Files
pezkuwi-subxt/substrate/primitives/consensus/babe/src/digests.rs
T
Wei Tang a00a4ca551 Correct BABE randomness by calculating InOut bytes directly in pallet (#5876)
* vrf: remove Raw* types

* babe: remove Raw* types

* pallet-babe: switch representation of RawVRFOutput to Randomness

* pallet-babe: calculate inout within the pallet

* Remove make_transcript duplication

* Bump spec version

* Fix frame tests

* and_then -> map

* Always enable u64_backend

* Fix nostd compile

* fix import: should not use std

* Remove unused definition of RawVRFOutput

* Remove unused import of RuntimeDebug

Co-authored-by: Gavin Wood <gavin@parity.io>
2020-05-04 19:51:47 +02:00

210 lines
6.8 KiB
Rust

// Copyright 2019-2020 Parity Technologies (UK) Ltd.
// This file is part of Substrate.
// Substrate 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.
// Substrate 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 Substrate. If not, see <http://www.gnu.org/licenses/>.
//! Private implementation details of BABE digests.
#[cfg(feature = "std")]
use super::{BABE_ENGINE_ID, AuthoritySignature};
use super::{AuthorityId, AuthorityIndex, SlotNumber, BabeAuthorityWeight, BabeEpochConfiguration, AllowedSlots};
#[cfg(feature = "std")]
use sp_runtime::{DigestItem, generic::OpaqueDigestItemId};
#[cfg(feature = "std")]
use std::fmt::Debug;
use codec::{Decode, Encode};
#[cfg(feature = "std")]
use codec::Codec;
use sp_std::vec::Vec;
use sp_runtime::RuntimeDebug;
use sp_consensus_vrf::schnorrkel::{Randomness, VRFOutput, VRFProof};
/// Raw BABE primary slot assignment pre-digest.
#[derive(Clone, RuntimeDebug, Encode, Decode)]
pub struct PrimaryPreDigest {
/// Authority index
pub authority_index: super::AuthorityIndex,
/// Slot number
pub slot_number: SlotNumber,
/// VRF output
pub vrf_output: VRFOutput,
/// VRF proof
pub vrf_proof: VRFProof,
}
/// BABE secondary slot assignment pre-digest.
#[derive(Clone, RuntimeDebug, Encode, Decode)]
pub struct SecondaryPlainPreDigest {
/// Authority index
///
/// This is not strictly-speaking necessary, since the secondary slots
/// are assigned based on slot number and epoch randomness. But including
/// it makes things easier for higher-level users of the chain data to
/// be aware of the author of a secondary-slot block.
pub authority_index: super::AuthorityIndex,
/// Slot number
pub slot_number: SlotNumber,
}
/// BABE secondary deterministic slot assignment with VRF outputs.
#[derive(Clone, RuntimeDebug, Encode, Decode)]
pub struct SecondaryVRFPreDigest {
/// Authority index
pub authority_index: super::AuthorityIndex,
/// Slot number
pub slot_number: SlotNumber,
/// VRF output
pub vrf_output: VRFOutput,
/// VRF proof
pub vrf_proof: VRFProof,
}
/// A BABE pre-runtime digest. This contains all data required to validate a
/// block and for the BABE runtime module. Slots can be assigned to a primary
/// (VRF based) and to a secondary (slot number based).
#[derive(Clone, RuntimeDebug, Encode, Decode)]
pub enum PreDigest {
/// A primary VRF-based slot assignment.
#[codec(index = "1")]
Primary(PrimaryPreDigest),
/// A secondary deterministic slot assignment.
#[codec(index = "2")]
SecondaryPlain(SecondaryPlainPreDigest),
/// A secondary deterministic slot assignment with VRF outputs.
#[codec(index = "3")]
SecondaryVRF(SecondaryVRFPreDigest),
}
impl PreDigest {
/// Returns the slot number of the pre digest.
pub fn authority_index(&self) -> AuthorityIndex {
match self {
PreDigest::Primary(primary) => primary.authority_index,
