Files
pezkuwi-subxt/substrate/frame/fast-unstake/src/lib.rs
T
Oliver Tale-Yazdi 9543d31474 [FRAME] Runtime Omni Bencher (#3512)
This MR contains two major changes and some maintenance cleanup.  

## 1. Free Standing Pallet Benchmark Runner

Closes https://github.com/paritytech/polkadot-sdk/issues/3045, depends
on your runtime exposing the `GenesisBuilderApi` (like
https://github.com/paritytech/polkadot-sdk/pull/1492).

Introduces a new binary crate: `frame-omni-bencher`.  
It allows to directly benchmark a WASM blob - without needing a node or
chain spec.

This makes it much easier to generate pallet weights and should allow us
to remove bloaty code from the node.
It should work for all FRAME runtimes that dont use 3rd party host calls
or non `BlakeTwo256` block hashing (basically all polkadot parachains
should work).

It is 100% backwards compatible with the old CLI args, when the `v1`
compatibility command is used. This is done to allow for forwards
compatible addition of new commands.

### Example (full example in the Rust docs)

Installing the CLI:
```sh
cargo install --locked --path substrate/utils/frame/omni-bencher
frame-omni-bencher --help
```

Building the Westend runtime:
```sh
cargo build -p westend-runtime --release --features runtime-benchmarks
```

Benchmarking the runtime:
```sh
frame-omni-bencher v1 benchmark pallet --runtime target/release/wbuild/westend-runtime/westend_runtime.compact.compressed.wasm --all
```

## 2. Building the Benchmark Genesis State in the Runtime

Closes https://github.com/paritytech/polkadot-sdk/issues/2664

This adds `--runtime` and `--genesis-builder=none|runtime|spec`
arguments to the `benchmark pallet` command to make it possible to
generate the genesis storage by the runtime. This can be used with both
the node and the freestanding benchmark runners. It utilizes the new
`GenesisBuilder` RA and depends on having
https://github.com/paritytech/polkadot-sdk/pull/3412 deployed.

## 3. Simpler args for `PalletCmd::run`

You can do three things here to integrate the changes into your node:
- nothing: old code keeps working as before but emits a deprecated
warning
- delete: remove the pallet benchmarking code from your node and use the
omni-bencher instead
- patch: apply the patch below and keep using as currently. This emits a
deprecated warning at runtime, since it uses the old way to generate a
genesis state, but is the smallest change.

```patch
runner.sync_run(|config| cmd
-    .run::<HashingFor<Block>, ReclaimHostFunctions>(config)
+    .run_with_spec::<HashingFor<Block>, ReclaimHostFunctions>(Some(config.chain_spec))
)
```

## 4. Maintenance Change
- `pallet-nis` get a `BenchmarkSetup` config item to prepare its
counterparty asset.
- Add percent progress print when running benchmarks.
- Dont immediately exit on benchmark error but try to run as many as
possible and print errors last.

---------

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>
Co-authored-by: Liam Aharon <liam.aharon@hotmail.com>
2024-04-08 16:03:56 +00:00

