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mod.rs
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mod.rs
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// Copyright (C) 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/>.
//! Provides glue code over the scheduler and inclusion modules, and accepting
//! one inherent per block that can include new para candidates and bitfields.
//!
//! Unlike other modules in this crate, it does not need to be initialized by the initializer,
//! as it has no initialization logic and its finalization logic depends only on the details of
//! this module.
use crate::{
configuration,
disputes::DisputesHandler,
inclusion,
inclusion::CandidateCheckContext,
initializer,
metrics::METRICS,
paras,
scheduler::{
self,
common::{CoreAssignment, FreedReason},
},
shared, ParaId,
};
use bitvec::prelude::BitVec;
use frame_support::{
dispatch::{DispatchErrorWithPostInfo, PostDispatchInfo},
inherent::{InherentData, InherentIdentifier, MakeFatalError, ProvideInherent},
pallet_prelude::*,
traits::Randomness,
};
use frame_system::pallet_prelude::*;
use pallet_babe::{self, ParentBlockRandomness};
use primitives::{
BackedCandidate, CandidateHash, CandidateReceipt, CheckedDisputeStatementSet,
CheckedMultiDisputeStatementSet, CoreIndex, DisputeStatementSet,
InherentData as ParachainsInherentData, MultiDisputeStatementSet, ScrapedOnChainVotes,
SessionIndex, SignedAvailabilityBitfields, SigningContext, UncheckedSignedAvailabilityBitfield,
UncheckedSignedAvailabilityBitfields, ValidatorId, ValidatorIndex, ValidityAttestation,
PARACHAINS_INHERENT_IDENTIFIER,
};
use rand::{seq::SliceRandom, SeedableRng};
use scale_info::TypeInfo;
use sp_runtime::traits::{Header as HeaderT, One};
use sp_std::{
collections::{btree_map::BTreeMap, btree_set::BTreeSet},
prelude::*,
vec::Vec,
};
mod misc;
mod weights;
use self::weights::checked_multi_dispute_statement_sets_weight;
pub use self::{
misc::{IndexedRetain, IsSortedBy},
weights::{
backed_candidate_weight, backed_candidates_weight, dispute_statement_set_weight,
multi_dispute_statement_sets_weight, paras_inherent_total_weight, signed_bitfield_weight,
signed_bitfields_weight, TestWeightInfo, WeightInfo,
},
};
#[cfg(feature = "runtime-benchmarks")]
mod benchmarking;
#[cfg(test)]
mod tests;
const LOG_TARGET: &str = "runtime::inclusion-inherent";
/// A bitfield concerning concluded disputes for candidates
/// associated to the core index equivalent to the bit position.
#[derive(Default, PartialEq, Eq, Clone, Encode, Decode, RuntimeDebug, TypeInfo)]
pub(crate) struct DisputedBitfield(pub(crate) BitVec<u8, bitvec::order::Lsb0>);
impl From<BitVec<u8, bitvec::order::Lsb0>> for DisputedBitfield {
fn from(inner: BitVec<u8, bitvec::order::Lsb0>) -> Self {
Self(inner)
}
}
#[cfg(test)]
impl DisputedBitfield {
/// Create a new bitfield, where each bit is set to `false`.
pub fn zeros(n: usize) -> Self {
Self::from(BitVec::<u8, bitvec::order::Lsb0>::repeat(false, n))
}
}
/// The context in which the inherent data is checked or processed.
#[derive(PartialEq)]
pub enum ProcessInherentDataContext {
/// Enables filtering/limits weight of inherent up to maximum block weight.
/// Invariant: InherentWeight <= BlockWeight.
ProvideInherent,
/// Checks the InherentWeight invariant.
Enter,
}
pub use pallet::*;
#[frame_support::pallet]
pub mod pallet {
use super::*;
#[pallet::pallet]
#[pallet::without_storage_info]
pub struct Pallet<T>(_);
#[pallet::config]
#[pallet::disable_frame_system_supertrait_check]
pub trait Config:
inclusion::Config + scheduler::Config + initializer::Config + pallet_babe::Config
{
/// Weight information for extrinsics in this pallet.
type WeightInfo: WeightInfo;
}
#[pallet::error]
pub enum Error<T> {
/// Inclusion inherent called more than once per block.
TooManyInclusionInherents,
/// The hash of the submitted parent header doesn't correspond to the saved block hash of
/// the parent.
InvalidParentHeader,
/// Disputed candidate that was concluded invalid.
CandidateConcludedInvalid,
/// The data given to the inherent will result in an overweight block.
InherentOverweight,
/// The ordering of dispute statements was invalid.
