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// Copyright 2020 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/>.
//! This module is responsible for maintaining a consistent initialization order for all other
//! parachains modules. It's also responsible for finalization and session change notifications.
//!
//! This module can throw fatal errors if session-change notifications are received after initialization.
use sp_std::prelude::*;
use frame_support::weights::Weight;
decl_storage, decl_module, decl_error, traits::Randomness,
use sp_runtime::traits::One;
use codec::{Encode, Decode};
use crate::{
configuration::{self, HostConfiguration},
paras, scheduler, inclusion, dmp, ump, hrmp,
/// Information about a session change that has just occurred.
#[derive(Default, Clone)]
pub struct SessionChangeNotification<BlockNumber> {
/// The new validators in the session.
pub validators: Vec<ValidatorId>,
/// The qeueud validators for the following session.
pub queued: Vec<ValidatorId>,
/// The configuration before handling the session change
pub prev_config: HostConfiguration<BlockNumber>,
/// The configuration after handling the session change.
pub new_config: HostConfiguration<BlockNumber>,
/// A secure random seed for the session, gathered from BABE.
pub random_seed: [u8; 32],
/// New session index.
pub session_index: sp_staking::SessionIndex,
#[derive(Encode, Decode)]
struct BufferedSessionChange<N> {
apply_at: N,
validators: Vec<ValidatorId>,
queued: Vec<ValidatorId>,
session_index: sp_staking::SessionIndex,
}
frame_system::Trait
+ configuration::Trait
+ paras::Trait
+ scheduler::Trait
+ inclusion::Trait
+ dmp::Trait
+ ump::Trait
+ hrmp::Trait
/// A randomness beacon.
type Randomness: Randomness<Self::Hash>;
}
decl_storage! {
trait Store for Module<T: Trait> as Initializer {
/// Whether the parachains modules have been initialized within this block.
///
/// Semantically a bool, but this guarantees it should never hit the trie,
/// as this is cleared in `on_finalize` and Frame optimizes `None` values to be empty values.
///
/// As a bool, `set(false)` and `remove()` both lead to the next `get()` being false, but one of
/// them writes to the trie and one does not. This confusion makes `Option<()>` more suitable for
/// the semantics of this variable.
HasInitialized: Option<()>;
/// Buffered session changes along with the block number at which they should be applied.
///
/// Typically this will be empty or one element long, with the single element having a block
/// number of the next block.
///
/// However this is a `Vec` regardless to handle various edge cases that may occur at runtime
/// upgrade boundaries or if governance intervenes.
BufferedSessionChanges: Vec<BufferedSessionChange<T::BlockNumber>>;
}
}
decl_error! {
pub enum Error for Module<T: Trait> { }
}
decl_module! {
/// The initializer module.
pub struct Module<T: Trait> for enum Call where origin: <T as frame_system::Trait>::Origin {
type Error = Error<T>;
fn on_initialize(now: T::BlockNumber) -> Weight {
// Apply buffered session changes before initializing modules, so they
// can be initialized with respect to the current validator set.
<BufferedSessionChanges<T>>::mutate(|v| {
let drain_up_to = v.iter().take_while(|b| b.apply_at <= now).count();
// apply only the last session as all others lasted less than a block (weirdly).
if let Some(buffered) = v.drain(..drain_up_to).last() {
Self::apply_new_session(
buffered.session_index,
buffered.validators,
buffered.queued,
);
}
});
// The other modules are initialized in this order:
// - Configuration
// - Paras
// - Scheduler
// - Inclusion
// - Validity
// - DMP
// - UMP
// - HRMP
let total_weight = configuration::Module::<T>::initializer_initialize(now) +
paras::Module::<T>::initializer_initialize(now) +
scheduler::Module::<T>::initializer_initialize(now) +
inclusion::Module::<T>::initializer_initialize(now) +
dmp::Module::<T>::initializer_initialize(now) +
ump::Module::<T>::initializer_initialize(now) +
hrmp::Module::<T>::initializer_initialize(now);
HasInitialized::set(Some(()));
total_weight
}
fn on_finalize() {
hrmp::Module::<T>::initializer_finalize();
ump::Module::<T>::initializer_finalize();
dmp::Module::<T>::initializer_finalize();
inclusion::Module::<T>::initializer_finalize();
scheduler::Module::<T>::initializer_finalize();
paras::Module::<T>::initializer_finalize();
configuration::Module::<T>::initializer_finalize();
HasInitialized::take();
}
}
}
impl<T: Trait> Module<T> {
fn apply_new_session(
validators: Vec<ValidatorId>,
queued: Vec<ValidatorId>,
) {
let prev_config = <configuration::Module<T>>::config();
let random_seed = {
let mut buf = [0u8; 32];
let random_hash = T::Randomness::random(&b"paras"[..]);
let len = sp_std::cmp::min(32, random_hash.as_ref().len());
buf[..len].copy_from_slice(&random_hash.as_ref()[..len]);
buf
};
// We can't pass the new config into the thing that determines the new config,
// so we don't pass the `SessionChangeNotification` into this module.
