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// Copyright 2022 Parity Technologies (UK) Ltd.
// This file is part of Polkadot.
// Polkadot 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.
// Polkadot 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 Polkadot. If not, see <http://www.gnu.org/licenses/>.
//! Dispute slashing pallet.
//!
//! Once a dispute is concluded, we want to slash validators who were on the
//! wrong side of the dispute. The slashing amount depends on whether the
//! candidate was valid (none at the moment) or invalid (big). In addition to
//! that, we might want to kick out the validators from the active set.
//! Currently, we limit slashing to the backing group for invalid disputes.
//!
//! The `offences` pallet from Substrate provides us with a way to do both.
//! Currently, the interface expects us to provide staking information including
//! nominator exposure in order to submit an offence.
//!
//! Normally, we'd able to fetch this information from the runtime as soon as
//! the dispute is concluded. This is also what `im-online` pallet does.
//! However, since a dispute can conclude several sessions after the candidate
//! was backed (see `dispute_period` in `HostConfiguration`), we can't rely on
//! this information being available in the context of the current block. The
//! `babe` and `grandpa` equivocation handlers also have to deal with this
//! problem.
//!
//! Our implementation looks like a hybrid of `im-online` and `grandpa`
//! equivocation handlers. Meaning, we submit an `offence` for the concluded
//! disputes about the current session candidate directly from the runtime. If,
//! however, the dispute is about a past session, we record unapplied slashes on
//! chain, without `FullIdentification` of the offenders. Later on, a block
//! producer can submit an unsigned transaction with `KeyOwnershipProof` of an
//! offender and submit it to the runtime to produce an offence.
use crate::{disputes, initializer::ValidatorSetCount, session_info::IdentificationTuple};
use frame_support::{
dispatch::Pays,
traits::{Defensive, Get, KeyOwnerProofSystem, ValidatorSet, ValidatorSetWithIdentification},
weights::Weight,
};
use parity_scale_codec::{Decode, Encode};
use primitives::{CandidateHash, SessionIndex, ValidatorId, ValidatorIndex};
use scale_info::TypeInfo;
use sp_runtime::{
traits::Convert,
transaction_validity::{
InvalidTransaction, TransactionPriority, TransactionSource, TransactionValidity,
TransactionValidityError, ValidTransaction,
},
DispatchResult, KeyTypeId, Perbill, RuntimeDebug,
};
use sp_session::{GetSessionNumber, GetValidatorCount};
use sp_staking::offence::{DisableStrategy, Kind, Offence, OffenceError, ReportOffence};
use sp_std::{
collections::{
btree_map::{BTreeMap, Entry},
btree_set::BTreeSet,
},
prelude::*,
};
const LOG_TARGET: &str = "runtime::parachains::slashing";
// These are constants, but we want to make them configurable
// via `HostConfiguration` in the future.
const SLASH_FOR_INVALID: Perbill = Perbill::from_percent(100);
const SLASH_AGAINST_VALID: Perbill = Perbill::zero();
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const DEFENSIVE_PROOF: &'static str = "disputes module should bail on old session";
#[cfg(feature = "runtime-benchmarks")]
pub mod benchmarking;
/// The benchmarking configuration.
pub trait BenchmarkingConfiguration {
const MAX_VALIDATORS: u32;
}
pub struct BenchConfig<const M: u32>;
impl<const M: u32> BenchmarkingConfiguration for BenchConfig<M> {
const MAX_VALIDATORS: u32 = M;
}
/// Timeslots should uniquely identify offences and are used for the offence
/// deduplication.
#[derive(Eq, PartialEq, Ord, PartialOrd, Clone, Encode, Decode, TypeInfo, RuntimeDebug)]
pub struct DisputesTimeSlot {
// The order of these matters for `derive(Ord)`.
session_index: SessionIndex,
candidate_hash: CandidateHash,
}
impl DisputesTimeSlot {
pub fn new(session_index: SessionIndex, candidate_hash: CandidateHash) -> Self {
Self { session_index, candidate_hash }
}
}
/// An offence that is filed when a series of validators lost a dispute.