629 lines
23 KiB
Rust

// 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.
//! > Made with *Substrate*, for *Polkadot*.
//!
//! [![github]](https://github.com/paritytech/polkadot-sdk/tree/master/substrate/frame/fast-unstake) -
//! [![polkadot]](https://polkadot.network)
//!
//! [polkadot]: https://img.shields.io/badge/polkadot-E6007A?style=for-the-badge&logo=polkadot&logoColor=white
//! [github]: https://img.shields.io/badge/github-8da0cb?style=for-the-badge&labelColor=555555&logo=github
//!
//! # Fast Unstake Pallet
//!
//! A pallet to allow participants of the staking system (represented by [`Config::Staking`], being
//! [`StakingInterface`]) to unstake quicker, if and only if they meet the condition of not being
//! exposed to any slashes.
//!
//! ## Overview
//!
//! If a nominator is not exposed anywhere in the staking system, checked via
//! [`StakingInterface::is_exposed_in_era`] (i.e. "has not actively backed any validators in the
//! last [`StakingInterface::bonding_duration`] days"), then they can register themselves in this
//! pallet and unstake faster than having to wait an entire bonding duration.
//!
//! *Being exposed with validator* from the point of view of the staking system means earning
//! rewards with the validator, and also being at the risk of slashing with the validator. This is
//! equivalent to the "Active Nominator" role explained in
//! [here](https://polkadot.network/blog/staking-update-february-2022/).
//!
//! Stakers who are certain about NOT being exposed can register themselves with
//! [`Pallet::register_fast_unstake`]. This will chill, fully unbond the staker and place them
//! in the queue to be checked.
//!
//! A successful registration implies being fully unbonded and chilled in the staking system. These
//! effects persist even if the fast-unstake registration is retracted (see [`Pallet::deregister`]
//! and further).
//!
//! Once registered as a fast-unstaker, the staker will be queued and checked by the system. This
//! can take a variable number of blocks based on demand, but will almost certainly be "faster" (as
//! the name suggest) than waiting the standard bonding duration.
//!
//! A fast-unstaker is either in [`Queue`] or actively being checked, at which point it lives in
//! [`Head`]. Once in [`Head`], the request cannot be retracted anymore. But, once in [`Queue`], it
//! can, via [`Pallet::deregister`].
//!
//! A deposit equal to [`Config::Deposit`] is collected for this process, and is returned in case a
//! successful unstake occurs (`Event::Unstaked` signals that).
//!
//! Once processed, if successful, no additional fee for the checking process is taken, and the
//! staker is instantly unbonded.
//!
//! If unsuccessful, meaning that the staker was exposed, the aforementioned deposit will be slashed
//! for the amount of wasted work they have inflicted on the chain.
//!
//! All in all, this pallet is meant to provide an easy off-ramp for some stakers.
//!
//! ### Example
//!
//! 1. Fast-unstake with multiple participants in the queue.
#![doc = docify::embed!("src/tests.rs", successful_multi_queue)]
//!
//! 2. Fast unstake failing because a nominator is exposed.
#![doc = docify::embed!("src/tests.rs", exposed_nominator_cannot_unstake)]
//!
//! ## Pallet API
//!
//! See the [`pallet`] module for more information about the interfaces this pallet exposes,
//! including its configuration trait, dispatchables, storage items, events and errors.
//!
//! ## Low Level / Implementation Details
//!
//! This pallet works off the basis of `on_idle`, meaning that it provides no guarantee about when
//! it will succeed, if at all. Moreover, the queue implementation is unordered. In case of
//! congestion, no FIFO ordering is provided.
//!
//! A few important considerations can be concluded based on the `on_idle`-based implementation:
//!
//! * It is crucial for the weights of this pallet to be correct. The code inside
//! [`Pallet::on_idle`] MUST be able to measure itself and report the remaining weight correctly
//! after execution.
//!
//! * If the weight measurement is incorrect, it can lead to perpetual overweight (consequently
//! slow) blocks.
//!
//! * The amount of weight that `on_idle` consumes is a direct function of [`ErasToCheckPerBlock`].
//!
//! * Thus, a correct value of [`ErasToCheckPerBlock`] (which can be set via [`Pallet::control`])
