Files
pezkuwi-subxt/substrate/frame/staking
Shawn Tabrizi 1b27ae9549 Add Proof Size to Weight Output (#11637)
* initial impl

* add template test

* linear fit proof size

* always record proof when tracking storage

* calculate worst case pov

* remove duplicate worst case

* cargo run --quiet --profile=production  --features=runtime-benchmarks --manifest-path=bin/node/cli/Cargo.toml -- benchmark pallet --chain=dev --steps=50 --repeat=20 --pallet=pallet_assets --extrinsic=* --execution=wasm --wasm-execution=compiled --heap-pages=4096 --output=./frame/assets/src/weights.rs --template=./.maintain/frame-weight-template.hbs

* more comment output

* add cli for worst case map size

* update name

* clap does not support underscores

* rename

* expose worst case map values

* improve some comments

* cargo run --quiet --profile=production  --features=runtime-benchmarks --manifest-path=bin/node/cli/Cargo.toml -- benchmark pallet --chain=dev --steps=50 --repeat=20 --pallet=pallet_assets --extrinsic=* --execution=wasm --wasm-execution=compiled --heap-pages=4096 --output=./frame/assets/src/weights.rs --template=./.maintain/frame-weight-template.hbs

* update template

* cargo run --quiet --profile=production  --features=runtime-benchmarks --manifest-path=bin/node/cli/Cargo.toml -- benchmark pallet --chain=dev --steps=50 --repeat=20 --pallet=pallet_assets --extrinsic=* --execution=wasm --wasm-execution=compiled --heap-pages=4096 --output=./frame/assets/src/weights.rs --template=./.maintain/frame-weight-template.hbs

* fix fmt

* more fmt

* more fmt

* Dont panic when there is no proof

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Fix test features

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Whitelist :extrinsic_index

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Use whitelist when recording proof

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Add logs

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Add PoV testing pallet

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Deploy PoV testing pallet

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Storage benches reside in the PoV pallet

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Linear regress PoV per component

Splits the PoV calculation into "measured" and "estimated".
The measured part is reported by the Proof recorder and linear
regressed over all components at once.
The estimated part is calculated as worst-case by using the max
PoV size per storage access and calculating one linear regress per
component. This gives each component a (possibly) independent PoV.
For now the measured size will always be lower than the PoV on
Polkadot since it is measured on an empty snapshot. The measured
part is therefor only used as diagnostic for debugging.

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Put PoV into the weight templates

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* fmt

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Extra alanysis choise for PoV

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Add+Fix tests

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Make benches faster

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Cleanup

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Use same template comments

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* ".git/.scripts/bench-bot.sh" pallet dev pallet_balances

* ".git/.scripts/bench-bot.sh" pallet dev pallet_democracy

* Update referenda mock BlockWeights

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Take measured value size into account

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* clippy

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* ".git/.scripts/bench-bot.sh" pallet dev pallet_scheduler

* WIP

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* proof_size: None

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* WIP

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* WIP

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* WIP

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* ugly, but works

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* WIP

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* WIP

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* WIP

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* wup

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* WIP

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* WIP

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* WIP

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* WIP

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Add pov_mode attribute to the benchmarks! macro

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Use pov_mode attribute in PoV benchmarking

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Update tests

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Scheduler, Whitelist: Add pov_mode attr

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Update PoV weights

* Add CLI arg: default-pov-mode

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Fix tests

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* fmt

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* fix

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Revert "Update PoV weights"

This reverts commit 2f3ac2387396470b118122a6ff8fa4ee12216f4b.

* Revert "WIP"

This reverts commit c34b538cd2bc45da4544e887180184e30957904a.

* Revert first approach

This reverts commit range 8ddaa2fffe5930f225a30bee314d0b7c94c344dd^..4c84f8748e5395852a9e0e25b0404953fee1a59e

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Clippy

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Add extra benchmarks

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* ".git/.scripts/commands/bench/bench.sh" pallet dev pallet_alliance

* ".git/.scripts/commands/bench/bench.sh" pallet dev pallet_whitelist

* ".git/.scripts/commands/bench/bench.sh" pallet dev pallet_scheduler

* fmt

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Clippy

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Clippy 🤦

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Add reference benchmarks

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Fix doc comments

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Undo logging

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Add 'Ignored' pov_mode

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Allow multiple attributes per benchmark

Turns out that the current benchmarking syntax does not support
multiple attributes per bench 🤦. Changing it to support that
since otherwise the `pov_mode` would conflict with the others.

