypeInfo;
use sp_runtime::{
traits::{
Convert, DispatchInfoOf, Dispatchable, PostDispatchInfoOf, SaturatedConversion, Saturating,
SignedExtension, Zero,
},
transaction_validity::{
TransactionPriority, TransactionValidity, TransactionValidityError, ValidTransaction,
},
FixedPointNumber, FixedPointOperand, FixedU128, Perquintill, RuntimeDebug,
};
use sp_std::prelude::*;
use frame_support::{
dispatch::DispatchResult,
traits::{EstimateCallFee, Get},
weights::{
DispatchClass, DispatchInfo, GetDispatchInfo, Pays, PostDispatchInfo, Weight,
WeightToFeeCoefficient, WeightToFeePolynomial,
},
};
mod payment;
mod types;
pub use pallet::*;
pub use payment::*;
pub use types::{FeeDetails, InclusionFee, RuntimeDispatchInfo};
/// Fee multiplier.
pub type Multiplier = FixedU128;
type BalanceOf<T> = <<T as Config>::OnChargeTransaction as OnChargeTransaction<T>>::Balance;
/// A struct to update the weight multiplier per block. It implements `Convert<Multiplier,
/// Multiplier>`, meaning that it can convert the previous multiplier to the next one. This should
/// be called on `on_finalize` of a block, prior to potentially cleaning the weight data from the
/// system pallet.
///
/// given:
/// s = previous block weight
/// s'= ideal block weight
/// m = maximum block weight
/// diff = (s - s')/m
/// v = 0.00001
/// t1 = (v * diff)
/// t2 = (v * diff)^2 / 2
/// then:
/// next_multiplier = prev_multiplier * (1 + t1 + t2)
///
/// Where `(s', v)` must be given as the `Get` implementation of the `T` generic type. Moreover, `M`
/// must provide the minimum allowed value for the multiplier. Note that a runtime should ensure
/// with tests that the combination of this `M` and `V` is not such that the multiplier can drop to
/// zero and never recover.
///
/// note that `s'` is interpreted as a portion in the _normal transaction_ capacity of the block.
/// For example, given `s' == 0.25` and `AvailableBlockRatio = 0.75`, then the target fullness is
/// _0.25 of the normal capacity_ and _0.1875 of the entire block_.
///
/// This implementation implies the bound:
/// - `v ≤ p / k * (s s')`
/// - or, solving for `p`: `p >= v * k * (s - s')`
///
/// where `p` is the amount of change over `k` blocks.
///
/// Hence:
/// - in a fully congested chain: `p >= v * k * (1 - s')`.
/// - in an empty chain: `p >= v * k * (-s')`.
///
/// For example, when all blocks are full and there are 28800 blocks per day (default in
/// `substrate-node`) and v == 0.00001, s' == 0.1875, we'd have:
///
/// p >= 0.00001 * 28800 * 0.8125
/// p >= 0.234
///
/// Meaning that fees can change by around ~23% per day, given extreme congestion.
///
/// More info can be found at:
/// <https://w3f-research.readthedocs.io/en/latest/polkadot/Token%20Economics.html>
pub struct TargetedFeeAdjustment<T, S, V, M>(sp_std::marker::PhantomData<(T, S, V, M)>);
/// Something that can convert the current multiplier to the next one.
pub trait MultiplierUpdate: Convert<Multiplier, Multiplier> {
/// Minimum multiplier
fn min() -> Multiplier;
/// Target block saturation level
fn target() -> Perquintill;
/// Variability factor
fn variability() -> Multiplier;
}
impl MultiplierUpdate for () {
fn min() -> Multiplier {
Default::default()
}
fn target() -> Perquintill {
Default::default()
}
fn variability() -> Multiplier {
Default::default()
}
}
impl<T, S, V, M> MultiplierUpdate for TargetedFeeAdjustment<T, S, V, M>
where
T: frame_system::Config,
S: Get<Perquintill>,
V: Get<Multiplier>,
M: Get<Multiplier>,
{
fn min() -> Multiplier {
M::get()
}
fn target() -> Perquintill {
S::get()
}
fn variability() -> Multiplier {
V::get()
}
}
impl<T, S, V, M> Convert<Multiplier, Multiplier> for TargetedFeeAdjustment<T, S, V, M>
where
T: frame_system::Config,
S: Get<Perquintill>,
V: Get<Multiplier>,
M: Get<Multiplier>,
{
fn convert(previous: Multiplier) -> Multiplier {
// Defensive only. The multiplier in storage should always be at most positive. Nonetheless
// we recover here in case of errors, because any value below this would be stale and can
// never change.
let min_multiplier = M::get();
let previous = previous.max(min_multiplier);
let weights = T::BlockWeights::get();
// the computed ratio is only among the normal class.
let normal_max_weight = weights
.get(DispatchClass::Normal)
.max_total
.unwrap_or_else(|| weights.max_block);
let current_block_weight = <frame_system::Pallet<T>>::block_weight();
let normal_block_weight =
*current_block_weight.get(DispatchClass::Normal).min(&normal_max_weight);
let s = S::get();
let v = V::get();
let target_weight = (s * normal_max_weight) as u128;
let block_weight = normal_block_weight as u128;
// determines if the first_term is positive
let positive = block_weight >= target_weight;
let diff_abs = block_weight.max(target_weight) - block_weight.min(target_weight);
// defensive only, a test case assures that the maximum weight diff can fit in Multiplier
// without any saturation.
let diff = Multiplier::saturating_from_rational(diff_abs, normal_max_weight.max(1));
let diff_squared = diff.saturating_mul(diff);
let v_squared_2 = v.saturating_mul(v) / Multiplier::saturating_from_integer(2);
let first_term = v.saturating_mul(diff);
let second_term = v_squared_2.saturating_mul(diff_squared);
if positive {
let excess = first_term.saturating_add(second_term).saturating_mul(previous);
previous.saturating_add(excess).max(min_multiplier)
} else {
// Defensive-only: first_term > second_term. Safe subtraction.
let negative = first_term.saturating_sub(second_term).saturating_mul(previous);
previous.saturating_sub(negative).max(min_multiplier)
}
}
}
/// Storage releases of the pallet.