//! should be chosen, such that a reasonable amount of weight is used `on_idle`. If
//! [`ErasToCheckPerBlock`] is too large, `on_idle` will always conclude that it has not enough
//! weight to proceed, and will early-return. Nonetheless, this should also be *safe* as long as
//! the benchmarking/weights are *accurate*.
//!
//! * See the inline code-comments on `do_on_idle` (private) for more details.
//!
//! * For further safety, in case of any unforeseen errors, the pallet will emit
//! [`Event::InternalError`] and set [`ErasToCheckPerBlock`] back to 0, which essentially means
//! the pallet will halt/disable itself.
#![cfg_attr(not(feature = "std"), no_std)]
pub use pallet::*;
#[cfg(test)]
mod mock;
#[cfg(test)]
mod tests;
// NOTE: enable benchmarking in tests as well.
#[cfg(feature = "runtime-benchmarks")]
mod benchmarking;
pub mod migrations;
pub mod types;
pub mod weights;
// some extra imports for docs to link properly.
#[cfg(doc)]
pub use frame_support::traits::Hooks;
#[cfg(doc)]
pub use sp_staking::StakingInterface;
/// The logging target of this pallet.
pub const LOG_TARGET: &'static str = "runtime::fast-unstake";
#[macro_export]
macro_rules! log {
($level:tt, $patter:expr $(, $values:expr)* $(,)?) => {
log::$level!(
target: crate::LOG_TARGET,
concat!("[{:?}] 💨 ", $patter), <frame_system::Pallet<T>>::block_number() $(, $values)*
)
};
}
#[frame_support::pallet]
pub mod pallet {
use super::*;
use crate::types::*;
use frame_support::{
pallet_prelude::*,
traits::{Defensive, ReservableCurrency, StorageVersion},
};
use frame_system::pallet_prelude::*;
use sp_runtime::{traits::Zero, DispatchResult};
use sp_staking::{EraIndex, StakingInterface};
use sp_std::{prelude::*, vec::Vec};
pub use weights::WeightInfo;
#[cfg(feature = "try-runtime")]
use sp_runtime::TryRuntimeError;
const STORAGE_VERSION: StorageVersion = StorageVersion::new(1);
#[pallet::pallet]
#[pallet::storage_version(STORAGE_VERSION)]
pub struct Pallet<T>(_);
#[pallet::config]
pub trait Config: frame_system::Config {
/// The overarching event type.
type RuntimeEvent: From<Event<Self>>
+ IsType<<Self as frame_system::Config>::RuntimeEvent>
+ TryInto<Event<Self>>;
/// The currency used for deposits.
type Currency: ReservableCurrency<Self::AccountId>;
/// Deposit to take for unstaking, to make sure we're able to slash the it in order to cover
/// the costs of resources on unsuccessful unstake.
#[pallet::constant]
type Deposit: Get<BalanceOf<Self>>;
/// The origin that can control this pallet, in other words invoke [`Pallet::control`].
type ControlOrigin: frame_support::traits::EnsureOrigin<Self::RuntimeOrigin>;
/// Batch size.
///
/// This many stashes are processed in each unstake request.
type BatchSize: Get<u32>;
/// The access to staking functionality.
type Staking: StakingInterface<Balance = BalanceOf<Self>, AccountId = Self::AccountId>;
/// Maximum value for `ErasToCheckPerBlock`, checked in [`Pallet::control`].
///
/// This should be slightly bigger than the actual value in order to have accurate
/// benchmarks.
type MaxErasToCheckPerBlock: Get<u32>;
/// The weight information of this pallet.
type WeightInfo: WeightInfo;
}
/// The current "head of the queue" being unstaked.
///
/// The head in itself can be a batch of up to [`Config::BatchSize`] stakers.
#[pallet::storage]
pub type Head<T: Config> = StorageValue<_, UnstakeRequest<T>, OptionQuery>;
/// The map of all accounts wishing to be unstaked.
///
/// Keeps track of `AccountId` wishing to unstake and it's corresponding deposit.
// Hasher: Twox safe since `AccountId` is a secure hash.
#[pallet::storage]
pub type Queue<T: Config> = CountedStorageMap<_, Twox64Concat, T::AccountId, BalanceOf<T>>;
/// Number of eras to check per block.
///
/// If set to 0, this pallet does absolutely nothing. Cannot be set to more than
/// [`Config::MaxErasToCheckPerBlock`].
///
/// Based on the amount of weight available at [`Pallet::on_idle`], up to this many eras are
/// checked. The checking is represented by updating [`UnstakeRequest::checked`], which is
/// stored in [`Head`].
#[pallet::storage]
#[pallet::getter(fn eras_to_check_per_block)]
pub type ErasToCheckPerBlock<T: Config> = StorageValue<_, u32, ValueQuery>;
#[pallet::event]
#[pallet::generate_deposit(pub(super) fn deposit_event)]
pub enum Event<T: Config> {