DisputeStatementsUnsortedOrDuplicates,
/// A dispute statement was invalid.
DisputeInvalid,
}
/// Whether the paras inherent was included within this block.
///
/// The `Option<()>` is effectively a `bool`, but it never hits storage in the `None` variant
/// due to the guarantees of FRAME's storage APIs.
///
/// If this is `None` at the end of the block, we panic and render the block invalid.
#[pallet::storage]
pub(crate) type Included<T> = StorageValue<_, ()>;
/// Scraped on chain data for extracting resolved disputes as well as backing votes.
#[pallet::storage]
#[pallet::getter(fn on_chain_votes)]
pub(crate) type OnChainVotes<T: Config> = StorageValue<_, ScrapedOnChainVotes<T::Hash>>;
/// Update the disputes statements set part of the on-chain votes.
pub(crate) fn set_scrapable_on_chain_disputes<T: Config>(
session: SessionIndex,
checked_disputes: CheckedMultiDisputeStatementSet,
) {
crate::paras_inherent::OnChainVotes::<T>::mutate(move |value| {
let disputes =
checked_disputes.into_iter().map(DisputeStatementSet::from).collect::<Vec<_>>();
let backing_validators_per_candidate = match value.take() {
Some(v) => v.backing_validators_per_candidate,
None => Vec::new(),
};
*value = Some(ScrapedOnChainVotes::<T::Hash> {
backing_validators_per_candidate,
disputes,
session,
});
})
}
/// Update the backing votes including part of the on-chain votes.
pub(crate) fn set_scrapable_on_chain_backings<T: Config>(
session: SessionIndex,
backing_validators_per_candidate: Vec<(
CandidateReceipt<T::Hash>,
Vec<(ValidatorIndex, ValidityAttestation)>,
)>,
) {
crate::paras_inherent::OnChainVotes::<T>::mutate(move |value| {
let disputes = match value.take() {
Some(v) => v.disputes,
None => MultiDisputeStatementSet::default(),
};
*value = Some(ScrapedOnChainVotes::<T::Hash> {
backing_validators_per_candidate,
disputes,
session,
});
})
}
#[pallet::hooks]
impl<T: Config> Hooks<BlockNumberFor<T>> for Pallet<T> {
fn on_initialize(_: BlockNumberFor<T>) -> Weight {
T::DbWeight::get().reads_writes(1, 1) // in `on_finalize`.
}
fn on_finalize(_: BlockNumberFor<T>) {
if Included::<T>::take().is_none() {
panic!("Bitfields and heads must be included every block");
}
}
}
#[pallet::inherent]
impl<T: Config> ProvideInherent for Pallet<T> {
type Call = Call<T>;
type Error = MakeFatalError<()>;
const INHERENT_IDENTIFIER: InherentIdentifier = PARACHAINS_INHERENT_IDENTIFIER;
fn create_inherent(data: &InherentData) -> Option<Self::Call> {
let inherent_data = Self::create_inherent_inner(data)?;
Some(Call::enter { data: inherent_data })
}
fn is_inherent(call: &Self::Call) -> bool {
matches!(call, Call::enter { .. })
}
}
/// Collect all freed cores based on storage data. (i.e. append cores freed from timeouts to
/// the given `freed_concluded`).
///
/// The parameter `freed_concluded` contains all core indicies that became
/// free due to candidate that became available.
pub(crate) fn collect_all_freed_cores<T, I>(
freed_concluded: I,
) -> BTreeMap<CoreIndex, FreedReason>
where
I: core::iter::IntoIterator<Item = (CoreIndex, CandidateHash)>,
T: Config,
{
// Handle timeouts for any availability core work.
let availability_pred = <scheduler::Pallet<T>>::availability_timeout_predicate();
let freed_timeout = if let Some(pred) = availability_pred {
<inclusion::Pallet<T>>::collect_pending(pred)
} else {
Vec::new()
};
// Schedule paras again, given freed cores, and reasons for freeing.
let freed = freed_concluded
.into_iter()
.map(|(c, _hash)| (c, FreedReason::Concluded))
.chain(freed_timeout.into_iter().map(|c| (c, FreedReason::TimedOut)))
.collect::<BTreeMap<CoreIndex, FreedReason>>();
freed
}
#[pallet::call]
impl<T: Config> Pallet<T> {
/// Enter the paras inherent. This will process bitfields and backed candidates.