#[derive(RuntimeDebug, TypeInfo)]
#[cfg_attr(feature = "std", derive(Clone, PartialEq, Eq))]
pub struct SlashingOffence<KeyOwnerIdentification> {
/// The size of the validator set in that session.
pub validator_set_count: ValidatorSetCount,
/// Should be unique per dispute.
pub time_slot: DisputesTimeSlot,
/// Staking information about the validators that lost the dispute
/// needed for slashing.
pub offenders: Vec<KeyOwnerIdentification>,
/// What fraction of the total exposure that should be slashed for
/// this offence.
pub slash_fraction: Perbill,
/// Whether the candidate was valid or invalid.
pub kind: SlashingOffenceKind,
}
impl<Offender> Offence<Offender> for SlashingOffence<Offender>
where
Offender: Clone,
{
const ID: Kind = *b"disputes:slashin";
type TimeSlot = DisputesTimeSlot;
fn offenders(&self) -> Vec<Offender> {
self.offenders.clone()
}
fn session_index(&self) -> SessionIndex {
self.time_slot.session_index
}
fn validator_set_count(&self) -> ValidatorSetCount {
self.validator_set_count
}
fn time_slot(&self) -> Self::TimeSlot {
self.time_slot.clone()
}
fn disable_strategy(&self) -> DisableStrategy {
match self.kind {
SlashingOffenceKind::ForInvalid => DisableStrategy::Always,
// in the future we might change it based on number of disputes initiated:
// <https://github.com/paritytech/polkadot/issues/5946>
SlashingOffenceKind::AgainstValid => DisableStrategy::Never,
}
}
fn slash_fraction(&self, _offenders: u32) -> Perbill {
self.slash_fraction
}
}
impl<KeyOwnerIdentification> SlashingOffence<KeyOwnerIdentification> {
fn new(
session_index: SessionIndex,
candidate_hash: CandidateHash,
validator_set_count: ValidatorSetCount,
offenders: Vec<KeyOwnerIdentification>,
kind: SlashingOffenceKind,
) -> Self {
let time_slot = DisputesTimeSlot::new(session_index, candidate_hash);
let slash_fraction = match kind {
SlashingOffenceKind::ForInvalid => SLASH_FOR_INVALID,
SlashingOffenceKind::AgainstValid => SLASH_AGAINST_VALID,
};
Self { time_slot, validator_set_count, offenders, slash_fraction, kind }
}
}
/// This type implements `SlashingHandler`.
pub struct SlashValidatorsForDisputes<C> {
_phantom: sp_std::marker::PhantomData<C>,
}
impl<C> Default for SlashValidatorsForDisputes<C> {
fn default() -> Self {
Self { _phantom: Default::default() }
}
}
impl<T> SlashValidatorsForDisputes<Pallet<T>>
where
T: Config<KeyOwnerIdentification = IdentificationTuple<T>>,
{
/// If in the current session, returns the identified validators. `None`
/// otherwise.
fn maybe_identify_validators(
session_index: SessionIndex,
validators: impl IntoIterator<Item = ValidatorIndex>,
) -> Option<Vec<IdentificationTuple<T>>> {
// We use `ValidatorSet::session_index` and not
// `shared::Pallet<T>::session_index()` because at the first block of a new era,
// the `IdentificationOf` of a validator in the previous session might be
// missing, while `shared` pallet would return the same session index as being
// updated at the end of the block.
let current_session = T::ValidatorSet::session_index();
if session_index == current_session {
let account_keys = crate::session_info::Pallet::<T>::account_keys(session_index);
let account_ids = account_keys.defensive_unwrap_or_default();
let fully_identified = validators
.into_iter()
.flat_map(|i| account_ids.get(i.0 as usize).cloned())
.filter_map(|id| {
<T::ValidatorSet as ValidatorSetWithIdentification<T::AccountId>>::IdentificationOf::convert(
id.clone()
).map(|full_id| (id, full_id))
})
.collect::<Vec<IdentificationTuple<T>>>();
return Some(fully_identified)
}
None
}
fn do_punish(
session_index: SessionIndex,
candidate_hash: CandidateHash,
kind: SlashingOffenceKind,
losers: impl IntoIterator<Item = ValidatorIndex>,
backers: impl IntoIterator<Item = ValidatorIndex>,
// sanity check for the current implementation
if kind == SlashingOffenceKind::AgainstValid {
debug_assert!(false, "should only slash ForInvalid disputes");
return
}
let losers: BTreeSet<_> = losers.into_iter().collect();
let backers: BTreeSet<_> = backers.into_iter().collect();
let to_punish: Vec<ValidatorIndex> = losers.intersection(&backers).cloned().collect();
if to_punish.is_empty() {
return
}
let session_info = crate::session_info::Pallet::<T>::session_info(session_index);
let session_info = match session_info.defensive_proof(DEFENSIVE_PROOF) {
Some(info) => info,
None => return,
};
let maybe = Self::maybe_identify_validators(session_index, to_punish.iter().cloned());
if let Some(offenders) = maybe {
let validator_set_count = session_info.discovery_keys.len() as ValidatorSetCount;
let offence = SlashingOffence::new(
session_index,
candidate_hash,
validator_set_count,
offenders,
kind,
);
// This is the first time we report an offence for this dispute,
// so it is not a duplicate.