configuration::Module::<T>::initializer_on_new_session(&validators, &queued);
let new_config = <configuration::Module<T>>::config();
let notification = SessionChangeNotification {
validators,
queued,
prev_config,
new_config,
random_seed,
};
paras::Module::<T>::initializer_on_new_session(¬ification);
scheduler::Module::<T>::initializer_on_new_session(¬ification);
inclusion::Module::<T>::initializer_on_new_session(¬ification);
dmp::Module::<T>::initializer_on_new_session(¬ification);
ump::Module::<T>::initializer_on_new_session(¬ification);
hrmp::Module::<T>::initializer_on_new_session(¬ification);
/// Should be called when a new session occurs. Buffers the session notification to be applied
/// at the next block. If `queued` is `None`, the `validators` are considered queued.
fn on_new_session<'a, I: 'a>(
_changed: bool,
session_index: sp_staking::SessionIndex,
validators: I,
queued: Option<I>,
)
where I: Iterator<Item=(&'a T::AccountId, ValidatorId)>
{
let validators: Vec<_> = validators.map(|(_, v)| v).collect();
let queued: Vec<_> = if let Some(queued) = queued {
queued.map(|(_, v)| v).collect()
} else {
validators.clone()
};
<BufferedSessionChanges<T>>::mutate(|v| v.push(BufferedSessionChange {
apply_at: <frame_system::Module<T>>::block_number() + One::one(),
validators,
queued,
session_index,
}));
}
}
impl<T: Trait> sp_runtime::BoundToRuntimeAppPublic for Module<T> {
type Public = ValidatorId;
}
impl<T: pallet_session::Trait + Trait> pallet_session::OneSessionHandler<T::AccountId> for Module<T> {
type Key = ValidatorId;
fn on_genesis_session<'a, I: 'a>(_validators: I)
where I: Iterator<Item=(&'a T::AccountId, Self::Key)>
{
}
fn on_new_session<'a, I: 'a>(changed: bool, validators: I, queued: I)
where I: Iterator<Item=(&'a T::AccountId, Self::Key)>
{
let session_index = <pallet_session::Module<T>>::current_index();
<Module<T>>::on_new_session(changed, session_index, validators, Some(queued));
}
fn on_disabled(_i: usize) { }
}
#[cfg(test)]
mod tests {
use super::*;
use crate::mock::{new_test_ext, Initializer, Test, System};
use frame_support::traits::{OnFinalize, OnInitialize};
#[test]
fn session_change_before_initialize_is_still_buffered_after() {
new_test_ext(Default::default()).execute_with(|| {
Initializer::on_new_session(
false,
1,
Vec::new().into_iter(),
Some(Vec::new().into_iter()),
);
let now = System::block_number();
Initializer::on_initialize(now);
let v = <BufferedSessionChanges<Test>>::get();
assert_eq!(v.len(), 1);
let apply_at = now + 1;
assert_eq!(v[0].apply_at, apply_at);
});
}
#[test]
fn session_change_applied_on_initialize() {
new_test_ext(Default::default()).execute_with(|| {
Initializer::on_initialize(1);
let now = System::block_number();
Initializer::on_new_session(
false,
1,
Vec::new().into_iter(),
Some(Vec::new().into_iter()),
);
Initializer::on_initialize(now + 1);
assert!(<BufferedSessionChanges<Test>>::get().is_empty());
});
}
#[test]
fn sets_flag_on_initialize() {
new_test_ext(Default::default()).execute_with(|| {
Initializer::on_initialize(1);
assert!(HasInitialized::get().is_some());
})
}
#[test]
fn clears_flag_on_finalize() {
new_test_ext(Default::default()).execute_with(|| {
Initializer::on_initialize(1);
Initializer::on_finalize(1);
assert!(HasInitialized::get().is_none());
})
}
}