#[derive(Encode, Decode, Clone, Copy, PartialEq, Eq, RuntimeDebug, TypeInfo)]
enum Releases {
/// Original version of the pallet.
V1Ancient,
/// One that bumps the usage to FixedU128 from FixedI128.
V2,
}
impl Default for Releases {
fn default() -> Self {
Releases::V1Ancient
}
}
#[frame_support::pallet]
pub mod pallet {
use super::*;
use frame_support::pallet_prelude::*;
use frame_system::pallet_prelude::*;
#[pallet::pallet]
#[pallet::generate_store(pub(super) trait Store)]
pub struct Pallet<T>(_);
#[pallet::config]
pub trait Config: frame_system::Config {
/// Handler for withdrawing, refunding and depositing the transaction fee.
/// Transaction fees are withdrawn before the transaction is executed.
/// After the transaction was executed the transaction weight can be
/// adjusted, depending on the used resources by the transaction. If the
/// transaction weight is lower than expected, parts of the transaction fee
/// might be refunded. In the end the fees can be deposited.
type OnChargeTransaction: OnChargeTransaction<Self>;
/// The fee to be paid for making a transaction; the per-byte portion.
#[pallet::constant]
type TransactionByteFee: Get<BalanceOf<Self>>;
/// Convert a weight value into a deductible fee based on the currency type.
type WeightToFee: WeightToFeePolynomial<Balance = BalanceOf<Self>>;
/// Update the multiplier of the next block, based on the previous block's weight.
type FeeMultiplierUpdate: MultiplierUpdate;
}
#[pallet::extra_constants]
impl<T: Config> Pallet<T> {
// TODO: rename to snake case after https://github.com/paritytech/substrate/issues/8826 fixed.
#[allow(non_snake_case)]
/// The polynomial that is applied in order to derive fee from weight.
fn WeightToFee() -> Vec<WeightToFeeCoefficient<BalanceOf<T>>> {
T::WeightToFee::polynomial().to_vec()
}
}
#[pallet::type_value]
pub fn NextFeeMultiplierOnEmpty() -> Multiplier {
Multiplier::saturating_from_integer(1)
}
#[pallet::storage]
#[pallet::getter(fn next_fee_multiplier)]
pub type NextFeeMultiplier<T: Config> =
StorageValue<_, Multiplier, ValueQuery, NextFeeMultiplierOnEmpty>;
#[pallet::storage]
pub(super) type StorageVersion<T: Config> = StorageValue<_, Releases, ValueQuery>;
#[pallet::genesis_config]
pub struct GenesisConfig;
#[cfg(feature = "std")]
impl Default for GenesisConfig {
fn default() -> Self {
Self
}
}
#[pallet::genesis_build]
impl<T: Config> GenesisBuild<T> for GenesisConfig {
fn build(&self) {
StorageVersion::<T>::put(Releases::V2);
}
}
#[pallet::hooks]
impl<T: Config> Hooks<BlockNumberFor<T>> for Pallet<T> {
fn on_finalize(_: T::BlockNumber) {
<NextFeeMultiplier<T>>::mutate(|fm| {
*fm = T::FeeMultiplierUpdate::convert(*fm);
});
}
fn integrity_test() {
// given weight == u64, we build multipliers from `diff` of two weight values, which can
// at most be maximum block weight. Make sure that this can fit in a multiplier without
// loss.
use sp_std::convert::TryInto;
assert!(
<Multiplier as sp_runtime::traits::Bounded>::max_value() >=
Multiplier::checked_from_integer(
T::BlockWeights::get().max_block.try_into().unwrap()
)
.unwrap(),
);
// This is the minimum value of the multiplier. Make sure that if we collapse to this
// value, we can recover with a reasonable amount of traffic. For this test we assert
// that if we collapse to minimum, the trend will be positive with a weight value
// which is 1% more than the target.
let min_value = T::FeeMultiplierUpdate::min();
let mut target = T::FeeMultiplierUpdate::target() *
T::BlockWeights::get().get(DispatchClass::Normal).max_total.expect(
"Setting `max_total` for `Normal` dispatch class is not compatible with \
`transaction-payment` pallet.",
);
// add 1 percent;
let addition = target / 100;
if addition == 0 {
// this is most likely because in a test setup we set everything to ().
return
}
target += addition;
#[cfg(any(feature = "std", test))]
sp_io::TestExternalities::new_empty().execute_with(|| {
<frame_system::Pallet<T>>::set_block_consumed_resources(target, 0);
let next = T::FeeMultiplierUpdate::convert(min_value);
assert!(
next > min_value,
"The minimum bound of the multiplier is too low. When \
block saturation is more than target by 1% and multiplier is minimal then \
the multiplier doesn't increase."
);
});
}
}
}
impl<T: Config> Pallet<T>
where
BalanceOf<T>: FixedPointOperand,
{
/// Query the data that we know about the fee of a given `call`.
///
/// This pallet is not and cannot be aware of the internals of a signed extension, for example
/// a tip. It only interprets the extrinsic as some encoded value and accounts for its weight
/// and length, the runtime's extrinsic base weight, and the current fee multiplier.