#[pallet::call_index(0)]
#[pallet::weight((
paras_inherent_total_weight::<T>(
data.backed_candidates.as_slice(),
&data.bitfields,
&data.disputes,
),
DispatchClass::Mandatory,
))]
pub fn enter(
origin: OriginFor<T>,
data: ParachainsInherentData<HeaderFor<T>>,
) -> DispatchResultWithPostInfo {
ensure_none(origin)?;
ensure!(!Included::<T>::exists(), Error::<T>::TooManyInclusionInherents);
Included::<T>::set(Some(()));
Self::process_inherent_data(data, ProcessInherentDataContext::Enter)
.map(|(_processed, post_info)| post_info)
}
}
}
impl<T: Config> Pallet<T> {
/// Create the `ParachainsInherentData` that gets passed to [`Self::enter`] in
/// [`Self::create_inherent`]. This code is pulled out of [`Self::create_inherent`] so it can be
/// unit tested.
fn create_inherent_inner(data: &InherentData) -> Option<ParachainsInherentData<HeaderFor<T>>> {
let parachains_inherent_data = match data.get_data(&Self::INHERENT_IDENTIFIER) {
Ok(Some(d)) => d,
Ok(None) => return None,
Err(_) => {
log::warn!(target: LOG_TARGET, "ParachainsInherentData failed to decode");
return None
},
};
match Self::process_inherent_data(
parachains_inherent_data,
ProcessInherentDataContext::ProvideInherent,
) {
Ok((processed, _)) => Some(processed),
Err(err) => {
log::warn!(target: LOG_TARGET, "Processing inherent data failed: {:?}", err);
None
},
}
}
/// Process inherent data.
///
/// The given inherent data is processed and state is altered accordingly. If any data could
/// not be applied (inconsitencies, weight limit, ...) it is removed.
///
/// When called from `create_inherent` the `context` must be set to
/// `ProcessInherentDataContext::ProvideInherent` so it guarantees the invariant that inherent
/// is not overweight.
/// It is **mandatory** that calls from `enter` set `context` to
/// `ProcessInherentDataContext::Enter` to ensure the weight invariant is checked.
///
/// Returns: Result containing processed inherent data and weight, the processed inherent would
/// consume.
fn process_inherent_data(
data: ParachainsInherentData<HeaderFor<T>>,
context: ProcessInherentDataContext,
) -> sp_std::result::Result<
(ParachainsInherentData<HeaderFor<T>>, PostDispatchInfo),
DispatchErrorWithPostInfo,
> {
#[cfg(feature = "runtime-metrics")]
sp_io::init_tracing();
let ParachainsInherentData {
mut bitfields,
mut backed_candidates,
parent_header,
mut disputes,
} = data;
log::debug!(
target: LOG_TARGET,
"[process_inherent_data] bitfields.len(): {}, backed_candidates.len(): {}, disputes.len() {}",
bitfields.len(),
backed_candidates.len(),
disputes.len()
);
let parent_hash = <frame_system::Pallet<T>>::parent_hash();
ensure!(
parent_header.hash().as_ref() == parent_hash.as_ref(),
Error::<T>::InvalidParentHeader,
);
let now = <frame_system::Pallet<T>>::block_number();
let config = <configuration::Pallet<T>>::config();
// Before anything else, update the allowed relay-parents.
{
let parent_number = now - One::one();
let parent_storage_root = *parent_header.state_root();
shared::AllowedRelayParents::<T>::mutate(|tracker| {
tracker.update(
parent_hash,
parent_storage_root,
parent_number,
config.async_backing_params.allowed_ancestry_len,
);
});
}
let allowed_relay_parents = <shared::Pallet<T>>::allowed_relay_parents();
let candidates_weight = backed_candidates_weight::<T>(&backed_candidates);
let bitfields_weight = signed_bitfields_weight::<T>(&bitfields);
let disputes_weight = multi_dispute_statement_sets_weight::<T>(&disputes);
let all_weight_before = candidates_weight + bitfields_weight + disputes_weight;
METRICS.on_before_filter(all_weight_before.ref_time());
log::debug!(target: LOG_TARGET, "Size before filter: {}, candidates + bitfields: {}, disputes: {}", all_weight_before.proof_size(), candidates_weight.proof_size() + bitfields_weight.proof_size(), disputes_weight.proof_size());
log::debug!(target: LOG_TARGET, "Time weight before filter: {}, candidates + bitfields: {}, disputes: {}", all_weight_before.ref_time(), candidates_weight.ref_time() + bitfields_weight.ref_time(), disputes_weight.ref_time());
let current_session = <shared::Pallet<T>>::session_index();
let expected_bits = <scheduler::Pallet<T>>::availability_cores().len();
let validator_public = shared::Pallet::<T>::active_validator_keys();
// We are assuming (incorrectly) to have all the weight (for the mandatory class or even
// full block) available to us. This can lead to slightly overweight blocks, which still
// works as the dispatch class for `enter` is `Mandatory`. By using the `Mandatory`
// dispatch class, the upper layers impose no limit on the weight of this inherent, instead
// we limit ourselves and make sure to stay within reasonable bounds. It might make sense
// to subtract BlockWeights::base_block to reduce chances of becoming overweight.