PreDigest::SecondaryPlain(secondary) => secondary.authority_index,
PreDigest::SecondaryVRF(secondary) => secondary.authority_index,
}
}
/// Returns the slot number of the pre digest.
pub fn slot_number(&self) -> SlotNumber {
match self {
PreDigest::Primary(primary) => primary.slot_number,
PreDigest::SecondaryPlain(secondary) => secondary.slot_number,
PreDigest::SecondaryVRF(secondary) => secondary.slot_number,
}
}
/// Returns the weight _added_ by this digest, not the cumulative weight
/// of the chain.
pub fn added_weight(&self) -> crate::BabeBlockWeight {
match self {
PreDigest::Primary(_) => 1,
PreDigest::SecondaryPlain(_) | PreDigest::SecondaryVRF(_) => 0,
}
}
}
/// Information about the next epoch. This is broadcast in the first block
/// of the epoch.
#[derive(Decode, Encode, PartialEq, Eq, Clone, RuntimeDebug)]
pub struct NextEpochDescriptor {
/// The authorities.
pub authorities: Vec<(AuthorityId, BabeAuthorityWeight)>,
/// The value of randomness to use for the slot-assignment.
pub randomness: Randomness,
}
/// Information about the next epoch config, if changed. This is broadcast in the first
/// block of the epoch, and applies using the same rules as `NextEpochDescriptor`.
#[derive(Decode, Encode, PartialEq, Eq, Clone, RuntimeDebug)]
pub enum NextConfigDescriptor {
/// Version 1.
#[codec(index = "1")]
V1 {
/// Value of `c` in `BabeEpochConfiguration`.
c: (u64, u64),
/// Value of `allowed_slots` in `BabeEpochConfiguration`.
allowed_slots: AllowedSlots,
}
}
impl From<NextConfigDescriptor> for BabeEpochConfiguration {
fn from(desc: NextConfigDescriptor) -> Self {
match desc {
NextConfigDescriptor::V1 { c, allowed_slots } =>
Self { c, allowed_slots },
}
}
}
/// A digest item which is usable with BABE consensus.
#[cfg(feature = "std")]
pub trait CompatibleDigestItem: Sized {
/// Construct a digest item which contains a BABE pre-digest.
fn babe_pre_digest(seal: PreDigest) -> Self;
/// If this item is an BABE pre-digest, return it.
fn as_babe_pre_digest(&self) -> Option<PreDigest>;
/// Construct a digest item which contains a BABE seal.
fn babe_seal(signature: AuthoritySignature) -> Self;
/// If this item is a BABE signature, return the signature.
fn as_babe_seal(&self) -> Option<AuthoritySignature>;
/// If this item is a BABE epoch descriptor, return it.
fn as_next_epoch_descriptor(&self) -> Option<NextEpochDescriptor>;
/// If this item is a BABE config descriptor, return it.
fn as_next_config_descriptor(&self) -> Option<NextConfigDescriptor>;
}
#[cfg(feature = "std")]
impl<Hash> CompatibleDigestItem for DigestItem<Hash> where
Hash: Debug + Send + Sync + Eq + Clone + Codec + 'static
{
fn babe_pre_digest(digest: PreDigest) -> Self {
DigestItem::PreRuntime(BABE_ENGINE_ID, digest.encode())
}
fn as_babe_pre_digest(&self) -> Option<PreDigest> {
self.try_to(OpaqueDigestItemId::PreRuntime(&BABE_ENGINE_ID))
}
fn babe_seal(signature: AuthoritySignature) -> Self {
DigestItem::Seal(BABE_ENGINE_ID, signature.encode())
}
fn as_babe_seal(&self) -> Option<AuthoritySignature> {
self.try_to(OpaqueDigestItemId::Seal(&BABE_ENGINE_ID))
}
fn as_next_epoch_descriptor(&self) -> Option<NextEpochDescriptor> {
self.try_to(OpaqueDigestItemId::Consensus(&BABE_ENGINE_ID))
.and_then(|x: super::ConsensusLog| match x {
super::ConsensusLog::NextEpochData(n) => Some(n),
_ => None,
})
}
fn as_next_config_descriptor(&self) -> Option<NextConfigDescriptor> {
self.try_to(OpaqueDigestItemId::Consensus(&BABE_ENGINE_ID))
.and_then(|x: super::ConsensusLog| match x {
super::ConsensusLog::NextConfigData(n) => Some(n),
_ => None,
})
}
}