///
/// All dispatchables must be annotated with weight and will have some fee info. This function
/// always returns.
pub fn query_info<Extrinsic: GetDispatchInfo>(
unchecked_extrinsic: Extrinsic,
len: u32,
) -> RuntimeDispatchInfo<BalanceOf<T>>
where
T::Call: Dispatchable<Info = DispatchInfo>,
{
// NOTE: we can actually make it understand `ChargeTransactionPayment`, but would be some
// hassle for sure. We have to make it aware of the index of `ChargeTransactionPayment` in
// `Extra`. Alternatively, we could actually execute the tx's per-dispatch and record the
// balance of the sender before and after the pipeline.. but this is way too much hassle for
// a very very little potential gain in the future.
let dispatch_info = <Extrinsic as GetDispatchInfo>::get_dispatch_info(&unchecked_extrinsic);
let partial_fee = Self::compute_fee(len, &dispatch_info, 0u32.into());
let DispatchInfo { weight, class, .. } = dispatch_info;
RuntimeDispatchInfo { weight, class, partial_fee }
}
/// Query the detailed fee of a given `call`.
pub fn query_fee_details<Extrinsic: GetDispatchInfo>(
unchecked_extrinsic: Extrinsic,
len: u32,
) -> FeeDetails<BalanceOf<T>>
where
T::Call: Dispatchable<Info = DispatchInfo>,
{
let dispatch_info = <Extrinsic as GetDispatchInfo>::get_dispatch_info(&unchecked_extrinsic);
Self::compute_fee_details(len, &dispatch_info, 0u32.into())
}
/// Compute the final fee value for a particular transaction.
pub fn compute_fee(len: u32, info: &DispatchInfoOf<T::Call>, tip: BalanceOf<T>) -> BalanceOf<T>
where
T::Call: Dispatchable<Info = DispatchInfo>,
{
Self::compute_fee_details(len, info, tip).final_fee()
}
/// Compute the fee details for a particular transaction.
pub fn compute_fee_details(
len: u32,
info: &DispatchInfoOf<T::Call>,
tip: BalanceOf<T>,
) -> FeeDetails<BalanceOf<T>>
where
T::Call: Dispatchable<Info = DispatchInfo>,
{
Self::compute_fee_raw(len, info.weight, tip, info.pays_fee, info.class)
}
/// Compute the actual post dispatch fee for a particular transaction.
///
/// Identical to `compute_fee` with the only difference that the post dispatch corrected
/// weight is used for the weight fee calculation.
pub fn compute_actual_fee(
len: u32,
info: &DispatchInfoOf<T::Call>,
post_info: &PostDispatchInfoOf<T::Call>,
tip: BalanceOf<T>,
) -> BalanceOf<T>
where
T::Call: Dispatchable<Info = DispatchInfo, PostInfo = PostDispatchInfo>,
{
Self::compute_actual_fee_details(len, info, post_info, tip).final_fee()
}
/// Compute the actual post dispatch fee details for a particular transaction.
pub fn compute_actual_fee_details(
len: u32,
info: &DispatchInfoOf<T::Call>,
post_info: &PostDispatchInfoOf<T::Call>,
tip: BalanceOf<T>,
) -> FeeDetails<BalanceOf<T>>
where
T::Call: Dispatchable<Info = DispatchInfo, PostInfo = PostDispatchInfo>,
{
Self::compute_fee_raw(
len,
post_info.calc_actual_weight(info),
tip,
post_info.pays_fee(info),
info.class,
)
}
fn compute_fee_raw(
len: u32,
weight: Weight,
tip: BalanceOf<T>,
pays_fee: Pays,
class: DispatchClass,
) -> FeeDetails<BalanceOf<T>> {
if pays_fee == Pays::Yes {
let len = <BalanceOf<T>>::from(len);
let per_byte = T::TransactionByteFee::get();
// length fee. this is not adjusted.
let fixed_len_fee = per_byte.saturating_mul(len);
// the adjustable part of the fee.
let unadjusted_weight_fee = Self::weight_to_fee(weight);
let multiplier = Self::next_fee_multiplier();
// final adjusted weight fee.
let adjusted_weight_fee = multiplier.saturating_mul_int(unadjusted_weight_fee);
let base_fee = Self::weight_to_fee(T::BlockWeights::get().get(class).base_extrinsic);
FeeDetails {
inclusion_fee: Some(InclusionFee {
base_fee,
len_fee: fixed_len_fee,
adjusted_weight_fee,
}),
tip,
}
} else {
FeeDetails { inclusion_fee: None, tip }
}
}
fn weight_to_fee(weight: Weight) -> BalanceOf<T> {
// cap the weight to the maximum defined in runtime, otherwise it will be the
// `Bounded` maximum of its data type, which is not desired.
let capped_weight = weight.min(T::BlockWeights::get().max_block);
T::WeightToFee::calc(&capped_weight)
}
}
impl<T> Convert<Weight, BalanceOf<T>> for Pallet<T>
where
T: Config,
BalanceOf<T>: FixedPointOperand,
{
/// Compute the fee for the specified weight.
///
/// This fee is already adjusted by the per block fee adjustment factor and is therefore the
/// share that the weight contributes to the overall fee of a transaction. It is mainly
/// for informational purposes and not used in the actual fee calculation.
fn convert(weight: Weight) -> BalanceOf<T> {
<NextFeeMultiplier<T>>::get().saturating_mul_int(Self::weight_to_fee(weight))
}
}
/// Require the transactor pay for themselves and maybe include a tip to gain additional priority
/// in the queue.