let _ = T::HandleReports::report_offence(offence);
return
}
.filter_map(|i| session_info.validators.get(i).cloned().map(|id| (i, id)))
.collect();
let unapplied = PendingSlashes { keys, kind };
let append = |old: &mut Option<PendingSlashes>| {
let old = old
.get_or_insert(PendingSlashes { keys: Default::default(), kind: unapplied.kind });
debug_assert_eq!(old.kind, unapplied.kind);
old.keys.extend(unapplied.keys)
};
<UnappliedSlashes<T>>::mutate(session_index, candidate_hash, append);
}
}
impl<T> disputes::SlashingHandler<T::BlockNumber> for SlashValidatorsForDisputes<Pallet<T>>
where
T: Config<KeyOwnerIdentification = IdentificationTuple<T>>,
{
fn punish_for_invalid(
session_index: SessionIndex,
candidate_hash: CandidateHash,
losers: impl IntoIterator<Item = ValidatorIndex>,
backers: impl IntoIterator<Item = ValidatorIndex>,
) {
let kind = SlashingOffenceKind::ForInvalid;
Self::do_punish(session_index, candidate_hash, kind, losers, backers);
_session_index: SessionIndex,
_candidate_hash: CandidateHash,
_losers: impl IntoIterator<Item = ValidatorIndex>,
_backers: impl IntoIterator<Item = ValidatorIndex>,
// do nothing for now
// NOTE: changing that requires modifying `do_punish` implementation
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}
fn initializer_initialize(now: T::BlockNumber) -> Weight {
Pallet::<T>::initializer_initialize(now)
}
fn initializer_finalize() {
Pallet::<T>::initializer_finalize()
}
fn initializer_on_new_session(session_index: SessionIndex) {
Pallet::<T>::initializer_on_new_session(session_index)
}
}
#[derive(PartialEq, Eq, Clone, Copy, Encode, Decode, RuntimeDebug, TypeInfo)]
pub enum SlashingOffenceKind {
#[codec(index = 0)]
ForInvalid,
#[codec(index = 1)]
AgainstValid,
}
/// We store most of the information about a lost dispute on chain. This struct
/// is required to identify and verify it.
#[derive(PartialEq, Eq, Clone, Encode, Decode, RuntimeDebug, TypeInfo)]
pub struct DisputeProof {
/// Time slot when the dispute occured.
pub time_slot: DisputesTimeSlot,
/// The dispute outcome.
pub kind: SlashingOffenceKind,
/// The index of the validator who lost a dispute.
pub validator_index: ValidatorIndex,
/// The parachain session key of the validator.
pub validator_id: ValidatorId,
}
/// Slashes that are waiting to be applied once we have validator key
/// identification.
#[derive(Encode, Decode, RuntimeDebug, TypeInfo)]
pub struct PendingSlashes {
/// Indices and keys of the validators who lost a dispute and are pending
/// slashes.
pub keys: BTreeMap<ValidatorIndex, ValidatorId>,
/// The dispute outcome.
pub kind: SlashingOffenceKind,
}
/// A trait that defines methods to report an offence (after the slashing report
/// has been validated) and for submitting a transaction to report a slash (from
/// an offchain context).
pub trait HandleReports<T: Config> {
/// The longevity, in blocks, that the offence report is valid for. When
/// using the staking pallet this should be equal to the bonding duration
/// (in blocks, not eras).
type ReportLongevity: Get<u64>;
/// Report an offence.
fn report_offence(
offence: SlashingOffence<T::KeyOwnerIdentification>,
) -> Result<(), OffenceError>;
/// Returns true if the offenders at the given time slot has already been
/// reported.
fn is_known_offence(
offenders: &[T::KeyOwnerIdentification],
time_slot: &DisputesTimeSlot,
) -> bool;
/// Create and dispatch a slashing report extrinsic.