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Validate pov_mode syntax

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Ignore PoV for all contract benchmarks

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Test

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* test

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Bump macro recursion limit

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* fmt

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Update contract weights

They dont have a PoV component anymore.

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* fix test ffs

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* pov_mode is unsupported in V2 syntax

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Fix pallet ui tests

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* update pallet ui

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Fix pallet ui tests

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

* Update weights

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>

Signed-off-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>
Co-authored-by: Parity Bot <admin@parity.io>
Co-authored-by: Oliver Tale-Yazdi <oliver.tale-yazdi@parity.io>
Co-authored-by: command-bot <>
Co-authored-by: Your Name <you@example.com>
2023-01-26 22:35:39 +00:00
..

Staking Module

The Staking module is used to manage funds at stake by network maintainers.

Overview

The Staking module is the means by which a set of network maintainers (known as authorities in some contexts and validators in others) are chosen based upon those who voluntarily place funds under deposit. Under deposit, those funds are rewarded under normal operation but are held at pain of slash (expropriation) should the staked maintainer be found not to be discharging its duties properly.

Terminology

  • Staking: The process of locking up funds for some time, placing them at risk of slashing (loss) in order to become a rewarded maintainer of the network.
  • Validating: The process of running a node to actively maintain the network, either by producing blocks or guaranteeing finality of the chain.
  • Nominating: The process of placing staked funds behind one or more validators in order to share in any reward, and punishment, they take.
  • Stash account: The account holding an owner's funds used for staking.
  • Controller account: The account that controls an owner's funds for staking.
  • Era: A (whole) number of sessions, which is the period that the validator set (and each validator's active nominator set) is recalculated and where rewards are paid out.
  • Slash: The punishment of a staker by reducing its funds.

Goals

The staking system in Substrate NPoS is designed to make the following possible:

  • Stake funds that are controlled by a cold wallet.
  • Withdraw some, or deposit more, funds without interrupting the role of an entity.
  • Switch between roles (nominator, validator, idle) with minimal overhead.

Scenarios

Staking

Almost any interaction with the Staking module requires a process of bonding (also known as being a staker). To become bonded, a fund-holding account known as the stash account, which holds some or all of the funds that become frozen in place as part of the staking process, is paired with an active controller account, which issues instructions on how they shall be used.

An account pair can become bonded using the bond call.

Stash accounts can change their associated controller using the set_controller call.

There are three possible roles that any staked account pair can be in: Validator, Nominator and Idle (defined in StakerStatus). There are three corresponding instructions to change between roles, namely: validate, nominate, and chill.

Validating

A validator takes the role of either validating blocks or ensuring their finality, maintaining the veracity of the network. A validator should avoid both any sort of malicious misbehavior and going offline. Bonded accounts that state interest in being a validator do NOT get immediately chosen as a validator. Instead, they are declared as a candidate and they might get elected at the next era as a validator. The result of the election is determined by nominators and their votes.

An account can become a validator candidate via the validate call.

Nomination

A nominator does not take any direct role in maintaining the network, instead, it votes on a set of validators to be elected. Once interest in nomination is stated by an account, it takes effect at the next election round. The funds in the nominator's stash account indicate the weight of its vote. Both the rewards and any punishment that a validator earns are shared between the validator and its nominators. This rule incentivizes the nominators to NOT vote for the misbehaving/offline validators as much as possible, simply because the nominators will also lose funds if they vote poorly.

An account can become a nominator via the nominate call.

Rewards and Slash

The reward and slashing procedure is the core of the Staking module, attempting to embrace valid behavior while punishing any misbehavior or lack of availability.

Rewards must be claimed for each era before it gets too old by $HISTORY_DEPTH using the payout_stakers call. Any account can call payout_stakers, which pays the reward to the validator as well as its nominators. Only the [Config::MaxNominatorRewardedPerValidator] biggest stakers can claim their reward. This is to limit the i/o cost to mutate storage for each nominator's account.

Slashing can occur at any point in time, once misbehavior is reported. Once slashing is determined, a value is deducted from the balance of the validator and all the nominators who voted for this validator (values are deducted from the stash account of the slashed entity).

Slashing logic is further described in the documentation of the slashing module.