#[derive(Encode, Decode, Clone, Eq, PartialEq, TypeInfo)]
#[scale_info(skip_type_params(T))]
pub struct ChargeTransactionPayment<T: Config>(#[codec(compact)] BalanceOf<T>);
impl<T: Config> ChargeTransactionPayment<T>
where
T::Call: Dispatchable<Info = DispatchInfo, PostInfo = PostDispatchInfo>,
BalanceOf<T>: Send + Sync + FixedPointOperand,
{
/// utility constructor. Used only in client/factory code.
pub fn from(fee: BalanceOf<T>) -> Self {
Self(fee)
}
/// Returns the tip as being choosen by the transaction sender.
pub fn tip(&self) -> BalanceOf<T> {
self.0
}
fn withdraw_fee(
&self,
who: &T::AccountId,
call: &T::Call,
info: &DispatchInfoOf<T::Call>,
len: usize,
) -> Result<
(
BalanceOf<T>,
<<T as Config>::OnChargeTransaction as OnChargeTransaction<T>>::LiquidityInfo,
),
TransactionValidityError,
> {
let tip = self.0;
let fee = Pallet::<T>::compute_fee(len as u32, info, tip);
<<T as Config>::OnChargeTransaction as OnChargeTransaction<T>>::withdraw_fee(
who, call, info, fee, tip,
)
.map(|i| (fee, i))
}
/// Get an appropriate priority for a transaction with the given length and info.
///
/// This will try and optimise the `fee/weight` `fee/length`, whichever is consuming more of the
/// maximum corresponding limit.
///
/// For example, if a transaction consumed 1/4th of the block length and half of the weight, its
/// final priority is `fee * min(2, 4) = fee * 2`. If it consumed `1/4th` of the block length
/// and the entire block weight `(1/1)`, its priority is `fee * min(1, 4) = fee * 1`. This means
/// that the transaction which consumes more resources (either length or weight) with the same
/// `fee` ends up having lower priority.
fn get_priority(
len: usize,
info: &DispatchInfoOf<T::Call>,
final_fee: BalanceOf<T>,
) -> TransactionPriority {
let weight_saturation = T::BlockWeights::get().max_block / info.weight.max(1);
let max_block_length = *T::BlockLength::get().max.get(DispatchClass::Normal);
let len_saturation = max_block_length as u64 / (len as u64).max(1);
let coefficient: BalanceOf<T> =
weight_saturation.min(len_saturation).saturated_into::<BalanceOf<T>>();
final_fee.saturating_mul(coefficient).saturated_into::<TransactionPriority>()
}
}
impl<T: Config> sp_std::fmt::Debug for ChargeTransactionPayment<T> {
#[cfg(feature = "std")]
fn fmt(&self, f: &mut sp_std::fmt::Formatter) -> sp_std::fmt::Result {
write!(f, "ChargeTransactionPayment<{:?}>", self.0)
}
#[cfg(not(feature = "std"))]
fn fmt(&self, _: &mut sp_std::fmt::Formatter) -> sp_std::fmt::Result {
Ok(())
}
}
impl<T: Config> SignedExtension for ChargeTransactionPayment<T>
where
BalanceOf<T>: Send + Sync + From<u64> + FixedPointOperand,
T::Call: Dispatchable<Info = DispatchInfo, PostInfo = PostDispatchInfo>,
{
const IDENTIFIER: &'static str = "ChargeTransactionPayment";
type AccountId = T::AccountId;
type Call = T::Call;
type AdditionalSigned = ();
type Pre = (
// tip
BalanceOf<T>,
// who paid the fee
Self::AccountId,
// imbalance resulting from withdrawing the fee
<<T as Config>::OnChargeTransaction as OnChargeTransaction<T>>::LiquidityInfo,
);
fn additional_signed(&self) -> sp_std::result::Result<(), TransactionValidityError> {
Ok(())
}
fn validate(
&self,
who: &Self::AccountId,
call: &Self::Call,
info: &DispatchInfoOf<Self::Call>,
len: usize,
) -> TransactionValidity {
let (fee, _) = self.withdraw_fee(who, call, info, len)?;
Ok(ValidTransaction { priority: Self::get_priority(len, info, fee), ..Default::default() })
}
fn pre_dispatch(
self,
who: &Self::AccountId,
call: &Self::Call,
info: &DispatchInfoOf<Self::Call>,
len: usize,
) -> Result<Self::Pre, TransactionValidityError> {
let (_fee, imbalance) = self.withdraw_fee(who, call, info, len)?;
Ok((self.0, who.clone(), imbalance))
}
fn post_dispatch(
pre: Self::Pre,
info: &DispatchInfoOf<Self::Call>,
post_info: &PostDispatchInfoOf<Self::Call>,
len: usize,
_result: &DispatchResult,
) -> Result<(), TransactionValidityError> {
let (tip, who, imbalance) = pre;
let actual_fee = Pallet::<T>::compute_actual_fee(len as u32, info, post_info, tip);
T::OnChargeTransaction::correct_and_deposit_fee(
&who, info, post_info, actual_fee, tip, imbalance,
)?;
Ok(())
}
}
impl<T: Config, AnyCall: GetDispatchInfo + Encode> EstimateCallFee<AnyCall, BalanceOf<T>>
for Pallet<T>
where
BalanceOf<T>: FixedPointOperand,
T::Call: Dispatchable<Info = DispatchInfo, PostInfo = PostDispatchInfo>,
{
fn estimate_call_fee(call: &AnyCall, post_info: PostDispatchInfo) -> BalanceOf<T> {
let len = call.encoded_size() as u32;
let info = call.get_dispatch_info();
Self::compute_actual_fee(len, &info, &post_info, Zero::zero())
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate as pallet_transaction_payment;
use std::cell::RefCell;
use codec::Encode;
use smallvec::smallvec;
use sp_core::H256;
use sp_runtime::{
testing::{Header, TestXt},
traits::{BlakeTwo256, IdentityLookup, One},
transaction_validity::InvalidTransaction,
Perbill,
};
use frame_support::{
assert_noop, assert_ok, parameter_types,
traits::{Currency, Imbalance, OnUnbalanced},
