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// This file is part of Substrate.
// Copyright (C) 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.
//! # Offences Pallet
//!
//! Tracks reported offences
// Ensure we're `no_std` when compiling for Wasm.
#![cfg_attr(not(feature = "std"), no_std)]
pub mod migration;
use codec::{Decode, Encode};
use frame_support::weights::Weight;
use sp_runtime::{traits::Hash, Perbill};
offence::{Kind, Offence, OffenceDetails, OffenceError, OnOffenceHandler, ReportOffence},
pub use pallet::*;
/// A binary blob which represents a SCALE codec-encoded `O::TimeSlot`.
type OpaqueTimeSlot = Vec<u8>;
/// A type alias for a report identifier.
type ReportIdOf<T> = <T as frame_system::Config>::Hash;
#[frame_support::pallet]
pub mod pallet {
use super::*;
use frame_support::pallet_prelude::*;
#[pallet::pallet]
#[pallet::without_storage_info]
pub struct Pallet<T>(_);
/// The pallet's config trait.
#[pallet::config]
pub trait Config: frame_system::Config {
/// The overarching event type.
type RuntimeEvent: From<Event> + IsType<<Self as frame_system::Config>::RuntimeEvent>;
/// Full identification of the validator.
type IdentificationTuple: Parameter;
/// A handler called for every offence report.
type OnOffenceHandler: OnOffenceHandler<Self::AccountId, Self::IdentificationTuple, Weight>;
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/// The primary structure that holds all offence records keyed by report identifiers.
#[pallet::storage]
#[pallet::getter(fn reports)]
pub type Reports<T: Config> = StorageMap<
_,
Twox64Concat,
ReportIdOf<T>,
OffenceDetails<T::AccountId, T::IdentificationTuple>,
>;
/// A vector of reports of the same kind that happened at the same time slot.
#[pallet::storage]
pub type ConcurrentReportsIndex<T: Config> = StorageDoubleMap<
_,
Twox64Concat,
Kind,
Twox64Concat,
OpaqueTimeSlot,
Vec<ReportIdOf<T>>,
ValueQuery,
>;
/// Enumerates all reports of a kind along with the time they happened.
///
/// All reports are sorted by the time of offence.
///
/// Note that the actual type of this mapping is `Vec<u8>`, this is because values of
/// different types are not supported at the moment so we are doing the manual serialization.
#[pallet::storage]
pub type ReportsByKindIndex<T> = StorageMap<
_,
Twox64Concat,
Kind,
Vec<u8>, // (O::TimeSlot, ReportIdOf<T>)
ValueQuery,
>;
/// Events type.
#[pallet::event]
#[pallet::generate_deposit(pub(super) fn deposit_event)]
pub enum Event {
/// There is an offence reported of the given `kind` happened at the `session_index` and
/// (kind-specific) time slot. This event is not deposited for duplicate slashes.
/// \[kind, timeslot\].
Offence { kind: Kind, timeslot: OpaqueTimeSlot },
impl<T, O> ReportOffence<T::AccountId, T::IdentificationTuple, O> for Pallet<T>
T: Config,
O: Offence<T::IdentificationTuple>,
fn report_offence(reporters: Vec<T::AccountId>, offence: O) -> Result<(), OffenceError> {
let offenders = offence.offenders();
let time_slot = offence.time_slot();
// Go through all offenders in the offence report and find all offenders that were spotted
let TriageOutcome { concurrent_offenders } =
match Self::triage_offence_report::<O>(reporters, &time_slot, offenders) {
Some(triage) => triage,
// The report contained only duplicates, so there is no need to slash again.
None => return Err(OffenceError::DuplicateReport),
};
let offenders_count = concurrent_offenders.len() as u32;
// The amount new offenders are slashed
let new_fraction = offence.slash_fraction(offenders_count);
let slash_perbill: Vec<_> = (0..concurrent_offenders.len()).map(|_| new_fraction).collect();
T::OnOffenceHandler::on_offence(
&concurrent_offenders,
&slash_perbill,
offence.session_index(),
offence.disable_strategy(),
Self::deposit_event(Event::Offence { kind: O::ID, timeslot: time_slot.encode() });
fn is_known_offence(offenders: &[T::IdentificationTuple], time_slot: &O::TimeSlot) -> bool {
let any_unknown = offenders.iter().any(|offender| {
let report_id = Self::report_id::<O>(time_slot, offender);
!<Reports<T>>::contains_key(&report_id)
});
!any_unknown
}
impl<T: Config> Pallet<T> {
/// Compute the ID for the given report properties.