let max_block_weight = {
let dispatch_class = DispatchClass::Mandatory;
let max_block_weight_full = <T as frame_system::Config>::BlockWeights::get();
log::debug!(target: LOG_TARGET, "Max block weight: {}", max_block_weight_full.max_block);
// Get max block weight for the mandatory class if defined, otherwise total max weight
// of the block.
let max_weight = max_block_weight_full
.per_class
.get(dispatch_class)
.max_total
.unwrap_or(max_block_weight_full.max_block);
log::debug!(target: LOG_TARGET, "Used max block time weight: {}", max_weight);
let max_block_size_full = <T as frame_system::Config>::BlockLength::get();
let max_block_size = max_block_size_full.max.get(dispatch_class);
log::debug!(target: LOG_TARGET, "Used max block size: {}", max_block_size);
// Adjust proof size to max block size as we are tracking tx size.
max_weight.set_proof_size(*max_block_size as u64)
};
log::debug!(target: LOG_TARGET, "Used max block weight: {}", max_block_weight);
let entropy = compute_entropy::<T>(parent_hash);
let mut rng = rand_chacha::ChaChaRng::from_seed(entropy.into());
// Filter out duplicates and continue.
if let Err(()) = T::DisputesHandler::deduplicate_and_sort_dispute_data(&mut disputes) {
log::debug!(target: LOG_TARGET, "Found duplicate statement sets, retaining the first");
}
let post_conclusion_acceptance_period = config.dispute_post_conclusion_acceptance_period;
let dispute_statement_set_valid = move |set: DisputeStatementSet| {
T::DisputesHandler::filter_dispute_data(set, post_conclusion_acceptance_period)
};
// Limit the disputes first, since the following statements depend on the votes include
// here.
let (checked_disputes_sets, checked_disputes_sets_consumed_weight) =
limit_and_sanitize_disputes::<T, _>(
disputes,
dispute_statement_set_valid,
max_block_weight,
);
let all_weight_after = if context == ProcessInherentDataContext::ProvideInherent {
// Assure the maximum block weight is adhered, by limiting bitfields and backed
// candidates. Dispute statement sets were already limited before.
let non_disputes_weight = apply_weight_limit::<T>(
&mut backed_candidates,
&mut bitfields,
max_block_weight.saturating_sub(checked_disputes_sets_consumed_weight),
&mut rng,
);
let all_weight_after =
non_disputes_weight.saturating_add(checked_disputes_sets_consumed_weight);
METRICS.on_after_filter(all_weight_after.ref_time());
log::debug!(
target: LOG_TARGET,
"[process_inherent_data] after filter: bitfields.len(): {}, backed_candidates.len(): {}, checked_disputes_sets.len() {}",
bitfields.len(),
backed_candidates.len(),
checked_disputes_sets.len()
);
log::debug!(target: LOG_TARGET, "Size after filter: {}, candidates + bitfields: {}, disputes: {}", all_weight_after.proof_size(), non_disputes_weight.proof_size(), checked_disputes_sets_consumed_weight.proof_size());
log::debug!(target: LOG_TARGET, "Time weight after filter: {}, candidates + bitfields: {}, disputes: {}", all_weight_after.ref_time(), non_disputes_weight.ref_time(), checked_disputes_sets_consumed_weight.ref_time());
if all_weight_after.any_gt(max_block_weight) {
log::warn!(target: LOG_TARGET, "Post weight limiting weight is still too large, time: {}, size: {}", all_weight_after.ref_time(), all_weight_after.proof_size());
}
all_weight_after
} else {
// This check is performed in the context of block execution. Ensures inherent weight
// invariants guaranteed by `create_inherent_data` for block authorship.
if all_weight_before.any_gt(max_block_weight) {
log::error!(
"Overweight para inherent data reached the runtime {:?}: {} > {}",
parent_hash,
all_weight_before,
max_block_weight
);
}
ensure!(all_weight_before.all_lte(max_block_weight), Error::<T>::InherentOverweight);
all_weight_before
};
// Note that `process_checked_multi_dispute_data` will iterate and import each
// dispute; so the input here must be reasonably bounded,
// which is guaranteed by the checks and weight limitation above.