/// A staker was unstaked.
Unstaked { stash: T::AccountId, result: DispatchResult },
/// A staker was slashed for requesting fast-unstake whilst being exposed.
Slashed { stash: T::AccountId, amount: BalanceOf<T> },
/// A batch was partially checked for the given eras, but the process did not finish.
BatchChecked { eras: Vec<EraIndex> },
/// A batch of a given size was terminated.
///
/// This is always follows by a number of `Unstaked` or `Slashed` events, marking the end
/// of the batch. A new batch will be created upon next block.
BatchFinished { size: u32 },
/// An internal error happened. Operations will be paused now.
InternalError,
}
#[pallet::error]
#[cfg_attr(test, derive(PartialEq))]
pub enum Error<T> {
/// The provided Controller account was not found.
///
/// This means that the given account is not bonded.
NotController,
/// The bonded account has already been queued.
AlreadyQueued,
/// The bonded account has active unlocking chunks.
NotFullyBonded,
/// The provided un-staker is not in the `Queue`.
NotQueued,
/// The provided un-staker is already in Head, and cannot deregister.
AlreadyHead,
/// The call is not allowed at this point because the pallet is not active.
CallNotAllowed,
}
#[pallet::hooks]
impl<T: Config> Hooks<BlockNumberFor<T>> for Pallet<T> {
fn on_idle(_: BlockNumberFor<T>, remaining_weight: Weight) -> Weight {
if remaining_weight.any_lt(T::DbWeight::get().reads(2)) {
return Weight::from_parts(0, 0)
}
Self::do_on_idle(remaining_weight)
}
fn integrity_test() {
// Ensure that the value of `ErasToCheckPerBlock` is less or equal to
// `T::MaxErasToCheckPerBlock`.
assert!(
ErasToCheckPerBlock::<T>::get() <= T::MaxErasToCheckPerBlock::get(),
"the value of `ErasToCheckPerBlock` is greater than `T::MaxErasToCheckPerBlock`",
);
}
#[cfg(feature = "try-runtime")]
fn try_state(_n: BlockNumberFor<T>) -> Result<(), TryRuntimeError> {
// ensure that the value of `ErasToCheckPerBlock` is less than
// `T::MaxErasToCheckPerBlock`.
ensure!(
ErasToCheckPerBlock::<T>::get() <= T::MaxErasToCheckPerBlock::get(),
"the value of `ErasToCheckPerBlock` is greater than `T::MaxErasToCheckPerBlock`",
);
Ok(())
}
}
#[pallet::call]
impl<T: Config> Pallet<T> {
/// Register oneself for fast-unstake.
///
/// ## Dispatch Origin
///
/// The dispatch origin of this call must be *signed* by whoever is permitted to call
/// unbond funds by the staking system. See [`Config::Staking`].
///
/// ## Details
///
/// The stash associated with the origin must have no ongoing unlocking chunks. If
/// successful, this will fully unbond and chill the stash. Then, it will enqueue the stash
/// to be checked in further blocks.
///
/// If by the time this is called, the stash is actually eligible for fast-unstake, then
/// they are guaranteed to remain eligible, because the call will chill them as well.
///
/// If the check works, the entire staking data is removed, i.e. the stash is fully
/// unstaked.
///
/// If the check fails, the stash remains chilled and waiting for being unbonded as in with
/// the normal staking system, but they lose part of their unbonding chunks due to consuming
/// the chain's resources.
///
/// ## Events
///
/// Some events from the staking and currency system might be emitted.
#[pallet::call_index(0)]
#[pallet::weight(<T as Config>::WeightInfo::register_fast_unstake())]
pub fn register_fast_unstake(origin: OriginFor<T>) -> DispatchResult {
let ctrl = ensure_signed(origin)?;
ensure!(ErasToCheckPerBlock::<T>::get() != 0, <Error<T>>::CallNotAllowed);
let stash_account =
T::Staking::stash_by_ctrl(&ctrl).map_err(|_| Error::<T>::NotController)?;
ensure!(!Queue::<T>::contains_key(&stash_account), Error::<T>::AlreadyQueued);
ensure!(!Self::is_head(&stash_account), Error::<T>::AlreadyHead);
ensure!(!T::Staking::is_unbonding(&stash_account)?, Error::<T>::NotFullyBonded);
// chill and fully unstake.
T::Staking::chill(&stash_account)?;
T::Staking::fully_unbond(&stash_account)?;
T::Currency::reserve(&stash_account, T::Deposit::get())?;
// enqueue them.
Queue::<T>::insert(stash_account, T::Deposit::get());
Ok(())
}
/// Deregister oneself from the fast-unstake.
///
/// ## Dispatch Origin
///
/// The dispatch origin of this call must be *signed* by whoever is permitted to call
/// unbond funds by the staking system. See [`Config::Staking`].
///
/// ## Details
///