/// This should be called offchain.
fn submit_unsigned_slashing_report(
dispute_proof: DisputeProof,
key_owner_proof: T::KeyOwnerProof,
) -> DispatchResult;
}
impl<T: Config> HandleReports<T> for () {
type ReportLongevity = ();
fn report_offence(
_offence: SlashingOffence<T::KeyOwnerIdentification>,
) -> Result<(), OffenceError> {
Ok(())
}
fn is_known_offence(
_offenders: &[T::KeyOwnerIdentification],
_time_slot: &DisputesTimeSlot,
) -> bool {
true
}
fn submit_unsigned_slashing_report(
_dispute_proof: DisputeProof,
_key_owner_proof: T::KeyOwnerProof,
) -> DispatchResult {
Ok(())
}
}
pub trait WeightInfo {
fn report_dispute_lost(validator_count: ValidatorSetCount) -> Weight;
}
pub struct TestWeightInfo;
impl WeightInfo for TestWeightInfo {
fn report_dispute_lost(_validator_count: ValidatorSetCount) -> Weight {
Weight::zero()
}
}
pub use pallet::*;
#[frame_support::pallet]
pub mod pallet {
use super::*;
use frame_support::pallet_prelude::*;
use frame_system::pallet_prelude::*;
#[pallet::config]
pub trait Config: frame_system::Config + crate::disputes::Config {
/// The proof of key ownership, used for validating slashing reports.
/// The proof must include the session index and validator count of the
/// session at which the offence occurred.
type KeyOwnerProof: Parameter + GetSessionNumber + GetValidatorCount;
/// The identification of a key owner, used when reporting slashes.
type KeyOwnerIdentification: Parameter;
/// A system for proving ownership of keys, i.e. that a given key was
/// part of a validator set, needed for validating slashing reports.
type KeyOwnerProofSystem: KeyOwnerProofSystem<
(KeyTypeId, ValidatorId),
Proof = Self::KeyOwnerProof,
IdentificationTuple = Self::KeyOwnerIdentification,
>;
/// The slashing report handling subsystem, defines methods to report an
/// offence (after the slashing report has been validated) and for
/// submitting a transaction to report a slash (from an offchain
/// context). NOTE: when enabling slashing report handling (i.e. this
/// type isn't set to `()`) you must use this pallet's
/// `ValidateUnsigned` in the runtime definition.
type HandleReports: HandleReports<Self>;
/// Weight information for extrinsics in this pallet.
type WeightInfo: WeightInfo;
/// Benchmarking configuration.
type BenchmarkingConfig: BenchmarkingConfiguration;
}
#[pallet::pallet]
#[pallet::without_storage_info]
pub struct Pallet<T>(_);
/// Validators pending dispute slashes.
#[pallet::storage]
pub(super) type UnappliedSlashes<T> = StorageDoubleMap<
_,
Twox64Concat,
SessionIndex,
Blake2_128Concat,
CandidateHash,
PendingSlashes,
>;
/// `ValidatorSetCount` per session.
#[pallet::storage]
pub(super) type ValidatorSetCounts<T> =
StorageMap<_, Twox64Concat, SessionIndex, ValidatorSetCount>;
#[pallet::error]
pub enum Error<T> {
/// The key ownership proof is invalid.
InvalidKeyOwnershipProof,
/// The session index is too old or invalid.
InvalidSessionIndex,
/// The candidate hash is invalid.
InvalidCandidateHash,
/// There is no pending slash for the given validator index and time
/// slot.
InvalidValidatorIndex,
/// The validator index does not match the validator id.
ValidatorIndexIdMismatch,
/// The given slashing report is valid but already previously reported.