// We don't care about fresh or not disputes
// this writes them to storage, so let's query it via those means
// if this fails for whatever reason, that's ok.
if let Err(e) =
T::DisputesHandler::process_checked_multi_dispute_data(&checked_disputes_sets)
{
log::warn!(target: LOG_TARGET, "MultiDisputesData failed to update: {:?}", e);
};
METRICS.on_disputes_imported(checked_disputes_sets.len() as u64);
set_scrapable_on_chain_disputes::<T>(current_session, checked_disputes_sets.clone());
if T::DisputesHandler::is_frozen() {
// Relay chain freeze, at this point we will not include any parachain blocks.
METRICS.on_relay_chain_freeze();
let disputes = checked_disputes_sets
.into_iter()
.map(|checked| checked.into())
.collect::<Vec<_>>();
let processed = ParachainsInherentData {
bitfields: Vec::new(),
backed_candidates: Vec::new(),
disputes,
parent_header,
};
// The relay chain we are currently on is invalid. Proceed no further on parachains.
return Ok((processed, Some(checked_disputes_sets_consumed_weight).into()))
}
// Contains the disputes that are concluded in the current session only,
// since these are the only ones that are relevant for the occupied cores
// and lightens the load on `collect_disputed` significantly.
// Cores can't be occupied with candidates of the previous sessions, and only
// things with new votes can have just concluded. We only need to collect
// cores with disputes that conclude just now, because disputes that
// concluded longer ago have already had any corresponding cores cleaned up.
let current_concluded_invalid_disputes = checked_disputes_sets
.iter()
.map(AsRef::as_ref)
.filter(|dss| dss.session == current_session)
.map(|dss| (dss.session, dss.candidate_hash))
.filter(|(session, candidate)| {
<T>::DisputesHandler::concluded_invalid(*session, *candidate)
})
.map(|(_session, candidate)| candidate)
.collect::<BTreeSet<CandidateHash>>();
let freed_disputed: BTreeMap<CoreIndex, FreedReason> =
<inclusion::Pallet<T>>::collect_disputed(¤t_concluded_invalid_disputes)
.into_iter()
.map(|core| (core, FreedReason::Concluded))
.collect();
// Create a bit index from the set of core indices where each index corresponds to
// a core index that was freed due to a dispute.
//
// I.e. 010100 would indicate, the candidates on Core 1 and 3 would be disputed.
let disputed_bitfield = create_disputed_bitfield(expected_bits, freed_disputed.keys());
if !freed_disputed.is_empty() {
<scheduler::Pallet<T>>::update_claimqueue(freed_disputed.clone(), now);
}
let bitfields = sanitize_bitfields::<T>(
bitfields,
disputed_bitfield,
expected_bits,
parent_hash,
current_session,
&validator_public[..],
);
METRICS.on_bitfields_processed(bitfields.len() as u64);
// Process new availability bitfields, yielding any availability cores whose
// work has now concluded.
let freed_concluded =
<inclusion::Pallet<T>>::update_pending_availability_and_get_freed_cores::<_>(
expected_bits,
&validator_public[..],
bitfields.clone(),
<scheduler::Pallet<T>>::core_para,
);
// Inform the disputes module of all included candidates.
for (_, candidate_hash) in &freed_concluded {
T::DisputesHandler::note_included(current_session, *candidate_hash, now);
}
METRICS.on_candidates_included(freed_concluded.len() as u64);
let freed = collect_all_freed_cores::<T, _>(freed_concluded.iter().cloned());
let scheduled = <scheduler::Pallet<T>>::update_claimqueue(freed, now);
METRICS.on_candidates_processed_total(backed_candidates.len() as u64);
let backed_candidates = sanitize_backed_candidates::<T, _>(
backed_candidates,
|candidate_idx: usize,
backed_candidate: &BackedCandidate<<T as frame_system::Config>::Hash>|
-> bool {
let para_id = backed_candidate.descriptor().para_id;
let prev_context = <paras::Pallet<T>>::para_most_recent_context(para_id);
let check_ctx = CandidateCheckContext::<T>::new(prev_context);
// never include a concluded-invalid candidate
current_concluded_invalid_disputes.contains(&backed_candidate.hash()) ||
// Instead of checking the candidates with code upgrades twice
// move the checking up here and skip it in the training wheels fallback.
// That way we avoid possible duplicate checks while assuring all
// backed candidates fine to pass on.
//
// NOTE: this is the only place where we check the relay-parent.
check_ctx
.verify_backed_candidate(&allowed_relay_parents, candidate_idx, backed_candidate)
.is_err()
},
&scheduled[..],
);
METRICS.on_candidates_sanitized(backed_candidates.len() as u64);
// Process backed candidates according to scheduled cores.
let inclusion::ProcessedCandidates::<<HeaderFor<T> as HeaderT>::Hash> {
core_indices: occupied,
candidate_receipt_with_backing_validator_indices,
} = <inclusion::Pallet<T>>::process_candidates(
&allowed_relay_parents,
backed_candidates.clone(),
scheduled,
<scheduler::Pallet<T>>::group_validators,
)?;
// Note which of the scheduled cores were actually occupied by a backed candidate.