weights::{
DispatchClass, DispatchInfo, GetDispatchInfo, PostDispatchInfo, Weight,
WeightToFeeCoefficient, WeightToFeeCoefficients, WeightToFeePolynomial,
},
};
use frame_system as system;
use pallet_balances::Call as BalancesCall;
type UncheckedExtrinsic = frame_system::mocking::MockUncheckedExtrinsic<Runtime>;
type Block = frame_system::mocking::MockBlock<Runtime>;
frame_support::construct_runtime!(
pub enum Runtime where
Block = Block,
NodeBlock = Block,
UncheckedExtrinsic = UncheckedExtrinsic,
{
System: system::{Pallet, Call, Config, Storage, Event<T>},
Balances: pallet_balances::{Pallet, Call, Storage, Config<T>, Event<T>},
TransactionPayment: pallet_transaction_payment::{Pallet, Storage},
}
);
const CALL: &<Runtime as frame_system::Config>::Call =
&Call::Balances(BalancesCall::transfer { dest: 2, value: 69 });
thread_local! {
static EXTRINSIC_BASE_WEIGHT: RefCell<u64> = RefCell::new(0);
}
pub struct BlockWeights;
impl Get<frame_system::limits::BlockWeights> for BlockWeights {
fn get() -> frame_system::limits::BlockWeights {
frame_system::limits::BlockWeights::builder()
.base_block(0)
.for_class(DispatchClass::all(), |weights| {
weights.base_extrinsic = EXTRINSIC_BASE_WEIGHT.with(|v| *v.borrow()).into();
})
.for_class(DispatchClass::non_mandatory(), |weights| {
weights.max_total = 1024.into();
})
.build_or_panic()
}
}
parameter_types! {
pub const BlockHashCount: u64 = 250;
pub static TransactionByteFee: u64 = 1;
pub static WeightToFee: u64 = 1;
}
impl frame_system::Config for Runtime {
type BaseCallFilter = frame_support::traits::Everything;
type BlockWeights = BlockWeights;
type BlockLength = ();
type DbWeight = ();
type Origin = Origin;
type Index = u64;
type BlockNumber = u64;
type Call = Call;
type Hash = H256;
type Hashing = BlakeTwo256;
type AccountId = u64;
type Lookup = IdentityLookup<Self::AccountId>;
type Header = Header;
type Event = Event;
type BlockHashCount = BlockHashCount;
type Version = ();
type PalletInfo = PalletInfo;
type AccountData = pallet_balances::AccountData<u64>;
type OnNewAccount = ();
type OnKilledAccount = ();
type SystemWeightInfo = ();
type SS58Prefix = ();
type OnSetCode = ();
}
parameter_types! {
pub const ExistentialDeposit: u64 = 1;
}
impl pallet_balances::Config for Runtime {
type Balance = u64;
type Event = Event;
type DustRemoval = ();
type ExistentialDeposit = ExistentialDeposit;
type AccountStore = System;
type MaxLocks = ();
type MaxReserves = ();
type ReserveIdentifier = [u8; 8];
type WeightInfo = ();
}
impl WeightToFeePolynomial for WeightToFee {
type Balance = u64;
fn polynomial() -> WeightToFeeCoefficients<Self::Balance> {
smallvec![WeightToFeeCoefficient {
degree: 1,
coeff_frac: Perbill::zero(),
coeff_integer: WEIGHT_TO_FEE.with(|v| *v.borrow()),
negative: false,
}]
}
}
thread_local! {
static TIP_UNBALANCED_AMOUNT: RefCell<u64> = RefCell::new(0);
static FEE_UNBALANCED_AMOUNT: RefCell<u64> = RefCell::new(0);
}
pub struct DealWithFees;
impl OnUnbalanced<pallet_balances::NegativeImbalance<Runtime>> for DealWithFees {
fn on_unbalanceds<B>(
mut fees_then_tips: impl Iterator<Item = pallet_balances::NegativeImbalance<Runtime>>,
) {
if let Some(fees) = fees_then_tips.next() {
FEE_UNBALANCED_AMOUNT.with(|a| *a.borrow_mut() += fees.peek());
if let Some(tips) = fees_then_tips.next() {
TIP_UNBALANCED_AMOUNT.with(|a| *a.borrow_mut() += tips.peek());
}
}
}
}
impl Config for Runtime {
type OnChargeTransaction = CurrencyAdapter<Balances, DealWithFees>;
type TransactionByteFee = TransactionByteFee;
type WeightToFee = WeightToFee;
type FeeMultiplierUpdate = ();
}
pub struct ExtBuilder {
balance_factor: u64,
base_weight: u64,
byte_fee: u64,
weight_to_fee: u64,
}
impl Default for ExtBuilder {
fn default() -> Self {
Self { balance_factor: 1, base_weight: 0, byte_fee: 1, weight_to_fee: 1 }
}
}
impl ExtBuilder {
pub fn base_weight(mut self, base_weight: u64) -> Self {
self.base_weight = base_weight;
self
}
pub fn byte_fee(mut self, byte_fee: u64) -> Self {
self.byte_fee = byte_fee;
self
}
pub fn weight_fee(mut self, weight_to_fee: u64) -> Self {
self.weight_to_fee = weight_to_fee;
self
}
pub fn balance_factor(mut self, factor: u64) -> Self {
self.balance_factor = factor;
self
}
fn set_constants(&self) {
EXTRINSIC_BASE_WEIGHT.with(|v| *v.borrow_mut() = self.base_weight);
TRANSACTION_BYTE_FEE.with(|v| *v.borrow_mut() = self.byte_fee);
WEIGHT_TO_FEE.with(|v| *v.borrow_mut() = self.weight_to_fee);
}
pub fn build(self) -> sp_io::TestExternalities {
self.set_constants();
let mut t = frame_system::GenesisConfig::default().build_storage::<Runtime>().unwrap();
pallet_balances::GenesisConfig::<Runtime> {
balances: if self.balance_factor > 0 {
vec![
(1, 10 * self.balance_factor),
(2, 20 * self.balance_factor),
(3, 30 * self.balance_factor),
(4, 40 * self.balance_factor),
(5, 50 * self.balance_factor),
(6, 60 * self.balance_factor),
]
} else {
vec![]
},
}
.assimilate_storage(&mut t)
.unwrap();
t.into()
}
}
/// create a transaction info struct from weight. Handy to avoid building the whole struct.