///
/// The report id depends on the offence kind, time slot and the id of offender.
fn report_id<O: Offence<T::IdentificationTuple>>(
time_slot: &O::TimeSlot,
offender: &T::IdentificationTuple,
) -> ReportIdOf<T> {
(O::ID, time_slot.encode(), offender).using_encoded(T::Hashing::hash)
}
/// Triages the offence report and returns the set of offenders that was involved in unique
/// reports along with the list of the concurrent offences.
fn triage_offence_report<O: Offence<T::IdentificationTuple>>(
reporters: Vec<T::AccountId>,
time_slot: &O::TimeSlot,
offenders: Vec<T::IdentificationTuple>,
) -> Option<TriageOutcome<T>> {
let mut storage = ReportIndexStorage::<T, O>::load(time_slot);
for offender in offenders {
let report_id = Self::report_id::<O>(time_slot, &offender);
if !<Reports<T>>::contains_key(&report_id) {
<Reports<T>>::insert(
&report_id,
OffenceDetails { offender, reporters: reporters.clone() },
);
storage.insert(time_slot, report_id);
}
}
// Load report details for the all reports happened at the same time.
let concurrent_offenders = storage
.concurrent_reports
.collect::<Vec<_>>();
storage.save();
Some(TriageOutcome { concurrent_offenders })
} else {
None
}
}
}
struct TriageOutcome<T: Config> {
/// Other reports for the same report kinds.
concurrent_offenders: Vec<OffenceDetails<T::AccountId, T::IdentificationTuple>>,
}
/// An auxiliary struct for working with storage of indexes localized for a specific offence
/// kind (specified by the `O` type parameter).
///
/// This struct is responsible for aggregating storage writes and the underlying storage should not
/// accessed directly meanwhile.
#[must_use = "The changes are not saved without called `save`"]
struct ReportIndexStorage<T: Config, O: Offence<T::IdentificationTuple>> {
opaque_time_slot: OpaqueTimeSlot,
concurrent_reports: Vec<ReportIdOf<T>>,
same_kind_reports: Vec<(O::TimeSlot, ReportIdOf<T>)>,
}
impl<T: Config, O: Offence<T::IdentificationTuple>> ReportIndexStorage<T, O> {
/// Preload indexes from the storage for the specific `time_slot` and the kind of the offence.
fn load(time_slot: &O::TimeSlot) -> Self {
let opaque_time_slot = time_slot.encode();
let same_kind_reports = ReportsByKindIndex::<T>::get(&O::ID);
let same_kind_reports =
Vec::<(O::TimeSlot, ReportIdOf<T>)>::decode(&mut &same_kind_reports[..])
.unwrap_or_default();
let concurrent_reports = <ConcurrentReportsIndex<T>>::get(&O::ID, &opaque_time_slot);
Self { opaque_time_slot, concurrent_reports, same_kind_reports }
}
/// Insert a new report to the index.
fn insert(&mut self, time_slot: &O::TimeSlot, report_id: ReportIdOf<T>) {
// Insert the report id into the list while maintaining the ordering by the time
// slot.
let pos = self.same_kind_reports.partition_point(|&(ref when, _)| when <= time_slot);
self.same_kind_reports.insert(pos, (time_slot.clone(), report_id));
// Update the list of concurrent reports.
self.concurrent_reports.push(report_id);
}
/// Dump the indexes to the storage.
fn save(self) {
ReportsByKindIndex::<T>::insert(&O::ID, self.same_kind_reports.encode());
<ConcurrentReportsIndex<T>>::insert(
&O::ID,
&self.opaque_time_slot,
&self.concurrent_reports,
);
}
}