<scheduler::Pallet<T>>::occupied(occupied.into_iter().map(|e| (e.0, e.1)).collect());
set_scrapable_on_chain_backings::<T>(
current_session,
candidate_receipt_with_backing_validator_indices,
);
let disputes = checked_disputes_sets
.into_iter()
.map(|checked| checked.into())
.collect::<Vec<_>>();
let bitfields = bitfields.into_iter().map(|v| v.into_unchecked()).collect();
let processed =
ParachainsInherentData { bitfields, backed_candidates, disputes, parent_header };
Ok((processed, Some(all_weight_after).into()))
}
}
/// Derive a bitfield from dispute
pub(super) fn create_disputed_bitfield<'a, I>(
expected_bits: usize,
freed_cores: I,
) -> DisputedBitfield
where
I: 'a + IntoIterator<Item = &'a CoreIndex>,
{
let mut bitvec = BitVec::repeat(false, expected_bits);
for core_idx in freed_cores {
let core_idx = core_idx.0 as usize;
if core_idx < expected_bits {
bitvec.set(core_idx, true);
}
}
DisputedBitfield::from(bitvec)
}
/// Select a random subset, with preference for certain indices.
///
/// Adds random items to the set until all candidates
/// are tried or the remaining weight is depleted.
///
/// Returns the weight of all selected items from `selectables`
/// as well as their indices in ascending order.
fn random_sel<X, F: Fn(&X) -> Weight>(
rng: &mut rand_chacha::ChaChaRng,
selectables: &[X],
mut preferred_indices: Vec<usize>,
weight_fn: F,
weight_limit: Weight,
) -> (Weight, Vec<usize>) {
if selectables.is_empty() {
return (Weight::zero(), Vec::new())
}
// all indices that are not part of the preferred set
let mut indices = (0..selectables.len())
.into_iter()
.filter(|idx| !preferred_indices.contains(idx))
.collect::<Vec<_>>();
let mut picked_indices = Vec::with_capacity(selectables.len().saturating_sub(1));
let mut weight_acc = Weight::zero();
preferred_indices.shuffle(rng);
for preferred_idx in preferred_indices {
// preferred indices originate from outside
if let Some(item) = selectables.get(preferred_idx) {
let updated = weight_acc.saturating_add(weight_fn(item));
if updated.any_gt(weight_limit) {
continue
}
weight_acc = updated;
picked_indices.push(preferred_idx);
}
}
indices.shuffle(rng);
for idx in indices {
let item = &selectables[idx];
let updated = weight_acc.saturating_add(weight_fn(item));
if updated.any_gt(weight_limit) {
continue
}
weight_acc = updated;
picked_indices.push(idx);
}
// sorting indices, so the ordering is retained
// unstable sorting is fine, since there are no duplicates in indices
// and even if there were, they don't have an identity
picked_indices.sort_unstable();
(weight_acc, picked_indices)
}
/// Considers an upper threshold that the inherent data must not exceed.
///
/// If there is sufficient space, all bitfields and all candidates
/// will be included.
///
/// Otherwise tries to include all disputes, and then tries to fill the remaining space with
/// bitfields and then candidates.
///
/// The selection process is random. For candidates, there is an exception for code upgrades as they
/// are preferred. And for disputes, local and older disputes are preferred (see
/// `limit_and_sanitize_disputes`). for backed candidates, since with a increasing number of
/// parachains their chances of inclusion become slim. All backed candidates are checked
/// beforehands in `fn create_inherent_inner` which guarantees sanity.
///
/// Assumes disputes are already filtered by the time this is called.
///
/// Returns the total weight consumed by `bitfields` and `candidates`.
fn apply_weight_limit<T: Config + inclusion::Config>(
candidates: &mut Vec<BackedCandidate<<T>::Hash>>,
bitfields: &mut UncheckedSignedAvailabilityBitfields,
max_consumable_weight: Weight,
rng: &mut rand_chacha::ChaChaRng,
) -> Weight {
let total_candidates_weight = backed_candidates_weight::<T>(candidates.as_slice());
let total_bitfields_weight = signed_bitfields_weight::<T>(&bitfields);
let total = total_bitfields_weight.saturating_add(total_candidates_weight);
// candidates + bitfields fit into the block
if max_consumable_weight.all_gte(total) {
return total
}
// Prefer code upgrades, they tend to be large and hence stand no chance to be picked
// late while maintaining the weight bounds.