pub fn info_from_weight(w: Weight) -> DispatchInfo {
// pays_fee: Pays::Yes -- class: DispatchClass::Normal
DispatchInfo { weight: w, ..Default::default() }
}
fn post_info_from_weight(w: Weight) -> PostDispatchInfo {
PostDispatchInfo { actual_weight: Some(w), pays_fee: Default::default() }
}
fn post_info_from_pays(p: Pays) -> PostDispatchInfo {
PostDispatchInfo { actual_weight: None, pays_fee: p }
}
fn default_post_info() -> PostDispatchInfo {
PostDispatchInfo { actual_weight: None, pays_fee: Default::default() }
}
#[test]
fn signed_extension_transaction_payment_work() {
ExtBuilder::default()
.balance_factor(10)
.base_weight(5)
.build()
.execute_with(|| {
let len = 10;
let pre = ChargeTransactionPayment::<Runtime>::from(0)
.pre_dispatch(&1, CALL, &info_from_weight(5), len)
.unwrap();
assert_eq!(Balances::free_balance(1), 100 - 5 - 5 - 10);
assert_ok!(ChargeTransactionPayment::<Runtime>::post_dispatch(
pre,
&info_from_weight(5),
&default_post_info(),
len,
&Ok(())
));
assert_eq!(Balances::free_balance(1), 100 - 5 - 5 - 10);
assert_eq!(FEE_UNBALANCED_AMOUNT.with(|a| a.borrow().clone()), 5 + 5 + 10);
assert_eq!(TIP_UNBALANCED_AMOUNT.with(|a| a.borrow().clone()), 0);
FEE_UNBALANCED_AMOUNT.with(|a| *a.borrow_mut() = 0);
let pre = ChargeTransactionPayment::<Runtime>::from(5 /* tipped */)
.pre_dispatch(&2, CALL, &info_from_weight(100), len)
.unwrap();
assert_eq!(Balances::free_balance(2), 200 - 5 - 10 - 100 - 5);
assert_ok!(ChargeTransactionPayment::<Runtime>::post_dispatch(
pre,
&info_from_weight(100),
&post_info_from_weight(50),
len,
&Ok(())
));
assert_eq!(Balances::free_balance(2), 200 - 5 - 10 - 50 - 5);
assert_eq!(FEE_UNBALANCED_AMOUNT.with(|a| a.borrow().clone()), 5 + 10 + 50);
assert_eq!(TIP_UNBALANCED_AMOUNT.with(|a| a.borrow().clone()), 5);
});
}
#[test]
fn signed_extension_transaction_payment_multiplied_refund_works() {
ExtBuilder::default()
.balance_factor(10)
.base_weight(5)
.build()
.execute_with(|| {
let len = 10;
<NextFeeMultiplier<Runtime>>::put(Multiplier::saturating_from_rational(3, 2));
let pre = ChargeTransactionPayment::<Runtime>::from(5 /* tipped */)
.pre_dispatch(&2, CALL, &info_from_weight(100), len)
.unwrap();
// 5 base fee, 10 byte fee, 3/2 * 100 weight fee, 5 tip
assert_eq!(Balances::free_balance(2), 200 - 5 - 10 - 150 - 5);
assert_ok!(ChargeTransactionPayment::<Runtime>::post_dispatch(
pre,
&info_from_weight(100),
&post_info_from_weight(50),
len,
&Ok(())
));
// 75 (3/2 of the returned 50 units of weight) is refunded
assert_eq!(Balances::free_balance(2), 200 - 5 - 10 - 75 - 5);
});
}
#[test]
fn signed_extension_transaction_payment_is_bounded() {
ExtBuilder::default().balance_factor(1000).byte_fee(0).build().execute_with(|| {
// maximum weight possible
assert_ok!(ChargeTransactionPayment::<Runtime>::from(0).pre_dispatch(
&1,
CALL,
&info_from_weight(Weight::max_value()),
10
));
// fee will be proportional to what is the actual maximum weight in the runtime.
assert_eq!(
Balances::free_balance(&1),
(10000 - <Runtime as frame_system::Config>::BlockWeights::get().max_block) as u64
);
});
}
#[test]
fn signed_extension_allows_free_transactions() {
ExtBuilder::default()
.base_weight(100)
.balance_factor(0)
.build()
.execute_with(|| {
// 1 ain't have a penny.
assert_eq!(Balances::free_balance(1), 0);
let len = 100;
// This is a completely free (and thus wholly insecure/DoS-ridden) transaction.