Similar to slashing, rewards are also shared among a validator and its associated nominators. Yet, the reward funds are not always transferred to the stash account and can be configured. See Reward Calculation for more details.

Chilling

Finally, any of the roles above can choose to step back temporarily and just chill for a while. This means that if they are a nominator, they will not be considered as voters anymore and if they are validators, they will no longer be a candidate for the next election.

An account can step back via the chill call.

Session managing

The module implement the trait SessionManager. Which is the only API to query new validator set and allowing these validator set to be rewarded once their era is ended.

Interface

Dispatchable Functions

The dispatchable functions of the Staking module enable the steps needed for entities to accept and change their role, alongside some helper functions to get/set the metadata of the module.

Public Functions

The Staking module contains many public storage items and (im)mutable functions.

Usage

Example: Rewarding a validator by id.

use pallet_staking::{self as staking};

#[frame_support::pallet]
pub mod pallet {
    use super::*;
    use frame_support::pallet_prelude::*;
    use frame_system::pallet_prelude::*;

    #[pallet::pallet]
    pub struct Pallet<T>(_);

    #[pallet::config]
    pub trait Config: frame_system::Config + staking::Config {}

    #[pallet::call]
    impl<T: Config> Pallet<T> {
        /// Reward a validator.
        #[pallet::weight(0)]
        pub fn reward_myself(origin: OriginFor<T>) -> DispatchResult {
            let reported = ensure_signed(origin)?;
            <staking::Pallet<T>>::reward_by_ids(vec![(reported, 10)]);
            Ok(())
        }
    }
}

Implementation Details

Era payout

The era payout is computed using yearly inflation curve defined at T::RewardCurve as such:

staker_payout = yearly_inflation(npos_token_staked / total_tokens) * total_tokens / era_per_year

This payout is used to reward stakers as defined in next section

remaining_payout = max_yearly_inflation * total_tokens / era_per_year - staker_payout

The remaining reward is send to the configurable end-point T::RewardRemainder.

Reward Calculation

Validators and nominators are rewarded at the end of each era. The total reward of an era is calculated using the era duration and the staking rate (the total amount of tokens staked by nominators and validators, divided by the total token supply). It aims to incentivize toward a defined staking rate. The full specification can be found here.

Total reward is split among validators and their nominators depending on the number of points they received during the era. Points are added to a validator using reward_by_ids or reward_by_indices.

Module implements pallet_authorship::EventHandler to add reward points to block producer and block producer of referenced uncles.

The validator and its nominator split their reward as following:

The validator can declare an amount, named commission, that does not get shared with the nominators at each reward payout through its ValidatorPrefs. This value gets deducted from the total reward that is paid to the validator and its nominators. The remaining portion is split among the validator and all of the nominators that nominated the validator, proportional to the value staked behind this validator (i.e. dividing the own or others by total in Exposure).

All entities who receive a reward have the option to choose their reward destination through the Payee storage item (see set_payee), to be one of the following:

  • Controller account, (obviously) not increasing the staked value.
  • Stash account, not increasing the staked value.
  • Stash account, also increasing the staked value.

Additional Fund Management Operations

Any funds already placed into stash can be the target of the following operations:

The controller account can free a portion (or all) of the funds using the unbond call. Note that the funds are not immediately accessible. Instead, a duration denoted by BondingDuration (in number of eras) must pass until the funds can actually be removed. Once the BondingDuration is over, the withdraw_unbonded call can be used to actually withdraw the funds.

Note that there is a limitation to the number of fund-chunks that can be scheduled to be unlocked in the future via unbond. In case this maximum (MAX_UNLOCKING_CHUNKS) is reached, the bonded account must first wait until a successful call to withdraw_unbonded to remove some of the chunks.

Election Algorithm

The current election algorithm is implemented based on Phragmén. The reference implementation can be found here.

The election algorithm, aside from electing the validators with the most stake value and votes, tries to divide the nominator votes among candidates in an equal manner. To further assure this, an optional post-processing can be applied that iteratively normalizes the nominator staked values until the total difference among votes of a particular nominator are less than a threshold.

GenesisConfig

The Staking module depends on the GenesisConfig. The GenesisConfig is optional and allow to set some initial stakers.

  • Balances: Used to manage values at stake.
  • Session: Used to manage sessions. Also, a list of new validators is stored in the Session module's Validators at the end of each era.

License: Apache-2.0