DuplicateSlashingReport,
}
#[pallet::call]
impl<T: Config> Pallet<T> {
#[pallet::weight(<T as Config>::WeightInfo::report_dispute_lost(
key_owner_proof.validator_count()
))]
pub fn report_dispute_lost_unsigned(
origin: OriginFor<T>,
// box to decrease the size of the call
dispute_proof: Box<DisputeProof>,
key_owner_proof: T::KeyOwnerProof,
) -> DispatchResultWithPostInfo {
ensure_none(origin)?;
// check the membership proof to extract the offender's id
let key = (primitives::PARACHAIN_KEY_TYPE_ID, dispute_proof.validator_id.clone());
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let offender = T::KeyOwnerProofSystem::check_proof(key, key_owner_proof)
.ok_or(Error::<T>::InvalidKeyOwnershipProof)?;
let session_index = dispute_proof.time_slot.session_index;
let validator_set_count = crate::session_info::Pallet::<T>::session_info(session_index)
.ok_or(Error::<T>::InvalidSessionIndex)?
.discovery_keys
.len() as ValidatorSetCount;
// check that there is a pending slash for the given
// validator index and candidate hash
let candidate_hash = dispute_proof.time_slot.candidate_hash;
let try_remove = |v: &mut Option<PendingSlashes>| -> Result<(), DispatchError> {
let pending = v.as_mut().ok_or(Error::<T>::InvalidCandidateHash)?;
if pending.kind != dispute_proof.kind {
return Err(Error::<T>::InvalidCandidateHash.into())
}
match pending.keys.entry(dispute_proof.validator_index) {
Entry::Vacant(_) => return Err(Error::<T>::InvalidValidatorIndex.into()),
// check that `validator_index` matches `validator_id`
Entry::Occupied(e) if e.get() != &dispute_proof.validator_id =>
return Err(Error::<T>::ValidatorIndexIdMismatch.into()),
Entry::Occupied(e) => {
e.remove(); // the report is correct
},
}
// if the last validator is slashed for this dispute, clean up the storage
if pending.keys.is_empty() {
*v = None;
}
Ok(())
};
<UnappliedSlashes<T>>::try_mutate_exists(&session_index, &candidate_hash, try_remove)?;
let offence = SlashingOffence::new(
session_index,
candidate_hash,
validator_set_count,
vec![offender],
dispute_proof.kind,
);
<T::HandleReports as HandleReports<T>>::report_offence(offence)
.map_err(|_| Error::<T>::DuplicateSlashingReport)?;
Ok(Pays::No.into())
}
}
#[pallet::validate_unsigned]
impl<T: Config> ValidateUnsigned for Pallet<T> {
type Call = Call<T>;
fn validate_unsigned(source: TransactionSource, call: &Self::Call) -> TransactionValidity {
Self::validate_unsigned(source, call)
}
fn pre_dispatch(call: &Self::Call) -> Result<(), TransactionValidityError> {
Self::pre_dispatch(call)
}
}
}
impl<T: Config> Pallet<T> {
/// Called by the initializer to initialize the disputes slashing module.
fn initializer_initialize(_now: T::BlockNumber) -> Weight {
Weight::zero()
}
/// Called by the initializer to finalize the disputes slashing pallet.
fn initializer_finalize() {}
/// Called by the initializer to note a new session in the disputes slashing
/// pallet.
fn initializer_on_new_session(session_index: SessionIndex) {
// This should be small, as disputes are limited by spam slots, so no limit is
// fine.
const REMOVE_LIMIT: u32 = u32::MAX;
let config = <crate::configuration::Pallet<T>>::config();
if session_index <= config.dispute_period + 1 {
return
}
let old_session = session_index - config.dispute_period - 1;
let _ = <UnappliedSlashes<T>>::clear_prefix(old_session, REMOVE_LIMIT, None);
}
}
/// Methods for the `ValidateUnsigned` implementation:
///
/// It restricts calls to `report_dispute_lost_unsigned` to local calls (i.e.
/// extrinsics generated on this node) or that already in a block. This
/// guarantees that only block authors can include unsigned slashing reports.
impl<T: Config> Pallet<T> {
pub fn validate_unsigned(source: TransactionSource, call: &Call<T>) -> TransactionValidity {
if let Call::report_dispute_lost_unsigned { dispute_proof, key_owner_proof } = call {
// discard slashing report not coming from the local node
match source {
TransactionSource::Local | TransactionSource::InBlock => { /* allowed */ },
_ => {
log::warn!(
target: LOG_TARGET,
"rejecting unsigned transaction because it is not local/in-block."