let operational_transaction = DispatchInfo {
weight: 0,
class: DispatchClass::Operational,
pays_fee: Pays::No,
};
assert_ok!(ChargeTransactionPayment::<Runtime>::from(0).validate(
&1,
CALL,
&operational_transaction,
len
));
// like a InsecureFreeNormal
let free_transaction =
DispatchInfo { weight: 0, class: DispatchClass::Normal, pays_fee: Pays::Yes };
assert_noop!(
ChargeTransactionPayment::<Runtime>::from(0).validate(
&1,
CALL,
&free_transaction,
len
),
TransactionValidityError::Invalid(InvalidTransaction::Payment),
);
});
}
#[test]
fn signed_ext_length_fee_is_also_updated_per_congestion() {
ExtBuilder::default()
.base_weight(5)
.balance_factor(10)
.build()
.execute_with(|| {
// all fees should be x1.5
<NextFeeMultiplier<Runtime>>::put(Multiplier::saturating_from_rational(3, 2));
let len = 10;
assert_ok!(ChargeTransactionPayment::<Runtime>::from(10) // tipped
.pre_dispatch(&1, CALL, &info_from_weight(3), len));
assert_eq!(
Balances::free_balance(1),
100 // original
- 10 // tip
- 5 // base
- 10 // len
- (3 * 3 / 2) // adjusted weight
);
})
}
#[test]
fn query_info_works() {
let call = Call::Balances(BalancesCall::transfer { dest: 2, value: 69 });
let origin = 111111;
let extra = ();
let xt = TestXt::new(call, Some((origin, extra)));
let info = xt.get_dispatch_info();
let ext = xt.encode();
let len = ext.len() as u32;
ExtBuilder::default().base_weight(5).weight_fee(2).build().execute_with(|| {
// all fees should be x1.5
<NextFeeMultiplier<Runtime>>::put(Multiplier::saturating_from_rational(3, 2));
assert_eq!(
TransactionPayment::query_info(xt, len),
RuntimeDispatchInfo {
weight: info.weight,
class: info.class,
partial_fee: 5 * 2 /* base * weight_fee */
+ len as u64 /* len * 1 */
+ info.weight.min(BlockWeights::get().max_block) as u64 * 2 * 3 / 2 /* weight */
},
);
});
}
#[test]
fn compute_fee_works_without_multiplier() {
ExtBuilder::default()
.base_weight(100)
.byte_fee(10)
.balance_factor(0)
.build()
.execute_with(|| {
// Next fee multiplier is zero
assert_eq!(<NextFeeMultiplier<Runtime>>::get(), Multiplier::one());
// Tip only, no fees works
let dispatch_info = DispatchInfo {
weight: 0,
class: DispatchClass::Operational,
pays_fee: Pays::No,
};
assert_eq!(Pallet::<Runtime>::compute_fee(0, &dispatch_info, 10), 10);
// No tip, only base fee works
let dispatch_info = DispatchInfo {
weight: 0,
class: DispatchClass::Operational,
pays_fee: Pays::Yes,
};
assert_eq!(Pallet::<Runtime>::compute_fee(0, &dispatch_info, 0), 100);
// Tip + base fee works
assert_eq!(Pallet::<Runtime>::compute_fee(0, &dispatch_info, 69), 169);
// Len (byte fee) + base fee works
assert_eq!(Pallet::<Runtime>::compute_fee(42, &dispatch_info, 0), 520);
// Weight fee + base fee works
let dispatch_info = DispatchInfo {
weight: 1000,
class: DispatchClass::Operational,
pays_fee: Pays::Yes,
};
assert_eq!(Pallet::<Runtime>::compute_fee(0, &dispatch_info, 0), 1100);
});
}
#[test]
fn compute_fee_works_with_multiplier() {
ExtBuilder::default()
.base_weight(100)
.byte_fee(10)
.balance_factor(0)
.build()
.execute_with(|| {
// Add a next fee multiplier. Fees will be x3/2.
<NextFeeMultiplier<Runtime>>::put(Multiplier::saturating_from_rational(3, 2));
// Base fee is unaffected by multiplier
let dispatch_info = DispatchInfo {
weight: 0,
class: DispatchClass::Operational,
pays_fee: Pays::Yes,
};
assert_eq!(Pallet::<Runtime>::compute_fee(0, &dispatch_info, 0), 100);
// Everything works together :)
let dispatch_info = DispatchInfo {
weight: 123,
class: DispatchClass::Operational,
pays_fee: Pays::Yes,
};
// 123 weight, 456 length, 100 base
assert_eq!(
Pallet::<Runtime>::compute_fee(456, &dispatch_info, 789),
100 + (3 * 123 / 2) + 4560 + 789,
);
});
}
#[test]
fn compute_fee_works_with_negative_multiplier() {
ExtBuilder::default()
.base_weight(100)
.byte_fee(10)
.balance_factor(0)
.build()
.execute_with(|| {
// Add a next fee multiplier. All fees will be x1/2.