/// This is useful if one is registered, they are still waiting, and they change their mind.
///
/// Note that the associated stash is still fully unbonded and chilled as a consequence of
/// calling [`Pallet::register_fast_unstake`]. Therefore, this should probably be followed
/// by a call to `rebond` in the staking system.
///
/// ## Events
///
/// Some events from the staking and currency system might be emitted.
#[pallet::call_index(1)]
#[pallet::weight(<T as Config>::WeightInfo::deregister())]
pub fn deregister(origin: OriginFor<T>) -> DispatchResult {
let ctrl = ensure_signed(origin)?;
ensure!(ErasToCheckPerBlock::<T>::get() != 0, <Error<T>>::CallNotAllowed);
let stash_account =
T::Staking::stash_by_ctrl(&ctrl).map_err(|_| Error::<T>::NotController)?;
ensure!(Queue::<T>::contains_key(&stash_account), Error::<T>::NotQueued);
ensure!(!Self::is_head(&stash_account), Error::<T>::AlreadyHead);
let deposit = Queue::<T>::take(stash_account.clone());
if let Some(deposit) = deposit.defensive() {
let remaining = T::Currency::unreserve(&stash_account, deposit);
if !remaining.is_zero() {
Self::halt("not enough balance to unreserve");
}
}
Ok(())
}
/// Control the operation of this pallet.
///
/// ## Dispatch Origin
///
/// The dispatch origin of this call must be [`Config::ControlOrigin`].
///
/// ## Details
///
/// Can set the number of eras to check per block, and potentially other admin work.
///
/// ## Events
///
/// No events are emitted from this dispatch.
#[pallet::call_index(2)]
#[pallet::weight(<T as Config>::WeightInfo::control())]
pub fn control(origin: OriginFor<T>, eras_to_check: EraIndex) -> DispatchResult {
let _ = T::ControlOrigin::ensure_origin(origin)?;
ensure!(eras_to_check <= T::MaxErasToCheckPerBlock::get(), Error::<T>::CallNotAllowed);
ErasToCheckPerBlock::<T>::put(eras_to_check);
Ok(())
}
}
impl<T: Config> Pallet<T> {
/// Returns `true` if `staker` is anywhere to be found in the `head`.
pub(crate) fn is_head(staker: &T::AccountId) -> bool {
Head::<T>::get().map_or(false, |UnstakeRequest { stashes, .. }| {
stashes.iter().any(|(stash, _)| stash == staker)
})
}
/// Halt the operations of this pallet.
pub(crate) fn halt(reason: &'static str) {
frame_support::defensive!(reason);
ErasToCheckPerBlock::<T>::put(0);
Self::deposit_event(Event::<T>::InternalError)
}
/// process up to `remaining_weight`.
///
/// Returns the actual weight consumed.
///
/// Written for readability in mind, not efficiency. For example:
///
/// 1. We assume this is only ever called once per `on_idle`. This is because we know that
/// in all use cases, even a single nominator cannot be unbonded in a single call. Multiple
/// calls to this function are thus not needed.
///
/// 2. We will only mark a staker as unstaked if at the beginning of a check cycle, they are
/// found out to have no eras to check. At the end of a check cycle, even if they are fully
/// checked, we don't finish the process.
pub(crate) fn do_on_idle(remaining_weight: Weight) -> Weight {
// any weight that is unaccounted for
let mut unaccounted_weight = Weight::from_parts(0, 0);
let eras_to_check_per_block = ErasToCheckPerBlock::<T>::get();
if eras_to_check_per_block.is_zero() {
return T::DbWeight::get().reads(1).saturating_add(unaccounted_weight)
}
// NOTE: here we're assuming that the number of validators has only ever increased,
// meaning that the number of exposures to check is either this per era, or less.
let validator_count = T::Staking::desired_validator_count();
let (next_batch_size, reads_from_queue) = Head::<T>::get()
.map_or((Queue::<T>::count().min(T::BatchSize::get()), true), |head| {
(head.stashes.len() as u32, false)
});
// determine the number of eras to check. This is based on both `ErasToCheckPerBlock`
// and `remaining_weight` passed on to us from the runtime executive.
let max_weight = |v, b| {
// NOTE: this potentially under-counts by up to `BatchSize` reads from the queue.
<T as Config>::WeightInfo::on_idle_check(v, b)
.max(<T as Config>::WeightInfo::on_idle_unstake(b))
.saturating_add(if reads_from_queue {
T::DbWeight::get().reads(next_batch_size.into())
} else {
Zero::zero()
})
};
if max_weight(validator_count, next_batch_size).any_gt(remaining_weight) {
log!(debug, "early exit because eras_to_check_per_block is zero");
return T::DbWeight::get().reads(3).saturating_add(unaccounted_weight)
}