let preferred_indices = candidates
.iter()
.enumerate()
.filter_map(|(idx, candidate)| {
candidate.candidate.commitments.new_validation_code.as_ref().map(|_code| idx)
})
.collect::<Vec<usize>>();
// There is weight remaining to be consumed by a subset of candidates
// which are going to be picked now.
if let Some(max_consumable_by_candidates) =
max_consumable_weight.checked_sub(&total_bitfields_weight)
{
let (acc_candidate_weight, indices) =
random_sel::<BackedCandidate<<T as frame_system::Config>::Hash>, _>(
rng,
&candidates,
preferred_indices,
|c| backed_candidate_weight::<T>(c),
max_consumable_by_candidates,
);
log::debug!(target: LOG_TARGET, "Indices Candidates: {:?}, size: {}", indices, candidates.len());
candidates.indexed_retain(|idx, _backed_candidate| indices.binary_search(&idx).is_ok());
// pick all bitfields, and
// fill the remaining space with candidates
let total_consumed = acc_candidate_weight.saturating_add(total_bitfields_weight);
return total_consumed
}
candidates.clear();
// insufficient space for even the bitfields alone, so only try to fit as many of those
// into the block and skip the candidates entirely
let (total_consumed, indices) = random_sel::<UncheckedSignedAvailabilityBitfield, _>(
rng,
&bitfields,
vec![],
|bitfield| signed_bitfield_weight::<T>(&bitfield),
max_consumable_weight,
);
log::debug!(target: LOG_TARGET, "Indices Bitfields: {:?}, size: {}", indices, bitfields.len());
bitfields.indexed_retain(|idx, _bitfield| indices.binary_search(&idx).is_ok());
total_consumed
}
/// Filter bitfields based on freed core indices, validity, and other sanity checks.
///
/// Do sanity checks on the bitfields:
///
/// 1. no more than one bitfield per validator
/// 2. bitfields are ascending by validator index.
/// 3. each bitfield has exactly `expected_bits`
/// 4. signature is valid
/// 5. remove any disputed core indices
///
/// If any of those is not passed, the bitfield is dropped.
pub(crate) fn sanitize_bitfields<T: crate::inclusion::Config>(
unchecked_bitfields: UncheckedSignedAvailabilityBitfields,
disputed_bitfield: DisputedBitfield,
expected_bits: usize,
parent_hash: T::Hash,
session_index: SessionIndex,
validators: &[ValidatorId],
) -> SignedAvailabilityBitfields {
let mut bitfields = Vec::with_capacity(unchecked_bitfields.len());
let mut last_index: Option<ValidatorIndex> = None;
if disputed_bitfield.0.len() != expected_bits {
// This is a system logic error that should never occur, but we want to handle it gracefully
// so we just drop all bitfields
log::error!(target: LOG_TARGET, "BUG: disputed_bitfield != expected_bits");
return vec![]
}
let all_zeros = BitVec::<u8, bitvec::order::Lsb0>::repeat(false, expected_bits);
let signing_context = SigningContext { parent_hash, session_index };
for unchecked_bitfield in unchecked_bitfields {
// Find and skip invalid bitfields.
if unchecked_bitfield.unchecked_payload().0.len() != expected_bits {
log::trace!(
target: LOG_TARGET,
"bad bitfield length: {} != {:?}",
unchecked_bitfield.unchecked_payload().0.len(),
expected_bits,
);
continue
}
if unchecked_bitfield.unchecked_payload().0.clone() & disputed_bitfield.0.clone() !=
all_zeros
{
log::trace!(
target: LOG_TARGET,
"bitfield contains disputed cores: {:?}",
unchecked_bitfield.unchecked_payload().0.clone() & disputed_bitfield.0.clone()
);
continue
}
let validator_index = unchecked_bitfield.unchecked_validator_index();
if !last_index.map_or(true, |last_index: ValidatorIndex| last_index < validator_index) {
log::trace!(
target: LOG_TARGET,
"bitfield validator index is not greater than last: !({:?} < {})",
last_index.as_ref().map(|x| x.0),
validator_index.0
);
continue
}
if unchecked_bitfield.unchecked_validator_index().0 as usize >= validators.len() {
log::trace!(
target: LOG_TARGET,
"bitfield validator index is out of bounds: {} >= {}",
validator_index.0,
validators.len(),
);
continue
}
let validator_public = &validators[validator_index.0 as usize];
// Validate bitfield signature.
if let Ok(signed_bitfield) =
unchecked_bitfield.try_into_checked(&signing_context, validator_public)
{
bitfields.push(signed_bitfield);
METRICS.on_valid_bitfield_signature();
} else {
log::warn!(target: LOG_TARGET, "Invalid bitfield signature");
METRICS.on_invalid_bitfield_signature();
};
last_index = Some(validator_index);
}
bitfields
}
/// Filter out any candidates that have a concluded invalid dispute.