<NextFeeMultiplier<Runtime>>::put(Multiplier::saturating_from_rational(1, 2));
// Base fee is unaffected by multiplier.
let dispatch_info = DispatchInfo {
weight: 0,
class: DispatchClass::Operational,
pays_fee: Pays::Yes,
};
assert_eq!(Pallet::<Runtime>::compute_fee(0, &dispatch_info, 0), 100);
// Everything works together.
let dispatch_info = DispatchInfo {
weight: 123,
class: DispatchClass::Operational,
pays_fee: Pays::Yes,
};
// 123 weight, 456 length, 100 base
assert_eq!(
Pallet::<Runtime>::compute_fee(456, &dispatch_info, 789),
100 + (123 / 2) + 4560 + 789,
);
});
}
#[test]
fn compute_fee_does_not_overflow() {
ExtBuilder::default()
.base_weight(100)
.byte_fee(10)
.balance_factor(0)
.build()
.execute_with(|| {
// Overflow is handled
let dispatch_info = DispatchInfo {
weight: Weight::max_value(),
class: DispatchClass::Operational,
pays_fee: Pays::Yes,
};
assert_eq!(
Pallet::<Runtime>::compute_fee(u32::MAX, &dispatch_info, u64::MAX),
u64::MAX
);
});
}
#[test]
fn refund_does_not_recreate_account() {
ExtBuilder::default()
.balance_factor(10)
.base_weight(5)
.build()
.execute_with(|| {
// So events are emitted
System::set_block_number(10);
let len = 10;
let pre = ChargeTransactionPayment::<Runtime>::from(5 /* tipped */)
.pre_dispatch(&2, CALL, &info_from_weight(100), len)
.unwrap();
assert_eq!(Balances::free_balance(2), 200 - 5 - 10 - 100 - 5);
// kill the account between pre and post dispatch
assert_ok!(Balances::transfer(Some(2).into(), 3, Balances::free_balance(2)));
assert_eq!(Balances::free_balance(2), 0);
assert_ok!(ChargeTransactionPayment::<Runtime>::post_dispatch(
pre,
&info_from_weight(100),
&post_info_from_weight(50),
len,
&Ok(())
));
assert_eq!(Balances::free_balance(2), 0);
// Transfer Event
System::assert_has_event(Event::Balances(pallet_balances::Event::Transfer(
2, 3, 80,
)));
// Killed Event
System::assert_has_event(Event::System(system::Event::KilledAccount(2)));
});
}
#[test]
fn actual_weight_higher_than_max_refunds_nothing() {
ExtBuilder::default()
.balance_factor(10)
.base_weight(5)
.build()
.execute_with(|| {
let len = 10;
let pre = ChargeTransactionPayment::<Runtime>::from(5 /* tipped */)
.pre_dispatch(&2, CALL, &info_from_weight(100), len)
.unwrap();
assert_eq!(Balances::free_balance(2), 200 - 5 - 10 - 100 - 5);
assert_ok!(ChargeTransactionPayment::<Runtime>::post_dispatch(
pre,
&info_from_weight(100),
&post_info_from_weight(101),
len,
&Ok(())
));
assert_eq!(Balances::free_balance(2), 200 - 5 - 10 - 100 - 5);
});
}
#[test]
fn zero_transfer_on_free_transaction() {
ExtBuilder::default()
.balance_factor(10)
.base_weight(5)
.build()
.execute_with(|| {
// So events are emitted
System::set_block_number(10);
let len = 10;
let dispatch_info =
DispatchInfo { weight: 100, pays_fee: Pays::No, class: DispatchClass::Normal };
let user = 69;
let pre = ChargeTransactionPayment::<Runtime>::from(0)
.pre_dispatch(&user, CALL, &dispatch_info, len)
.unwrap();
assert_eq!(Balances::total_balance(&user), 0);
assert_ok!(ChargeTransactionPayment::<Runtime>::post_dispatch(
pre,
&dispatch_info,
&default_post_info(),
len,
&Ok(())
));
assert_eq!(Balances::total_balance(&user), 0);
// No events for such a scenario
assert_eq!(System::events().len(), 0);
});
}
#[test]
fn refund_consistent_with_actual_weight() {
ExtBuilder::default()
.balance_factor(10)
.base_weight(7)
.build()
.execute_with(|| {
let info = info_from_weight(100);
let post_info = post_info_from_weight(33);
let prev_balance = Balances::free_balance(2);
let len = 10;
let tip = 5;
<NextFeeMultiplier<Runtime>>::put(Multiplier::saturating_from_rational(5, 4));
let pre = ChargeTransactionPayment::<Runtime>::from(tip)
.pre_dispatch(&2, CALL, &info, len)
.unwrap();
ChargeTransactionPayment::<Runtime>::post_dispatch(
pre,
&info,
&post_info,
len,
&Ok(()),
)
.unwrap();
let refund_based_fee = prev_balance - Balances::free_balance(2);
let actual_fee =
Pallet::<Runtime>::compute_actual_fee(len as u32, &info, &post_info, tip);
// 33 weight, 10 length, 7 base, 5 tip
assert_eq!(actual_fee, 7 + 10 + (33 * 5 / 4) + 5);
assert_eq!(refund_based_fee, actual_fee);
});
}
#[test]
fn post_info_can_change_pays_fee() {
ExtBuilder::default()
.balance_factor(10)
.base_weight(7)
.build()
.execute_with(|| {
let info = info_from_weight(100);
let post_info = post_info_from_pays(Pays::No);
let prev_balance = Balances::free_balance(2);
let len = 10;
let tip = 5;
<NextFeeMultiplier<Runtime>>::put(Multiplier::saturating_from_rational(5, 4));
let pre = ChargeTransactionPayment::<Runtime>::from(tip)
.pre_dispatch(&2, CALL, &info, len)
.unwrap();
ChargeTransactionPayment::<Runtime>::post_dispatch(
pre,
&info,
&post_info,
len,
&Ok(()),
)
.unwrap();
let refund_based_fee = prev_balance - Balances::free_balance(2);
let actual_fee =
Pallet::<Runtime>::compute_actual_fee(len as u32, &info, &post_info, tip);
// Only 5 tip is paid
assert_eq!(actual_fee, 5);
assert_eq!(refund_based_fee, actual_fee);
});
}
}