if T::Staking::election_ongoing() {
// NOTE: we assume `ongoing` does not consume any weight.
// there is an ongoing election -- we better not do anything. Imagine someone is not
// exposed anywhere in the last era, and the snapshot for the election is already
// taken. In this time period, we don't want to accidentally unstake them.
return T::DbWeight::get().reads(4).saturating_add(unaccounted_weight)
}
let UnstakeRequest { stashes, mut checked } = match Head::<T>::take().or_else(|| {
// NOTE: there is no order guarantees in `Queue`.
let stashes: BoundedVec<_, T::BatchSize> = Queue::<T>::drain()
.take(T::BatchSize::get() as usize)
.collect::<Vec<_>>()
.try_into()
.expect("take ensures bound is met; qed");
unaccounted_weight.saturating_accrue(
T::DbWeight::get().reads_writes(stashes.len() as u64, stashes.len() as u64),
);
if stashes.is_empty() {
None
} else {
Some(UnstakeRequest { stashes, checked: Default::default() })
}
}) {
None => {
// There's no `Head` and nothing in the `Queue`, nothing to do here.
return T::DbWeight::get().reads(4)
},
Some(head) => head,
};
log!(
debug,
"checking {:?} stashes, eras_to_check_per_block = {:?}, checked {:?}, remaining_weight = {:?}",
stashes.len(),
eras_to_check_per_block,
checked,
remaining_weight,
);
// the range that we're allowed to check in this round.
let current_era = T::Staking::current_era();
let bonding_duration = T::Staking::bonding_duration();
// prune all the old eras that we don't care about. This will help us keep the bound
// of `checked`.
checked.retain(|e| *e >= current_era.saturating_sub(bonding_duration));
let unchecked_eras_to_check = {
// get the last available `bonding_duration` eras up to current era in reverse
// order.
let total_check_range = (current_era.saturating_sub(bonding_duration)..=
current_era)
.rev()
.collect::<Vec<_>>();
debug_assert!(
total_check_range.len() <= (bonding_duration + 1) as usize,
"{:?}",
total_check_range
);
// remove eras that have already been checked, take a maximum of
// eras_to_check_per_block.
total_check_range
.into_iter()
.filter(|e| !checked.contains(e))
.take(eras_to_check_per_block as usize)
.collect::<Vec<_>>()
};
log!(
debug,
"{} eras to check: {:?}",
unchecked_eras_to_check.len(),
unchecked_eras_to_check
);
let unstake_stash = |stash: T::AccountId, deposit| {
let result = T::Staking::force_unstake(stash.clone());
let remaining = T::Currency::unreserve(&stash, deposit);
if !remaining.is_zero() {
Self::halt("not enough balance to unreserve");
} else {
log!(debug, "unstaked {:?}, outcome: {:?}", stash, result);
Self::deposit_event(Event::<T>::Unstaked { stash, result });
}
};
let check_stash = |stash, deposit| {
let is_exposed = unchecked_eras_to_check
.iter()
.any(|e| T::Staking::is_exposed_in_era(&stash, e));
if is_exposed {
let _ = T::Currency::slash_reserved(&stash, deposit);
log!(info, "slashed {:?} by {:?}", stash, deposit);
Self::deposit_event(Event::<T>::Slashed { stash, amount: deposit });
false
} else {
true
}
};
if unchecked_eras_to_check.is_empty() {
// `stashes` are not exposed in any era now -- we can let go of them now.
let size = stashes.len() as u32;
stashes.into_iter().for_each(|(stash, deposit)| unstake_stash(stash, deposit));
Self::deposit_event(Event::<T>::BatchFinished { size });
<T as Config>::WeightInfo::on_idle_unstake(size).saturating_add(unaccounted_weight)
} else {
let pre_length = stashes.len();
let stashes: BoundedVec<(T::AccountId, BalanceOf<T>), T::BatchSize> = stashes
.into_iter()
.filter(|(stash, deposit)| check_stash(stash.clone(), *deposit))
.collect::<Vec<_>>()
.try_into()
.expect("filter can only lessen the length; still in bound; qed");
let post_length = stashes.len();
log!(
debug,
"checked {:?}, pre stashes: {:?}, post: {:?}",
unchecked_eras_to_check,
pre_length,
post_length,
);
match checked.try_extend(unchecked_eras_to_check.clone().into_iter()) {
Ok(_) =>
if stashes.is_empty() {
Self::deposit_event(Event::<T>::BatchFinished { size: 0 });
} else {
Head::<T>::put(UnstakeRequest { stashes, checked });
Self::deposit_event(Event::<T>::BatchChecked {
eras: unchecked_eras_to_check,
});
},
Err(_) => {
// don't put the head back in -- there is an internal error in the pallet.
Self::halt("checked is pruned via retain above")
},
}
<T as Config>::WeightInfo::on_idle_check(validator_count, pre_length as u32)
.saturating_add(unaccounted_weight)
}
}
}
}