///
/// `scheduled` follows the same naming scheme as provided in the
/// guide: Currently `free` but might become `occupied`.
/// For the filtering here the relevant part is only the current `free`
/// state.
///
/// `candidate_has_concluded_invalid_dispute` must return `true` if the candidate
/// is disputed, false otherwise. The passed `usize` is the candidate index.
///
/// The returned `Vec` is sorted according to the occupied core index.
fn sanitize_backed_candidates<
T: crate::inclusion::Config,
F: FnMut(usize, &BackedCandidate<T::Hash>) -> bool,
>(
mut backed_candidates: Vec<BackedCandidate<T::Hash>>,
mut candidate_has_concluded_invalid_dispute_or_is_invalid: F,
scheduled: &[CoreAssignment<BlockNumberFor<T>>],
) -> Vec<BackedCandidate<T::Hash>> {
// Remove any candidates that were concluded invalid.
// This does not assume sorting.
backed_candidates.indexed_retain(move |candidate_idx, backed_candidate| {
!candidate_has_concluded_invalid_dispute_or_is_invalid(candidate_idx, backed_candidate)
});
let scheduled_paras_to_core_idx = scheduled
.into_iter()
.map(|core_assignment| (core_assignment.paras_entry.para_id(), core_assignment.core))
.collect::<BTreeMap<ParaId, CoreIndex>>();
// Assure the backed candidate's `ParaId`'s core is free.
// This holds under the assumption that `Scheduler::schedule` is called _before_.
// We don't check the relay-parent because this is done in the closure when
// constructing the inherent and during actual processing otherwise.
backed_candidates.retain(|backed_candidate| {
let desc = backed_candidate.descriptor();
scheduled_paras_to_core_idx.get(&desc.para_id).is_some()
});
// Sort the `Vec` last, once there is a guarantee that these
// `BackedCandidates` references the expected relay chain parent,
// but more importantly are scheduled for a free core.
// This both avoids extra work for obviously invalid candidates,
// but also allows this to be done in place.
backed_candidates.sort_by(|x, y| {
// Never panics, since we filtered all panic arguments out in the previous `fn retain`.
scheduled_paras_to_core_idx[&x.descriptor().para_id]
.cmp(&scheduled_paras_to_core_idx[&y.descriptor().para_id])
});
backed_candidates
}
/// Derive entropy from babe provided per block randomness.
///
/// In the odd case none is available, uses the `parent_hash` and
/// a const value, while emitting a warning.
fn compute_entropy<T: Config>(parent_hash: T::Hash) -> [u8; 32] {
const CANDIDATE_SEED_SUBJECT: [u8; 32] = *b"candidate-seed-selection-subject";
// NOTE: this is slightly gameable since this randomness was already public
// by the previous block, while for the block author this randomness was
// known 2 epochs ago. it is marginally better than using the parent block
// hash since it's harder to influence the VRF output than the block hash.
let vrf_random = ParentBlockRandomness::<T>::random(&CANDIDATE_SEED_SUBJECT[..]).0;
let mut entropy: [u8; 32] = CANDIDATE_SEED_SUBJECT;
if let Some(vrf_random) = vrf_random {
entropy.as_mut().copy_from_slice(vrf_random.as_ref());
} else {
// in case there is no VRF randomness present, we utilize the relay parent
// as seed, it's better than a static value.
log::warn!(target: LOG_TARGET, "ParentBlockRandomness did not provide entropy");
entropy.as_mut().copy_from_slice(parent_hash.as_ref());
}
entropy
}
/// Limit disputes in place.
///
/// Assumes ordering of disputes, retains sorting of the statement.
///
/// Prime source of overload safety for dispute votes:
/// 1. Check accumulated weight does not exceed the maximum block weight.
/// 2. If exceeded:
/// 1. Check validity of all dispute statements sequentially
/// 2. If not exceeded:
/// 1. If weight is exceeded by locals, pick the older ones (lower indices) until the weight limit
/// is reached.
///
/// Returns the consumed weight amount, that is guaranteed to be less than the provided
/// `max_consumable_weight`.
fn limit_and_sanitize_disputes<
T: Config,
CheckValidityFn: FnMut(DisputeStatementSet) -> Option<CheckedDisputeStatementSet>,
>(
disputes: MultiDisputeStatementSet,
mut dispute_statement_set_valid: CheckValidityFn,