);
return InvalidTransaction::Call.into()
},
}
// check report staleness
is_known_offence::<T>(dispute_proof, key_owner_proof)?;
let longevity = <T::HandleReports as HandleReports<T>>::ReportLongevity::get();
let tag_prefix = match dispute_proof.kind {
SlashingOffenceKind::ForInvalid => "DisputeForInvalid",
SlashingOffenceKind::AgainstValid => "DisputeAgainstValid",
};
ValidTransaction::with_tag_prefix(tag_prefix)
// We assign the maximum priority for any report.
.priority(TransactionPriority::max_value())
// Only one report for the same offender at the same slot.
.and_provides((dispute_proof.time_slot.clone(), dispute_proof.validator_id.clone()))
.longevity(longevity)
// We don't propagate this. This can never be included on a remote node.
.propagate(false)
.build()
} else {
InvalidTransaction::Call.into()
}
}
pub fn pre_dispatch(call: &Call<T>) -> Result<(), TransactionValidityError> {
if let Call::report_dispute_lost_unsigned { dispute_proof, key_owner_proof } = call {
is_known_offence::<T>(dispute_proof, key_owner_proof)
} else {
Err(InvalidTransaction::Call.into())
}
}
}
fn is_known_offence<T: Config>(
dispute_proof: &DisputeProof,
key_owner_proof: &T::KeyOwnerProof,
) -> Result<(), TransactionValidityError> {
// check the membership proof to extract the offender's id
let key = (primitives::PARACHAIN_KEY_TYPE_ID, dispute_proof.validator_id.clone());
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let offender = T::KeyOwnerProofSystem::check_proof(key, key_owner_proof.clone())
.ok_or(InvalidTransaction::BadProof)?;
// check if the offence has already been reported,
// and if so then we can discard the report.
let is_known_offence = <T::HandleReports as HandleReports<T>>::is_known_offence(
&[offender],
&dispute_proof.time_slot,
);
if is_known_offence {
Err(InvalidTransaction::Stale.into())
} else {
Ok(())
}
}
/// Actual `HandleReports` implemention.
///
/// When configured properly, should be instantiated with
/// `T::KeyOwnerIdentification, Offences, ReportLongevity` parameters.
pub struct SlashingReportHandler<I, R, L> {
_phantom: sp_std::marker::PhantomData<(I, R, L)>,
}
impl<I, R, L> Default for SlashingReportHandler<I, R, L> {
fn default() -> Self {
Self { _phantom: Default::default() }
}
}
impl<T, R, L> HandleReports<T> for SlashingReportHandler<T::KeyOwnerIdentification, R, L>
where
T: Config + frame_system::offchain::SendTransactionTypes<Call<T>>,
R: ReportOffence<
T::AccountId,
T::KeyOwnerIdentification,
SlashingOffence<T::KeyOwnerIdentification>,
>,
L: Get<u64>,
{
type ReportLongevity = L;
fn report_offence(
offence: SlashingOffence<T::KeyOwnerIdentification>,
) -> Result<(), OffenceError> {
let reporters = Vec::new();
R::report_offence(reporters, offence)
}
fn is_known_offence(
offenders: &[T::KeyOwnerIdentification],
time_slot: &DisputesTimeSlot,
) -> bool {
<R as ReportOffence<
T::AccountId,
T::KeyOwnerIdentification,
SlashingOffence<T::KeyOwnerIdentification>,
>>::is_known_offence(offenders, time_slot)
}
fn submit_unsigned_slashing_report(
dispute_proof: DisputeProof,
key_owner_proof: <T as Config>::KeyOwnerProof,
) -> DispatchResult {
use frame_system::offchain::SubmitTransaction;
let session_index = dispute_proof.time_slot.session_index;
let validator_index = dispute_proof.validator_index.0;
let kind = dispute_proof.kind;
let call = Call::report_dispute_lost_unsigned {
dispute_proof: Box::new(dispute_proof),
key_owner_proof,
};
match SubmitTransaction::<T, Call<T>>::submit_unsigned_transaction(call.into()) {
Ok(()) => log::info!(
target: LOG_TARGET,
"Submitted dispute slashing report, session({}), index({}), kind({:?})",
session_index,
validator_index,
kind,
),
Err(()) => log::error!(
target: LOG_TARGET,
"Error submitting dispute slashing report, session({}), index({}), kind({:?})",
session_index,
validator_index,
kind,
),
}
Ok(())
}
}